INTECONT® Tersus Belt weigher Instruction Manual
BV-H2464 GB
PASS - Service you can rely on Fast, comprehensive, anywhere in the world Quality and reliability are the cornerstones of our company’s philosophy. That is why we consider a comprehensive service concept simply par for the course, from strict quality control, installation and commissioning through to seamless support across the entire product life cycle. With over 30 service stations and over 180 service specialists, you can count on us to be there whenever – and wherever – you need us. It doesn’t matter where you are, our specialists are there to advise and assist with the best in worldwide, personal, comprehensive service. During office hours, service specialists from all divisions are on hand to analyze problems and failures. Look at www.schenckprocess.com for your nearest Schenck Process Location. Customized to meet your requirements, our comprehensive Process Advanced Service System provides you with the best service. Are you looking for individual, perfect-fit service solutions? Then our service system PASS is the ticket. It covers the entire service spectrum, from simple inspections through to full service. Interested? Then find out more about the individual components at www.schenckprocess.com/en/service.
© by Schenck Process GmbH Pallaswiesenstraße 100, 64293 Darmstadt, Germany Phone: +49 6151 1531-0 www.schenckprocess.com All rights reserved. Any reproduction of this documentation, regardless of method, without prior permission by Schenck Process GmbH in writing, even by excerpt, is prohibited. Subject to change without prior notice.
Note: Translation of the original German Instruction
Table of Contents
Table of Contents 1
About This Manual ................................................................ ................................................................................................ ................................................................................................ ................................................................. ................................. 1
2 Safety notes................................ notes................................................................ ................................................................................................ ................................................................................................ ........................................................................... ........................................... 3 2.1 Signal Words .......................................................................................................................................... 5 2.1.1 Signal Words for Safety Warnings ................................................................................................. 5 2.1.2 Signal Words for Application Notes ............................................................................................... 5 2.2 Five Safety Rules of Electrical Engineering ........................................................................................... 6 2.3 Damaged / Defective Electrical Components ......................................................................................... 6 3 General Diagram ................................................................ ................................................................................................ ................................................................................................ ................................................................... ................................... 7 3.1 An overview of the INTECONT Tersus .................................................................................................. 7 3.2 Diagram of beltweigher and weighfeeder ............................................................................................... 8 3.3 Method of Function ................................................................................................................................. 9 3.4 Characteristics ......................................................................................................................................10 4 Operation................................................................ ................................................................................................ ................................................................................................ ............................................................................. ............................................. 15 4.1 Quick guide ...........................................................................................................................................15 4.2 Function block.......................................................................................................................................17 4.3 Operating in Normal Operation.............................................................................................................18 5 Service Functions ................................................................ ................................................................................................ ................................................................................................ ................................................................ 21 5.1 Display Test and Version Number ........................................................................................................21 6
Counter functions ................................................................ ................................................................................................ ................................................................................................ ................................................................. ................................. 23
7 Mode functions ................................................................ ................................................................................................ ................................................................................................ .................................................................... .................................... 25 7.1 Keyboard operation ON/OFF................................................................................................................25 7.2 Prefeeder ..............................................................................................................................................25 7.3 Simulation .............................................................................................................................................26 8 Calibration functions ................................................................ ................................................................................................ ............................................................................................ ............................................................ 27 8.1 Starting the calibration functions ..........................................................................................................27 8.2 Pulse/Belt circuit LB .............................................................................................................................28 8.3 Tare TW ................................................................................................................................................29 8.4 Weight Check CW ................................................................................................................................31 8.5 Setting the Time ...................................................................................................................................33 9 Parameter functions ................................................................ ................................................................................................ ............................................................................................. ............................................................. 35 9.1 Read Parameters ................................................................................................................................35 10 Printer functions ................................................................ ................................................................................................ ................................................................................................ ................................................................... ................................... 37 10.1 Status Report ........................................................................................................................................37 11 Batching functions ................................................................ ................................................................................................ ............................................................................................... ............................................................... 39 11.1 Batching mode ......................................................................................................................................39 11.2 Record the batch ..................................................................................................................................41
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
BV-H2464GB, 1201 -i-
Table of Contents
12 Startup operation ................................................................ ................................................................................................ ................................................................................................ ................................................................. ................................. 43 12.1 Weighing Platforms ..............................................................................................................................43 12.1.1 Effective Weighing Platform Length ............................................................................................43 12.1.2 Calibration Weight ........................................................................................................................45 12.1.3 Belt inclination .............................................................................................................................47 12.2 Parameter Input ....................................................................................................................................47 12.3 Function Check .....................................................................................................................................49 12.4 Test With Calibration Weight ................................................................................................................49 12.5 Belt Velocity Check ...............................................................................................................................50 12.6 Test with Material .................................................................................................................................51 13 Parameters ................................................................ ................................................................................................ ................................................................................................ .......................................................................... .......................................... 53 13.1 Abbreviations ........................................................................................................................................54 13.2 Configuring Event Messages................................................................................................................55 13.3 Parameter Listing ................................................................................................................................55 13.3.1 Parameter Overview ....................................................................................................................55 13.3.2 Parameter Details ........................................................................................................................65 13.3.2.1 Parameter Block 01 - Dialog Behaviour .......................................................................................66 13.3.2.2 Parameter Block 02 - Rated Data ................................................................................................69 13.3.2.3 Parameter Block 03 - Calibration Data ........................................................................................72 13.3.2.4 Parameter Block 04 - Calibrat. Results ........................................................................................73 13.3.2.5 Parameter Block 05 - Analog Outputs .........................................................................................74 13.3.2.6 Parameter Block 06 - Limit Values ...............................................................................................76 13.3.2.7 Parameter Block 07 - Filters.........................................................................................................79 13.3.2.8 Parameter Block 08 - AUTO Zero Set .........................................................................................80 13.3.2.9 Parameter Block 09 - Batch Mode ...............................................................................................82 13.3.2.1 Parameter Block 10 - Printer Setting ...........................................................................................84 0 13.3.2.1 Parameter Block 11 - Maintenance interval .................................................................................87 1 13.3.2.1 Parameter Block 12 - Feeder Control ..........................................................................................88 2 13.3.2.1 Parameter Block 13 - Belt Monitoring ..........................................................................................89 3 13.3.2.1 Parameter Block 14 - Events .......................................................................................................92 4 13.3.2.1 Parameter Block 15 - Linearization ..............................................................................................95 5 13.3.2.1 Parameter Block 16 - Digital Inputs .............................................................................................97 6 13.3.2.1 Parameter Block 17 - Digital Outputs ...........................................................................................98 7 13.3.2.1 Parameter Block 18 - Communication EasyServe .....................................................................100 8 13.3.2.1 Parameter Block 19 - Communication Fieldbus.........................................................................101 9 13.3.2.2 Parameter Block 20 - Fixed mode configuration ........................................................................106 0 13.3.2.2 Parameter Block 21 - Ethernet ...................................................................................................108 1 13.3.2.2 Parameter Block 22 - Data Logging ...........................................................................................109 2 13.3.2.2 Parameter Block 23 - Configuration HMI Values .......................................................................111 3 13.3.2.2 Parameter Block 24 - Second Display .......................................................................................113 4 14 Event messages ................................................................ ................................................................................................ ................................................................................................ ................................................................ 115
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Table of Contents
15 Events ................................................................ ................................................................................................ ................................................................................................ ............................................................................... ............................................... 117 15.1 Events Details .....................................................................................................................................117 15.1.1 Event Group: Calibration ............................................................................................................117 15.1.2 Event Group: Controller .............................................................................................................118 15.1.3 Event Group: Electrical System .................................................................................................118 15.1.4 Event Group: Interlock ...............................................................................................................118 15.1.5 Event Group: Material Flow........................................................................................................119 15.1.6 Event Group: MAX .....................................................................................................................119 15.1.7 Event Group: Mechanic ..............................................................................................................120 15.1.8 Event Group: MIN ......................................................................................................................120 15.1.9 Event Group: Sequence Monitoring ...........................................................................................121 15.1.10 Event Group: System Message .................................................................................................122 16 Hardware and technical data................................................................ ................................................................................................ .............................................................................. .............................................. 123 16.1 Technical Data and Replacement Parts .............................................................................................123 16.2 Connection Diagrams .........................................................................................................................125 16.3 Replacing INTECONT PLUS with INTECONT Tersus .......................................................................127 16.4 PROFIBUS module (VPB8020) ..........................................................................................................130 16.5 DeviceNet Module (VCB8020) ..........................................................................................................132 16.6 Modbus Interface VSS8020................................................................................................................134 16.7 LED diagnosis.....................................................................................................................................135 17 Web server functions ................................................................ ................................................................................................ ......................................................................................... ......................................................... 137 17.1 Web Server .........................................................................................................................................137 17.2 System Information .............................................................................................................................137 18 Appendix ................................................................ ................................................................................................ ................................................................................................ ........................................................................... ........................................... 139 18.1 Service Values ....................................................................................................................................139 18.2 Set option............................................................................................................................................140 18.3 Function Check ...................................................................................................................................141 18.4 Test Connector ...................................................................................................................................142 18.5 Starting and Stopping .........................................................................................................................143 18.6 Measuring at the Discharge Point VAP ..............................................................................................144 18.7 Belt Monitoring ....................................................................................................................................145 18.8 BIC belt impact compensation ............................................................................................................145 18.9 Linearization .......................................................................................................................................146 Index ................................................................ ................................................................................................ ................................................................................................ ................................................................................. ................................................. 147
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
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About This Manual
1 About This Manual This operating manual for belt weighersis intended for the service technician. It describes the functionality of the VBW 20650-xxx software.
This manual is available in different forms: ▪ A printed version ▪ An electronic document in the platform-independent ADOBE format (file ending: *.PDF) ▪ As online help in the Microsoft Windows HTMLHelp format (file ending: *.CHM)
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
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Safety notes
2 Safety notes To avoid personal injury and equipment damage, follow the safety regulations stated below. Additionally, you should observe: ▪ Safety hints given in order-specific documentation ▪ Safety hints relating to mechanical components ▪ Instructions and safety tips for parts manufactured by sub-suppliers or that are not part of Schenck Process's scope of delivery. When performing installation, commissioning and service work, observe all applicable local regulations.
Intended Application The measuring system and its connected mechanical components are exclusively designed for weighing and controlling tasks. Any use other than originally intended is considered inappropriate.
Sources of Risk If the measuring system has been correctly installed and commissioned, it does not pose any danger during weigh operations. Hazards may arise when the system is used for control operations or for transporting weighed goods. Potential hazards may then arise from e.g. additional devices through which the weighed goods are passed or metered. Minor risks may arise in these situations if the measuring system is used or operated by untrained personnel. The measuring system can be part of a more complex plant. The system operating company is fully responsible for the operating safety of the system.
Personnel Preparation, assembly, commissioning, operation, maintenance and servicing may only be carried out by qualified personnel. All persons working on the system are required to observe the safety hints and know the parts of the technical documentation relevant to their work. The operating company is responsible for instructing his operators to observe all regulations and instructions given.
Changing Parameters The measuring system's functionality is determined by parameters. Only personnel familiar with the device's mode of operation may alter these parameters (e.g. after training by Schenck Process). Incorrectly set parameters may cause injury or material damage. Furthermore they may also cause considerable disruption to weigh operations.
Password Passwords safeguard the parameters against unauthorized alteration. The measuring system operating company must ensure that the password is handled safely.
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Safety notes
Acknowledging Event Messages Error messages may be acknowledged only after cause of fault has been remedied. Ensure that any connected peripheral devices are functioning correctly before acknowledging an event. Any connected control systems in particular must be in safe state.
Service and Maintenance ▪ All warning and instruction signs on the scales must be observed. ▪ The measuring system must be shut down before work is performed on mechanical equipment or peripheral devices (control systems in particular). Take appropriate action to ensure that the measuring system cannot be inadvertently restarted. ▪ Before performing work on the electrical equipment, disconnect the power supply. ▪ The devices may be operated only in the provided housings. There is danger of contacting live parts.
Moisture and Humidity All scales parts, electrical components in particular, must be protected from moisture and humidity when the housing is opened for e.g. maintenance and service. In other respects the protection classes of the housing must be observed.
Design Modifications Unauthorized modifications to the system and/or use of replacement parts not supplied by Schenck Process voids Schenck Process's liability for any resulting damages. This especially applies to alterations which could affect the operating safety of the system.
Replacing Components Spare parts must meet the technical specifications indicated by Schenck Process. To ensure this requirement is met, only genuine Schenck Process spare parts should be used. When using other spare parts, the warranty will be void.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Safety notes
2.1
Signal Words
2.1.1
Signal Words for Safety Safety Warnings
Potential dangers will always exist when working with technical devices. Dangers will arise if the machine ▪ was incorrectly installed ▪ was incorrectly commissioned ▪ is operated by untrained personnel ▪ is repaired by not qualified personnel The following signal words throughout this manual indicate dangers that may arise when handling this machine.
DANGER This signal word indicates a danger that can immediately cause the most severe injuries up to and including death. Follow all instructions to prevent this from occurring.
WARNING This signal word indicates a danger that can cause serious injuries up to and including death. Follow all instructions to prevent this from occurring.
CAUTION This signal word indicates a danger that can cause slight or medium injuries. Follow all instructions to prevent this from occurring.
2.1.2
Signal Words for Application Notes
Signal words for information on material damages and on the optimal use of the machine
STRICTLY OBSERVE Signal word used to identify situations in which material or environmental damage could occur. Follow all instructions to prevent this from occurring.
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Safety notes
HINT Signal word used to identify information on using the product economically and at an optimal level of efficiency.
2.2
Five Safety Rules of Electrical Engineering Engineering
These fives safety rules must be followed in the order shown before commencing work on electrical systems. Once the work is finished, they are to be applied in reverse order.
DANGER Electric shock from live components Danger of life from electric shocks – Take all possible precautions to ensure safety before commencing work on live components. Observe, among other things, the following. 1. Disconnect the components. 2. Secure them against inadvertent restart. 3. Ensure that the components have been de-energized. 4. Above 1 KV: Earth the cables and bypass them. 5. Cover or shield adjacent, live components.
2.3
Damaged / Defective Electrical Components DANGER Electrified damaged or defective components There is a danger of life from an electric shock. – Always have qualified personnel ensure that the components are neither damaged nor defective. 1. Damaged or defective electrical components must immediately be replaced or, if possible, repaired by qualified personnel.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
General Diagram
3 General Diagram 3.1
An overview of the INTECONT Tersus
INTECONT Tersus is an extension of and improvement on the INTECONT system that has proven its worth for years and has been used in more than 50,000 scales all over the world. INTECONT Tersus is a measuring and measurement processing system of continuous weighing and feeding equipment for ▪ weighfeeders ▪ conveyor belt scales ▪ differential feeding scales ▪ Coriolis mass flow equipment and ▪ solids flow equipment. The basic hardware equipment is aligned to the needs of the application. The following can be installed as optional equipment: ▪ Fieldbus modules ▪ 230 VAC power supply ▪ module with additional analog outputs and analog inputs
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
BV-H2464GB, 1201 -7-
General Diagram
3.2
Diagram of beltweigher and weighfeeder
Fig. 1: Basic diagram of the ITE inputs and outputs
1
COUNTER
Pulse output for connecting an external totalizing counter
2
ANALOG
Analog output
3
SERIAL
Serial interfaces for the printer or second display
4
24 V
Power supply
5
MOTOR
Control output for belt drive
6
PREFEEDER
Control output for a prefeeder
7
FULL
"Full feed“ relay output for batching
8
DRIBBLE
"Dribble feed" relay output
9
MAX
Relay output for maximum monitoring
10
MIN
Relay output for minimum monitoring
11
FAULT
Relay output for alarms
12
ON/OFF
Switch scales and totalizing on/off
13
RELEASE
Release signal for recording totalizing
LC
Load cell for ascertaining belt load
Belt speed
Speed pick-up (tachometer)
Belt sensor
Sensor for belt drift
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
General Diagram
3.3
Method of Function
A belt weigher or weighfeeder continuously weighs the quantity of material transported by a conveyor belt. The feed rate is regulated on a weighfeeder according to a setpoint. A belt weigher only measures and it cannot influence the feed rate.
Definitions Q
Belt load
The weight of the material on a meter belt
V
Speed
The speed of the conveyor belt
I
Feed rate
The quantity of material transported by the conveyor belt per unit of time
Z
Total
Amount of material transported = Feed rate x feed time
Belt load Q and speed v are continuously measured and factored together. The result is the feed rate I, from which the flow rate is determined.
Fig. 2: The belt load of the weighbridge is not legal for trade
The material is transported over a weighing platform located beneath the belt, limited by 2 carrying idlers. The load on the platform exerts a force on the load cell LC through one or more weighing idlers. The measuring displacement is approximately 0.2 mm. The measuring rolls are linked with the frame construction via parallel plate springs. The load cell output voltage is proportional to the platform load. It is recorded with a suitable measuring amplifier. The load distribution on a single-roll weighbridge is shown by the white triangle. Only half of the force from the weight of the material is passed into the measuring idler. The following conversion formula applies to the effective bridge length with single-roll weighbridges: Leff = Lg / 2
Leff = effective weighing platform length Lg = total weighing platform length
Weighing platforms with more than one weighing idler will have a different factor than 1/2. Therefore the belt load in kg/m totals: QB = total load on the weighbridge.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
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General Diagram
Belt speed The belt speed is recorded using velocity sensor D and converted into a corresponding pulse frequency.
Feed rate The readings Q and v are standardized in the unit to the physical quantities kg/m and m/s and multiplied with one another. The product is feed rate I. I in kg/s Q in kg/m v in m/s QB in kg Leff in m I in kg/h
3.4
Characteristics
Displays The display of INTECONT Tersus consists of 4 parts:
1. You can give the technical name at the installation location in the header. A rotating symbol on the left edge shows whether the weighfeeder is on or off. 2. The second line of the display is reserved for event messages. 3. The following two lines show readings that can be selected with the cursor buttons. These lines correspond to the lines of the INTECONT PLUS display. The lower half of the display is used for various visualizations: the large-scale display of an individual reading, displaying 4 readings in line font size or displaying as many as 9 adjustable readings in the parameters block Configuration HMI Values. They adapt their font size over 3 levels.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
General Diagram
Event messages ▪ Events and malfunctions are shown by an alphanumerical shorthand symbol and title. ▪ The appropriate "uncoded text" for all subsequent events can be called up via the operating keyboard. ▪ This distinguishes alarms (red) and warnings that either have to be acknowledged (orange) or do not have to be acknowledged (yellow). Alarms will shut down the scales, warnings will not. All alarms are also indicated with a relay output.
Fig. 3: Display warning 2
Fig. 4: Display warning 1
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General Diagram
Fig. 5: Display alarm
Operating philosophy ▪ Operator guidance through menus on several levels. Important configuration and calibration functions are secured via password. The dialog language for fault messages, operation and service programs ▪ DEUTSCH, ENGLISH, FR-FRANCAIS, ES-ESPANOL, IT-ITALIANO, CN-CHINESE, JP-JAPANESE, RU-RUSSIAN, HU-HUNGARIAN, NL-NETHERLAND at your choice or a loadable language (OTHER / XX-NEW). Dimensions ▪ SI units (Metric): kg, kg/h, t, t/h, m and cm ▪ NON SI units (English): lb, lb/h, t, t/h, f and inches Turning recording the total or setpoint specification on or off ▪ This can be selected with the P02.06 Feeder Start and FALSE Feedrate Setpoint parameters (however, only with charging systems). Monitoring for minimum and maximum limit values ▪ For feed rate, belt load and belt speed The limit values, relay outputs and event classes can be separately defined for all 6 possibilities. Mains power failure ▪ Scale data, calibration data, counter readings and quantity pulses not yet issued are kept for an unlimited time after a mains power failure and the time is kept for approx. 5 days. Belt speed ▪ The belt speed is recorded with a speed pick-up. Zero settings ▪ The zero point fault of the belt weigher comes from soiling that adheres permanently or from other constant factors. The zero setting records the zero point fault on an empty belt over one or several wholenumber belt circuits. This corrects the regular measurement in normal operation. ▪ Zero setting takes place with an empty belt conveyor with a program which runs automatically. ▪ Zero setting should be started manually at regular intervals if automatic operation is not preselected. ▪ The maximum permitted zero setting correction is monitored. Zero drop out ▪ Suppressing totalizing for measurements around zero so that the counter remains constant during noload belt operation. The function can be turned off.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
General Diagram
Tare ▪ Taring is a calibration procedure that determines the impact that the empty belt has on the measuring signal, the basic tare. After taring, the total remains unchanged over one belt circuit with the empty belt. Call-up is password protected. Measuring at dispatch: VAP ▪ The weighing platform is not located directly at the material discharge point for design reasons. This means that if the belt load changes, the measurement for the feed rate will not precisely equal the current feed rate at the dispatch point. Measurement is shifted to the material discharge point using a special velocity-dependent delay element. No special measuring sensors are required to do this. Batching mode ▪ Batch mode conveys a preset amount of material. The conveying process ends once the batch setpoint has been reached. The batching process can be controlled via the belt conveyor drive or bin feeder. ▪ The turn-off point and dribble feed utilization can be adapted automatically. BIC belt influence compensation and belt drift ▪ This function makes it possible for the belt to record and compensate for dynamic zero point influence with an additional belt circuit sensor and a metallic marking flag in the belt. This increases the scale's short-term accuracy. Display filters ▪ For feed rate, belt load and belt speed Maintenance guidelines by overlaying an event in the display ▪ for the voltage supply's operating time, the scale's operating time and the next zero setting. Calibration ▪ It is not necessary to calibrate the pick-up input. Certain design data such as on the load cells, velocity sensors and conveyor belt inclination must be entered. The system uses this data to calculate all standardizations required for the displays. It can be controlled or readjusted using two different methods. ▪ Control with material: the result of a material inspection is entered into the system and it serves to correct the measurement result. ▪ Control with calibration weight: standardization is controlled or can also be corrected if the technical data (such as the lever ratio or belt conveyor inclination) is not precisely known. In later operation, the program also becomes suitable for verifying mechanical changes such as the weighing platform being twisted due to movement of the foundations.
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Operation
4 Operation 4.1
Quick guide
Elements of the graphic display:
line 1: header
rotating cross as a progress indicator. The scales are switched on; feed rate and flow rate are being recorded. In belt-based systems, only the belt load and belt speed are measured when the device is switched off (single point displayed). Ɖ : with activated batching mode local designation of the feeder. This can be changed with EasyServe via parameters P01.05.
line 2: event line
event information with a code and plain text
upper display zone
two lines of the actual value displays These lines correspond to the two lines of INTECONT PLUS.
lower display zone
Actual value displays that can be selected with buttons 0 - 9. The functions of buttons 4 - 7 depend on the application software and parameterization.
---
Totalizer 1Large
reading as per the parameter block Configuration HMI Values
Batch Actual ValueLarge with bars
SetpointLarge with bars
---
FeedrateLarge with bars
Belt LoadLarge with bars
Belt SpeedLarge with bars
reduce the brightness
4 readings with a bar display
increase the brightness
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Operation
operating elements:
SCROLL ▪ Preselect the data display of the upper line ▪ Select a group of parameters or one parameter
▪ Preselect the data display of the lower line ▪ Change to the right or left with number inputs
…
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Numerical keys, signs and decimal points for entering parameters Number buttons in basic position for selecting the actual value displays
DELETE
Acknowledge event messages, delete inputs
START/STOP
Switch-on/off are preselected
DATA
Prepare the input, for instance changing the parameters and inserting the setpoint
FUNCTION
Call up the function block, then select the desired function using the SCROLL keys If an event is pending, the function "display Events" has been preselected.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Operation
4.2
ESCAPE
Cancel a function or input and return to the actual value displays.
ENTER
Activate a function or confirm an input
Function block
The function block is the point of entry for everything to be performed on the device. All functions and dialogs can be called up through it. The function block is two-staged.
Call up the function block The previously selected function will be displayed if no event is pending. Select the desired function of the first level. This space has a yellow background. Change to the second level. The selected space of the first level has an orange background.
Select the desired function of the second level. This space has a yellow background. Select function. It only shows the functions that can be called up now.
Return to the normal display, or abort a function. Change back to the first level.
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Operation
The functions of the 1st stage of the function block: Setup Totals Mode Calibration Parameter Printer Setting Batch
Configuration and parameter functions are only accessible via password. The password is queried once the function has been called up. Access to some functions can be configured in the Dialog Behaviour block. Entries might be missing depending upon this setting. The appearance on the unit:
Fig. 6: display – function block
4.3
Operating in Normal Operation Turn on of the total measurement Specified condition: The external clearance signal has to be pending (selectable), P02.06 Feeder Start has to be on OP or the keyboard mode has to be activated. Turn off of total measurement
The feeder drive can be switched on and off with the keys in this field if the mode of operation and the parameterization permit it.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Operation
WARNING A start signal will actuate the motors. There is the danger of injury if persons are in the area of the drives. Bulk solids can be transported and cover the following equipment. The turn-off command is not an emergency-off. Instead, it is provided for operational shutdown.
Reset the totalizing counter The function has to be activated with the P01.12 or P01.13 parameters. Call up the function block Totals Reset Totalizer 1 or Reset Totalizer 2
Select the function Note: Totalizer 3 cannot be deleted.
Call up the zero setting program Call up the function block Calibration >0< Zero Set
Acknowledge event information
Call up other functions such as showing event information, configuration and return from the function block
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Operation
Enter batch setpoint Batch Setpoint Entry . If using the VWF weighfeeder: A query of the Setpoint of the Feedrate will be first made if Feedrate Setpoint is set to OP or keyboard mode is active. Key in the numerical value. …… Acknowledge input.
This deletes the last symbol.
This interrupts the input.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Service Functions
5 Service Functions Display Events
Setup
Display Check Service Values / Standard Values Start Data Logging / Stop Data Logging Clear Data Log File
Service functions help get an overview of the status of the unit and the weighing system. Display Events leads to a list of current upcoming events. Service Values activates the display of other internal status information in the lower line of the display Service Values. This line has a grey background. The return from this display takes place from Standard Values . The other functions operate the routines set in the parameter block Data Logging.
5.1
Display Test and Version Number
This function displays the software version and tests the display. Call up the function block Setup Display Check
Overlay the software version number Overlay the Schenck Process Logo The test ends automatically
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Counter functions
6 Counter functions Reset Totalizer 1 Reset Totalizer 2
Totals
Totalizer Record
Counter 1 and counter 2 can be reset with these functions. Counter 3 cannot be reset because it documents the total of materials conveyed. The Totalizer Record function starts the counter print-out on a connected printer.
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Mode functions
7 Mode functions There are functions brought together in the Mode menu for switching over into various operating modes. Functions: Mode Start Keyboard Mode / Stop Keyboard Mode Stop Prefeeder / Particip. Prefeeder Start Simulation / Stop Simulation
7.1
Mode
Keyboard operation ON/OFF
The Start Keyboard Mode function can be used to switch the preselected operating sources for turning on/off and specifying the setpoint and target batching values to the INTECONT keyboard. Stop Keyboard Mode will again select the previous sources. The On-Off status and setpoints will be retained when switching to the keyboard from an external source (e.g. serial). The external signals act in the opposite direction. It is still possible to see a preselected external setpoint. Display: Keyboard operation is indicated by OP in the status line.
7.2
Prefeeder
The Particip. Prefeeder or Stop Prefeeder functions determine the impact of INTECONT on the prefeeder. This function is activated in normal operation and INTECONT takes on controlling the prefeeder. The material flow is interrupted when it is off and the scale can be tared, etc.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
BV-H2464GB, 1201 - 25 -
Mode functions
7.3
Simulation
In simulation mode, all functions of the scales without material can be tested during start-up. The scales are not suited to normal operation during simulation. Display: SY14 Event: Simulation active event information SIM is shown in the status line and service values. This function can be turned off again with Stop Simulation in the same fashion. Characteristics: 1. All operating functions can be carried out 2. For feeding systems the actual value for the feed rate will be set to the setpoint. This value will be set as per P02.02 Nominal Flow Rate for measuring systems. 3. The belt load and velocity measurement are active. 4. All control inputs and outputs work as adjusted.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Calibration functions
8 Calibration functions Functions: Calibration >0< Zero Set LB: Pulses/Belt TW: Tare CW: Span Calibration
Calibration
Set Time
8.1
Starting the calibration functions
The 3 adjustment programs that provide basic and secondary calibration are available in this menu along with the >0< Zero Set and Set Time functions. The procedure is the same for all programs. They have to be used in basic calibration in the order of LB, TW and CW. All of them are protected from unintentional operation with a password. No total will be recorded during the run time of a program until acknowledgement; analog outputs are set to the offset amount.
Call up the function block Calibration Select the desired adjustment program LB, TW or CW
Key in password 7353 …
Afterwards it shows the dialog of the selected adjustment program.
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BV-H2464GB, 1201 - 27 -
Calibration functions
8.2
Pulse/Belt circuit LB
The LB: Pulses/Belt calibration program only has to be called up. ▪ At initial calibration ▪ when a new belt is mounted or the belt tension has been changed substantially. ▪ when one of the P02.04 Pulses per length or P02.05 Nominal Speed parameters was changed on scales with or without speed measurement It calculates the number of impulses given by the speed sensor for one belt circuit. Afterwards, the number of impulses acts as a belt circuit identifier for the TW: Tare, CW: Span Calibration programs and zero setting. This program should be called up at initial calibration as the first of all adjustment programs. This also applies to scales without speed measurement. Conditions: 1. Measure the time for a belt circuit as precisely as possible and key in as theP03.02 Belt Circuit Time parameters before calling up 2. The conveyor belt has to run 3. Volumetric 4. Switch off batch mode Note: Belt drive and prefeeder are not controlled by the set-up program. The setup program will be interrupted with a corresponding message if one of the conditions is not met. Sequence: Call up the function distributor Calibration LB: Pulses/Belt
Abort possible at any time
While the program is running, the remaining seconds of the program running time and the impulses added up with the velocity sensor are shown in the display. LB: Calibration active is shown in the header. After ending the program, the mean belt speed is shown in the display over the entire running period along with the final result of impulses/belt circuit. There is the request LB: wait for Confirmation in the header.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Calibration functions
The results are accepted and filed in P04.06 Belt Circuit No. parameters.
The result is not accepted. Aborted ! is shown in the header.
The procedure is identical for models without a velocity measurement. Specific Messages: Start ! if the belt is not running Aborted ! Note: The program routine is slightly different if there is a P13.03 Belt Sensor Active belt sensor: The new reading is shown for impulses/belt circuit after every belt circuit. If the sensor is not correctly identified, it gives the Error Sensor message and the adjustment program is cancelled.
8.3
Tare TW
The taring program uses one or several whole-number belt circuits to record the zero point fault of the weighfeeder. This value is used to correct the ongoing measuring results in normal operation. We should distinguish taring from zero setting. Taring:
Recording of the base tares (i.e., the weight of such things as the mechanism or belt conveyor) when starting up, servicing and doing maintenance
Zero setting:
Recording the operational zero deviation such as soiling
The maximum correction stroke of the zero setting program is limited while that of the tare program is not. After taring, the permissible correction deviation of the zeroing program is based on the new reference value.
Conditions: 1. There may not be any material on the belt conveyor under any circumstances. The prefeeder can be controlled with Feeder ON/OFF function. 2. Clean the scale's mechanical equipment within the scales zone. Deposits may remain that develop again immediately in regular operation. 3. Switch off batch mode 4. The belt conveyor must be running. Notice is given automatically.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
BV-H2464GB, 1201 - 29 -
Calibration functions
Sequence: Call up the function distributor Calibration TW: Tare
Abort possible at any time
While the program is running, the display shows the remaining running period in % of the entire running period and the constantly meaned tare in % of the rated belt load. TW: Calibration active is shown in the header. After ending the program, the display shows how much tare departs from prior taring in % of the rated belt load and the mean of the entire tare in % of the rated belt load. Dev = + : tare has increased Dev = + : tare has decreased The TW: wait for Confirmation message in the header reports the end of the program and requests user input.
The result is accepted and stored in the P04.04Basic Tare parameters. At the same time, P04.05 Tare Correction is set to zero. The result is not accepted and the scales are not tared.
Specific Messages: Start ! if the belt is not running Aborted ! NOTE Tare may exceed 100 % by using the rated belt load as reference.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Calibration functions
CAUTION If the deviation (Dev) is substantial (>20 %), this may indicate a mechanical fault. The weighing platform must then be checked for stuck material particles.
If BIC is active (P13.05 BIC Active = YES), the tare vectors of BIC are initialized with the taring program.
8.4
Weight Check CW
You can use this program to control the turndown of the system. This is done by loading the weighing platform with a known calibration weight and automatically calculating the average platform load over one or several whole-number belt circuits. The result is compared to a preset setpoint and then displayed. No automatic correction is performed. Suitable calibration weights are available as accessories. Conditions: 1. Taring or zero setting 2. Key in the calibration weight in P03.08 parameters. The calibration weight should be between 30 % and 100 % of the Qo rated bridge load. Qo = qo * Leff
qo = Nominal Belt Load, parameters P04.01 Leff = Effective Platform Length, parameters P03.05
1. Attach the calibration weight at the place provided. 2. Switch off batch mode 3. The scale has to run in volumetric operation. Notice is given automatically. Sequence: Function distributor
Calibration CW: Span Calibration
Abort possible at any time
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Calibration functions
While the program is running, the remaining running period is shown in the display in % of the total running period along with the continual Set/Act measuring result. CW: Calibration active is shown in the header. After ending the program, the fictitiously conveyed quantity of material is shown in the display over the running period along with the mean of KOR of the Set/Act over the entire running period. The CW: wait for Confirmation message in the header reports the end of the program and requests user input.
Exiting the program. Either button may be used AS THE RESULT IS NOT ACCEPTED AUTOMATICALLY.
Specific Messages: Start ! if the belt is not running Aborted ! NOTE If no calibration weight is mounted, the zero point of the scales can be checked with this program. Evaluating the results Error < 1 %
Set/Act = 0.99 - 1.01 The scales are in good working order and no further actions are necessary.
Error < 5 %
Set/Act = 0.95 - 1.05 Enter the Set/Act value in parameter D 02. Of course, this only makes sense if the result of a material control has not yet been included in the parameter.
Error > 5 %
Set/Act < 0.95 or Set/Act > 1.05 Departures of several percent indicate incorrectly entered technical data (such as levers or not knowing precise belt inclinations) or mechanical errors (such as alignment or tension).
The current value of the P04.02 Range Correction parameter is not taken into account in the check. This is why the control program will show the same KOR fault quotients after correcting with the value input in P04.02.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Calibration functions
8.5
Setting the Time
The date and time are among the Service Values status information for the scale and they can be changed at any time.
Call up the function block
Calibration Set Time
Abort possible at any time
Enter the year, month, day, hour, minute and second. … Confirm each entry. After the seconds have been entered and confirmed, the new time will be accepted.
Then it shows the new setting for a couple of seconds as Current Time. The internal clock will run for a further approx. 5 days in case of a mains failure.
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Parameter functions
9 Parameter functions Functions: Parameter Read Parameters Enter Parameters Print Parameters Load Factory Defaults Load Custom Defaults
Parameter
Option activate
Display, alter and print the parameter on the device. Load Custom Defaults will set the device to a defined state that was saved at, for example, setup. The Load Factory Defaults function will reset completely the parameterization. (Parameters [➙ 53]) Additional functions can be activated by the Option activate function (Set option [➙ 140]).
9.1
Read Parameters
Parameter are changeable characteristics or data with which the device can be adapted to its special weighing task. You can find the meaning of the parameters in the detailed parameter description. The input of parameters is protected by a password. They can inspected without any hazard with the Read Parameters function. The parameters are broken down into functional blocks and numbered within a block. Parameters are composed as follows: Pxx.yy , where: xx: block number yy: Number of the parameters in the block Explanatory name of the parameters (language-dependent)
Depending on the situation, individual parameters or groups of parameters may be faded out to highlight the parameters important to an application. Hidden parameters can only be shown with the EasyServe service software and they can also be cleared there for the display on the unit wherever necessary. Fading out may result in breaks in the numbering. Some parameters can be write protected. The write protection can also be configured using EasyServe.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
BV-H2464GB, 1201 - 35 -
Parameter functions
Reading parameters:
Call up the function block
Parameter Read Parameters
Scrolling through parameter blocks 1, 2, … and select the required block.
Scrolling through the parameters within a block Return to the blocks
Return to normal display
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Printer functions
10 Printer functions Functions: Printer Setting Totalizer Record Print Parameters Print Status Report Batch Record
Printer Setting
When printing with the Batch Record function, the Totalizer Record function adds the batch setpoint and actual batch value to the print-out and Totalizer Printout is printed out as the heading. The batch protocol can only be printed after completing the batch. The counter protocol is available at any time. The complete parameter list is printed out with the current readings using the Print Parameters function. All inputs departing from the default readings are marked with an *. The list of all possible event messages and the current hardware allocation is printed out as an appendix. The printing procedure can be cancelled at any time.
10.1
Status Report
The Print Status Report can be printed out at any time. It provides information on the events and configuration results that have occurred to date, etc. The Service Values chapter explains the specific data in detail. The printing procedure can be cancelled at any time.
Software version Own Address
EasyServe address information
IP Address
Ethernet address information
OP Mode Simulation Mode Feeder On Volumetric Mode Summary Alarm
Status information
Maintenance Electric
Overall duty cycle of mains voltage.
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Printer functions
Maintenance Feeder Run
Overall duty cycle of the belt conveyor and the device.
Totalizer 1 Totalizer 2 Totalizer 3
The readings of the total counter
The events since Power ON
The number and type of events from Power ON or since the last print-out ofPrint Status Report.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Batching functions
11 Batching functions Functions: Batch Select Batch / Deselect Batch Batch Record Abort Batch
Batch
11.1
Batching mode
A preselected quantity of material is dispatched in batching mode. When it reaches the batch setpoint, the conveyor belt and material prefeeder are turned off and the feeding process is ended. Display: If Batch Mode is selected, the summation symbol Ɖ appears in the header. Relevant data in the middle and lower display zone: Batch Setpoint, Batch Actual Value and Batch Residual Amount. Before starting a batch, Batch Actual Value and Batch Residual Amount show the amounts reached by the previous batch. Deselecting Batch Mode means that the displays are no longer accessible, although they appear again with the new preselection. The display format corresponds to Counter 1 Unit. Preselection batching mode Preselecting the batching mode makes batching possible, although it does not initiate a batch. The condition: scales OFF and the function is activated.
Call up the function block Batch Select Batch
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BV-H2464GB, 1201 - 39 -
Batching functions
Input the Batch Setpoint A Batch Setpoint query occurs automatically upon preselection or can be manually initiated with batch has been finished (scales OFF).
after a
No entry can be made if batch mode is deselected or if a batch is in process. No input is possible if the Batch Setpoint is specified with the fieldbus (Batch Setpoint Source P09.09 = FB).
If using the VWF weighfeeder:
A query of the Setpoint of the Feedrate will be first made if Feedrate Setpoint is set to OP or keyboard mode is active. Skip the input. The old Setpoint of the Feedrate is maintained. Then Batch Setpoint Source will be queried automatically.
Input the value … Acknowledge input.
Interrupt entry, continue with previous setpoint
Delete symbols incorrectly keyed in
Starting and interrupting Start the batch and the conveying process begins
Interrupting a batch The batch is continued with the next start command.
Deselect Batch This function deselects batching mode, i.e. it is taken out of the active scope of functions. The summation symbol disappears from the header and the batching values can no longer be called up again. However, they will not be cleared. Conditions: the batch is ended or cancelled via Abort Batch function (scales OFF).
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Batching functions
Call up the function block Batch Deselect Batch
Batching mode can be re-activated with the Select Batch function and you can inspect the old batching values again. Abort Batch This function cancels a current batch and the conveying process is ended immediately. Operation remains in batch mode The next start command will begin a new batch; the previous batch will not be resumed.
Call up the function block Batch Abort Batch
11.2
Record the batch
Issuing the batching results on a printer. The batch has to be ended or cancelled. This function is only available in batching mode. It can be printed out with the Batch Record function or automatically after every finished batch (P09.10 Batch Automatic Record = YES). The printing procedure can be cancelled at any time.
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BV-H2464GB, 1201 - 41 -
Startup operation
12 Startup operation operation 12.1
Weighing Platforms
12.1.1 Effective Weighing Platform Length The effective weighing platform length "L" is an important value for calibration. It is determined by the design of the weighing platform and can usually be found in the technical data sheets. However, it is always expedient to measure the length manually and to enter the exact value as a parameter. The hatched area shows the load distribution on the weighing platform. Single-Idler Platform The load on the weighing platform is conducted via a weighing idler into the load cell. This can be done by means of a lever system or without levers by means of a parallel leaf-spring system.
In this case, L is computed as:
Multiple-Idler Platform Several weighing idlers are combined into one mechanical unit, the measuring bridge.
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Startup operation
Buckled Platform The weighing platform consists of two parts. The force is conducted centrally into the load cell. A split measuring table can also be used in place of the weighing idlers.
Mounting for entire belt on one side only
Lg = Distance to the center of the material cone
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Startup operation
12.1.2 Calibration Weight The calibration weight simulates a certain belt load and serves to control the weighing system. It can have a direct effect on the weighing platform or via a lever system. In parameters C 08, not the actual weight but the weight affecting the weighing platform must be entered. The effective calibration weight QPRF is the weighing platform load in kg simulated by the calibration weight.
SingleSingle-Idler Platform Parallel leaf-spring bearing The calibration weight can theoretically be mounted at any point on the weighing platform mechanical equipment. The effective load is always the applied weight QP. QPRF = QP
Pivot joint bearing (e.g. crossed flexure strip)
tan(α)» 0.018 * a
Angle α = 0 : K = 0 Angle α = neg : K = neg
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BV-H2464GB, 1201 - 45 -
Startup operation
MultipleMultiple-Idler Platform Entire platform supported on load cells QPRF = QP Pivot joint bearing See Single-idler platform
Buckled Platform The calibration weight usually has an effect in the center. QPRF = QP If the entire belt issupported on one side, the following applies
If the belts are inclined, the extension or shortening of the calibration lever corresponding to the single-idler platform must be taken into account.
Chain Chain Calibration Weights: If a chain curtain is placed over the weighing platform area, the effective calibration weight then becomes the total weight of the chain in the weighing area. QPRF = n * Lg * s n = Number of chains Lg = Overall weighing platform length in m s = Weight of chain per m in kg/m
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Startup operation
12.1.3 Belt inclination In certain cases, the belt inclination must be entered as a parameter. The mounting orientation of the load cell is the decisive factor.
At right angles to the belt conveyor The angle a must be entered as the parameters. The load acting on the load cell is N = Q - cos a.
Vertical to the belt conveyor
0° must be entered as angle a. The full force Q acts on the load cells.
12.2
Parameter Input
A technical data sheet is part of the scope of delivery. It contains all important nominal and calibration data acc. specification. We will therefore list only a few important pieces of information and some recommendations at this point. It makes sense to go through all of the parameters and consider the value entered.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
BV-H2464GB, 1201 - 47 -
Startup operation
Parameter block Dialog Behaviour: Dialog language, display units and availability or security of the function block functions. The parameters values will be converted automatically if the dimensions are changed. Parameter block Rated Data: Pulses per length P02.04 is important to calibration. The dimension data should be adapted to the Nominal Flow Rate. Flow Rate Units P02.01 resolution should not be greater than 4 ... 5 decimals for a quiet display. The output frequency should not be any more than 10 Hz if an external volumeter is connected. Parameter block Calibration Data: All calibration and evaluation data are important and must be entered exactly. Most of the details can be found in the technical data sheets. The effective platform length and the inclination of the belt must be measured on-site. The inclination of the belt may only be entered for systems in which the load cells are arranged perpendicular to the belt. On vertically-installed load cells, the effective angle equals 0°.
The inclination of the belt can be determined easily using a spirit level and a measuring tape. It is advantageous to measure multiple times and to take the mean value of these measurements (h1, h2, …) as the value 'h'. The Angle P03.07 angle is then a = tan
-1
(h/l)
For angle < 20°, a = 55 h/l applies Parameter block Calibrat. Results: No input is needed. P04.02 Range Correction should be on 1 at initial calibration. We recommend that once you have entered the rated data you check whether the load cell becomes overloaded by the rated feed rate. F = Qo * L * H * cos(a) Qo
Nominal Belt Load
L
Effective Platform Length P03.05
H
Lever Ratio
P03.06
a
Angle
P03.07
F
Force on the load cell
P04.01
kg/m m Degrees kg
F should be less than or equal to the total of LC Rated Capacity P03.04. Otherwise, the load cells are too small for the required Nominal Flow Rate.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Startup operation
12.3
Function Check
1. Switch on the belt conveyor and scales. The switch-on process depends on the preselected Feeder Start P02.06 source. 2. A rotating cross appears in the header as a progress indicator. If not, there is no clearance or the ON button was not pressed. 3. Take any event messages which appear into account and remove the error. 4. Check the following: Tachometer: The output frequency of the tachometer generator has to be less than 3,000 Hz with activated measurement. The value must approximately correspond to the information in the data sheet. Load cell: The non-standardized initial value for the load cell amplifier may not be larger than 2.85 mV/V even at nominal load of the weighing platform. It must change if the weighing platform is placed under load (e.g. the calibration weight). If the value is too large, the load cell is overloaded. If the value is negative, the load cell may be wrongly connected. The load cell load in percent, sourced from the sum of the load cell nominal capacities, should not be larger than 100 % with nominal belt load.
12.4
Test With Calibration Weight
The test with a calibration weight makes sense because 1. mechanical or electrical faults are possible 2. calibration data can be unreliable (for instance, the leverage is not precisely known) and it is difficult to measure the belt inclination 3. data may be incorrectly entered The calibration weight should be between 30 % ... 100 % of the platform nominal load and be accurate. 1. Enter Calibration Weight P03.08. On beltweighers with parallel leaf-spring guides, the effective calibration weight is the same as the actual value. In other cases, the effective calibration weight can be taken from the data sheet, or can be calculated according to the chapter details/data flow images. The inclination of the conveyor belt has no effect on the effective calibration weight. 2. Call up the CW: Span Calibration program. Some Possible Causes of Fault: Warping of the weighing platform, improper alignment, interferences in the load cell cable. If you suspect any of these faults, repeat the check with a different weight. Non-linearity is an indication of such faults, linear faults are more likely to be cause by incorrect data.
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BV-H2464GB, 1201 - 49 -
Startup operation
12.5
Belt Velocity Check
The velocity sensor frequency generator can be actuated in a number of different ways. 1. with a frictional wheel on the lower carrying run of the belt or 2. with the shaft of the drive motor In the first case, the value Pulses per length P02.04 depends on the exact diameter of the frictional wheel; in the second case, it depends on the gear and looping factor of the belt. So the velocity measurement accuracy should be checked. 1. Establish the velocity of the conveyor belt using a stopwatch and a tape measure. Make several measurements to be sure and then calculate the mean. 2. Read the speed display over the same period of time wherever feasible. 3. Compare these readings with one another and correct P02.04 wherever necessary. (new value = prior value * speed measured/speed read) This procedure can also be used to determine unknown characteristic values. Check the space between the recording sensor and crown gear and reduce wherever necessary if there is a known Pulses per length and large deviations.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Startup operation
12.6
Test with Material
Each test or calibration with calibration weights can only approximate the actual operating conditions. A highly accurate continuous measurement can be achieved only by making several measurements with bulk material and a subsequent correction. It is corrected with Range Correction P04.02. The following image shows an example of an arrangement for verifying a belt-based continuous throughput.
Fig. 7: Arrangement for verification with bulk material
The following items must be observed: 1. The route from the continuous measuring point to the collecting point for the material must be clean 2. Any available diverters must not divert material. 3. If there are any feed screws or air slides between the weighing platform and the continuous measuring point, material must be conveyed for approx. 1/2 hour before any verification measurements are made This will allow the usual material build-ups to form on the conveying elements. 4. Dedusting must be set to a minimum 5. The containers or vehicles in which the material is transported onto a (legal-for-trade) commercial scales must be cleaned and re-weighed (tared) before each filling. The commercial scales must be sufficiently accurate to measure the quantity MW. The new value P04.02new is calculated from the old value P04.02old using the counter progression MA from the continuous measurement and the mass MW calculated from the control scales as follows: P04.02 new = P04.02old * MW / MA For example: Old value of P04.02 = 1 A material quantity of MW = 4.9 t is conveyed over a time period of 15 minutes. The counter progression MA read off the device is 5.0 t. P04.02 new = 1 * 4.9/5.0 = 0.98 The calculated value should be keyed into P04.02.
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Parameters
13 Parameters The INTECONT Tersus is adapted to each application by means of parameters. No special programing knowledge is therefore necessary.
Fig. 8: Parameter sets
Parameter set
Purpose
Activation
Preparation and Alteration
Active parameters set
A summary of the effective parameters
Always active
via EasyServe or on the unit
Factory settings
Complete parameters set Non-alterable basic setting
Use EasyServe or the unit to copy into the active parameter set
Cannot be changed
Backup set
Pre-setting for a group of applications or a setting stored during commissioning
Use EasyServe or the unit to copy into the active parameter set
Only using EasyServe in expert mode
Tab. 1 : Using parameter sets
Note: Parameters not required for an application can be faded out or declared 'read only' using EasyServe in expert mode. EasyServe compiles a list of visible parameters that form an integral part of the system documentation. They, together with this manual, make up the relevant documentation of the control system for an application. The parameter list in the operating manual contains all of the parameters, regardless of their actual use in an application. In addition to the parameter set stored in the scales, we recommend that after commissioning you keep a copy of the parameter set in a mass storage medium using EasyServe. The parameters are sorted into blocks for purposes of clarity. The parameter can be explicitly identified by means of its block and the number in the block in the corresponding version of the scales software: P01.03: Parameter block 1, 3rd parameter
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Parameters
Note: Each parameter also has a unique number (ID) with which it can be addressed over the serial interface. This number can be seen as a Tooltip in EasyServe when passing over the parameter and can be output in the parameter printout. Gaps can appear between block numbers and parameters within the blocks. In rare cases, the number of a parameter may change.
13.1
Abbreviations
Source
Description
FB
Fieldbus
OP
Operating panel
DI
Digital Input
DO
Digital Output
AI
Analog Inputs
AO
Analog Outputs
Event
Event The reaction to an event can be configured.
W1
Warning 1 (requires acknowledgement)
W2
Warning 2 (does not require acknowledgement)
ALARM
Alarm
IGNORE
Ignore: do not show any event message but switch the corresponding contact outputs
LC
Load cell
I
Feed rate
v
Belt speed
VCU
VCU 20100 system unit of DISOCONT Tersus
VHM
The operator panel of DISOCONT Tersus
IT
INTECONT Tersus
Tab. 2 : List of commonly used parameters-related abbreviations
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
13.2 13.2
Configuring Event Messages
The system monitors a range of both of its own operation and the peripherals. The reaction to a recognized deviation, that is to say an event, is set by parameters. The parameters are used to assign to each event a class that will determine this reaction. Event class
Description
Impact on feeding
Acknowledgement required
Color
Alarm
ALARM
Stop feeding, scales are switched off Cannot be switched on
Yes
Red
Warning 1
W1
Feeder will continue to run
Yes
Orange
Warning 2
W2
Feeder will continue to run
No Only display as long as the event is active
Yellow
Ignore
IG
Feeder will continue to run
-
-
Tab. 3 : Event classes
Note: An external binary output channel that may have been assigned to an event is set, independent of the event class. A newly pending alarm or warning 1-class event will be shown on the operating panel blinking and in color. The blinking stops when acknowledged. Acknowledged event messages are cleared from the display for currently pending events when the event is no longer pending. Each event is stored with a time-stamp in the internal memory for later analysis.
13.3
Parameter Listing
13.3.1 Parameter Overview VBW20650-001 2481 01 - Dialog Behaviour Number:
Name
Default
P01.01 [➙ 66]
Language
DEUTSCH
4224
P01.02 [➙ 66]
Userdefined Text
XX-NEW
5816
P01.03 [➙ 66]
Font
UMing 30
6244
P01.04 [➙ 66]
Units
Metric
4225
P01.05 [➙ 66]
Scale Name
INTECONT Tersus VBW
6238
P01.06 [➙ 66]
Password
10000
4292
P01.07 [➙ 66]
2. Password
14389
4321
P01.08 [➙ 66]
Feeder ON/OFF
active
4280
P01.09 [➙ 66]
Switch Keyboard-/Normal Mode
active
4282
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Customer
Sys ID
BV-H2464GB, 1201 - 55 -
Parameters
P01.10 [➙ 66]
Batch control
active
4283
P01.11 [➙ 66]
>0: Zero ON/OFF
active
4284
P01.12 [➙ 66]
Reset Counter 1
active
4286
P01.13 [➙ 66]
Reset Counter 2
active
4287
P01.14 [➙ 66]
Route Tot. ON/OFF
not active
4308
P01.15 [➙ 66]
Data Log ON/OFF
not active
4309
Number:
Name
Default
P02.01 [➙ 69]
Flow Rate Units
------ t/h
4229
P02.02 [➙ 69]
Nominal Flow Rate
400 t/h
4226
P02.03 [➙ 69]
Speed Measurement
DI
6144
P02.04 [➙ 69]
Pulses per length
50.26 I/m
4256
P02.05 [➙ 69]
Nominal Speed
1 m/s
4227
P02.06 [➙ 69]
Feeder Start
OP
4241
P02.07 [➙ 69]
Counter 1 Unit
------- t
4230
P02.08 [➙ 69]
Pulse Length Total
0 ms
4231
P02.09 [➙ 69]
Counter 2 Unit
------- t
4232
P02.10 [➙ 69]
Counter 3 Unit
------- t
4233
P02.11 [➙ 69]
DO: Pulse Counter
n/a
4239
P02.12 [➙ 69]
Totalizer Increment
10 kg
4254
P02.13 [➙ 69]
Z1-Numberstep
Automatic
4255
02 - Rated Data Customer
Sys ID
03 - Calibration Data Number:
Name
Default
P03.01 [➙ 72]
Belt Circuit No.
1
6145
P03.02 [➙ 72]
Belt Circuit Time
30 s
4353
P03.03 [➙ 72]
LC Characteristic Value
2.85 mV/V
4257
P03.04 [➙ 72]
LC Rated Capacity
220 kg
4258
P03.05 [➙ 72]
Effective Platform Length
1m
4259
P03.06 [➙ 72]
Lever Ratio
1
4260
P03.07 [➙ 72]
Angle
0 Grad
4261
P03.08 [➙ 72]
Calibration Weight
50 kg
4354
BV-H2464GB, 1201 - 56 -
Customer
Sys ID
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
04 - Calibrat. Results Number:
Name
Default
Customer
Sys ID
P04.01 [➙ 73]
Nominal Belt Load
111.11 kg/m
6146
P04.02 [➙ 73]
Range Correction
1
4352
P04.03 [➙ 73]
Total Tare
0 kg/m
6147
P04.04 [➙ 73]
Basic Tare
0 kg/m
4355
P04.05 [➙ 73]
Tare Correction
0 kg/m
4356
P04.06 [➙ 73]
Belt Circuit No.
1000000 I/B
4357
05 - Analog Outputs Number:
Name
Default
Customer
Sys ID
P05.01 [➙ 74]
AO: Actual Flow Rate
AO
4388
P05.02 [➙ 74]
Flow Rate Offset
4 mA
4389
P05.03 [➙ 74]
Flow Rate Range
20 mA
4390
P05.04 [➙ 74]
AO: Belt Load
n/a
4391
P05.05 [➙ 74]
Belt Load Offset
4 mA
4392
P05.06 [➙ 74]
Belt Load Range
20 mA
4393
P05.07 [➙ 74]
AO: Speed
n/a
4394
P05.08 [➙ 74]
Speed Offset
4 mA
4395
P05.09 [➙ 74]
Speed Range
20 mA
4396
Number:
Name
Default
P06.01 [➙ 76]
Limit: Actual Flow Rate MIN
5 % Io
4337
P06.02 [➙ 76]
Event: Actual Flow Rate MIN
W2
4338
P06.03 [➙ 76]
Limit: Actual Flow Rate MAX
120 % Io
4339
P06.04 [➙ 76]
Event: Actual Flow Rate MAX
W2
4340
P06.05 [➙ 76]
Limit: Belt Load MIN
20 % Q
4341
P06.06 [➙ 76]
Event: Belt Load MIN
W2
4342
P06.07 [➙ 76]
Limit: Belt Load MAX
120 % Q
4343
P06.08 [➙ 76]
Event: Belt Load MAX
W2
4344
P06.09 [➙ 76]
Limit: Speed MIN
5%V
4345
06 - Limit Values
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Customer
Sys ID
BV-H2464GB, 1201 - 57 -
Parameters
P06.10 [➙ 76]
Event: Speed MIN
W2
4346
P06.11 [➙ 76]
Limit: Speed MAX
120 % V
4347
P06.12 [➙ 76]
Event: Speed MAX
W2
4348
Number:
Name
Default
P07.01 [➙ 79]
Filter: Actual Flow Rate
3s
4328
P07.02 [➙ 79]
Filter: Actual Flow Rate analog
3s
4329
P07.03 [➙ 79]
Filter: Belt Load
3s
4331
P07.04 [➙ 79]
Filter: Belt Speed
3s
4332
P07.05 [➙ 79]
LC Filter
1s
4334
P07.06 [➙ 79]
Afterflow Totalizer
3s
4274
Number:
Name
Default
P08.01 [➙ 80]
Auto Zero Active
NO
4675
P08.02 [➙ 80]
Limit Value Difference
0.5 % Q
4729
P08.03 [➙ 80]
Mean Limit Value
1%Q
4676
P08.04 [➙ 80]
Zeroing Limit
5%Q
4677
P08.05 [➙ 80]
Event: Tare Correction
W1
4678
P08.06 [➙ 80]
Zero Set Time
4h
6151
P08.07 [➙ 80]
Event: Time elapsed
IG
6152
P08.08 [➙ 80]
Print Result
NO
6153
P08.09 [➙ 80]
Zero Set Difference
5%Q
6154
P08.10 [➙ 80]
Event: Tare Difference > MAX
W2
6155
P08.11 [➙ 80]
Zero Drop-Out Active
NO
4679
P08.12 [➙ 80]
Zero Drop-Out Limit
1%Q
4680
Number:
Name
Default
P09.01 [➙ 82]
Pre-cut-off Amount
100 kg
6156
P09.02 [➙ 82]
Correction Amount
0 kg
4451
P09.03 [➙ 82]
Adaptation Factor
1
4452
P09.04 [➙ 82]
Batch Tolerance +
1%
6157
P09.05 [➙ 82]
Batch Tolerance -
1%
6160
07 - Filters Customer
Sys ID
08 - AUTO Zero Set Customer
Sys ID
09 - Batch Mode
BV-H2464GB, 1201 - 58 -
Customer
Sys ID
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P09.06 [➙ 82]
Event: Out of Tolerance
W1
4459
P09.07 [➙ 82]
Belt Empty
NO
6162
P09.08 [➙ 82]
Event: Batch > Setpoint
IG
6163
P09.09 [➙ 82]
Batch Setpoint Source
OP
4449
P09.10 [➙ 82]
Batch Automatic Record
NO
4453
P09.11 [➙ 82]
Reset print FMZ 1
NO
6165
P09.12 [➙ 82]
Reset print FMZ 2
NO
6166
Number:
Name
Default
P10.01 [➙ 84]
Baud rate
9600
4512
P10.02 [➙ 84]
Print Subtotal
Error
6192
P10.03 [➙ 84]
Print after STOP
NO
4460
P10.04 [➙ 84]
Print Page Length
72
4513
P10.05 [➙ 84]
Batch Setpoint Line
6
6167
P10.06 [➙ 84]
Batch Setpoint Column
8
6168
P10.07 [➙ 84]
Batch Actual Value Line
7
6169
P10.08 [➙ 84]
Batch Actual Value Column
8
6170
P10.09 [➙ 84]
FMZ 1 Line
8
6171
P10.10 [➙ 84]
FMZ 1 Column
8
6172
P10.11 [➙ 84]
FMZ 2 Line
9
6173
P10.12 [➙ 84]
FMZ 2 Column
8
6174
P10.13 [➙ 84]
Date/Time Line
4
6175
P10.14 [➙ 84]
Date/Time Column
8
6176
P10.15 [➙ 84]
Event Line
12
6177
P10.16 [➙ 84]
Event Column
8
6178
P10.17 [➙ 84]
Last Zero Set Line
10
6179
P10.18 [➙ 84]
Last Zero Set Column
8
6180
P10.19 [➙ 84]
Batchnumber Line
3
6181
P10.20 [➙ 84]
Batchnumber Column
8
6182
10 - Printer Setting
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Customer
Sys ID
BV-H2464GB, 1201 - 59 -
Parameters
11 - Maintenance interval Number:
Name
Default
Customer
Sys ID
P11.01 [➙ 87]
Maintenance Electric
3000 h
4465
P11.02 [➙ 87]
Event: Maint. Electric
W1
4466
P11.03 [➙ 87]
Maintenance Feeder Run
3000 h
4467
P11.04 [➙ 87]
Event: Maint.Feeder Run
W1
4468
Number:
Name
Default
P12.01 [➙ 88]
Feeder Active
NO
6187
P12.02 [➙ 88]
Setting Time
0s
6193
P12.03 [➙ 88]
Feed Distance
0m
6194
P12.04 [➙ 88]
Motor STOP immediately
NO
6195
P12.05 [➙ 88]
Change-over Full Feed/Dribble Feed
YES
6196
12 - Feeder Control Customer
Sys ID
13 - Belt Monitoring Number:
Name
Default
P13.01 [➙ 89]
VAP Active
NO
4480
P13.02 [➙ 89]
Platform Dis.Length
0 % LB
4482
P13.03 [➙ 89]
Belt Sensor Active
NO
4496
P13.04 [➙ 89]
DI: Source Belt Sensor
DI
4497
P13.05 [➙ 89]
BIC Active
NO
4498
P13.06 [➙ 89]
Sensor Length
8.2 cm
4500
P13.07 [➙ 89]
Sensor Width
12 cm
4501
P13.08 [➙ 89]
Sensor Offset
0 cm
4502
P13.09 [➙ 89]
Belt Drift
3 cm
4503
P13.10 [➙ 89]
Event: Belt Drift
W1
4504
P13.11 [➙ 89]
Belt Skew
4 cm
4505
P13.12 [➙ 89]
Event: Belt Skew
A
4506
P13.13 [➙ 89]
Slip Value
2 % LB
4507
P13.14 [➙ 89]
Event: Slip
W1
4508
P13.15 [➙ 89]
DO: Belt Drift
n/a
4509
BV-H2464GB, 1201 - 60 -
Customer
Sys ID
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P13.16 [➙ 89]
DO: Belt Skew
n/a
4510
P13.17 [➙ 89]
DO: Belt Slip
n/a
4511
P13.18 [➙ 89]
DI: BIC freeze
n/a
4499
Number:
Name
Default
P14.01 [➙ 92]
Event: Power Failure
A
4297
P14.02 [➙ 92]
Event: Memory
A
4302
P14.03 [➙ 92]
Event: Tachometer Input
A
4291
P14.04 [➙ 92]
Event: Namur Error Tacho
A
6199
P14.05 [➙ 92]
Event: Namur Error Belt
W1
6200
P14.06 [➙ 92]
Event: Error LC Input
A
4293
P14.07 [➙ 92]
Event: Run Disabled
W1
4246
P14.08 [➙ 92]
Event: LC Input > MAX
A
4295
P14.09 [➙ 92]
Event: LC Input < MIN
A
4294
P14.10 [➙ 92]
Event: Simulation active
W2
6202
P14.11 [➙ 92]
Event: External Event 1
A
4417
P14.12 [➙ 92]
Event: External Event 2
A
4430
P14.13 [➙ 92]
Event: License Violation
A
4303
Number:
Name
Default
P15.01 [➙ 95]
Linearization ON
NO
4577
P15.02 [➙ 95]
Linearization S1
25 % Q
4681
P15.03 [➙ 95]
Linearization I1
25 % Q
4579
P15.04 [➙ 95]
Linearization S2
50 % Q
4682
P15.05 [➙ 95]
Linearization I2
50 % Q
4581
P15.06 [➙ 95]
Linearization S3
75 % Q
4683
P15.07 [➙ 95]
Linearization I3
75 % Q
4583
P15.08 [➙ 95]
Linearization S4
100 % Q
4684
P15.09 [➙ 95]
Linearization I4
100 % Q
4585
P15.10 [➙ 95]
Event: Linearization Error
W2
4586
14 - Events Customer
Sys ID
15 - Linearization
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Customer
Sys ID
BV-H2464GB, 1201 - 61 -
Parameters
16 - Digital Inputs Number:
Name
Default
Customer
Sys ID
P16.01 [➙ 97]
Source Run Enable
DI
4245
P16.02 [➙ 97]
DI: Batch Terminate
n/a
4454
P16.03 [➙ 97]
DI: Acknowledge Events
DI
4419
P16.04 [➙ 97]
DI: Start
n/a
6207
P16.05 [➙ 97]
DI: Zero Set
n/a
4407
P16.06 [➙ 97]
DI: External Event 1
n/a
4418
P16.07 [➙ 97]
DI: External Event 2
n/a
4431
P16.08 [➙ 97]
DI: Reset Totalizer 1
n/a
5414
P16.09 [➙ 97]
DI: Reset Totalizer 2
n/a
5415
17 - Digital Outputs Number:
Name
Default
P17.01 [➙ 98]
DO: ALARM
DO
4436
P17.02 [➙ 98]
DO: Start Prefeeder
DO
4435
P17.03 [➙ 98]
DO: Scale Start
DO
4433
P17.04 [➙ 98]
DO: Actual Flow Rate MIN
DO
4438
P17.05 [➙ 98]
DO: Actual Flow Rate MAX
DO
4439
P17.06 [➙ 98]
DO: Belt load MIN
n/a
4440
P17.07 [➙ 98]
DO: Belt Load MAX
n/a
4441
P17.08 [➙ 98]
DO: Speed MIN
n/a
4442
P17.09 [➙ 98]
DO: Speed MAX
n/a
4443
P17.10 [➙ 98]
DO: Batch Running
n/a
4455
P17.11 [➙ 98]
DO: Full Feed
n/a
4457
P17.12 [➙ 98]
DO: Dribble Feed
n/a
4456
P17.13 [➙ 98]
DO: Keyboard Mode
n/a
4462
BV-H2464GB, 1201 - 62 -
Customer
Sys ID
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
18 - Communication EasyServe Number:
Name
Default
Customer
Sys ID
P18.01 [➙ 100]
Own Address
1
4520
P18.02 [➙ 100]
Baud Rate
38400
4521
P18.03 [➙ 100]
Format Data
8-N-1
6189
19 - Communication Fieldbus Number:
Name
Default
P19.01 [➙ 101]
Protocol Type
NO
4528
P19.02 [➙ 101]
Timeout Host
5s
4529
P19.03 [➙ 101]
Event: Cyclic Communication
A
4530
P19.04 [➙ 101]
Event: Acyclic Communication
A
5680
P19.05 [➙ 101]
Check in Keyboard Mode
YES
6234
P19.06 [➙ 101]
Compatibility DISOCONT Master
NO
6287
P19.07 [➙ 101]
Word Sequence
I:std/L:std
6246
P19.08 [➙ 101]
Byte Sequence
High - Low
6245
P19.09 [➙ 101]
Configuration
FIXED_8_8
4661
P19.10 [➙ 101]
Address
1
4531
P19.11 [➙ 101]
Resolution
4096
4533
P19.12 [➙ 101]
Baud rate
9600
4535
P19.13 [➙ 101]
Data Format
8-O-1
4656
P19.14 [➙ 101]
Physics
RS232
6186
P19.15 [➙ 101]
Address
16
4539
P19.16 [➙ 101]
FLOAT-Format
IEEE
4540
P19.17 [➙ 101]
Compatiblity INTECONT
NO
4788
P19.18 [➙ 101]
Identifier format
BYTE
6190
P19.19 [➙ 101]
PA32 compatible
NO
4660
P19.20 [➙ 101]
Address
63
4541
P19.21 [➙ 101]
Baud rate
125K
4542
P19.22 [➙ 101]
Access Rights Limitation FB
NO
4786
P19.23 [➙ 101]
Remote IP Address FB
192.168.240.250
4787
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Customer
Sys ID
BV-H2464GB, 1201 - 63 -
Parameters
20 - Fixed mode configuration Number:
Name
Default
Customer
Sys ID
P20.01 [➙ 106]
ID Preset Value 1
320
6247
P20.02 [➙ 106]
ID Preset Value 2
352
6248
P20.03 [➙ 106]
ID Preset Value 3
384
6249
P20.04 [➙ 106]
ID Preset Value 4
594
6250
P20.05 [➙ 106]
ID Preset Value 5
0
6251
P20.06 [➙ 106]
ID Preset Value 6
0
6252
P20.07 [➙ 106]
ID Preset Value 7
0
6253
P20.08 [➙ 106]
ID Preset Value 8
0
6254
P20.09 [➙ 106]
ID Read Value 1
752
6256
P20.10 [➙ 106]
ID Read Value 2
784
6257
P20.11 [➙ 106]
ID Read Value 3
1552
6258
P20.12 [➙ 106]
ID Read Value 4
1872
6259
P20.13 [➙ 106]
ID Read Value 5
1874
6260
P20.14 [➙ 106]
ID Read Value 6
1880
6261
P20.15 [➙ 106]
ID Read Value 7
1884
6262
P20.16 [➙ 106]
ID Read Value 8
1896
6263
Number:
Name
Default
P21.01 [➙ 108]
IP Address
192.168.240.1
6235
P21.02 [➙ 108]
Net Mask
255.255.255.0
6236
P21.03 [➙ 108]
Gateway
0.0.0.0
6237
Number:
Name
Default
P22.01 [➙ 109]
Hourly Total Time
0 min
5743
P22.02 [➙ 109]
Daily Total Time
0 min
5744
P22.03 [➙ 109]
Logger cycle time
1 min
6288
P22.04 [➙ 109]
Data Log Value 1
752
6289
P22.05 [➙ 109]
Data Log Value 2
1872
6290
P22.06 [➙ 109]
Data Log Value 3
1874
6291
21 - Ethernet Customer
Sys ID
22 - Data Logging
BV-H2464GB, 1201 - 64 -
Customer
Sys ID
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P22.07 [➙ 109]
Data Log Value 4
1880
6292
P22.08 [➙ 109]
Data Log Value 5
1884
6293
P22.09 [➙ 109]
Data Log Value 6
1896
6294
P22.10 [➙ 109]
Data Log Value 7
1898
6295
P22.11 [➙ 109]
Data Log Value 8
0
6296
P22.12 [➙ 109]
Data Log Value 9
0
6297
P22.13 [➙ 109]
Data Log Value 10
0
6298
23 - Configuration HMI Values Number:
Name
Default
Customer
Sys ID
P23.01 [➙ 111]
HMI Value 01
1996
6299
P23.02 [➙ 111]
HMI Value 02
1944
6300
P23.03 [➙ 111]
HMI Value 03
1942
6301
P23.04 [➙ 111]
HMI Value 04
1950
6302
P23.05 [➙ 111]
HMI Value 05
0
6303
P23.06 [➙ 111]
HMI Value 06
0
6304
P23.07 [➙ 111]
HMI Value 07
0
6305
P23.08 [➙ 111]
HMI Value 08
0
6306
P23.09 [➙ 111]
HMI Value 09
0
6307
P23.10 [➙ 111]
HMI Value 10
0
6308
24 - Second Display Number:
Name
Default
P24.01 [➙ 113]
Second Display active
NO
4525
P24.02 [➙ 113]
Baud rate
9600
4526
P24.03 [➙ 113]
Data Format
8-N-1
4527
P24.04 [➙ 113]
Physics
RS232
4783
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Customer
Sys ID
BV-H2464GB, 1201 - 65 -
Parameters
13.3.2 Parameter Details 13.3.2.1 Parameter Block 01 - Dialog Behaviour The parameters of this group define system behavior towards the operator and set access authorization. P01.01
Language
Alternative:
DEUTSCH ENGLISH OTHER
Default: DEUTSCH
Device dialog language. User-defined texts can be used if OTHER is selected. Texts can be written and loaded using EasyServe.
P01.02
Userdefined Text
Alternative:
FR-FRANCAIS ES-ESPANOL IT-ITALIANO CN-CHINESE JP-JAPANESE RU-RUSSIAN HU-HUNGARIAN NL-NETHERLAND XX-NEW
Default: XX-NEW
Direct switching between several built-in languages.
P01.03
Font
Alternative:
UMing 30 SAZ 30
Default: UMing 30
Adjustable character representation. The current selection offers the versions of UMing30 for Chinese and SAZ30 for Japanese symbols.
P01.04
Units
Alternative:
Metric English
Default: Metric
Switches display and parameter entry units from metric (SI units) to non-metric systems (English). All values entered will be converted automatically.
BV-H2464GB, 1201 - 66 -
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P01.05
Scale Name
Default: INTECONT Tersus VBW
Letters and characters can be used. The name appears in the upper row of the operating console and when searching through networks for controllers. Remark: The characters ";" and "=" are not accepted. During the saving procedure these characters will automatically be deleted.
P01.06 Min: 1000
Password
Default: 10000
Max: 9999
Password 1 for access protection of certain functions on the operator panel as per the following parameters. Usually the 1st password is used for the service personnel and the 2nd password for operating personnel with particular privileges. The password keyed in is shown encoded for protection. The password can be reset using EasyServe if it should be forgotten. The password set at the factory: 7353
P01.07 Min: 1000
2. Password
Default: 14389
Max: 9999
Password 2 for access protection for certain functions on the operator panel as per the following parameters. Usually the 1st password is used for the service personnel and the 2nd password for operating personnel with particular privileges. The password entered is shown encoded on the screen. The password can be reset using EasyServe if it should be forgotten. The password set at the factory: 2889
P01.08
Feeder ON/OFF
Alternative:
active not active Password 2.Password Confirm
Default: active
Defines the access protection for using the operating console. Using this parameters, access to the basic function prefeeder ON/OFF can be controlled. The following options are available: active: Access is always permitted. not active: Access is never allowed. This function is not visible in the block. Password: Access is available with the standard password. 2nd password: Access is available with the 2nd password. Confirm: The access must be confirmed for security reasons. Note: The prefeeder also has to be activated via parameters.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
BV-H2464GB, 1201 - 67 -
Parameters
P01.09
Switch Keyboard-/Normal Mode
Alternative:
active not active Password 2.Password Confirm
Default: active
Defines the access protection for using the operating console.
P01.10
Batch control
Alternative:
active not active Password 2.Password Confirm
Default: active
Defines the access protection for using the operating console.
P01.11
>0: Zero ON/OFF
Alternative:
active not active Password 2.Password Confirm
Default: active
Defines the access protection for the function at the operating console. Definition des Zugriffsschutzes für die Funktion am Bedienteil.
P01.12
Reset Counter 1
Alternative:
active not active Password 2.Password Confirm
Default: active
Defines the access protection for using the operating console.
P01.13
Reset Counter 2
Alternative:
active not active Password 2.Password Confirm
Default: active
Defines the access protection for using the operating console.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P01.14
Route Tot. ON/OFF
Alternative:
active not active Password 2.Password Confirm
P01.15
Data Log ON/OFF
Alternative:
active not active Password 2.Password Confirm
Default: not active
Default: not active
Defines the access protection for using the operating console.
13.3.2.2 13.3.2.2 Parameter Block 02 - Rated Data P02.01
Flow Rate Units
Alternative:
------ kg/h ----.- kg/h ---.-- kg/h --.--- kg/h ------ t/h ----.- t/h ---.-- t/h --.--- t/h ------ kg/s ----.- kg/s ---.-- kg/s --.--- kg/s ----- kg/min -----.- kg/min ----.-- kg/min ---.--- kg/min
Default: ------ t/h
Display format for setpoint and actual feed rate values.
P02.02 Min: 0.0001 t/h
Nominal Flow Rate
Default: 400 t/h
Max: 230000 t/h
The nominal feed rate is a scales' characteristic and serves as a reference value for threshold values and service messages. The parameter value can be set using an adjustment program or by automatic adaptation.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
BV-H2464GB, 1201 - 69 -
Parameters
P02.03
Speed Measurement
Alternative:
DI n/a
Default: DI VCU1.DI5 High
The source for recording the belt speed. You can use a NAMUR transmitter.
P02.04 Min: 0.1 I/m
Pulses per length
Default: 50.26 I/m
Max: 1000000 I/m
Number of speed transducer pulses per belt length meter. If noch tacho is active don't change characteristic value vs. This would change the timing of calibration programs.
P02.05 Min: 0.001 m/s
Nominal Speed
Default: 1 m/s
Max: 50 m/s
Serving as reference value for limit value monitoring, nominal speed determines nominal belt load together with nominal feed rate. Value should be accurate to some percent.
P02.06
Feeder Start
Alternative:
OP FB DI V
Default: OP
Specifies the device that will turn on the scales. The digital input is flank-controlled, i.e. the ON signal must be removed and then reapplied if the scales becomes inoperative because of e.g. an alarm.
P02.07
Counter 1 Unit
Alternative:
------- kg -----.- kg ----.-- kg ---.--- kg ------- t -----.- t ----.-- t ---.--- t
Default: ------- t
Display format for counter 1.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P02.08 Min: 0 ms
Pulse Length Total
Default: 0 ms
Max: 10000 ms
Duration of an external totalizing counter output impulse. The weighting of an impulse is defined by P02.12 Totalizer Increment If the impulse duration is shorter than 10 ms the impulse output is disabled. All impulses not issued yet are cleared. At nominal feed rate the output frequency f is: f [Hz] = Pnom / 3600 * Zmin Pnom = Nominal feed rate in kg/h or t/h (see P02.02 Nominal Flow Rate) Zmin = Smallest display unit of counter 1 in kg or t (see P02.07 Counter 1 Unit) The output frequency must be ≤ 10 Hz if an external counter is connected. Refer also to chapter 'Appendices' → 'Impulse Output for External Totalizing Counter'.
P02.09
Counter 2 Unit
Alternative:
------- kg -----.- kg ----.-- kg ---.--- kg ------- t -----.- t ----.-- t ---.--- t
Default: ------- t
Display format for counter 2
P02.10
Counter 3 Unit
Alternative:
------- kg -----.- kg ----.-- kg ---.--- kg ------- t -----.- t ----.-- t ---.--- t
Default: ------- t
Display format for counter 3.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
BV-H2464GB, 1201 - 71 -
Parameters
P02.11
DO: Pulse Counter
Alternative:
n/a DO
Default: n/a
DO: Selecting the physical output for triggering an external pulse counter for the measured quantity Bear in mind the limitations on speed and life cycle when selecting a relay output and set the weight equivalent for an impulse in P02.12 Totalizer Increment. The duration of the impulse is set by P02.08 Pulse Length Total. n/a: It is output through contact X3 1, 2 where the output frequency may not be in excess of 10 Hz.
P02.12
Totalizer Increment
Min: 0 kg
Default: 10 kg
Max: 100000 kg
Weight equivalent of an impulse at the output for the external counter as per P02.11 DO: Pulse Counter. The DO: Pulse Counter is blocked when setting the valence 0.
P02.13
Z1-Numberstep
Alternative:
Automatic 2 kg 5 kg 20 kg 50 kg 200 kg 500 kg 0.02 t 0.05 t 0.2 t 0.5 t
Default: Automatic
Determines the increment value für counter 1 and all batch values. Parameter P02.07 Counter 1 Unit applies for "Automatic". The increment value only applies to the local display and for printouts.
13.3.2.3 Parameter Block 03 - Calibration Data P03.01 Min: 1
Belt Circuit No.
Default: 1
Max: 100
Sets the runtime of the programs zero, tare and weight check. Does not apply for the automatic zero setting device.
P03.02 Min: 1 s
Belt Circuit Time
Default: 30 s
Max: 9999 s
Determines the measurement period for the impulse/belt circuit calibration program. Usually, the time chosen is the time required for one belt circuit.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P03.03
LC Characteristic Value
Min: 0.01 mV/V
Default: 2.85 mV/V
Max: 9.9999 mV/V
Characteristic value (transmission factor) of the load cell.
P03.04
LC Rated Capacity
Min: 0.5 kg
Default: 220 kg
Max: 220000 kg
The total of the load cell rated loads for recording the weight of the continuous scale.
P03.05
Effective Platform Length
Min: 0.1 m
Default: 1 m
Max: 50 m
Effective weigh bridge length.
P03.06 Min: 0.01
Lever Ratio
Default: 1
Max: 2
Lever ratio between the weigh hopper and the load cell. For scales that use levers for the application of force to the load cell, this sets the ratio between the weight and the force acting on the load cell.
P03.07 Min: 0 Grad
Angle
Default: 0 Grad
Max: 60 Grad
The inclination of the longitudinal axis of the scale when the load cell is installed vertical to the belt.
P03.08 Min: 0.001 kg
Calibration Weight
Default: 50 kg
Max: 22000 kg
Required for the calibration program CW: Span Calibration. Also refer to: P04.02 Range Correction
13.3.2.4 Parameter Block 04 - Calibrat. Results P04.01 Min: 0.06 kg/m
Nominal Belt Load
Default: 111.11 kg/m
Max: 10000 kg/m
Reference for limit values and zeroing program. This is calculated from Nominal Flow Rate P02.02 and Nominal Speed P02.05.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
BV-H2464GB, 1201 - 73 -
Parameters
P04.02 Min: 0.5
Range Correction
Default: 1
Max: 2
The parameter affects the belt-load measurement F proportionally. Q(corrected) = Q(measured) * P04.02
P04.03 Min: 0 kg/m
Total Tare
Default: 0 kg/m
Max: 10000 kg/m
Total Tare = Basic Tare + Tare Correction
P04.04 Min: 0 kg/m
Basic Tare
Default: 0 kg/m
Max: 10000 kg/m
Results of the taring adjustment program.
P04.05
Tare Correction
Min: -1000 kg/m
Default: 0 kg/m
Max: 1000 kg/m
Results of the >0< Zero Set adjustment program or automatic zero setting.
P04.06 Min: 0 I/B
Belt Circuit No.
Default: 1000000 I/B
Max: 9000000 I/B
Result of program LB: Pulses/Belt. Defines the cycle of the calibration programs. Divided by P02.04 Pulses per length results the belt length in m.
13.3.2.5 Parameter Block 05 - Analog Outputs The parameters in this group select the control source for the analog output channels. On the VCU 20104 controller only one analog channel is available and it is set to feedrate feedback by default. P05.01
AO: Actual Flow Rate
Alternative:
AO n/a
Default: AO VCU1.DO4
Analog output channel for the actual feed rate. Also refer to: P05.02 Flow Rate Offset, P05.03 Flow Rate Range
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P05.02
Flow Rate Offset
Min: -200 mA
Max: 200 mA
Default: 4 mA
Output current for an actual feed rate value of 0 %. Reference: P02.02 Nominal Flow Rate Also refer to: P05.01 AO: Actual Flow Rate
P05.03 Min: 0 mA
Flow Rate Range
Default: 20 mA
Max: 1000 mA
Output current for the value of an actual feed rate of 100 %. Reference: P02.02 Nominal Flow Rate Also refer to: P05.01 AO: Actual Flow Rate
P05.04
AO: Belt Load
Alternative:
n/a AO
Default: n/a
Analog output source for the belt load.
P05.05
Belt Load Offset
Min: -200 mA
Max: 200 mA
Default: 4 mA
The output flow for the value of the belt load of 0 % Reference: P04.01 Nominal Belt Load Also refer to: P05.04 AO: Belt Load
P05.06 Min: 0 mA
Belt Load Range
Default: 20 mA
Max: 1000 mA
The output flow for the value of the belt load of 100 %. Reference: P04.01 Nominal Belt Load Also refer to: P05.04 AO: Belt Load
P05.07
AO: Speed
Alternative:
n/a AO
Default: n/a
The analog output source for belt speed.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
BV-H2464GB, 1201 - 75 -
Parameters
P05.08
Speed Offset
Min: -200 mA
Max: 200 mA
Default: 4 mA
The output flow for the value of the belt speed of 0 %. Reference: P02.05 Nominal Speed Also refer to: P05.07 AO: Speed
P05.09 Min: 0 mA
Speed Range
Default: 20 mA
Max: 1000 mA
The output flow for the value of the belt speed of 100 %. Reference: P02.05 Nominal Speed Also refer to: P05.07 AO: Speed
13.3.2.6 Parameter Block 06 - Limit Values The parameters of this group define the limits for process values and specify the event classes of the associated events. Events that can only occur with regular feed operation are only monitored 10 s after beginning feed operation. P06.01
Limit: Actual Flow Rate MIN
Min: -10 % Io
Max: 200 % Io
Default: 5 % Io
Lower threshold for the actual feed rate. Reference : P02.02 Nominal Flow Rate
P06.02
Event: Actual Flow Rate MIN
Event Group: LO
Default: W2
Number: 02
Actual feed rate lower than the minimum value set in Limit: Actual Flow Rate MIN Possible causes: - no bulk material - disturbance forces from force shunts or pressures acting on the weighing equipment - feed rate setpoint too low
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P06.03
Limit: Actual Flow Rate MAX
Min: -10 % Io
Max: 200 % Io
Default: 120 % Io
Upper threshold for the actual feed rate. Reference : P02.02 Nominal Flow Rate
P06.04
Event: Actual Flow Rate MAX
Event Group: HI
Default: W2
Number: 02
Actual feed rate greater than the maximum value set in P06.03 Limit: Actual Flow Rate MAX Possible causes: - bulk material shooting out of the discharge chute - disturbance forces from force shunts or pressures acting on the weighing equipment - feed rate setpoint too large
P06.05
Limit: Belt Load MIN
Min: -10 % Q
Max: 200 % Q
Default: 20 % Q
Lower limit for belt load. Reference: P04.01 Nominal Belt Load
P06.06
Event: Belt Load MIN
Event Group: LO
Default: W2
Number: 03
The belt load is less than the minimum value set in Limit: Belt Load MIN Possible causes: - no bulk material - disturbance forces from force shunts or pressures acting on the weighing equipment
P06.07
Limit: Belt Load MAX
Min: -10 % Q
Max: 200 % Q
Default: 120 % Q
Upper limit for the belt load Reference: P04.01 Nominal Belt Load
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Parameters
P06.08
Event: Belt Load MAX
Event Group: HI
Default: W2
Number: 03
The belt load is greater than the maximum value set in P06.07 Limit: Belt Load MAX Possible causes: - bulk material shooting out of the discharge chute - disturbance forces from force shunts or pressures acting on the weighing equipment
P06.09
Limit: Speed MIN
Min: -10 % V
Max: 200 % V
Default: 5 % V
Lower limit for belt speed. Reference: P02.05 Nominal Speed
P06.10
Event: Speed MIN
Event Group: LO
Default: W2
Number: 04
The belt speed is less than the minimum value set in Limit: Speed MIN
P06.11
Limit: Speed MAX
Min: -10 % V
Max: 200 % V
Default: 120 % V
Upper limit for belt speed. Reference: P02.05 Nominal Speed
P06.12
Event: Speed MAX
Event Group: HI
Default: W2
Number: 04
The belt speed is greater than the maximum value set in Limit: Speed MAX
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
13.3.2.7 Parameter Block 07 - Filters The parameters of this group define the time constants of the filters for measurement and display. All of the filters are 1st order (exponentially). That means that approximately 2/3 of the final value is reached after the time set with a volatile change in the signal. Long times result in a smooth but slowly-updating display. P07.01 Min: 0 s
Filter: Actual Flow Rate
Default: 3 s
Max: 600 s
Filter time constant for the display and for outputs of the actual feed rate at the operating console, EasyServe and all fieldbuses. Has no effect on the feeder regulation.
P07.02 Min: 0 s
Filter: Actual Flow Rate analog
Default: 3 s
Max: 600 s
Filter time constant for the actual feed rate analog output.
P07.03 Min: 0 s
Filter: Belt Load
Default: 3 s
Max: 600 s
Belt load display
P07.04 Min: 0 s
Filter: Belt Speed
Default: 3 s
Max: 600 s
Belt speed display
P07.05 Min: 0 s
LC Filter
Default: 1 s
Max: 600 s
The load cell filters affects all load cell related measuring values. In general this value should be left at the factory setting. Note: filtering the load cell signal also effects the regulating action.
P07.06 Min: 0 s
Afterflow Totalizer
Default: 3 s
Max: 2000 s
Once shut off the scales continue to measure for this duration of time the trickle of material still flowing.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
BV-H2464GB, 1201 - 79 -
Parameters
13.3.2.8 Parameter Block 08 - AUTO Zero Set P08.01
Auto Zero Active
Alternative:
NO YES
Default: NO
Preselection of the automatic zeroing system that corrects the zero point after each belt circuit with an empty belt. Reference: P04.01 Nominal Belt Load Preconditions: - v > vmin - no active set-up program - no active parameter input
P08.02 Min: 0 % Q
Limit Value Difference
Default: 0.5 % Q
Max: 10 % Q
First precondition for the automatic zeroing system. Defines the uniformity of the mean belt load between two subsequent belt circuits.
P08.03 Min: 0 % Q
Mean Limit Value
Default: 1 % Q
Max: 10 % Q
Second precondition for the automatic zeroing system. Determines the max. permitted mean value of the belt load via two subsequent belt circuits. Reference: P04.01 Nominal Belt Load
P08.04 Min: 0 % Q
Zeroing Limit
Default: 5 % Q
Max: 4 % Q
Maximum permitted amount of the sum of all zero setting interventions into the manual and automatic zero setting device. Reference: P04.01 Nominal Belt Load
P08.05
Event: Tare Correction
Event Group: CA
Default: W1
Number: 06
The tare value calculated by the automatic zeroing system is in excess of P08.04 Zeroing Limit. The value is not accepted.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P08.06 Min: 1 h
Zero Set Time
Default: 4 h
Max: 999 h
There has to be either manual or automatic zero setting or taring within this time.
P08.07
Event: Time elapsed
Event Group: CA
Default: IG
Number: 13
P02.05 Nominal Speed is past.
P08.08
Print Result
Alternative:
NO YES
Default: NO
Print the result of the zeroing after each belt circuit.
P08.09 Min: 0 % Q
Zero Set Difference
Default: 5 % Q
Max: 100 % Q
Permitted sum of the difference between two consequent zero setting interventions into the manual or automatic zeroing system.
P08.10
Event: Tare Difference > MAX
Event Group: CA
Default: W2
Number: 12
P08.09 Zero Set Difference is past.
P08.11
Zero Drop-Out Active
Alternative:
NO YES
Default: NO
YES: Activating the zero drop-out equipment.
P08.12 Min: 0 % Q
Zero Drop-Out Limit
Default: 1 % Q
Max: 10 % Q
Recording the total is suppressed with measurements within this limit around the zero point to ensure that the counter remains constant when the belt is idle. No feature appears on the display. Reference: P04.01 Nominal Belt Load
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
BV-H2464GB, 1201 - 81 -
Parameters
13.3.2.9 Parameter Block 09 - Batch Mode The parameters of this group define and optimize behavior in batching mode. P09.01 Min: 0 kg
P09.02
Pre-cut-off Amount
Default: 100 kg
Max: 220000 kg
Correction Amount
Min: -1000000 kg
Default: 0 kg
Max: 220000 kg
Can be used to correct the stop signal with next batch. The correction quantity should be set to 0 on commissioning.
P09.03 Min: 0
Adaptation Factor
Default: 1
Max: 1
The application point of the switch-off function is adapted automatically so that the system is better adapted to the actual conditions for the next batch. Adaptation Factor = 0 : no adaptation Adaptation Factor = 1 : full adaptation Interim values result in filtered adjustment; this should be used in particular for systems with poor reproducibility. The result of the event is stored in P09.02 Correction Amount. P09.02 NEW = P09.02 OLD - Batch Residual Amount * P09.03
P09.04 Min: 0 %
Batch Tolerance +
Default: 1 %
Max: 100 %
Limit for overdosage. If the batch lies outside of the tolerance range, the maximum alteration of the correction quantity at adaptation is the entered tolerance value. Also, an event is identified.
P09.05 Min: 0 %
Batch Tolerance -
Default: 1 %
Max: 100 %
Limit for underdose. If the batch lies outside of the tolerance range, the maximum alteration of the correction quantity at adaptation is the entered tolerance value. Also, an event is identified.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P09.06
Event: Out of Tolerance
Event Group: MF
Default: W1
Number: 06
The batch result is outside the tolerance range. Possible causes: - highly erratic material flow - altered feeder discharge behavior - error in weight calculation due to disturbance forces
P09.07
Belt Empty
Alternative:
NO YES
Default: NO
NO: Batch without emptying the belt. Batching is ended by stopping the belt. YES: Batch and empty the belt. Batching is ended by switching off the material prefeeder. The bin feeder has to be active. Refer to P12.01.
P09.08
Event: Batch > Setpoint
Event Group: CO
Default: IG
Number: 09
The actual batch value currently reached is past the setpoint by the amount of the P09.04 tolerance. The CO09 message is given and monitoring for the current batch has expired after acknowledging (including the alarm).
P09.09
Batch Setpoint Source
Alternative:
OP FB
Default: OP
Establish the source that will determine the batch.
P09.10
Batch Automatic Record
Alternative:
NO YES
Default: NO
YES: automatic print after each completed batch. NO: Printout of the batch can only be made via menu. The printout can be made only after a batch has ended automatically or manually. The printout is stored to a file that can be read using the Web-Server. INTECONT Tersus additionaly may use a printer.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
BV-H2464GB, 1201 - 83 -
Parameters
P09.11
Reset print FMZ 1
Alternative:
NO YES
Default: NO
YES: Clearing counter 1 when the next batch starts (if the batch has been recorded). NO: Counter 1 can only be deleted via the operating function.
P09.12
Reset print FMZ 2
Alternative:
NO YES
Default: NO
as P09.11 for counter 2.
13.3.2.10
Parameter Block 10 - Printer Setting
P10.01
Baud rate
Alternative:
1200 2400 4800 9600 19200 38400
P10.02
Print Subtotal
Alternative:
Error YES NO
P10.03
Print after STOP
Alternative:
NO YES YES+Z1 res YES+Z2 res YES+Z1+2 res
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Default: 9600
Default: Error
Default: NO
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P10.04 Min: 9
Print Page Length
Default: 72
Max: 128
The page length must be larger than the number of print data by at least 4. The line spacing is always 1/6 inch. Form feed is not issued at value 128 at the end of the sheet.
P10.05 Min: 0
P10.06 Min: 0
P10.07 Min: 0
P10.08 Min: 0
P10.09 Min: 0
P10.10 Min: 0
P10.11 Min: 0
Batch Setpoint Line
Default: 6
Max: 117
Batch Setpoint Column
Default: 8
Max: 127
Batch Actual Value Line
Default: 7
Max: 117
Batch Actual Value Column
Default: 8
Max: 127
FMZ 1 Line
Default: 8
Max: 117
FMZ 1 Column
Default: 8
Max: 127
FMZ 2 Line
Default: 9
Max: 117
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Parameters
P10.12 Min: 0
P10.13 Min: 0
P10.14 Min: 0
P10.15 Min: 0
P10.16 Min: 0
P10.17 Min: 0
P10.18 Min: 0
P10.19 Min: 0
P10.20 Min: 0
FMZ 2 Column
Default: 8
Max: 127
Date/Time Line
Default: 4
Max: 117
Date/Time Column
Default: 8
Max: 127
Event Line
Default: 12
Max: 117
Event Column
Default: 8
Max: 127
Last Zero Set Line
Default: 10
Max: 117
Last Zero Set Column
Default: 8
Max: 127
Batchnumber Line
Default: 3
Max: 117
Batchnumber Column
Default: 8
Max: 127
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
13.3.2.11
Parameter Block 11 - Maintenance interval
The parameters of this group define maintenance intervals and the internal accuracy analysis function. P11.01 Min: 1 h
Maintenance Electric
Default: 3000 h
Max: 10000 h
Indication of maintenance work that may need to be performed, dependent on the duty cycle of the power supply. This parameter defines the interval between maintenance work. Also refer to: P11.02 Event: Maint. Electric
P11.02
Event: Maint. Electric
Event Group: SC
Default: W1
Number: 03
The sum of the times during which the mains voltage is on is greater than the time 'voltage ON'. A message occurs after each expired time interval. The message may indicate service work required. See also: P11.01 Maintenance Electric
P11.03 Min: 1 h
Maintenance Feeder Run
Default: 3000 h
Max: 10000 h
Indication of maintenance work that may need to be performed, dependent on the duty cycle of the scales (scales ON). This parameter defines the interval between maintenance work. Also refer to: P11.04 Event: Maint.Feeder Run
P11.04
Event: Maint.Feeder Run
Event Group: SC
Default: W1
Number: 04
The sum of the runtimes of the conveying elements is greater than the time 'Scales ON' (P11.03 Maintenance Feeder Run). A message occurs after each expired time interval. The message may indicate service work required.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
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Parameters
13.3.2.12
Parameter Block 12 - Feeder Control
P12.01
Feeder Active
Alternative:
NO YES
Default: NO
YES: The prefeeder can be turned on and off with a dialog function. When turned on, the prefeeder is controlled by weighing operation. NO: The dialog function is masked. The control output is always set to prefeeder OFF.
P12.02 Min: 0 s
Setting Time
Default: 0 s
Max: 1000 s
Material prefeeder floating time
P12.03 Min: 0 m
Feed Distance
Default: 0 m
Max: 10000 m
Conveyor length from material prefeeder to the end of the weighing platform. Input only required with full-feeddribble feed through the prefeeder.
P12.04
Motor STOP immediately
Alternative:
NO YES
Default: NO
NO: After a switch-off command or batch end, the belt conveyor will continue to run for the P12.02 Setting Time time. YES: The belt conveyor stops immediately. This parameter applies only with preselected batch operation. The belt usually stops immediately.
P12.05
Change-over Full Feed/Dribble Feed
Alternative:
NO YES
Default: YES
Depending upon the P09.07 Belt Empty parameter P09.07 = YES: run the belt empty and P12.05 does not have a function. P09.07 = NO: do not run the belt empty and you can decide with P12.05 between coarse and fine control over the belt conveyor (NO) or on the prefeeder (YES).
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
13.3.2.13
Parameter Block 13 - Belt Monitoring
P13.01
VAP Active
Alternative:
NO YES
Default: NO
If measurement is made at the discharge point VAP, the weighing platform measuring point is repositioned to the material discharge point by a delay element. The totalized amount of material discharged is directly recorded. Note: If VAP is active, we recommend turning on automatic belt influence compensation (BIC). The conditions: The length ratio from the middle of the weighbridge to material discharge to the entire length of the conveyor belt is known.
P13.02 Min: 0 % LB
Platform Dis.Length
Default: 0 % LB
Max: 50 % LB
The space from the middle of the weighbridge to the material discharge in % of the entire belt length (refer to P04.06 Belt Circuit No.)
P13.03
Belt Sensor Active
Alternative:
NO YES
Default: NO
The belt sensor and sensor surface in the conveyor belt are used for identifying Belt Drift and Slip Value and synchronizing adaptive belt influence compensation (BIC).
P13.04
DI: Source Belt Sensor
Alternative:
DI n/a
P13.05
BIC Active
Alternative:
NO YES
Default: DI VCU1.DI4 High
Default: NO
Automatic belt influence compensation (BIC) monitors and corrects the belt influence. It needs a sensor and sensor surface just like belt monitoring. Note: It is started up for the first time without activating BIC. Characteristics: After activating belt influence compensation, the influence that the conveyor belt has on the measurement is compensated after approximately ten belt circuits.
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Parameters
P13.06
Sensor Length
Min: 0.01 cm
Max: 400 cm
Default: 8.2 cm
Lenght of the conductive mark included in the belt measured in travel direction.
P13.07
Sensor Width
Min: 0.01 cm
Max: 400 cm
Default: 12 cm
width of the conductive mark included in the belt measured in 90 degrees to the belt travel direction..
P13.08
Sensor Offset
Min: -400 cm
Max: 400 cm
Default: 0 cm
The zero point of recording the belt drift can be corrected with the offset. Unfortunately, this restricts the maximum display zone. This is why greater differences should be calibrated by mechanically shifting the sensor. The new display = the old display - the offset
P13.09
Belt Drift
Min: 0.01 cm
Max: 400 cm
Default: 3 cm
Threshold of the belt drift for detection of event Event: Belt Drift.
P13.10
Event: Belt Drift
Event Group: WM
Default: W1
Number: 04
Belt out of tolerance. Action: 1. Clean tail and drive pulleys. 2. Align belt. Monitoring can be faulty. Watch belt circuit sensor service value; if need be, remedy fault. Related threshold: Belt Drift
P13.11
Belt Skew
Min: 0.01 cm
Max: 400 cm
Default: 4 cm
Threshold of the belt drift for detection of event Event: Belt Skew.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P13.12
Event: Belt Skew
Event Group: WM
Default: A
Number: 03
Belt has run off-center. Feeder is no longer operable. Action: See Event: Belt Drift Related threshold: Belt Skew
P13.13 Min: 0 % LB
Slip Value
Default: 2 % LB
Max: 10 % LB
The permitted change in length of the conveyor belt in % of the total belt length. There is a Event: Slip event message if it exceeds the limit and the P13.17 DO: Belt Slip digital output is set.
P13.14
Event: Slip
Event Group: WM
Default: W1
Number: 02
P13.15
DO: Belt Drift
Alternative:
n/a DO
Default: n/a
The digital output to show the event of drift. Also refer to: P13.09 Belt Drift and P13.10 Event: Belt Drift
P13.16
DO: Belt Skew
Alternative:
n/a DO
Default: n/a
Digital output reporting Belt Skew event. See also: P13.11 Belt Skew and P13.12 Event: Belt Skew
P13.17
DO: Belt Slip
Alternative:
n/a DO
Default: n/a
The digital output to show Event: Slip. Also refer to P13.13 Slip Value .
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
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Parameters
P13.18
DI: BIC freeze
Alternative:
n/a DI FB
Default: n/a
The BIC values currently running in are frozen when this digital input is set. This prevents the values already ascertained from being falsified on belt loads that fluctuate greatly.
13.3.2.14
Parameter Block 14 - Events
P14.01
Event: Power Failure
Event Group: WE
Default: A
Number: 01
This event is identified once the power supply is restored. The scales will not switch on automatically, regardless of the event class. The event must first be acknowledged and the command to start given again before the scales will restart.
P14.02
Event: Memory
Event Group: SY
Default: A
Number: 01
The program and parameters memory are checked cyclically. An error has occurred during that. The scales will no longer function correctly. Steps to take: - load the factory settings - Normally the hardware has to be replaced.
P14.03
Event: Tachometer Input
Event Group: CA
Default: A
Number: 02
The signals at the feeder drive's impulse speedometer input are outside of the specified range. Possible causes: - there is a fault in the speed impulse sensor cable (check the shielding and the wiring). - the sensor has been incorrectly calibrated
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P14.04
Event: Namur Error Tacho
Event Group: WE
Default: A
Number: 09
A short-circuit or break in the cable to the velocity sensor. The internal velocity value is set to 0 if a Namur error occurs. The frequency display (service value) is still active. The event message has to be on IG when connecting up other equipment (not Namur). External Namur adapters and resistance wiring, etc. are not needed.
P14.05
Event: Namur Error Belt
Event Group: WE
Default: W1
Number: 10
A short-circuit or break in the cable of the belt circuit sensor (BIC).
P14.06
Event: Error LC Input
Event Group: CA
Default: A
Number: 01
The load cell cable is improperly connected, not connected or has been interrupted. The load cell may be faulty. Steps to take: - check the cabling and the load cell - check the load cell Note: The power supply must be switched off and on again if the scales still cannot be switched on even after the error has been rectified.
P14.07 Event Group: IL
Event: Run Disabled
Default: W1
Number: 01
No release signal from the source determined by P16.01. If this event is pending then the downstream transport equipment is most likely not switched on.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
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Parameters
P14.08
Event: LC Input > MAX
Event Group: HI
Default: A
Number: 01
The load acting on the load cell is greater than 110 % of the sum of the nominal loads of the load cells. Measuring range end: 125 % for load cells with 2.85 mV/V 175 % for load cells with 2 mV/V Possible causes: - Shunt forces or compression ratios bring about incorrect load cell loading - incorrect cabling - faulty load cell
P14.09
Event: LC Input < MIN
Event Group: LO
Default: A
Number: 01
The load cell load is less than 3 % of the sum of the load cell nominal loads. Possible reasons: - force shunts or pressure ratios can reduce significantly the load on the load cell - incorrect cabling - faulty load cell
P14.10
Event: Simulation active
Event Group: SY
Default: W2
Number: 14
Simulation operation is on.
P14.11
Event: External Event 1
Event Group: SC
Default: A
Number: 05
External interference signal at fault input 1. Possible cause: depends on the external cabling. Usually: an error in the main drive
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P14.12
Event: External Event 2
Event Group: SC
Default: A
Number: 06
External interference signal at fault input 2. Possible cause: depends on the external cabling.
P14.13
Event: License Violation
Event Group: SY
Default: A
Number: 09
The option selected in the P19.01 Protocol Type parameter is not activated. It has to be cleared. Refer to the Option activate function
13.3.2.15
Parameter Block 15 - Linearization
The parameters of this group define the characteristic curve of a non-linear external structural component. P15.01
Linearization ON
Alternative:
NO YES
Default: NO
Belt load measuring can be linearized with this parameters. The 4 linearization points can be determined by calibration with calibration weights or using material. Not required or not measured points must be laid either outside the measuring range or must be interpolated. Detailed calibration instructions are in the appendix.
P15.02 Min: 0.01 % Q
Linearization S1
Default: 25 % Q
Max: 1000 % Q
Linearization point 1: Actual belt load, e.g. determined using calibration weights or by material measurement.
P15.03 Min: 0.01 % Q
P15.04 Min: 0.01 % Q
Linearization I1
Default: 25 % Q
Max: 1000 % Q
Linearization S2
Default: 50 % Q
Max: 1000 % Q
Linearization point 2. Otherwise as P15.02 Linearization S1
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Parameters
P15.05
Linearization I2
Min: 0.01 % Q
P15.06
Default: 50 % Q
Max: 1000 % Q
Linearization S3
Min: 0.01 % Q
Default: 75 % Q
Max: 1000 % Q
Linearization point 3. Otherwise as P15.02 Linearization S1
P15.07
Linearization I3
Min: 0.01 % Q
P15.08
Default: 75 % Q
Max: 1000 % Q
Linearization S4
Min: 0.01 % Q
Default: 100 % Q
Max: 1000 % Q
Linearization point 4. Otherwise as P15.02 Linearization S1
P15.09
Linearization I4
Min: 0.01 % Q
P15.10
Default: 100 % Q
Max: 1000 % Q
Event: Linearization Error
Event Group: CA
Default: W2
Number: 05
Not a monotonically increasing curve. A monotonically increasing compensation curve is monitored: - when the linearization is switched on, - when the parameter is altered
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
13.3.2.16
Parameter Block 16 - Digital Inputs
The parameters in this group are used to associate various controller functions with specific digital input channels and to associate events with those functions. Most of the functions specified in this group are hard wired on the controller and cannot be changed.
P16.01
Source Run Enable
Alternative:
DI FB n/a
Default: DI VCU1.DI3 High
Determines the signal input that gives the scales release signal. This input is generally used for interlocking with downstream transport equipment. The setting 'n/a' means that no release is required.
P16.02
DI: Batch Terminate
Alternative:
n/a DI
Default: n/a
Digital input signal for stopping a current batch.
P16.03
DI: Acknowledge Events
Alternative:
DI n/a
Default: DI VCU1.DI1 High
Digital input for acknowledging event messages. Caution: the level is static and may not be on permanently (otherwise continuous acknowledgement).
P16.04
DI: Start
Alternative:
n/a DI
Default: n/a
If OP is selected as the turn-on source, the digital input that the scale can be started with using a turn-on impulse can be configured here in parallel to the ON/OFF buttons on the keyboard. The scale is turned off by an impulse on the digital input P16.01 Source Run Enable.
P16.05
DI: Zero Set
Alternative:
n/a DI
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Default: n/a
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Parameters
P16.06
DI: External Event 1
Alternative:
n/a DI
Default: n/a
Input 1 for an external interference signal. The input is also linked to the internal interference logic (block: interlocking).
P16.07
DI: External Event 2
Alternative:
n/a DI
Default: n/a
Input 2 for an external interference signal.
P16.08
DI: Reset Totalizer 1
Alternative:
n/a DI
Default: n/a
Digital input for canceling totalizing counter 1. The positive flank is the actuator.
P16.09
DI: Reset Totalizer 2
Alternative:
n/a DI
Default: n/a
Digital input for clearing totalizing counter 2. The positive flank takes effect.
13.3.2.17
Parameter Block 17 - Digital Outputs
The parameters in this group are used to associate various controller functions with specific digital output channels. Most of the functions specified in this group are hard wired at assembly. P17.01
DO: ALARM
Alternative:
DO n/a
Default: DO VCU1.DI11 Low
The output becomes active if any alarm is triggered (common alarm). The scales have failed.
P17.02
DO: Start Prefeeder
Alternative:
DO n/a
Default: DO VCU1.DI14 High
The digital output for turning the prefeeder on or off.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P17.03
DO: Scale Start
Alternative:
DO n/a
Default: DO VCU1.DI15 High
Sends a start command to the feeder's main drive.
P17.04
DO: Actual Flow Rate MIN
Alternative:
DO n/a
Default: DO VCU1.DI12 Low
The output signal becomes active if the feed rate falls below the minimum feed rate (P06.01 Limit: Actual Flow Rate MIN). The contact output is independent of the event class.
P17.05
DO: Actual Flow Rate MAX
Alternative:
DO n/a
Default: DO VCU1.DI10 Low
The output signal becomes active when the maximum feed rate (P06.03 Limit: Actual Flow Rate MAX) is exceeded. The contact output is independent of the event class.
P17.06
DO: Belt load MIN
Alternative:
n/a DO
P17.07
DO: Belt Load MAX
Alternative:
n/a DO
P17.08
DO: Speed MIN
Alternative:
n/a DO
P17.09
DO: Speed MAX
Alternative:
n/a DO
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Default: n/a
Default: n/a
Default: n/a
Default: n/a
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Parameters
P17.10
DO: Batch Running
Alternative:
n/a DO
Default: n/a
The output becomes active if a batch is run. The signal is activated on the start of the batch and deactivated once the batch has been completed. It remains active if batch operation is continuous.
P17.11
DO: Full Feed
Alternative:
n/a DO
Default: n/a
The output becomes active in the full feed phase.
P17.12
DO: Dribble Feed
Alternative:
n/a DO
Default: n/a
The output becomes active in the dribble feed phase.
P17.13
DO: Keyboard Mode
Alternative:
n/a DO
Default: n/a
The output becomes active when keyboard mode is preselected. (The DISOCONT Tersus is operated using the operating console VHM).
13.3.2.18
Parameter Block 18 - Communication EasyServe
The parameters of this group define the parameters for serial communication with EasyServe via RS232 or RS485. These parameters have no function if EasyServe is connected via Ethernet. P18.01 Min: 1
Own Address
Default: 1
Max: 1
Relevant only for EasyServe connection via RS232 or RS485. This parameter is used for information only. The address cannot be changed. Also refer to: P18.02 Baud Rate, P18.03 Format Data
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P18.02
Baud Rate
Alternative:
38400
Default: 38400
Relevant only for EasyServe connection via RS232 or RS485. Data transfer speed. This parameter is used for information only. The speed cannot be changed.
P18.03
Format Data
Alternative:
8-N-1
Default: 8-N-1
Relevant only for EasyServe connection via RS232 or RS485. Formats the serial data.
13.3.2.19
Parameter Block 19 - Communication Fieldbus
The parameters of this group define the communication procedure to be used to a higher-level plant control system and configure the data link. P19.01
Protocol Type
Alternative:
NO Modbus-RTU PROFIBUS DP DeviceNet Modbus-TCP Ethernet/IP
Default: NO
Type of communication protocol. Some types of fieldbus need their respective fieldbus card. The manual Data Communication BV-H2448 contains further details on the data structures. NO: It is possible to read via Modbus-TCP, although writing access is not processed. Modbus: Modbus-RTU protocol; RS232, RS422 or RS485 interface; the VSS 28020 fieldbus interface card has to be installed. PROFIBUS DP: Fieldbus interface card VPB 28020 must be installed. DeviceNet: The VCB 28020 fieldbus interface card has to be installed. Modbus-TCP: communication via Ethernet (RJ45 to X5). Ethernet/IP: communication via Ethernet (RJ45 to X5). Can be cleared as an option.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
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Parameters
P19.02 Min: 1 s
Timeout Host
Default: 5 s
Max: 600 s
Monitors the interface A telegram from the host system will be expected within the time set if the timeout value is greater than zero.
P19.03
Event: Cyclic Communication
Event Group: SY
Default: A
Number: 08
Cyclical serial communication with the higher-order plant control system has been interrupted for longer than the timeout-period. To rectify: check cable connections.
P19.04
Event: Acyclic Communication
Event Group: SY
Default: A
Number: 10
Incorrect data in the noncyclical communication to host computer. Possible cause: poor programming of the host computer
P19.05
Check in Keyboard Mode
Alternative:
NO YES
Default: YES
If the data link fails, this parameter can be used to deactivate fieldbus communication monitoring in keyboard mode so that keyboard mode can be used for emergency operation without needing to sign off the fieldbus link. This allows the scales to be operated even if the fieldbus link fails.
P19.06
Compatibility DISOCONT Master
Alternative:
NO YES
Default: NO
Compatibility setting for the predecessor electronics systems DISOCONT or INTECONT PLUS. NO: Not completely compatible YES: compatible, but with restricted data link compatibility for new functions
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P19.07
Word Sequence
Alternative:
I:std/L:std I:swp/L:std I:std/L:swp I:swp/L:swp
Default: I:std/L:std
The parameter determines the word sequence within a double word. I denotes IEEE 754 values (floating-point values) L denotes LONG values (4 byte integer values) std will not swap the word order swp will swap the word order
P19.08
Byte Sequence
Alternative:
High - Low Low - High
Default: High - Low
Determines the byte sequence in a data word.
P19.09
Configuration
Alternative:
NO_PARA_ID_3_6 PARA_ID_2_4 PARA_ID_3_6 FIXED_8_8 FIXED_4_4
Default: FIXED_8_8
Configuration of the data in the transfer protocol. See the manual Data Communication (BV-H2220) for details. 'Variable' formats: NO_PARA_ID_3_6: parameters are not transferred, 3 control values, 6 query values PARA_ID_2_4: parameters are transferred, 2 control values, 4 query values PARA_ID_3_6: parameters are transferred, 3 control values, 6 query values
'Fixed' formats: FIXED_8_8: 8 control values, 8 query values FIXED_4_4 4 control values, 4 query values
P19.10 Min: 1
Address
Default: 1
Max: 254
Address of the device as a slave at the modbus. Each address may be used at a bus once only.
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Parameters
P19.11 Min: 1
Resolution
Default: 4096
Max: 32767
The maximum resolution in analog format or integer format of the measured value transferred. The resolution is related to the nominal value on the respective day.
P19.12
Baud rate
Alternative:
2400 4800 9600 19200 38400
Default: 9600
Data transfer rate at Modbus-RTU.
P19.13
Data Format
Alternative:
8-O-1 8-E-1 8-N-1
Default: 8-O-1
Modbus-RTU always uses an 11-bit character frame. Example: 8-O-1 means: 1 start bit, 8 data bit, odd parity, 1 stop bit N = no parity, E = even parity)
P19.14
Physics
Alternative:
RS485-2-wire RS485-4-wire RS232
Default: RS232
Selects the electrical interface type. (Modbus-RTU)
P19.15 Min: 0
Address
Default: 16
Max: 126
The address of the slave at the PROFIBUS.
P19.16
FLOAT-Format
Alternative:
IEEE SIEMENS-KG
Default: IEEE
Information on the formats for all setpoints, measuring values and floating point parameters.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P19.17
Compatiblity INTECONT
Alternative:
NO YES
P19.18
Identifier format
Alternative:
BYTE WORD
Default: NO
Default: BYTE
The configuration bytes correspond to INTECONT PLUS if the parameter is on bytes. Otherwise, the data are written in words. Consistency always refers to a data word or double data word. This parameter together with P19.19 PA32 compatible guarantees that there is no problem exchanging with PROFIBUS Master in an existing system without having to adapt Master.
P19.19
PA32 compatible
Alternative:
NO YES
Default: NO
YES: It is filled with ZERO bytes to 32 bytes with a defined data scope <32 bytes
P19.20 Min: 0
Address
Default: 63
Max: 63
Address of the weighing electronics at the DeviceNet.
P19.21
Baud rate
Alternative:
125K 250K 500K
Default: 125K
Data transfer rate of the DeviceNet.
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
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Parameters
P19.22
Access Rights Limitation FB
Alternative:
NO FIRST WRITE REMOTE IP
Default: NO
Determines for network protocol Modbus-TCP which master system may intervene as a controller: NO: No restrictions FIRST WRITE: The subscriber that transmits the first write access gets the control rights. The other subscribers may read only. REMOTE IP: Control commands from the subscriber with the IP address given in P19.23 Remote IP Address FB only will be carried out.
P19.23
Remote IP Address FB
Default: 192.168.240.250
IP address of the subscriber with control rights for Modbus-TCP. Also refer to: P19.22 Access Rights Limitation FB
13.3.2.20
Parameter Block 20 - Fixed mode configuration
P20.01
ID Preset Value 1
Default: 320
Selecting the first control command with ID 320 (decimal) in the Fieldbus telegram. The other values can be configured as per the ID list in the Data Communication manual.
P20.02
ID Preset Value 2
Default: 352
Corresponds to P20.01 ID Preset Value 1
P20.03
ID Preset Value 3
Default: 384
Corresponds to P20.01 ID Preset Value 1
P20.04
ID Preset Value 4
Default: 594
Corresponds to P20.01 ID Preset Value 1
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P20.05
ID Preset Value 5
Default: 0
Corresponds to P20.01 ID Preset Value 1
P20.06
ID Preset Value 6
Default: 0
Corresponds to P20.01 ID Preset Value 1
P20.07
ID Preset Value 7
Default: 0
Corresponds to P20.01 ID Preset Value 1
P20.08
ID Preset Value 8
Default: 0
Corresponds to P20.01 ID Preset Value 1
P20.09
ID Read Value 1
Default: 752
Selecting the first value to be read from weighing electronics in the fieldbus telegram. The number of the value (ID) can be found in the BV-H2448 Data Communication manual.
P20.10
ID Read Value 2
Default: 784
As P20.09 ID Read Value 1
P20.11
ID Read Value 3
Default: 1552
As P20.09 ID Read Value 1
P20.12
ID Read Value 4
Default: 1872
As P20.09 ID Read Value 1
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Parameters
P20.13
ID Read Value 5
Default: 1874
As P20.09 ID Read Value 1
P20.14
ID Read Value 6
Default: 1880
As P20.09 ID Read Value 1
P20.15
ID Read Value 7
Default: 1884
As P20.09 ID Read Value 1
P20.16
ID Read Value 8
Default: 1896
As P20.09 ID Read Value 1
13.3.2.21
Parameter Block 21 - Ethernet
The parameters in this group control the Ethernet ports. P21.01
IP Address
Default: 192.168.240.1
IP address of the weighing electronics. If the control system is integrated into an Ethernet network, the address must be chosen in agreement with the network administrator. In isolated networks we recommend the factory setting 192.168.240.x. "x" allows for selection of the system on the bus.
P21.02
Net Mask
Default: 255.255.255.0
The net mask setting is based on the local network type. In general the following setting is used: 255.255.255.0 See also: P21.02 Net Mask, system manual BV-H2406
P21.03
Gateway
Default: 0.0.0.0
Generally no input is required. Usual value: 0.0.0.0
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
13.3.2.22
Parameter Block 22 - Data Logging
The parameters in this group are used to specify the time that material total data logging occurs. P22.01 Min: -1 min
Hourly Total Time
Default: 0 min
Max: 59 min
Moment at which the totalizing counter begins logging in minutes from the start of a full hour.
P22.02 Min: -1 min
Daily Total Time
Default: 0 min
Max: 1439 min
Moment at which the totalizing counter begins logging in minutes from the start of a day.
P22.03 Min: 1 min
Logger cycle time
Default: 1 min
Max: 1439 min
Logging cycle time for the Data Log Values selected by P22.04 ... P22.13.
P22.04
Data Log Value 1
Default: 752
Selects the process value for logging. The identification number of the values can be found in the Data Communication manual. See also: P22.03 Logger cycle time
P22.05
Data Log Value 2
Default: 1872
Selects the process value for logging. The identification number of the values can be found in the Data Communication manual. See also: P22.03 Logger cycle time
P22.06
Data Log Value 3
Default: 1874
Selects the process value for logging. The identification number of the values can be found in the Data Communication manual. See also: P22.03 Logger cycle time
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
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Parameters
P22.07
Data Log Value 4
Default: 1880
Selects the process value for logging. The identification number of the values can be found in the Data Communication manual. See also: P22.03 Logger cycle time
P22.08
Data Log Value 5
Default: 1884
Selects the process value for logging. The identification number of the values can be found in the Data Communication manual. See also: P22.03 Logger cycle time
P22.09
Data Log Value 6
Default: 1896
Selects the process value for logging. The identification number of the values can be found in the Data Communication manual. See also: P22.03 Logger cycle time
P22.10
Data Log Value 7
Default: 1898
Selects the process value for logging. The identification number of the values can be found in the Data Communication manual. See also: P22.03 Logger cycle time
P22.11
Data Log Value 8
Default: 0
Selects the process value for logging. The identification number of the values can be found in the Data Communication manual. See also: P22.03 Logger cycle time
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
P22.12
Data Log Value 9
Default: 0
Selects the process value for logging. The identification number of the values can be found in the Data Communication manual. See also: P22.03 Logger cycle time
P22.13
Data Log Value 10
Default: 0
Selects the process value for logging. The identification number of the values can be found in the Data Communication manual. See also: P22.03 Logger cycle time
13.3.2.23
Parameter Block 23 - Configuration HMI Values
The parameters in this group define the process variables to be displayed on the 'Values' page of the operating panel of DISOCONT Tersus. In INTECONT Tersus the display can be chosen by typing key "9". EasyServe can be used for easy configuration or the settings can be made with the help of the allocation map in the data description of the serial interface in the operating panel. P23.01
HMI Value 01
Default: 1996
Identification number (ID) of the desired process variable.
P23.02
HMI Value 02
Default: 1944
Identification number (ID) of the desired process variable.
P23.03
HMI Value 03
Default: 1942
Identification number (ID) of the desired process variable.
P23.04
HMI Value 04
Default: 1950
Identification number (ID) of the desired process variable.
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Parameters
P23.05
HMI Value 05
Default: 0
Identification number (ID) of the desired process variable.
P23.06
HMI Value 06
Default: 0
Identification number (ID) of the desired process variable.
P23.07
HMI Value 07
Default: 0
Identification number (ID) of the desired process variable.
P23.08
HMI Value 08
Default: 0
Identification number (ID) of the desired process variable.
P23.09
HMI Value 09
Default: 0
Identification number (ID) of the desired process variable.
P23.10
HMI Value 10
Default: 0
Identification number (ID) of the desired process variable.
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Parameters
13.3.2.24
Parameter Block 24 - Second Display
P24.01
Second Display active
Alternative:
NO YES
Default: NO
A DLZ055 or DLZ110 model large-scale display can be connected at interface X11. The display shows the value selected in the upper line of INTECONT Tersus. The symbols in the display and what they mean: I : Feedrate i : Relative Feedrate Q : Belt Load q : Relative Belt Load v : Belt Speed 1 : Totalizer 1 p : Perc. setpoint factor x : Deviation 2 : Totalizer 2 3 : Totalizer 3 b : Batch Setpoint d : Batch Residual Amount N : Batch No. C : Batch Actual Value B : Reload Setpoint D : Reload Amount P : Setpoint E : External Setpoint The large-scale display can only show the dimensions kg or t. If the letter space is illuminated as a full-surface block, this is an indication that the value shown is invalid. Either it is not possible to show the desired format or the unit is in the operator dialog. Beyond this, the block is also shown to indicate that printing is active.
P24.02
Baud rate
Alternative:
1200 2400 4800 9600 19200 38400
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Default: 9600
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Parameters
P24.03
Data Format
Alternative:
7 Bit Even 8-N-1 8-O-1 8-E-1
P24.04
Physics
Alternative:
RS485-2-wire RS485-4-wire RS232
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Default: 8-N-1
Default: RS232
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Event messages
14 Event messages DANGER Events register abnormal states, e.g. malfunctions or exceeded threshold values. A running feeder can be a hazard to people or to property. The cause of event messages must be corrected before events are acknowledged! Event messages are grouped together. Group Identifier
Event Domain
SY
Internally monitoring the control system
SC
Irregularities in operator control or peripheral control
WE
Fault in the external power electronics
MF
Fault in the bulk material flow
IL
Messages from interlocking with system control
CO
Internal controller malfunction message
CA
Adjustment fault
HI
Threshold value exceeded upwards
LO
Threshold value exceeded downwards
Tab. 4 : Event groups
Note: In the following list, parameters related to the indicated event are shown in parentheses.
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Events
15 Events 15.1
Events Details
15.1.1 Event Group: Calibration CA01
Event: Error LC Input
(P14.06)
The load cell cable is improperly connected, not connected or has been interrupted. The load cell may be faulty. Steps to take: - check the cabling and the load cell - check the load cell Note: The power supply must be switched off and on again if the scales still cannot be switched on even after the error has been rectified.
CA02
Event: Tachometer Input
(P14.03)
The signals at the feeder drive's impulse speedometer input are outside of the specified range. Possible causes: - there is a fault in the speed impulse sensor cable (check the shielding and the wiring). - the sensor has been incorrectly calibrated
CA05
Event: Linearization Error
(P15.10)
Not a monotonically increasing curve. A monotonically increasing compensation curve is monitored: - when the linearization is switched on, - when the parameter is altered
CA06
Event: Tare Correction
(P08.05)
The tare value calculated by the automatic zeroing system is in excess of P08.04 Zeroing Limit. The value is not accepted.
CA12
Event: Tare Difference > MAX
(P08.10)
P08.09 Zero Set Difference is past.
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Events
CA13
Event: Time elapsed
(P08.07)
P02.05 Nominal Speed is past.
15.1.2 Event Group: Controller CO09
Event: Batch > Setpoint
(P09.08)
The actual batch value currently reached is past the setpoint by the amount of the P09.04 tolerance. The CO09 message is given and monitoring for the current batch has expired after acknowledging (including the alarm).
15.1.3 Event Group: Electrical System WE01
Event: Power Failure
(P14.01)
This event is identified once the power supply is restored. The scales will not switch on automatically, regardless of the event class. The event must first be acknowledged and the command to start given again before the scales will restart.
WE09
Event: Namur Error Tacho
(P14.04)
A short-circuit or break in the cable to the velocity sensor. The internal velocity value is set to 0 if a Namur error occurs. The frequency display (service value) is still active. The event message has to be on IG when connecting up other equipment (not Namur). External Namur adapters and resistance wiring, etc. are not needed.
WE10
Event: Namur Error Belt
(P14.05)
A short-circuit or break in the cable of the belt circuit sensor (BIC).
15.1.4 Event Group: Interlock IL01
Event: Run Disabled
(P14.07)
No release signal from the source determined by P16.01. If this event is pending then the downstream transport equipment is most likely not switched on.
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Events
15.1.5 Event Group: Material Flow MF06
Event: Out of Tolerance
(P09.06)
The batch result is outside the tolerance range. Possible causes: - highly erratic material flow - altered feeder discharge behavior - error in weight calculation due to disturbance forces
15.1.6 Event Group: MAX HI01
Event: LC Input > MAX
(P14.08)
The load acting on the load cell is greater than 110 % of the sum of the nominal loads of the load cells. Measuring range end: 125 % for load cells with 2.85 mV/V 175 % for load cells with 2 mV/V Possible causes: - Shunt forces or compression ratios bring about incorrect load cell loading - incorrect cabling - faulty load cell
HI02
Event: Actual Flow Rate MAX
(P06.04)
Actual feed rate greater than the maximum value set in P06.03 Limit: Actual Flow Rate MAX Possible causes: - bulk material shooting out of the discharge chute - disturbance forces from force shunts or pressures acting on the weighing equipment - feed rate setpoint too large
HI03
Event: Belt Load MAX
(P06.08)
The belt load is greater than the maximum value set in P06.07 Limit: Belt Load MAX Possible causes: - bulk material shooting out of the discharge chute - disturbance forces from force shunts or pressures acting on the weighing equipment
HI04
Event: Speed MAX
(P06.12)
The belt speed is greater than the maximum value set in Limit: Speed MAX
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Events
15.1.7 Event Group: Mechanic WM02
Event: Slip
(P13.14)
WM03
Event: Belt Skew
(P13.12)
Belt has run off-center. Feeder is no longer operable. Action: See Event: Belt Drift Related threshold: Belt Skew
WM04
Event: Belt Drift
(P13.10)
Belt out of tolerance. Action: 1. Clean tail and drive pulleys. 2. Align belt. Monitoring can be faulty. Watch belt circuit sensor service value; if need be, remedy fault. Related threshold: Belt Drift
15.1.8 Event Group: MIN LO01
Event: LC Input < MIN
(P14.09)
The load cell load is less than 3 % of the sum of the load cell nominal loads. Possible reasons: - force shunts or pressure ratios can reduce significantly the load on the load cell - incorrect cabling - faulty load cell
LO02
Event: Actual Flow Rate MIN
(P06.02)
Actual feed rate lower than the minimum value set in Limit: Actual Flow Rate MIN Possible causes: - no bulk material - disturbance forces from force shunts or pressures acting on the weighing equipment - feed rate setpoint too low
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Events
LO03
Event: Belt Load MIN
(P06.06)
The belt load is less than the minimum value set in Limit: Belt Load MIN Possible causes: - no bulk material - disturbance forces from force shunts or pressures acting on the weighing equipment
LO04
Event: Speed MIN
(P06.10)
The belt speed is less than the minimum value set in Limit: Speed MIN
15.1.9 Event Group: Sequence Monitoring SC03
Event: Maint.Feeder Run
(P11.02)
The sum of the times during which the mains voltage is on is greater than the time 'voltage ON'. A message occurs after each expired time interval. The message may indicate service work required. See also: P11.01 Maintenance Electric
SC04
Event: Maint. Electric
(P11.04)
The sum of the runtimes of the conveying elements is greater than the time 'Scales ON' (P11.03 Maintenance Feeder Run). A message occurs after each expired time interval. The message may indicate service work required.
SC05
Event: External Event 1
(P14.11)
External interference signal at fault input 1. Possible cause: depends on the external cabling. Usually: an error in the main drive
SC06
Event: External Event 2
(P14.12)
External interference signal at fault input 2. Possible cause: depends on the external cabling.
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Events
15.1.10 Event Group: System Message SY01
Event: Memory
(P14.02)
The program and parameters memory are checked cyclically. An error has occurred during that. The scales will no longer function correctly. Steps to take: - load the factory settings - Normally the hardware has to be replaced.
SY08
Event: Cyclic Communication
(P19.03)
Cyclical serial communication with the higher-order plant control system has been interrupted for longer than the timeout-period. To rectify: check cable connections.
SY09
Event: License Violation
(P14.13)
The option selected in the P19.01 Protocol Type parameter is not activated. It has to be cleared. Refer to the Option activate function
SY10
Event: Acyclic Communication
(P19.04)
Incorrect data in the noncyclical communication to host computer. Possible cause: poor programming of the host computer
SY14
Event: Simulation active
(P14.10)
Simulation operation is on.
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Hardware and technical data
16 Hardware and technical data 16.1
Technical Data and Replacement Parts
Display
LCD graphic display with adjustable brightness
Keyboard
22 buttons
Supply voltage
24 VDC +50 % / -25 %, max. 20 VA
Temperature range
Operating temperature: -40 °C to +60 °C Bearing temperature: -40 °C to +80 °C Legal for trade operation: -10 °C to +40 °C
Electromagnetic ambient conditions
E2 (OIML D11)
Scales connection
Power supply: 6 V alternating voltage Load cell impedance: R min 80 Ω Length of cable: max. 1000 m
The housing
Built-in IP54 control panel case with optional retainers for IP65
Binary inputs
5 optocouplers 18 - 36 VDC, model 5 mA 1 NAMUR, and 1 NAMUR/voltage 0.04 - 3,000 Hz
Binary outputs
8 relays, max. 230 V, 8 A ohm. / 1 A inductive
Pulse output
1 optocoupler for totalizing counter 24 V, 0.1 A, max. 10 Hz
Analog outputs
2 x 0(4)-20 mA, load max. 500 Ω, galvanically separated
Analog input
Current 0(4)-20 mA or voltage 0 - 10 V, input impedance 100 Ω, galvanically separated
Serial Interfaces:
Interface 1: EasyServe Interface 2: Printer Interface 3: Large-scale display
VNT0650 power supply Internal (optional)
85 – 264 VAC / 24 VDC, 1.1 A
Fieldbus (optional)
Can be selected from: Modbus, PROFIBUS DP, DeviceNet, Ethernet/IP
Analog signal card (optional) VEA 20451
2 analog outputs 0(4)-20 mA, load max. 500 Ω, galvanically separated, joint potential reference 2 analog inputs 0(4)-20 mA or voltage 0 - 10 V, input impedance 100 Ω, galvanically separated, joint potential reference
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Hardware and technical data
Wall-Mounted Housing
IP65 wall-mounted housing, 380 mm x 300 mm x 236 mm Power supply 85 - 264 VAC / 24 VDC, 2 A
Power supply, external, desk-top model
85 – 264 VAC / 24 VDC, 1.25 A
Event printer
Printer with RS232 serial interface and system cable
Large-scale displays
Can be selected from: VLD 20100 (LED, 100 mm); VLZ 20045 (LCD, 45 mm); VLZ 20100 (LCD, 100 mm)
Control cubicles and equipment frames
Control cubicles and equipment frames for several INTECONT Tersus units with or without feed
Description
Type
Front-of-panel unit with VWF 20650 software for the weighfeeder
VEG 20650
Material Nummer
Basic Equipment
V082001.B01
with Modbus option
V082001.B02
with PROFIBUS option
V082001.B03
with DeviceNet option
V082001.B04
with Ethernet/IP option
V082001.B05
Front-of-panel unit with VBW 20650 software for the weighfeeder
VEG 20650
Basic Equipment
V082002.B01
with Modbus option
V082002.B02
with PROFIBUS option
V082002.B03
with DeviceNet option
V082002.B04
with Ethernet/IP option
V082002.B05
Front-of-panel unit with VBW 20660 software for legal-for-trade weighfeeder
VEG 20650
Basic Equipment
V082007.B01
with Modbus option
V082007.B02
with PROFIBUS option
V082007.B03
with DeviceNet option
V082007.B04
with Ethernet/IP option
V082007.B05
Modbus
VSS 28020
V081902.B01
PROFIBUS
VPB 28020
V081901.B01
DeviceNet
VCB 28020
V081903.B01
Ethernet/IP clearance
VET 20700
V040035.B01
Further Options Installed power supply and mounting set Analog signal card with 2 analog inputs and 2 analog outputs IP65 protection type for front-side control panel installation
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V082050.B01 VEA 20451
V054098.B01 V082039.B01
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Hardware and technical data
Software EasyServe
VPC 20150
E144541.01
Large-scale 5-digit display, LED, 100 mm digit height
VLD 20100
V090252.B01
Large-scale 6-digit display, LCD, 45 mm digit height
VLZ 20045
V067304.B01
Large-scale 5-digit display, LCD, 100 mm digit height
VLZ 20100
V066611.B01
Large-scale displays
16.2
Connection Diagrams
Fig. 9: Connection diagram for voltage supply
Fig. 10: LC connection diagram and tachometer
Fig. 11: Connection diagram for inputs and outputs 1
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Hardware and technical data
Fig. 12: Connection diagram for inputs and outputs 2
Fig. 13: Serial interface connection diagram
Fig. 14: Modbus connection diagram
Fig. 15: PROFIBUS connection diagram
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Hardware and technical data
Fig. 16: DeviceNet connection diagram
16.3
Replacing INTECONT PLUS with with INTECONT Tersus
In the beginning, INTECONT PLUS equipment was produced as the FIP model and then as the VEG 206xx model starting in 2003. INTECONT Tersus as the follow-up unit was also kept very similar to its predecessors in terms of its hardware connections. The EasyServe adjustment program (VPC 20150) can be used for INTECONT Tersus from version 19 which makes it possible to conveniently change over from VEG to INTECONT Tersus. The following tables show the connector pin assignment of FIP, VEG and INTECONT Tersus opposite one another for all physical signals. Power Supply Signal
FIP and VEG and INTECONT Tersus
0V 24 V in
X2 1 X2 2
0V 24 V out
X2 3 X2 4
Load cell Signal
FIP
VEG
INTECONT Tersus
OUT1 REF1 IN2 IN1 REF2 OUT2
X5 3 X5 4 X5 5 X5 6 X5 7 X5 8
X7 3 X7 4 X7 6 X7 5 X7 7 X7 8
X10 3 X10 4 X10 6 X10 5 X10 7 X10 8
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Hardware and technical data
Digital Outputs, DO Signal
FIP
VEG
INTECONT Tersus
DO1 DO2 DO3
X1 1,2 X1 3,4 X1 5,6
DO4 DO5 DO6 DO7 DO8
X6 1,2 X6 3,4 X6 5,6 X6 7,8 X6 9,10
X8 1,2 X8 3,4 X8 5,6 X8 7,8 X8 9,10
X13 9,10 X13 7,8 X13 5,6 X13 3,4 X13 1,2
Signal
FIP
VEG
INTECONT Tersus
DI1 DI2 DI3
X3 1,2 X9 1,2 X9 3,4
X3 1,2 X3 3,4 X6 6,7 DI4 X9 1,2 DI5 X9 3,4 DI6 X3 5,6 X7 1,2 —-
X4 1,2 X4 3,4 X4 5,6
Digital Inputs, DI
Namur sensor DI6 X3 5,6 Namur tachometer 1 DI7 X5 1,2 Open collector tachometer —1
DI4-N X9 1,2 Namur DI5-N X10 1,2 DI5-T X9 3,4 DI6 X12 3,4 DI7 X12 1,2
X3 3,4 Vol. Synchronous
Analog outputs AO Signal
FIP
VEG
INTECONT Tersus
A01 A02
X9 9,10 X9 11,12
X6 4,5 X9 5,6
X8 4,5 X12 8,9
AO3 AO4
——-
——-
Optional VEA X30 Optional VEA X30
Analog inputs AI Signal
FIP
VEG
INTECONT Tersus
AI1
X11 1,2,3
X6 1,2,3
X8 1,2,3
AI2 AI3
——-
——-
Optional VEA X30 Optional VEA X30
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Hardware and technical data
Printer Signal
FIP
VEG
INTECONT Tersus
Shield TX RX
X8 1 X8 2 X8 3
X10 1 X10 2 X10 3
X7 1 X7 2 X7 3
Large-scale display Signal
FIP
VEG
INTECONT Tersus
Shield TX RX
———-
———-
X11 Pin assignment after RSxxx selection
Signal
FIP
VEG
INTECONT Tersus
Shield TX RX
———-
X4 5 or X5 1 X4 2 or X5 2 X4 3 or X5 3
X6 1 X6 2 X6 3
EasyServe
Pulse output Signal
FIP
VEG
INTECONT Tersus
24 V Open collector Open Emitter 0V
X9 5 X9 6 X9 7 X9 8
X6 8 X6 9 X6 10 X6 11
—X3 1 —X3 2
Fieldbus connection (Modbus, PROFIBUS and DeviceNet) Signal
FIP
VEG
INTECONT Tersus
Separate fieldbus card
—-
X20
X20
Modbus is connected to X7 with FIP
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Hardware and technical data
16.4
PROFIBUS module (VPB8020)
The module may be attached to the base card of the device to make an interface with the PROFIBUS.
Module properties Isolation:
Optocoupler
Power supply:
5 VDC internal
Current supply
max. 310 mA
Connector to bus activation
XP1: 9-pin Sub-D female XP3: Phonix 5p MSTB 3.5; max. 1.5 mm²
Arrangement of the components
Fig. 17: VPB8020 PROFIBUS module
Settings W100
Determining the power supply: The platform W100 always remains in position 2-3
W150
Bus termination: The bus termination resistances must be activated at the first and last station of the bus. This is done by setting all three jumpers on the board (W150, W151, W152) to position 1-2. By default the resistances are not activated (position 2-3).
W151 W152
Bus address: The addresses are set using parameters.
Pin
XP1 Signal
XP3 Signal
1
-
B-line, positive RS485 RxD/TxD
2
-
A-line, negative RS485 RxD/TxD
3
B-line, positive RS485 RxD/TxD
4
RTS (Request to Send)
+5 V BUS
5
GND BUS
Shielding
6
+5 V BUS
-
7
-
-
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*
* **
GND BUS
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Hardware and technical data
Pin
XP1 Signal
XP3 Signal
8
A-line, negative RS485 RxD/TxD
9
-
-
Housing
Bus Cable Shield
-
**
-
Tab. 5 : 'Bus activation' connector
* **
Wire color red. Wire color green.
LEDs H110, H120 There is one identical-function double-LED (H110, H120) for each connection to the bus activation (XP1, XP3). Example H110:
Fig. 18: LEDs - VPB8020 front view
Status
Display
Off
Not online/no power supply
Green
Online, data transfer
Green, flashing
Online, clear mode
Red, flashing (1 Hz)
Parameterisation fault
Red, blinking (2 Hz)
Configuration error
Tab. 6 : LED 'Operating Mode' (below)
Status
Display
Off
No power supply or not initialized
Green
Initialized
Green, flashing
Initialized, result of diagnostic test pending
Red
Exception error
Tab. 7 : LED 'Status' (above)
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Hardware and technical data
16.5
DeviceNet Module (VCB8020)
The module can be attached to the mainboard to create an interface to the DeviceNet. Module properties Isolation:
Optocoupler
Power supply:
5 VDC internal
Current supply
max. 250 mA
Connector to bus activation
XC1:Phönix 5p MSTB 5; max. 2.5 mm² XC3: Phönix 5p MSTB 3.5; max. 1.5 mm²
Arrangement of the components
Fig. 19: DeviceNet module VCB8020
Settings W100
Determining the power supply: The platform W100 always remains in position 2-3
W160
Bus termination: The bus termination resistances must be activated at the first and last station of the bus. This is done by applying the W160 jumper to the position 1-2. By default the resistances are not activated (position 2-3). Bus address and Baud rate: Both values are set using parameters.
Pin
XC1 Signal
1
V-
2
CAN_L
3
Shielding
4
CAN_H
5
V+
XC3 Signal
Ditto:
Tab. 8 : 'Bus activation' connector
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Hardware and technical data
LEDs H110, H120 There is one identical-function double-LED (H110, H120) for each connection to the bus activation (XC1, XC3). Example H110:
Fig. 20: VCB8020:XC1 DeviceNet module front view
Network status
Display
Off
Not online/no power supply
Green
Online, one or more connections established
Green, flashing
Online, no connection
Red
Critical connection error
Red, flashing (1 Hz)
One or more connections have been timed out
Alternating red-green
Self-test
Tab. 9 : LED 'Network Status' (above)
Module status
Display
Off
No power supply
Green
Exchange of user data
Green, flashing
Incorrect configuration
Red
Non-repairable error
Red, flashing
Repairable error
Alternating red-green
Self-test
Tab. 10 : LED 'Module Status' (below)
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Hardware and technical data
16.6
Modbus Interface VSS8020
The interface card is an isolated, serial interface. The type of the interface is set using control unit parameters and using jumpers in the plug. Both plugs are electrically parallel.
Module properties Isolation:
Optocoupler
Power supply:
5 VDC internal
Current supply
Max. 250 mA
Connector to bus activation
XS2: Phoenix 7p max. 1.3 mm² XS3: Phoenix 7p max. 1.3 mm²
Tab. 11 : Modbus module properties
Arrangement of the components
Fig. 21: VSS8020 Modbus module layout drawing
Serial interfaces pin assignment Pin
RS232
RS422
RS485
1
GND
GND
GND
2
TX
Tx B
RTx A
3
RX
Rx B
Jumper to pin 2
4
Rx A
Jumper to pin 5
5
TX A
RTx B
6
Jumper to pin 4 for bus termination
7
Jumper to pin 3 for bus termination
Tab. 12 : Modbus serial interface pin assignment
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Hardware and technical data
16.7
LED diagnosis
Status LED
Color
Function
LNK
Green
Ethernet is connected
FDX
Yellow
Full Duplex
100
Red
100 MBaud (otherwise 10 MBaud)
ADR
Green
Measuring hardware is active
IDL
Yellow
The processor's idling time, flashes during operation
DIA
Red
Unused
PWR
Green
Power OK
SYC
Yellow
System cycle, flashes during operation
ERR
Red
Fault display, set by the system software
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Web server functions
17 Web server functions 17.1
Web Server
The unit is equipped with a web server that provides a homepage for the scale. This homepage is available in English only. Equipment needed: The PC has an Ethernet link to the equipment. Establishing the connection: The IP address of the controller must be entered into the browser address line. Various data from the controller can be called up in the left-hand navigation bar. Navigation entry
Function
Events
Most recent stored events (alarms, warnings, etc.)
Parameter changes
Most recent parameter alterations
Command Log
List of certain commands, e.g. start / stop
Totalizer hourly
Table of hourly-saved totalizing integrators / counters. The minute after the full hour at which the saving occurs can be set in P22.01.
Totalizer daily
Table of daily-saved totalizing integrators / counters. The time of saving from 00:00 h is set in P22.02.
Totalizer
Table of totalizing integrators / counters saved on the command.
Data logger 1 / 2
Table of recorded measured values. The sampling interval can be set using P22.03. Up to 10 process variables can be selected to be recorded using P22.04 - P22.13. It starts recording by activating in the Mode operating zone.
Tab. 13 : Functions available on the controller web page
Memory depth is approx. 1,000 entries. All entries are recorded with the entry time. The table is refreshed only when it is called up. These readings can be exported by selecting, copying and inserting them into a file in the PC for evaluating with standard programs.
17.2
System Information
The system data are provided here. You can find files such as the software version, hardware version, IP address. "Serial No." or "MAC-ID" are the names of the serial number on the CPU board. Together with the 'mainboard' data, this data also supplies the user with the 'fieldbus' configurations and settings. In particular the amount of bytes for the read and transmitted data. This page is still undergoing development and may differ from the image shown here.
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Appendix
18 Appendix 18.1
Service Values
Detailed information on the system is contained in the service table. The call-up does not interfere with any weigh functions. Call up the function block Setup Service Values
Scroll through the service values Exit the service values Setup Standard Values
Readouts: Vxx 2065y-yyy
Software version
2011-08-01 08:01:58
Date and time
VOL OP
Operating mode when active (VOL = volumetric, OP = keyboard mode)
DO = 1 1 1 0 0 0 0 0
Relay Outputs Switching State "1" = Contact closed "0" = Contact open
DI = 1 1 1 1 - 0 1
Inputs Switching State
"1" = Contact closed "0" = Contact open
additional for Namur signals
"+" Short circuit "-" Cable breakage "1" = Sensor covered "0" = Sensor clear
Additional for legal for trade belt weighers
"1" = Calibration switch active "0" = Calibration switch inactive
Analog Output 1 4.15 mA
Output current of the analog output 1
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Appendix
Time Voltage ON: 22 h
Duty cycle of power supply Monitoring: parameters P11.01
Time Feeder ON: 19 h
Duty cycle of scales and belt conveyor. Monitoring: parameters P11.03
Tachometer 1 96.655 Hz
velocity sensor input frequency. The frequency must be within the range 0.04 ... 3000 Hz.
Utilization LC 30.988 %
Load on load cells sourced from the sum of the load cell nominal capacities. The weigh cells are overloaded if the values exceed 100 %. The message H4: LC Input > MAX occurs upwards of 110 %.
Loadcell 1 0.383257 mV/V
Non-standardized output value of the weigh cell amplifier (gross). The value is recorded before the belt influence compensation function and before the delay at the dispatch point.
CSUM: Flash 1
Check sum of the scale software
CSUM: Flash calc. 1
Check sum of scales software. recalculated
Controller Magnitude 1.44 mA
Controller output as specification for the drive
Actual Tare 27.000 kg/m
Currently stored tare value
Temperature 22.5 °C
Current temperature in the equipment
Deviation abs. 0.03 %
Current value of the controller deviation
Ethernet/IP: OK
OK if Ethernet/IP option is cleared; otherwise NO
The values listed are exemplary.
18.2
Set option
There is the option of clearing fieldbus coupling Ethernet/IP by software. This unit issues an unambiguous ID (the MAC address). An activation code is generated from this ID that is then keyed into the unit. If the optional activation is required on devices which have already been delivered, the data is transferred to the Schenck process, and the generated activation code is reported back. The Option activate function is only accessible when the fieldbus protocol is on NO or Ethernet/IP.
Call up the function block Parameter Option activate
Key in password … Abort possible at any time
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The MAC-ID (example: 00:15:84:01:03:ee) and selected option (example:Ethernet/IP) are shown.
If there is no clearance, memorize the value and report to Schenck Process. Code:
Key in the clearance code from Schenck Process
Ethernet/IP
Message after input of a valid activation code or error message and abort
18.3
Function Check
Turn on the scale The switch-on process depends on the preselected P02.06 Feeder Start source. Analyze any event messages that may appear and rectify the fault. Call up the function Setup - Service Values a) tachometer The output frequency of the tachometer generator has to be less than 3,000 Hz when the measurement is activated. The value must approximately correspond to the information in the data sheet. If the frequency fluctuates substantially at a constant belt speed, the Namur sensor of the tachometer generator is probably too far away. b) wz The non-standardized output value of the load cell amplifier may not be greater than 2.85 mV/V even at the rated load of the weighbridge. It must change if the weighing platform is placed under load (e.g. the calibration weight). Value too large: – load cell overloaded – tare equalization weight incorrectly set (if available) Negative Value: – load cell connected incorrectly – tare equalization weight incorrectly set c) aw Load of the load cell in percents with reference to the total of the rated loads of the load cell. The value can be analyzed as per item b). aw should not be greater than 100 % at the rated belt load. If it is not possible to bring about a reasonable operational state in spite of all efforts, the test plug chapter might help.
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18.4
Test Connector
A basic function control of the INTECONT can be carried out using a simple test connector. In this way an error can be limited between the load cell with wiring and electrical equipment. 1. Connect the connector as shown in the diagram 2. Disconnect load cell connector X7 and plug in the test connector instead The dimensioned resistances given result in the following service values: 1. Load cell signal (lc) approx.1.1 mV/V 2. Load cell usage factor (aw) approx. 55 % if C03 = 2 mV/V and approx. 39 % if C03 = 2.85 mV/V If lc is in the listed areas, the pick-up input is free of errors. Note: With other resistances R1 and R2, the LC Raw is calculated to 500 * R2 / R1 [mV/V]. The test plug is available as an accessory.
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Appendix
18.5
Starting and Stopping
The on or off states relate to the belt drive, the prefeeder and to measuring the flow rate. Belt load and belt speed are continuously measured. An effective switch-off command does not turn off totalizing immediately, but only after the P07.06 Afterflow Totalizer time. Stop commands have the highest priority. Various control modes can be configured as per the P02.06 Feeder Start parameters.
Turning off or on with a digital input The digital input functions edge-triggered. That means for example that if the scale fails due to an alarm, the ON signal must be removed and applied again. Turning on or off with the keyboard (OP) Turning on: ▪ The ON key if there is no alarm and there is a release. Turning off: ▪ The OFF key if the alarm or there is no release.
Fig. 22: Switch-on or switch-off with keyboard
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Switch-on or switch-off via belt speed This switches at a belt speed that is greater or less than the Vmin limit value. It queries the non-averaged measurement of the speed v. Refer to the P06.09 Limit: Speed MIN parameters.
Fig. 23: Switch-on and switch-off at belt speed
Switch-on or switch-off via fieldbus interface (FB) The ON and OFF commands function as the corresponding pushbuttons. Turning on and off can be transferred to the keyboard with the Start Keyboard Mode function. It is switched back with the Stop Keyboard Mode function. Comments: ▪ No batching is possible after selecting v. ▪ The n/a setting in the P16.01 Source Run Enable parameters turns off the input. Then the scale is always released.
18.6
Measuring Measuring at the Discharge Point VAP
Measuring on the VAP discharge point shifts the measuring point of the weighbridge to the discharge point of the material by means of a time-lag device. The totalized amount of material dispatched is directly recorded. Measuring at dispatch: VAP
Preconditions: ▪ The length ratio from the centerline of the weighing platform to the material dispatch to the overall belt conveyor length is known. ▪ Key in the length ratio in percent in parameters Platform Dis.Length P13.02. ▪ Activate VAP via VAP Active P13.01 parameters.
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18.7
Belt Monitoring
Drift and slippage monitoring is built into the functions. Monitoring is activated with the P13.03 Belt Sensor Active parameter. The programs can only be used for belt monitoring if there is a belt circuit sensor (Namur transmitter) and a triangular metallic sensor surface in the conveyor belt. Otherwise, the aforementioned parameter and P13.05 BIC Active parameters have to be on NO. Procedure for activating belt monitoring 1. Set the parameters P13.03 Belt Sensor Active to YES 2. Key in the sensor length in P13.06 Sensor Length parameters 3. Key in the sensor width in P13.07 Sensor Width parameters 4. Set P13.08 Sensor Offset parameters to 0 5. Call up the calibration function LB: Pulses/Belt
18.8
BIC belt impact compensation
Even excellent conveyor belts are never completely even and they become heavier and stiffer especially on the seams. This is why it is normally only possible to guarantee a high level of accuracy over entire belt circuits (i.e. over the mean). An additional belt circuit sensor and metallic marking flag in the belt enable the unit to record this impact and constantly correct it. That substantially boosts the short-term accuracy of the scale. Belt impact measurement is constant to take changes in regular operation into account. Compensation adapts itself whenever material is conveyed. Relevant parameters P13.05 BIC Active, P13.03 Belt Sensor Active, P13.04 DI: Source Belt Sensor.
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18.9
Linearization Linearization
The belt loading does not usually need to be linearized. It only makes sense with major belt load fluctuations and simple weighing mechanisms. Calibration with calibration weights: Apply calibration weight Q1, start the scales and call up the zeroing program. Key in the final result of zero setting program and key in later in Linearization I1 parameters. Cancel the program and do not exceed the result. Key in the result of the formula q1 = Q1 / L * 100 % / q0 in Linearization S1 parameters. Where Q1: calibration weight in kg L: P03.05 Effective Platform Length q0: P04.01 Nominal Belt Load Repeat work processes 1 - 3 with increasingly large calibration weights for the other linearization points. Calibration using material: Perform a material check with a belt load q1. Read the mean of the belt load q1(a) on the equipment and key it into the Linearization I1 parameters. Key in the result of the formula q1(s) = q1(a) * Ms / Ma into the Linearization S1 parameters. Where Ms: conveyed quantity of material in kg Ma: quantity of material read on the equipment in kg Repeat work processes 1 - 3 with increasingly large calibration weights for the other linearization points.
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Index
Index >0 Zero ON/OFF .............................................................................................................................................................. 68 2. Password ...................................................................................................................................................................... 67 Abbreviations .................................................................................................................................................................... 54 About This Manual .............................................................................................................................................................. 1 Access Rights Limitation FB............................................................................................................................................ 106 acknowledge event information ......................................................................................................................................... 19 Activation code ................................................................................................................................................................ 140 Adaptation Factor .............................................................................................................................................................. 82 Address ........................................................................................................................................................... 103, 104, 105 Afterflow Totalizer ............................................................................................................................................................. 79 An overview of the INTECONT Tersus................................................................................................................................ 7 Analog Outputs ................................................................................................................................................................. 74 Angle ................................................................................................................................................................................. 73 AO Actual Flow Rate ........................................................................................................................................................ 74 AO Belt Load .................................................................................................................................................................... 75 AO Speed......................................................................................................................................................................... 75 Appendix ......................................................................................................................................................................... 139 Auto Zero Active ................................................................................................................................................................ 80 AUTO Zero Set ........................................................................................................................................................... 80, 81 Basic Tare ......................................................................................................................................................................... 74 Batch Actual Value Column............................................................................................................................................... 85 Batch Actual Value Line .................................................................................................................................................... 85 Batch Automatic Record.................................................................................................................................................... 83 Batch control ..................................................................................................................................................................... 68 Batch Mode ....................................................................................................................................................................... 82 Batch Setpoint Column...................................................................................................................................................... 85 Batch Setpoint Line ........................................................................................................................................................... 85 Batch Setpoint Source....................................................................................................................................................... 83 Batch Tolerance - .............................................................................................................................................................. 82 Batch Tolerance + ............................................................................................................................................................. 82 Batching functions ............................................................................................................................................................. 39 Batching mode .................................................................................................................................................................. 39 Batchnumber Column........................................................................................................................................................ 86 Batchnumber Line ............................................................................................................................................................. 86 Baud rate................................................................................................................................................... 84, 104, 105, 113 Baud Rate ....................................................................................................................................................................... 101 Belt Circuit No. ............................................................................................................................................................ 72, 74 Belt Circuit Time ................................................................................................................................................................ 72 Belt Drift ............................................................................................................................................................................ 90 Belt Empty ......................................................................................................................................................................... 83 Belt inclination ................................................................................................................................................................... 47 belt load............................................................................................................................................................................... 9 Belt Load Offset ................................................................................................................................................................ 75 Belt Load Range ............................................................................................................................................................... 75 Belt Monitoring ................................................................................................................................................................ 145 Belt Monitoring ................................................................................................................................................ 89, 90, 91, 92 Belt Sensor Active ............................................................................................................................................................. 89 Belt Skew .......................................................................................................................................................................... 90 Belt Velocity Check ........................................................................................................................................................... 50 BIC Active ......................................................................................................................................................................... 89 BIC belt impact compensation......................................................................................................................................... 145 Byte Sequence ................................................................................................................................................................ 103 CA01 Event Error LC Input............................................................................................................................................ 117 CA02 Event Tachometer Input ...................................................................................................................................... 117 CA05 Event Linearization Error ..................................................................................................................................... 117 CA06 Event Tare Correction ......................................................................................................................................... 117 CA12 Event Tare Difference > MAX.............................................................................................................................. 117 CA13 Event Time elapsed............................................................................................................................................. 118 Calibrat. Results .......................................................................................................................................................... 73, 74 Calibration ....................................................................................................................................................................... 117 Calibration Data .......................................................................................................................................................... 72, 73 Calibration functions .......................................................................................................................................................... 27 calibration switch ............................................................................................................................................................. 139
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Index Calibration Switch ........................................................................................................................................................... 139 Calibration Weight ....................................................................................................................................................... 45, 73 call up the zero setting program ........................................................................................................................................ 19 Change-over Full Feed/Dribble Feed ................................................................................................................................ 88 Characteristics .................................................................................................................................................................. 10 Check in Keyboard Mode ................................................................................................................................................ 102 CO09 Event Batch > Setpoint ....................................................................................................................................... 118 Communication EasyServe ............................................................................................................................................. 100 Communication Fieldbus ................................................................................................................................................. 101 Compatibility DISOCONT Master .................................................................................................................................... 102 Compatiblity INTECONT ................................................................................................................................................. 105 Configuration ................................................................................................................................................................... 103 Configuration HMI Values ............................................................................................................................................... 111 Configuring Event Messages ............................................................................................................................................ 55 Connection Diagrams ...................................................................................................................................................... 125 Controller......................................................................................................................................................................... 118 Correction Amount ............................................................................................................................................................ 82 Counter 1 Unit ................................................................................................................................................................... 70 Counter 2 Unit ................................................................................................................................................................... 71 Counter 3 Unit ................................................................................................................................................................... 71 Counter functions .............................................................................................................................................................. 23 Daily Total Time .............................................................................................................................................................. 109 Damaged / Defective Electrical Components ...................................................................................................................... 6 DATA................................................................................................................................................................................. 16 Data Format ............................................................................................................................................................ 104, 114 Data Log ON/OFF ............................................................................................................................................................. 69 Data Log Value 1 ............................................................................................................................................................ 109 Data Log Value 10 .......................................................................................................................................................... 111 Data Log Value 2 ............................................................................................................................................................ 109 Data Log Value 3 ............................................................................................................................................................ 109 Data Log Value 4 ............................................................................................................................................................ 110 Data Log Value 5 ............................................................................................................................................................ 110 Data Log Value 6 ............................................................................................................................................................ 110 Data Log Value 7 ............................................................................................................................................................ 110 Data Log Value 8 ............................................................................................................................................................ 110 Data Log Value 9 ............................................................................................................................................................ 111 Data Logging ................................................................................................................................................................... 109 Date/Time Column ............................................................................................................................................................ 86 Date/Time Line .................................................................................................................................................................. 86 DELETE ............................................................................................................................................................................ 16 DeviceNet Module (VCB8020) ........................................................................................................................................ 132 DI Acknowledge Events ................................................................................................................................................... 97 DI Batch Terminate .......................................................................................................................................................... 97 DI BIC freeze.................................................................................................................................................................... 92 DI External Event 1 .......................................................................................................................................................... 98 DI External Event 2 .......................................................................................................................................................... 98 DI Reset Totalizer 1 ......................................................................................................................................................... 98 DI Reset Totalizer 2 ......................................................................................................................................................... 98 DI Source Belt Sensor ...................................................................................................................................................... 89 DI Start ............................................................................................................................................................................. 97 DI Zero Set ....................................................................................................................................................................... 97 Diagram of beltweigher and weighfeeder ............................................................................................................................ 8 Dialog Behaviour ............................................................................................................................................................... 66 Digital Inputs ..................................................................................................................................................................... 97 Digital Outputs................................................................................................................................................................... 98 Display Test and Version Number..................................................................................................................................... 21 DO Actual Flow Rate MAX ............................................................................................................................................... 99 DO Actual Flow Rate MIN ................................................................................................................................................ 99 DO ALARM ...................................................................................................................................................................... 98 DO Batch Running ......................................................................................................................................................... 100 DO Belt Drift ..................................................................................................................................................................... 91 DO Belt Load MAX ........................................................................................................................................................... 99 DO Belt load MIN ............................................................................................................................................................. 99 DO Belt Skew ................................................................................................................................................................... 91 DO Belt Slip...................................................................................................................................................................... 91 DO Dribble Feed ............................................................................................................................................................ 100
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Index DO Full Feed .................................................................................................................................................................. 100 DO Keyboard Mode ....................................................................................................................................................... 100 DO Pulse Counter ............................................................................................................................................................ 72 DO Scale Start ................................................................................................................................................................. 99 DO Speed MAX................................................................................................................................................................ 99 DO Speed MIN ................................................................................................................................................................. 99 DO Start Prefeeder .......................................................................................................................................................... 98 dribble feed ......................................................................................................................................................................... 8 duty cycle ........................................................................................................................................................................ 140 Effective Platform Length .................................................................................................................................................. 73 Effective weighing platform length ....................................................................................................................................... 9 Effective Weighing Platform Length .................................................................................................................................. 43 Electrical System............................................................................................................................................................. 118 ENTER .............................................................................................................................................................................. 17 Enter setpoint .................................................................................................................................................................... 20 ESCAPE............................................................................................................................................................................ 17 Ethernet........................................................................................................................................................................... 108 Ethernet/IP ...................................................................................................................................................................... 140 Event Actual Flow Rate MAX ................................................................................................................................... 77, 119 Event Actual Flow Rate MIN .................................................................................................................................... 76, 120 Event Acyclic Communication ................................................................................................................................ 102, 122 Event Batch > Setpoint............................................................................................................................................. 83, 118 Event Belt Drift ......................................................................................................................................................... 90, 120 Event Belt Load MAX ............................................................................................................................................... 78, 119 Event Belt Load MIN ................................................................................................................................................ 77, 121 Event Belt Skew ....................................................................................................................................................... 91, 120 Event Cyclic Communication.................................................................................................................................. 102, 122 Event Error LC Input ................................................................................................................................................ 93, 117 Event External Event 1 ............................................................................................................................................. 94, 121 Event External Event 2 ............................................................................................................................................. 95, 121 Event LC Input < MIN ............................................................................................................................................... 94, 120 Event LC Input > MAX.............................................................................................................................................. 94, 119 Event License Violation ............................................................................................................................................ 95, 122 Event Linearization Error .......................................................................................................................................... 96, 117 Event Maint. Electric................................................................................................................................................. 87, 121 Event Maint.Feeder Run .......................................................................................................................................... 87, 121 Event Memory .......................................................................................................................................................... 92, 122 Event Namur Error Belt ............................................................................................................................................ 93, 118 Event Namur Error Tacho ........................................................................................................................................ 93, 118 Event Out of Tolerance ............................................................................................................................................ 83, 119 Event Power Failure ................................................................................................................................................. 92, 118 Event Run Disabled ................................................................................................................................................. 93, 118 Event Simulation active ............................................................................................................................................ 94, 122 Event Slip ................................................................................................................................................................. 91, 120 Event Speed MAX .................................................................................................................................................... 78, 119 Event Speed MIN ..................................................................................................................................................... 78, 121 Event Tachometer Input ........................................................................................................................................... 92, 117 Event Tare Correction .............................................................................................................................................. 80, 117 Event Tare Difference > MAX................................................................................................................................... 81, 117 Event Time elapsed ................................................................................................................................................. 81, 118 Event Column.................................................................................................................................................................... 86 Event Group: Calibration ................................................................................................................................................. 117 Event Group: Controller................................................................................................................................................... 118 Event Group: Electrical System ....................................................................................................................................... 118 Event Group: Interlock..................................................................................................................................................... 118 Event Group: Material Flow ............................................................................................................................................. 119 Event Group: MAX .......................................................................................................................................................... 119 Event Group: Mechanic ................................................................................................................................................... 120 Event Group: MIN ........................................................................................................................................................... 120 Event Group: Sequence Monitoring ................................................................................................................................ 121 Event Group: System Message ....................................................................................................................................... 122 Event Line ......................................................................................................................................................................... 86 Event messages .............................................................................................................................................................. 115 Events ............................................................................................................................................................................. 117 Events ............................................................................................................................................................. 92, 93, 94, 95 Events Details ................................................................................................................................................................. 117
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Index Feed Distance ................................................................................................................................................................... 88 feed rate .............................................................................................................................................................................. 9 Feeder Active .................................................................................................................................................................... 88 Feeder Control .................................................................................................................................................................. 88 Feeder ON/OFF ................................................................................................................................................................ 67 Feeder Start ...................................................................................................................................................................... 70 Fig. 1: Basic diagram of the ITE inputs and outputs ............................................................................................................ 8 Fig. 10: LC connection diagram and tachometer............................................................................................................. 125 Fig. 11: Connection diagram for inputs and outputs 1 ..................................................................................................... 125 Fig. 12: Connection diagram for inputs and outputs 2 ..................................................................................................... 126 Fig. 13: Serial interface connection diagram ................................................................................................................... 126 Fig. 14: Modbus connection diagram .............................................................................................................................. 126 Fig. 15: PROFIBUS connection diagram ......................................................................................................................... 126 Fig. 16: DeviceNet connection diagram........................................................................................................................... 127 Fig. 17: VPB8020 PROFIBUS module ............................................................................................................................ 130 Fig. 18: LEDs - VPB8020 front view ................................................................................................................................ 131 Fig. 19: DeviceNet module VCB8020 .............................................................................................................................. 132 Fig. 2: The belt load of the weighbridge is not legal for trade .............................................................................................. 9 Fig. 20: VCB8020:XC1 DeviceNet module front view ..................................................................................................... 133 Fig. 21: VSS8020 Modbus module layout drawing.......................................................................................................... 134 Fig. 22: Switch-on or switch-off with keyboard ................................................................................................................ 143 Fig. 23: Switch-on and switch-off at belt speed ............................................................................................................... 144 Fig. 3: Display warning 2 ................................................................................................................................................... 11 Fig. 4: Display warning 1 ................................................................................................................................................... 11 Fig. 5: Display alarm ......................................................................................................................................................... 12 Fig. 6: display – function block .......................................................................................................................................... 18 Fig. 7: Arrangement for verification with bulk material ....................................................................................................... 51 Fig. 8: Parameter sets ....................................................................................................................................................... 53 Fig. 9: Connection diagram for voltage supply ................................................................................................................ 125 Filter Actual Flow Rate ..................................................................................................................................................... 79 Filter Actual Flow Rate analog ......................................................................................................................................... 79 Filter Belt Load ................................................................................................................................................................. 79 Filter Belt Speed ............................................................................................................................................................... 79 Filters ................................................................................................................................................................................ 79 Five Safety Rules of Electrical Engineering......................................................................................................................... 6 Fixed mode configuration ................................................................................................................................ 106, 107, 108 FLOAT-Format ................................................................................................................................................................ 104 Flow Rate Offset ............................................................................................................................................................... 75 Flow Rate Range .............................................................................................................................................................. 75 Flow Rate Units ................................................................................................................................................................. 69 FMZ 1 Column .................................................................................................................................................................. 85 FMZ 1 Line ........................................................................................................................................................................ 85 FMZ 2 Column .................................................................................................................................................................. 86 FMZ 2 Line ........................................................................................................................................................................ 85 Font ................................................................................................................................................................................... 66 Format Data .................................................................................................................................................................... 101 full feed................................................................................................................................................................................ 8 FUNCTION........................................................................................................................................................................ 16 function block .................................................................................................................................................................... 19 Function block ................................................................................................................................................................... 17 Function Check ......................................................................................................................................................... 49, 141 Gateway .......................................................................................................................................................................... 108 General Diagram ................................................................................................................................................................. 7 Hardware and technical data........................................................................................................................................... 123 HI01 Event LC Input > MAX .......................................................................................................................................... 119 HI02 Event Actual Flow Rate MAX ................................................................................................................................ 119 HI03 Event Belt Load MAX............................................................................................................................................ 119 HI04 Event Speed MAX ................................................................................................................................................ 119 HMI Value 01 .................................................................................................................................................................. 111 HMI Value 02 .................................................................................................................................................................. 111 HMI Value 03 .................................................................................................................................................................. 111 HMI Value 04 .................................................................................................................................................................. 111 HMI Value 05 .................................................................................................................................................................. 112 HMI Value 06 .................................................................................................................................................................. 112 HMI Value 07 .................................................................................................................................................................. 112 HMI Value 08 .................................................................................................................................................................. 112
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Index HMI Value 09 .................................................................................................................................................................. 112 HMI Value 10 .................................................................................................................................................................. 112 Hourly Total Time ............................................................................................................................................................ 109 ID Preset Value 1 ............................................................................................................................................................ 106 ID Preset Value 2 ............................................................................................................................................................ 106 ID Preset Value 3 ............................................................................................................................................................ 106 ID Preset Value 4 ............................................................................................................................................................ 106 ID Preset Value 5 ............................................................................................................................................................ 107 ID Preset Value 6 ............................................................................................................................................................ 107 ID Preset Value 7 ............................................................................................................................................................ 107 ID Preset Value 8 ............................................................................................................................................................ 107 ID Read Value 1 .............................................................................................................................................................. 107 ID Read Value 2 .............................................................................................................................................................. 107 ID Read Value 3 .............................................................................................................................................................. 107 ID Read Value 4 .............................................................................................................................................................. 107 ID Read Value 5 .............................................................................................................................................................. 108 ID Read Value 6 .............................................................................................................................................................. 108 ID Read Value 7 .............................................................................................................................................................. 108 ID Read Value 8 .............................................................................................................................................................. 108 Identifier format ............................................................................................................................................................... 105 IL01 Event Run Disabled............................................................................................................................................... 118 Interlock........................................................................................................................................................................... 118 IP Address....................................................................................................................................................................... 108 Keyboard operation ON/OFF ............................................................................................................................................ 25 Language .......................................................................................................................................................................... 66 Last Zero Set Column ....................................................................................................................................................... 86 Last Zero Set Line ............................................................................................................................................................. 86 LC Characteristic Value..................................................................................................................................................... 73 LC Filter............................................................................................................................................................................. 79 LC Rated Capacity ............................................................................................................................................................ 73 LED diagnosis ................................................................................................................................................................. 135 Lever Ratio ........................................................................................................................................................................ 73 Limit Actual Flow Rate MAX ............................................................................................................................................. 77 Limit Actual Flow Rate MIN .............................................................................................................................................. 76 Limit Belt Load MAX ......................................................................................................................................................... 77 Limit Belt Load MIN .......................................................................................................................................................... 77 Limit Speed MAX ............................................................................................................................................................. 78 Limit Speed MIN............................................................................................................................................................... 78 Limit Value Difference ....................................................................................................................................................... 80 Limit Values....................................................................................................................................................................... 76 Linearization .................................................................................................................................................................... 146 Linearization ...................................................................................................................................................................... 95 Linearization I1 .................................................................................................................................................................. 95 Linearization I2 .................................................................................................................................................................. 96 Linearization I3 .................................................................................................................................................................. 96 Linearization I4 .................................................................................................................................................................. 96 Linearization ON ............................................................................................................................................................... 95 Linearization S1 ................................................................................................................................................................ 95 Linearization S2 ................................................................................................................................................................ 95 Linearization S3 ................................................................................................................................................................ 96 Linearization S4 ................................................................................................................................................................ 96 LO01 Event LC Input < MIN .......................................................................................................................................... 120 LO02 Event Actual Flow Rate MIN ................................................................................................................................ 120 LO03 Event Belt Load MIN............................................................................................................................................ 121 LO04 Event Speed MIN ................................................................................................................................................ 121 Logger cycle time ............................................................................................................................................................ 109 Maintenance Electric ......................................................................................................................................................... 87 Maintenance Feeder Run .................................................................................................................................................. 87 Maintenance interval ......................................................................................................................................................... 87 Material Flow ................................................................................................................................................................... 119 MAX ................................................................................................................................................................................ 119 Mean Limit Value .............................................................................................................................................................. 80 Measuring at the Discharge Point VAP ........................................................................................................................... 144 Mechanic ......................................................................................................................................................................... 120 Method of Function ............................................................................................................................................................. 9 MF06 Event Out of Tolerance ....................................................................................................................................... 119
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Index MIN.................................................................................................................................................................................. 120 Modbus Interface VSS8020 ............................................................................................................................................ 134 Mode functions .................................................................................................................................................................. 25 Motor STOP immediately .................................................................................................................................................. 88 Net Mask ......................................................................................................................................................................... 108 Nominal Belt Load ............................................................................................................................................................. 73 Nominal Flow Rate ............................................................................................................................................................ 69 Nominal Speed.................................................................................................................................................................. 70 Operating in Normal Operation ......................................................................................................................................... 18 operating sources .............................................................................................................................................................. 25 Operation .......................................................................................................................................................................... 15 Output current ................................................................................................................................................................. 139 Own Address................................................................................................................................................................... 100 P01 - Dialog Behaviour ..................................................................................................................................................... 66 P01.01 - Language ............................................................................................................................................................ 66 P01.02 - Userdefined Text ................................................................................................................................................ 66 P01.03 - Font .................................................................................................................................................................... 66 P01.04 - Units ................................................................................................................................................................... 66 P01.05 - Scale Name ........................................................................................................................................................ 67 P01.06 - Password ............................................................................................................................................................ 67 P01.07 - 2. Password ........................................................................................................................................................ 67 P01.08 - Feeder ON/OFF .................................................................................................................................................. 67 P01.09 - Switch Keyboard-/Normal Mode ......................................................................................................................... 68 P01.10 - Batch control ....................................................................................................................................................... 68 P01.11 - >0 Zero ON/OFF................................................................................................................................................ 68 P01.12 - Reset Counter 1.................................................................................................................................................. 68 P01.13 - Reset Counter 2.................................................................................................................................................. 68 P01.14 - Route Tot. ON/OFF ............................................................................................................................................ 69 P01.15 - Data Log ON/OFF............................................................................................................................................... 69 P02 - Rated Data ............................................................................................................................................ 69, 70, 71, 72 P02.01 - Flow Rate Units .................................................................................................................................................. 69 P02.02 - Nominal Flow Rate ............................................................................................................................................. 69 P02.03 - Speed Measurement .......................................................................................................................................... 70 P02.04 - Pulses per length ................................................................................................................................................ 70 P02.05 - Nominal Speed ................................................................................................................................................... 70 P02.06 - Feeder Start ........................................................................................................................................................ 70 P02.07 - Counter 1 Unit..................................................................................................................................................... 70 P02.08 - Pulse Length Total .............................................................................................................................................. 71 P02.09 - Counter 2 Unit..................................................................................................................................................... 71 P02.10 - Counter 3 Unit..................................................................................................................................................... 71 P02.11 - DO Pulse Counter.............................................................................................................................................. 72 P02.12 - Totalizer Increment ............................................................................................................................................. 72 P02.13 - Z1-Numberstep ................................................................................................................................................... 72 P03 - Calibration Data ................................................................................................................................................. 72, 73 P03.01 - Belt Circuit No. .................................................................................................................................................... 72 P03.02 - Belt Circuit Time ................................................................................................................................................. 72 P03.03 - LC Characteristic Value ...................................................................................................................................... 73 P03.04 - LC Rated Capacity.............................................................................................................................................. 73 P03.05 - Effective Platform Length .................................................................................................................................... 73 P03.06 - Lever Ratio ......................................................................................................................................................... 73 P03.07 - Angle .................................................................................................................................................................. 73 P03.08 - Calibration Weight .............................................................................................................................................. 73 P04 - Calibrat. Results ................................................................................................................................................ 73, 74 P04.01 - Nominal Belt Load .............................................................................................................................................. 73 P04.02 - Range Correction................................................................................................................................................ 74 P04.03 - Total Tare ........................................................................................................................................................... 74 P04.04 - Basic Tare .......................................................................................................................................................... 74 P04.05 - Tare Correction ................................................................................................................................................... 74 P04.06 - Belt Circuit No. .................................................................................................................................................... 74 P05 - Analog Outputs ........................................................................................................................................................ 74 P05.01 - AO Actual Flow Rate ......................................................................................................................................... 74 P05.02 - Flow Rate Offset ................................................................................................................................................. 75 P05.03 - Flow Rate Range ................................................................................................................................................ 75 P05.04 - AO Belt Load ..................................................................................................................................................... 75 P05.05 - Belt Load Offset .................................................................................................................................................. 75 P05.06 - Belt Load Range ................................................................................................................................................. 75
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Index P05.07 - AO Speed .......................................................................................................................................................... 75 P05.08 - Speed Offset ....................................................................................................................................................... 76 P05.09 - Speed Range ...................................................................................................................................................... 76 P06 - Limit Values ............................................................................................................................................................. 76 P06.01 - Limit Actual Flow Rate MIN ............................................................................................................................... 76 P06.02 - Event Actual Flow Rate MIN .............................................................................................................................. 76 P06.03 - Limit Actual Flow Rate MAX .............................................................................................................................. 77 P06.04 - Event Actual Flow Rate MAX ............................................................................................................................. 77 P06.05 - Limit Belt Load MIN ........................................................................................................................................... 77 P06.06 - Event Belt Load MIN .......................................................................................................................................... 77 P06.07 - Limit Belt Load MAX .......................................................................................................................................... 77 P06.08 - Event Belt Load MAX......................................................................................................................................... 78 P06.09 - Limit Speed MIN ................................................................................................................................................ 78 P06.10 - Event Speed MIN............................................................................................................................................... 78 P06.11 - Limit Speed MAX ............................................................................................................................................... 78 P06.12 - Event Speed MAX ............................................................................................................................................. 78 P07 - Filters ....................................................................................................................................................................... 79 P07.01 - Filter Actual Flow Rate ....................................................................................................................................... 79 P07.02 - Filter Actual Flow Rate analog ........................................................................................................................... 79 P07.03 - Filter Belt Load................................................................................................................................................... 79 P07.04 - Filter Belt Speed ................................................................................................................................................ 79 P07.05 - LC Filter .............................................................................................................................................................. 79 P07.06 - Afterflow Totalizer ............................................................................................................................................... 79 P08 - AUTO Zero Set .................................................................................................................................................. 80, 81 P08.01 - Auto Zero Active ................................................................................................................................................. 80 P08.02 - Limit Value Difference ......................................................................................................................................... 80 P08.03 - Mean Limit Value ................................................................................................................................................ 80 P08.04 - Zeroing Limit ....................................................................................................................................................... 80 P08.05 - Event Tare Correction ........................................................................................................................................ 80 P08.06 - Zero Set Time ..................................................................................................................................................... 81 P08.07 - Event Time elapsed ........................................................................................................................................... 81 P08.08 - Print Result ......................................................................................................................................................... 81 P08.09 - Zero Set Difference............................................................................................................................................. 81 P08.10 - Event Tare Difference > MAX ............................................................................................................................ 81 P08.11 - Zero Drop-Out Active .......................................................................................................................................... 81 P08.12 - Zero Drop-Out Limit ............................................................................................................................................ 81 P09 - Batch Mode ............................................................................................................................................................. 82 P09.01 - Pre-cut-off Amount.............................................................................................................................................. 82 P09.02 - Correction Amount .............................................................................................................................................. 82 P09.03 - Adaptation Factor ............................................................................................................................................... 82 P09.04 - Batch Tolerance + .............................................................................................................................................. 82 P09.05 - Batch Tolerance - ............................................................................................................................................... 82 P09.06 - Event Out of Tolerance ...................................................................................................................................... 83 P09.07 - Belt Empty .......................................................................................................................................................... 83 P09.08 - Event Batch > Setpoint ...................................................................................................................................... 83 P09.09 - Batch Setpoint Source ........................................................................................................................................ 83 P09.10 - Batch Automatic Record ..................................................................................................................................... 83 P09.11 - Reset print FMZ 1 ............................................................................................................................................... 84 P09.12 - Reset print FMZ 2 ............................................................................................................................................... 84 P10 - Printer Setting .............................................................................................................................................. 84, 85, 86 P10.01 - Baud rate ............................................................................................................................................................ 84 P10.02 - Print Subtotal ...................................................................................................................................................... 84 P10.03 - Print after STOP ................................................................................................................................................. 84 P10.04 - Print Page Length ............................................................................................................................................... 85 P10.05 - Batch Setpoint Line............................................................................................................................................. 85 P10.06 - Batch Setpoint Column ....................................................................................................................................... 85 P10.07 - Batch Actual Value Line ...................................................................................................................................... 85 P10.08 - Batch Actual Value Column ................................................................................................................................ 85 P10.09 - FMZ 1 Line ......................................................................................................................................................... 85 P10.10 - FMZ 1 Column .................................................................................................................................................... 85 P10.11 - FMZ 2 Line ......................................................................................................................................................... 85 P10.12 - FMZ 2 Column .................................................................................................................................................... 86 P10.13 - Date/Time Line ................................................................................................................................................... 86 P10.14 - Date/Time Column .............................................................................................................................................. 86 P10.15 - Event Line ........................................................................................................................................................... 86 P10.16 - Event Column ..................................................................................................................................................... 86
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
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Index P10.17 - Last Zero Set Line .............................................................................................................................................. 86 P10.18 - Last Zero Set Column ......................................................................................................................................... 86 P10.19 - Batchnumber Line............................................................................................................................................... 86 P10.20 - Batchnumber Column ......................................................................................................................................... 86 P11 - Maintenance interval................................................................................................................................................ 87 P11.01 - Maintenance Electric .......................................................................................................................................... 87 P11.02 - Event Maint. Electric .......................................................................................................................................... 87 P11.03 - Maintenance Feeder Run ................................................................................................................................... 87 P11.04 - Event Maint.Feeder Run .................................................................................................................................... 87 P12 - Feeder Control ......................................................................................................................................................... 88 P12.01 - Feeder Active...................................................................................................................................................... 88 P12.02 - Setting Time........................................................................................................................................................ 88 P12.03 - Feed Distance..................................................................................................................................................... 88 P12.04 - Motor STOP immediately .................................................................................................................................... 88 P12.05 - Change-over Full Feed/Dribble Feed.................................................................................................................. 88 P13 - Belt Monitoring ....................................................................................................................................... 89, 90, 91, 92 P13.01 - VAP Active .......................................................................................................................................................... 89 P13.02 - Platform Dis.Length ............................................................................................................................................ 89 P13.03 - Belt Sensor Active .............................................................................................................................................. 89 P13.04 - DI Source Belt Sensor ....................................................................................................................................... 89 P13.05 - BIC Active ........................................................................................................................................................... 89 P13.06 - Sensor Length .................................................................................................................................................... 90 P13.07 - Sensor Width ...................................................................................................................................................... 90 P13.08 - Sensor Offset ...................................................................................................................................................... 90 P13.09 - Belt Drift .............................................................................................................................................................. 90 P13.10 - Event Belt Drift ................................................................................................................................................... 90 P13.11 - Belt Skew............................................................................................................................................................ 90 P13.12 - Event Belt Skew................................................................................................................................................. 91 P13.13 - Slip Value ........................................................................................................................................................... 91 P13.14 - Event Slip .......................................................................................................................................................... 91 P13.15 - DO Belt Drift....................................................................................................................................................... 91 P13.16 - DO Belt Skew .................................................................................................................................................... 91 P13.17 - DO Belt Slip ....................................................................................................................................................... 91 P13.18 - DI BIC freeze ..................................................................................................................................................... 92 P14 - Events.................................................................................................................................................... 92, 93, 94, 95 P14.01 - Event Power Failure .......................................................................................................................................... 92 P14.02 - Event Memory.................................................................................................................................................... 92 P14.03 - Event Tachometer Input .................................................................................................................................... 92 P14.04 - Event Namur Error Tacho .................................................................................................................................. 93 P14.05 - Event Namur Error Belt...................................................................................................................................... 93 P14.06 - Event Error LC Input .......................................................................................................................................... 93 P14.07 - Event Run Disabled ........................................................................................................................................... 93 P14.08 - Event LC Input > MAX ....................................................................................................................................... 94 P14.09 - Event LC Input < MIN ........................................................................................................................................ 94 P14.10 - Event Simulation active ..................................................................................................................................... 94 P14.11 - Event External Event 1 ...................................................................................................................................... 94 P14.12 - Event External Event 2 ...................................................................................................................................... 95 P14.13 - Event License Violation ..................................................................................................................................... 95 P15 - Linearization ............................................................................................................................................................ 95 P15.01 - Linearization ON ................................................................................................................................................. 95 P15.02 - Linearization S1 .................................................................................................................................................. 95 P15.03 - Linearization I1 ................................................................................................................................................... 95 P15.04 - Linearization S2 .................................................................................................................................................. 95 P15.05 - Linearization I2 ................................................................................................................................................... 96 P15.06 - Linearization S3 .................................................................................................................................................. 96 P15.07 - Linearization I3 ................................................................................................................................................... 96 P15.08 - Linearization S4 .................................................................................................................................................. 96 P15.09 - Linearization I4 ................................................................................................................................................... 96 P15.10 - Event Linearization Error ................................................................................................................................... 96 P16 - Digital Inputs ............................................................................................................................................................ 97 P16.01 - Source Run Enable............................................................................................................................................. 97 P16.02 - DI Batch Terminate ............................................................................................................................................ 97 P16.03 - DI Acknowledge Events ..................................................................................................................................... 97 P16.04 - DI Start .............................................................................................................................................................. 97 P16.05 - DI Zero Set ........................................................................................................................................................ 97 P16.06 - DI External Event 1 ............................................................................................................................................ 98
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Index P16.07 - DI External Event 2 ............................................................................................................................................ 98 P16.08 - DI Reset Totalizer 1 ........................................................................................................................................... 98 P16.09 - DI Reset Totalizer 2 ........................................................................................................................................... 98 P17 - Digital Outputs ......................................................................................................................................................... 98 P17.01 - DO ALARM ........................................................................................................................................................ 98 P17.02 - DO Start Prefeeder ............................................................................................................................................ 98 P17.03 - DO Scale Start ................................................................................................................................................... 99 P17.04 - DO Actual Flow Rate MIN .................................................................................................................................. 99 P17.05 - DO Actual Flow Rate MAX ................................................................................................................................ 99 P17.06 - DO Belt load MIN ............................................................................................................................................... 99 P17.07 - DO Belt Load MAX ............................................................................................................................................ 99 P17.08 - DO Speed MIN .................................................................................................................................................. 99 P17.09 - DO Speed MAX ................................................................................................................................................. 99 P17.10 - DO Batch Running ........................................................................................................................................... 100 P17.11 - DO Full Feed ................................................................................................................................................... 100 P17.12 - DO Dribble Feed .............................................................................................................................................. 100 P17.13 - DO Keyboard Mode ......................................................................................................................................... 100 P18 - Communication EasyServe ................................................................................................................................... 100 P18.01 - Own Address .................................................................................................................................................... 100 P18.02 - Baud Rate ......................................................................................................................................................... 101 P18.03 - Format Data ...................................................................................................................................................... 101 P19 - Communication Fieldbus ....................................................................................................................................... 101 P19.01 - Protocol Type.................................................................................................................................................... 101 P19.02 - Timeout Host .................................................................................................................................................... 102 P19.03 - Event Cyclic Communication ........................................................................................................................... 102 P19.04 - Event Acyclic Communication.......................................................................................................................... 102 P19.05 - Check in Keyboard Mode ................................................................................................................................. 102 P19.06 - Compatibility DISOCONT Master ..................................................................................................................... 102 P19.07 - Word Sequence ................................................................................................................................................ 103 P19.08 - Byte Sequence ................................................................................................................................................. 103 P19.09 - Configuration .................................................................................................................................................... 103 P19.10 - Address ............................................................................................................................................................ 103 P19.11 - Resolution ......................................................................................................................................................... 104 P19.12 - Baud rate .......................................................................................................................................................... 104 P19.13 - Data Format ...................................................................................................................................................... 104 P19.14 - Physics ............................................................................................................................................................. 104 P19.15 - Address ............................................................................................................................................................ 104 P19.16 - FLOAT-Format.................................................................................................................................................. 104 P19.17 - Compatiblity INTECONT ................................................................................................................................... 105 P19.18 - Identifier format ................................................................................................................................................. 105 P19.19 - PA32 compatible............................................................................................................................................... 105 P19.20 - Address ............................................................................................................................................................ 105 P19.21 - Baud rate .......................................................................................................................................................... 105 P19.22 - Access Rights Limitation FB ............................................................................................................................. 106 P19.23 - Remote IP Address FB ..................................................................................................................................... 106 P20 - Fixed mode configuration ...................................................................................................................... 106, 107, 108 P20.01 - ID Preset Value 1.............................................................................................................................................. 106 P20.02 - ID Preset Value 2.............................................................................................................................................. 106 P20.03 - ID Preset Value 3.............................................................................................................................................. 106 P20.04 - ID Preset Value 4.............................................................................................................................................. 106 P20.05 - ID Preset Value 5.............................................................................................................................................. 107 P20.06 - ID Preset Value 6.............................................................................................................................................. 107 P20.07 - ID Preset Value 7.............................................................................................................................................. 107 P20.08 - ID Preset Value 8.............................................................................................................................................. 107 P20.09 - ID Read Value 1 ............................................................................................................................................... 107 P20.10 - ID Read Value 2 ............................................................................................................................................... 107 P20.11 - ID Read Value 3 ............................................................................................................................................... 107 P20.12 - ID Read Value 4 ............................................................................................................................................... 107 P20.13 - ID Read Value 5 ............................................................................................................................................... 108 P20.14 - ID Read Value 6 ............................................................................................................................................... 108 P20.15 - ID Read Value 7 ............................................................................................................................................... 108 P20.16 - ID Read Value 8 ............................................................................................................................................... 108 P21 - Ethernet ................................................................................................................................................................. 108 P21.01 - IP Address ........................................................................................................................................................ 108 P21.02 - Net Mask .......................................................................................................................................................... 108 P21.03 - Gateway ........................................................................................................................................................... 108
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
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Index P22 - Data Logging ......................................................................................................................................................... 109 P22.01 - Hourly Total Time ............................................................................................................................................. 109 P22.02 - Daily Total Time ................................................................................................................................................ 109 P22.03 - Logger cycle time.............................................................................................................................................. 109 P22.04 - Data Log Value 1 .............................................................................................................................................. 109 P22.05 - Data Log Value 2 .............................................................................................................................................. 109 P22.06 - Data Log Value 3 .............................................................................................................................................. 109 P22.07 - Data Log Value 4 .............................................................................................................................................. 110 P22.08 - Data Log Value 5 .............................................................................................................................................. 110 P22.09 - Data Log Value 6 .............................................................................................................................................. 110 P22.10 - Data Log Value 7 .............................................................................................................................................. 110 P22.11 - Data Log Value 8 .............................................................................................................................................. 110 P22.12 - Data Log Value 9 .............................................................................................................................................. 111 P22.13 - Data Log Value 10 ............................................................................................................................................ 111 P23 - Configuration HMI Values ...................................................................................................................................... 111 P23.01 - HMI Value 01 .................................................................................................................................................... 111 P23.02 - HMI Value 02 .................................................................................................................................................... 111 P23.03 - HMI Value 03 .................................................................................................................................................... 111 P23.04 - HMI Value 04 .................................................................................................................................................... 111 P23.05 - HMI Value 05 .................................................................................................................................................... 112 P23.06 - HMI Value 06 .................................................................................................................................................... 112 P23.07 - HMI Value 07 .................................................................................................................................................... 112 P23.08 - HMI Value 08 .................................................................................................................................................... 112 P23.09 - HMI Value 09 .................................................................................................................................................... 112 P23.10 - HMI Value 10 .................................................................................................................................................... 112 P24 - Second Display .............................................................................................................................................. 113, 114 P24.01 - Second Display active ...................................................................................................................................... 113 P24.02 - Baud rate .......................................................................................................................................................... 113 P24.03 - Data Format ...................................................................................................................................................... 114 P24.04 - Physics ............................................................................................................................................................. 114 PA32 compatible ............................................................................................................................................................. 105 Parameter Block 01 - Dialog Behaviour ............................................................................................................................ 66 Parameter Block 02 - Rated Data ..................................................................................................................................... 69 Parameter Block 03 - Calibration Data .............................................................................................................................. 72 Parameter Block 04 - Calibrat. Results ............................................................................................................................. 73 Parameter Block 05 - Analog Outputs ............................................................................................................................... 74 Parameter Block 06 - Limit Values .................................................................................................................................... 76 Parameter Block 07 - Filters .............................................................................................................................................. 79 Parameter Block 08 - AUTO Zero Set ............................................................................................................................... 80 Parameter Block 09 - Batch Mode .................................................................................................................................... 82 Parameter Block 10 - Printer Setting ................................................................................................................................. 84 Parameter Block 11 - Maintenance interval....................................................................................................................... 87 Parameter Block 12 - Feeder Control ................................................................................................................................ 88 Parameter Block 13 - Belt Monitoring ................................................................................................................................ 89 Parameter Block 14 - Events............................................................................................................................................. 92 Parameter Block 15 - Linearization ................................................................................................................................... 95 Parameter Block 16 - Digital Inputs ................................................................................................................................... 97 Parameter Block 17 - Digital Outputs ................................................................................................................................ 98 Parameter Block 18 - Communication EasyServe .......................................................................................................... 100 Parameter Block 19 - Communication Fieldbus .............................................................................................................. 101 Parameter Block 20 - Fixed mode configuration ............................................................................................................. 106 Parameter Block 21 - Ethernet ........................................................................................................................................ 108 Parameter Block 22 - Data Logging ................................................................................................................................ 109 Parameter Block 23 - Configuration HMI Values ............................................................................................................. 111 Parameter Block 24 - Second Display ............................................................................................................................. 113 Parameter Details ............................................................................................................................................................. 66 Parameter functions .......................................................................................................................................................... 35 Parameter Input ................................................................................................................................................................ 47 Parameter Listing .............................................................................................................................................................. 55 Parameter Overview ......................................................................................................................................................... 55 Parameters........................................................................................................................................................................ 53 Password .......................................................................................................................................................................... 67 Physics .................................................................................................................................................................... 104, 114 Platform Dis.Length ........................................................................................................................................................... 89 Pre-cut-off Amount ............................................................................................................................................................ 82 Prefeeder .......................................................................................................................................................................... 25
BV-H2464GB, 1201 - 156 -
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
Index Print after STOP ................................................................................................................................................................ 84 Print Page Length ............................................................................................................................................................. 85 Print Result........................................................................................................................................................................ 81 Print Subtotal..................................................................................................................................................................... 84 Printer functions ................................................................................................................................................................ 37 Printer Setting ....................................................................................................................................................... 84, 85, 86 PROFIBUS module (VPB8020)....................................................................................................................................... 130 Protocol Type .................................................................................................................................................................. 101 Pulse Length Total ............................................................................................................................................................ 71 Pulse/Belt circuit LB .......................................................................................................................................................... 28 Pulses per length .............................................................................................................................................................. 70 Quick guide ....................................................................................................................................................................... 15 Range Correction .............................................................................................................................................................. 74 Rated Data ...................................................................................................................................................... 69, 70, 71, 72 Read Parameters .............................................................................................................................................................. 35 Record the batch ............................................................................................................................................................... 41 Remote IP Address FB.................................................................................................................................................... 106 Replacing INTECONT PLUS with INTECONT Tersus .................................................................................................... 127 Reset Counter 1 ................................................................................................................................................................ 68 Reset Counter 2 ................................................................................................................................................................ 68 Reset print FMZ 1 ............................................................................................................................................................. 84 Reset print FMZ 2 ............................................................................................................................................................. 84 reset the totalizing counter ................................................................................................................................................ 19 Resolution ....................................................................................................................................................................... 104 Route Tot. ON/OFF ........................................................................................................................................................... 69 Safety notes ........................................................................................................................................................................ 3 SC03 Event Maint.Feeder Run ..................................................................................................................................... 121 SC04 Event Maint. Electric............................................................................................................................................ 121 SC05 Event External Event 1 ........................................................................................................................................ 121 SC06 Event External Event 2 ........................................................................................................................................ 121 Scale Name....................................................................................................................................................................... 67 SCROLL ............................................................................................................................................................................ 16 Second Display ....................................................................................................................................................... 113, 114 Second Display active ..................................................................................................................................................... 113 Sensor Length ................................................................................................................................................................... 90 Sensor Offset .................................................................................................................................................................... 90 Sensor Width..................................................................................................................................................................... 90 Sequence Monitoring ...................................................................................................................................................... 121 Serial number of the CPU board ..................................................................................................................................... 137 Service Functions .............................................................................................................................................................. 21 Service Values ................................................................................................................................................................ 139 Set option ........................................................................................................................................................................ 140 Setting the Time ................................................................................................................................................................ 33 Setting Time ...................................................................................................................................................................... 88 Signal Words ....................................................................................................................................................................... 5 Signal Words for Application Notes ..................................................................................................................................... 5 Signal Words for Safety Warnings ...................................................................................................................................... 5 Simulation ......................................................................................................................................................................... 26 Slip Value .......................................................................................................................................................................... 91 software identification ...................................................................................................................................................... 139 Software version ..................................................................................................................................................... 137, 139 Source Run Enable ........................................................................................................................................................... 97 speed .................................................................................................................................................................................. 9 Speed Measurement ......................................................................................................................................................... 70 Speed Offset ..................................................................................................................................................................... 76 Speed Range .................................................................................................................................................................... 76 START/STOP.................................................................................................................................................................... 16 Starting and Stopping ...................................................................................................................................................... 143 Starting the calibration functions ....................................................................................................................................... 27 Startup operation ............................................................................................................................................................... 43 Status Report .................................................................................................................................................................... 37 Switch Keyboard-/Normal Mode ........................................................................................................................................ 68 SY01 Event Memory ..................................................................................................................................................... 122 SY08 Event Cyclic Communication ............................................................................................................................... 122 SY09 Event License Violation ....................................................................................................................................... 122 SY10 Event Acyclic Communication ............................................................................................................................. 122
INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group
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Index SY14 Event Simulation active ....................................................................................................................................... 122 System Information ......................................................................................................................................................... 137 System Message ............................................................................................................................................................. 122 Tab.1: Using parameter sets ............................................................................................................................................. 53 Tab.10: LED 'Module Status' (below) .............................................................................................................................. 133 Tab.11: Modbus module properties................................................................................................................................. 134 Tab.12: Modbus serial interface pin assignment ............................................................................................................. 134 Tab.13: Functions available on the controller web page ................................................................................................. 137 Tab.2: List of commonly used parameters-related abbreviations ...................................................................................... 54 Tab.3: Event classes ......................................................................................................................................................... 55 Tab.4: Event groups ........................................................................................................................................................ 115 Tab.5: 'Bus activation' connector..................................................................................................................................... 131 Tab.6: LED 'Operating Mode' (below) ............................................................................................................................. 131 Tab.7: LED 'Status' (above) ............................................................................................................................................ 131 Tab.8: 'Bus activation' connector..................................................................................................................................... 132 Tab.9: LED 'Network Status' (above) .............................................................................................................................. 133 Tare Correction ................................................................................................................................................................. 74 Tare TW ............................................................................................................................................................................ 29 Technical Data and Replacement Parts .......................................................................................................................... 123 Test Connector................................................................................................................................................................ 142 Test With Calibration Weight ............................................................................................................................................. 49 Test with Material .............................................................................................................................................................. 51 Timeout Host ................................................................................................................................................................... 102 total ..................................................................................................................................................................................... 9 Total Tare .......................................................................................................................................................................... 74 Totalizer Increment ........................................................................................................................................................... 72 Turn off .............................................................................................................................................................................. 18 turn on ............................................................................................................................................................................... 18 Units .................................................................................................................................................................................. 66 Userdefined Text ............................................................................................................................................................... 66 VAP Active ........................................................................................................................................................................ 89 WE01 Event Power Failure ........................................................................................................................................... 118 WE09 Event Namur Error Tacho ................................................................................................................................... 118 WE10 Event Namur Error Belt ...................................................................................................................................... 118 Web Server ..................................................................................................................................................................... 137 Web server functions....................................................................................................................................................... 137 Weighing Platforms ........................................................................................................................................................... 43 Weight Check CW ............................................................................................................................................................. 31 WM02 Event Slip ........................................................................................................................................................... 120 WM03 Event Belt Skew ................................................................................................................................................. 120 WM04 Event Belt Drift ................................................................................................................................................... 120 Word Sequence .............................................................................................................................................................. 103 Z1-Numberstep ................................................................................................................................................................. 72 Zero Drop-Out Active ........................................................................................................................................................ 81 Zero Drop-Out Limit .......................................................................................................................................................... 81 Zero Set Difference ........................................................................................................................................................... 81 Zero Set Time ................................................................................................................................................................... 81 Zeroing Limit ..................................................................................................................................................................... 80
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INTECONT® Tersus Belt weigher, Instruction Manual Schenck Process Group