release_note.pdf

UMUX from UMUX from KEYMILE covers your communication requirements

Release Note

UMUX & UCST R8B SP02

UMUX & UCST R8

Page iii

Release Note UMUX & UCST R8B SP02 and related functions

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Introduction:

The provision of UMUX and UCST software is subject to the terms of the relevant KEYMILE software license. This document is provided for information purposes only, and in no way amends or invalidates the terms of such licence. The provision of Embedded Software (ESW) is subject to the terms of the relevant KEYMILE software license. This document is provided for information purposes only, and in no way amends or invalidates the terms of such licence.

Copyright and Confidentiality:

Copyright in this document document vests in KEYMILE AG. The The information in this document document is confidential, and and may only be used by recipient recipient for the purposes of operating and maintaining UMUX and UCST software. The contents of this document may not be copied or disseminated to any third party without the prior written agreement of KEYMILE.

Disclaimer:

KEYMILE has taken reasonable care in compiling this document, however KEYMILE accepts no liability whatsoever for any error or omission in the information contained herein and gives no other warranty or undertaking as to its accuracy. KEYMILE reserves the right to amend this document at any time without prior notice.

KEYMILE PEC:

KEYMILE AG Schwarzenburgstrasse 73 CH-3097 Bern-Liebefeld Switzerland

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© May 2008 by KEYMILE AG

© KEYMILE AG

Table of contents

iii

i

1

Introduction

1

1.1

About this document document

1

1.2 1.2.1 1.2.2 1.2.3 1.2.4 1.2.5 1.2.6

Overview of the multiservice access platform R8B The UMUX platform Network elements and units Traffic services and interfaces Remote units and services Management Management tools and interfaces Signal layers

2

New content

2.1 2.1.1 2.1.2

Functionality R8B SP01 R8B SP02

14 14 14

2.2 2.2.1 2.2.2

Correction of deficiencies Cleared limitations New ESW for current function units

19 19 19

3

Summary of network elements

3.1 3.1.1 3.1.2

UMUX 1500 Features System cores


5 5 5 5 9 10 11

14

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© KEYMILE AG

3.1.3

Auxiliary equipment equipment

25

3.2 3.2.1 3.2.2 3.2.3

UMUX 1200 Features System cores Auxiliary equipment equipment

27 27 29 31

3.3 3.3.1 3.3.2 3.3.3

UMUX 900 Features System cores Auxiliary equipment equipment

32 32 34 35

3.4

Patch panels

36

3.5

Legacy equipment

37

4

Summary of units

4.1 4.1.1 4.1.2 4.1.3

Control, power and fan units Control units Power units Fan units

38 38 41 41

4.2

ABUS units

42

4.3

PBUS units

45

4.4

SBUS units

55

4.5

UBUS units

60

4.6

Special units

65

4.7

Obsolete function units

68

4.8

Desktop units

72

4.9 4.9.1 4.9.2

Modules PC memory cards SFP modules

78 78 78


38

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© KEYMILE AG

5

UCST R8B

5.1 5.1.1 5.1.2 5.1.3 5.1.4 5.1.5 5.1.6

PC / OS requirements General Windows® 2000 Windows® XP Professional Windows® Vista Enterprise (32-bit version) Windows® Server 2003 RS-232C interface

80 80 80 81 81 81 82

5.2

Installation of UCST service packs

83

6

Compatibility and upgrades

6.1

Support of legacy UMUX

84

6.2 6.2.1 6.2.2

Configuration Compatibility with previous configurations configurations Procedures

85 85 85

6.3 6.3.1 6.3.2

Control units Support of units Upgrade process

87 87 88

6.4

Support of PC flash memory cards

89

6.5

New unit hardware

90

6.6

IPSMG conversion

90

6.7

NE traffic

90

6.8 6.8.1 6.8.2

Ordering of units Ordering process Background information

91 91 91


80

84

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7

Software carriers and documentation

7.1 7.1.1 7.1.2

Software and software packages UCST Embedded Software

93 93 94

7.2 7.2.1 7.2.2 7.2.3

Customer documentation documentation Overview UMUX / UCST customer documentation documentation Associated customer customer documentation

95 95 95 98

8

Limitations

8.1

Overview

8.2

ACONV

100

8.3

ADACA / ADACB

101

8.4

ADACS

102

8.5

ATIOP

102

8.6

COBUX

103

8.7

GECOD

105

8.8

IPLMx

106

8.9

IPSMG

107

8.10

ISBUT

108

8.11

LAWA4

109

8.12

LECAF - LECA2

109

8.13

LEMU6

111

8.14

LESA8 - LESI8

112

8.15

LOMIF - LOMI4

114

8.16

MIRIG

115


93

99 99

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8.17

MUSIC 100

116

8.18

MUSIC 200

116

8.19

MUSIC 700

117

8.20

NEBRO / NEBRA

117

8.21

NEMCA

118

8.22

PCONV - PCON2

119

8.23

PHLC1 - PHLC2 - PHLC3

120

8.24

POTS Splitter

121

8.25

SLIM1/2 - SLID1/2

122

8.26

STIC1 - STIC2, LRD1A - LRD1B - LRD2A, SREG1 - SREG2

123

8.27

SYNAM - SYNIx - SYNOT - SYNVA – SYNUF – SYN4E

124

8.28

TUNOx

125

8.29

TUPON

126

8.30

UNIDA

127

8.31

Miscellaneous

128


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© KEYMILE AG

1 1.1

Introduction About this document KEYMILE AG proudly announces the new release R8B of the UMUX multiservice access platform.

This release note provides important information of the features and functions released for the UMUX multiservice access platform. It describes the elements released and the requirements for the installation and operation of the UCST management software: •

Chapter 1, «Introduction» describes the subject of the release note and provides a short overview of the structure and the contents of the release note.

•

Chapter 2 «Functions and systems» on page Fehler! Textmarke nicht definiert. provides an overview of traffic services and functions provided with the UCST / UMUX platform R8B. Separate paragraphs are dedicated to new and enhanced functions and units introduced with the platform and its service packs (if any).

•

Chapter 3 «Summary of network elements» on page 22 describes the network elements of the current platform release. It provides an overview of the supported units per network element and a description of the required/available required/available core units for the NEs. Descriptions of the available system cores (subracks and core units) and options available are provided as well.

•

Chapter 4 «Summary of units» on page 38 has tables which provide an overview of the compatible unit hardware and software (ESW) for the UMUX function units. The function units are divided in groups according to their physical bus access or system functionality where applicable. Within the groups the function units are alphabetically sorted. A separate table table describes obsolete obsolete function units and and their substitutes where where applicable. applicable. A further paragraph paragraph is dedicated to the description of of compatible hardware hardware and software software of the UMUX supported desktop units.

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Introduction •

Chapter 5 «UCST R8B» on page 80 describes the requirements on PC / Laptop hardware and software for the installation and operation of the UCST software and gives details for the installation of the UCST service packs.

•

Chapter 6 «Compatibility and upgrades» on page 84 describes the aspects of compatibility of UCST and ESW upgrades with the current NE configurations and functions. Where required, descriptions of the upgrade procedures are provided as well.

•

Chapter 7 «Software carriers and documentation» on page 93 lists the software packages available with UCST management software and embedded embedded (unit) software. An separate section section describes the customer customer documentation documentation released for for the UMUX multiservice platform and lists the packages available. For information of the current training offers, please read the training program provided on KEYMILE’s homepage «www.keymile.com/»on under «Services → Training → ...».

•

Chapter 8 «Limitations» on page 93 lists the known limitations on a per unit basis.

If you need additional information, please contact your KEYMILE sales representative or consult KEYMILE via its homepage «www.keymile.com/».

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Introduction Abbreviations used used in the tables tables of this document: document:

Page 3 of 129

Abbreviation Abbreviation

Plain text

Description (optional)

AC

Accessory

Extension of the short name (-AC) describing describing the category of the short named item.

AP

Application

Extension of the short name (-AP) (-AP) describing the category of the short named item.

APDSW

Application Download Software

UMUX software which loads the ESW from the MIB of the NE to the units.

BF

Bug Fix

Here used in context with ESW: New ESW that has been released asynchronously asynchronously to the Releases and Service Packs to fix bugs.

CS

Core System

Extension of the short name (-CS) describing the category of the short named item.

ESW

Embedded Software

Application software which is downloaded to the UMUX control and service units.

FU

Function Unit

Extension of the short name describing the category of the short named item.

HK

Hardware Key

Part of the inventory data which identifies the type of the hardware for the ESW.

HP-UX

Hewlett Packard UniX

Hewlett Packard proprietary version of the UNIX operating system for HP workstations.

HW

Hardware

MG

MileGate

Generic abbreviation for KEYMILE’s MileGate network elements and the MileGate product family.

n.a.

not applicable

NE

Network Element

Generic term for managed elements in a network.

OS

Operating System

Operating system (and version) required to run the specified application software. The application software is released for the specified OS(s) only.

PEC

Product Engineering Code

The KEYMILE Product Engineering Code technically identifies and describes the product, its state and evolution. The PEC cannot be used for ordering or other commercial purposes.

PH

PBUS Highway access per unit

Maximum number of PBUS highways (2 Mbit/s of traffic signals plus corresponding signalling) accessed per unit.

Rel.

Release

Release (version).

RHE

Red Hat Enterprise

Provider of the Linux OS software for the UNEM software.


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Introduction Abbreviation Abbreviation

Plain text

Description (optional)

SE

Set

Extension of the short name (-SE) describing the category of the short named item.

SP

Service Pack

Extension of the short name (-SP) describing the category of the short named item.

SL

Software Lizence

Extension of the short name (-SL) describing the category of the short named item.

SW

Software

TIU

Template Introduced with the Describes the UCST version with which the corresponding indicated UCST version unit template has been introduced.

TOU

Template Obsolete with the indicated UCST version

Describes the UCST version with which the corresponding unit template became obsolete.

UMUX

UMUX

Generic abbreviation for UMUX network elements and the UMUX product family.

Vers.

Version

[NM]

[Network Management]

Index for the reference numbers of the UNEM and network management platform (e.g. reference [NM].[101]).

[UX]

[UMUX]

Index for the reference numbers of the UMUX/UCST platform (e.g. reference [UX].[101]).

UG

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Introduction

1.2

Overview of the multiservice access platform R8B

1.2.1

The UMUX platform

The UMUX platform offers a range of compact, flexible, migration capable and managed systems, offering unequalled multi-service & multi-transmission capability. The services supported by UMUX range r ange from traditional telephony, broadband Internet access and private circuits to new services such as br oadband Ethernet Ethernet Private Lines / LANs, Triple Play and Voice over Packet. The UMUX Multiservice Access Platform is composed of the following components: • • •

1.2.2

Network elements (with units) Desktops (remote units) Management Systems

Network elements and units

UMUX is available in 3 subrack versions, UMUX 1500, UMUX 1200 and UMUX 900. Each version is particularly suited for a range of applications and the corresponding installation requirements while the system features remain the same. Each subrack uses the same units (release of the unit for the UMUX type provided).

1.2.3

Traffic services and interfaces

The UMUX/ UCST R8B platform with Service Pack 02 supports traffic types as follows: •

PDH traffic

The UMUX can multiplex and cross connect both P0-nc and P12x traffic. The cross connect capacity is in total 128 x 2 Mbit/s (for signals with and without signalling) for the UMUX 1500. The practically used capacity with the UMUX 1200 and especially the UMUX 900 is well below this capacity because of the reduced number of slots available for traffic units in the UMUX 1200 and UMUX 900 subracks. The cross-connect handles structured and unstructured P12 traffic signals for transparent cross connecting. Structured P12s signals with or without signalling are either switched transparently or de-multiplexed and switched as P0-nc traffic signals. Page 5 of 129


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Introduction Various traffic units allow the UMUX to connect a big variety of traffic signal types from PSTN, ISDN-BA and standard data services up to V5 and IP services (IP over PDH). •

SDH traffic

The UMUX provides STM-4 and STM-1 interfaces which allow you to groom E12/P12, E31/32 and IP (Ethernet) tributary traffic for SDH tr ansmission. The UMUX provides electrical electrical STM-1 and optical STM-4/1 interfaces for the aggregate traffic. It is possible to directly connect VC-12 and VC-3 traffic between 2 STM-1 aggregate interfaces and up to VC-4 traffic between the STM-4 interfaces. The units with STM-4 and STM-1 aggregate interfaces provide the SETS timing function for the UMUX. To cope with the tributary traffic, the UMUX provides units with P12 or E12 interfaces for internal and external tributaries and an E31/32 interface for external tributaries. A further unit with an optical STM-1 tributary interface handles high volume tributary traffic for the STM-1 aggregate interfaces. •

IP traffic

The UMUX provides various units and desktop units with local and remote Ethernet interfaces. Traffic units with bridging and routing capabilities are available for the processing of IP traffic between remote interfaces (desktops) and the internal PDH traffic structures. The processing of IP traffic not only includes routing and bridging but allows for f or Ethernet over SDH applications (VLAN) and includes Voice over IP for Access Gateway applications with NGN. •

ATM traffic

With the ABUS traffic units, it is possible to implement an ATM core for various services in the UMUX. The UMUX supports ATM as follows: −

ATM layer (according (according to ATM Forum AF-TM-0121.000, AF-TM-0121.000, Traffic Manageme Management nt Specification, Version 4.1) – – – – – – −

Page 6 of 129

Permanent virtual connections (PVCs) only, up to 2048 connections per NE Point to point, bi-directional, asymmetric VCCs and VPCs UNI cell format Service categories supported: CBR, VBR-rt, VBR-nrt and UBR Conformance definitions: CBR.1, VBR.1 and UBR.1 Ingress traffic control functions: Usage parameter control (UPC), Connection admission control (CAC) Egress traffic control functions: VP shaping (STM-1 UNI), CAC


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Introduction −

ATM cross connect – – – −

Switching capacity 515'160 kbit/s (1'215'000 (1'215'000 cells/s) Up to 2048 connections per network element Accessible by up to 8 units (slots), depending depending on type of of subrack Although the cross connect fabric fabric allows connections connections to be set up from any port port to any port or service, the UMUX has still to be considered as an ATM multiplexer or concentrator with a maximum aggregate aggregate bandwidth according to STM1 towards the regional ATM network.

– ECC over ATM – QoS: CBR (CBR.1) – PCR: 80.1 kbit/s, 240.4 kbit/s – CDVT: 5000 µs −

−

and 720.4 kbit/s

«PPP over AAL5», AAL5», encapsulation encapsulation method method «VC-multiplexed «VC-multiplexed PPP» PPP» according to RFC 2364.

ATM UNI (User-to-Network Interface) physical −

−

−

STM-1 optical interface for the the transmission of ATM cells cells (in VC-4) in the ATM network (ATM-UNI). The STM-1 (ATM) interface supports - 149760 kbit/s corresponding to 353207 cells/s. - Multiplex Section protection IMA (Inverse Multiplexing Multiplexing of ATM) for the transmission of ATM cells via a set of of P12s (P0-nc) TDM links. An IMA group supports supports from 2 up to 16 links, each link link with a bandwidth bandwidth of 1920 kbit/s kbit/s (4528 cells/s). ADSL and SHDSL modem modem interfaces for for the transmission transmission of ATM cells and the the access to remote CPE (IAD) with PSTN and ISDN-BA user ports. - The ADSL interface supports transmission rates as follows - Upstream: 32 kbit/s … 1024 kbit/s - Downstream: 32 kbit/s … 8064 kbit/s -

The SHDSL interface supports transmission rates (up-/downstream) (up-/downstream) as follows follows - 1 pair: 200 kbit/s … 2320 kbit/s - Pair bonding (2 pairs): 400 kbit/s … 4640 kbit/s

The UMUX supports the configuration of the ADSL and SHDSL interfaces with profiles. −

ATM Services −

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Circuit Emulation Emulation Service: CES 2048 2048 kbit/s (AAL1) (AAL1) CES supports the emulation of P12 TDM circuits which are transmitted via an ATM UNI


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Introduction − −

•

Support of Customer Parameter Sets for commissioning of soft switch interoperability Provisioning of POTS and ISDN-BA user ports (local and remote)

IP DSLAM with w ith real Broadband Triple Play services

The UMUX supports a modular IP DSLAM implementation with the IPLM1/2/4 units which have 24 ADSL/ADSL2(+) and the IPLM6 unit has 24 G:SHDSL/G.SHDSL.bi G:SHDSL/G.SHDSL.bis s interfaces and provide the interworking functions for the termination of the ATM layer and adaptation of the Ethernet traffic for IP services. IPLM unit versions support ADSL over POTS (IPLM1/2) and ISDN-BA (IPLM4). With the new IPLM units the UMUX supports triple play services as follows: − − − −

Broadband internet access (TV) Multicasting and video on demand Voice over IP Access: – ADSL/ADSL2(+) loop access to the residential residential gateway (CPE) (CPE) G.SHDSL/G.SHDSL.bis loop access to the residential gateway (CPE) – G.SHDSL/G.SHDSL.bis − Gbit-Ethernet uplink for the access to the service provider

It is possible to cascade several units for the implementation of IP DSLAMS with n x 24 ADSL / ADSL2(+) or G.SHDSL / G.SHDSL.bis interfaces interfaces with a common uplink. The UCST supports supports the management management of the basic unit functions and management access of the DSLAM unit. A dedicated CLI – also launched via UCST - allows for the configuration of the DSLAM parameters and the DSLAM fault management. The high density of the IP DSLAM interfaces on the units and the corresponding power dissipation require imperatively forced ventilation for the UMUX subrack.

1.2.4

Remote units and services

The UMUX Multiservice Access Platform includes a set of desktop units for the remote installation (customer premises) which allow the deployment deployment of remote traffic interfaces and services. The remote units have electrical (xDSL) interfaces for the data transmission with the UMUX NEs. Some of the desktop units operate in standalone applications applications as well. The desktop units (xDSL transmission) provide remote interfaces for

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•

PDH traffic with various various interfaces interfaces (G.703, (G.703, V , X interface series)

•

Ethernet traffic Desktop units with Ethernet traffic interfaces include additional traffic functions for IP traffic processing (e.g. bridging, routing).


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Introduction •

PSTN and ISDN interfaces Desktop units with PSTN and ISDN interfaces can provide user ports for V5 and NGN applications.

A desktop unit for optical optical 8 Mbit/s transmission transmission with 4 x 2 Mbit/s Mbit/s G.703 or V.11 traffic interfaces completes the remotes units of the UMUX multiservice platform. Remote units connected to the UMUX are fully managed by the UMUX management system. 1.2.5

Management Management tools and interfaces

1.2.5.1

Management Management software The UMUX Multiservice Access Platform has two management toots: •

UCST The UCST is recommended for the management of single UMUXs or small UMUX networks. The UCST runs on an ordinary PC/notebooks under Windows® operating systems as specified in the paragraph «PC « PC / OS requirements» requirements» on page 80.

•

UNEM The UNEM is comprehensive management management software managing network elements and networks. It is suited for medium to large sized UMUX networks. The UNEM has a modular architecture which allows distributed and scalable installations. Operation control and NE access have multi-session capabilities, while the UNEM core manages one central database and all the north bound interfaces. The UNEM runs on PCs with Linux (Red Hat Enterprise) and HP workstations with UNIX (HPUX 11i) operating systems as specified in the applicable UNEM release note.

1.2.5.2

Management Management interfaces The UMUX features local interfaces for NE management and the ECC (Embedded Communication Channel) functionality for remote management management with the UCST and UNEM: The ECC is a high performance in-band channel, which allows the implementation of versatile inband MCN (Management Communication Communication Networks) for the management of the UMUX 1500, UMUX 1200 and UMUX 900 networks. The ECC functionality includes OSPF routing for the UMUX management management traffic in the NEs and the transport of the ECC over SDH (OSI tunnelling) and ATM (ECC over ATM) networks. The UMUX supports interfaces for management management communication as follows

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Introduction •

External management management interfaces interfaces for local NE access management access via LANs. − The QX-interface is an Ethernet interface (10BaseT) for management compatible to the corre− The F-interface is a serial interface (RS 232) and is functionally compatible sponding interface of the legacy UMUX 1100(E) and UMUX 1300. − The Q1-interfaces is a serial bus interface (RS 485) All the UMUX support support the Q1-(slave) interface interface which is functionally functionally compatible to the corresponding interface of the legacy UMUX 1100(E) and UMUX 1300. The UMUX 1500 and UMUX 1200 provide the Q 1-master interfaces which allows you to subtend legacy UMUX for NE management management via the Q-bus. The Q 1-master interface provides a remote replication of the UCST / UNEM Q-bus access via the ECC DCN.

•

Internal management management interfaces The router of the control unit supports up to 32 ECC interfaces which internally connect to −

ECC transported in standard PDH channels (normally embedded embedded in P12 as P0-nc traffic) in the PDH network.

−

ECC transported in the SOH (Section Overhead) of the STM-1 frame in SDH networks. In open SDH networks these ECC require encapsulation in the OSI stack which is used in SDH networks for management communication. This functionality is implemented implemented on the control unit.

−

ECC transported via ATM networks. This requires the encapsulation of the ECC in ATM cells. This functionality is implemented on the units with the ATM UNI. (STM-1, IMA).

For compatibility with legacy UMUX, the UMUX 1500 and UMUX 1200 can connect via the SIFOX unit to the EOC (Embedded Operation Channel). The EOC provides the management communication network for the legacy UMUX 1300 and UMUX 1100(E). Because of its low throughput and the use of dedicated units, the EOC is not suited for the management communication communication of the current UMUX systems.

1.2.6

Signal layers

The UCST uses unified names for traffic signal layers according to the ETSI nomenclature (if applicable). The UCST and UNEM use the same terms for the same things. For details and layer names, refer to the table below:

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Introduction Table 1-1:

Page 12 of 129

Traffic signal layers UCST R8B

Layer

Specification

UCST R8B

Signal rate

Layer

Description

ATM

-

-

Functional ATM layer on the unit level

ADSL Channel

variable

path

Unit functional layer and UNEM ADSL path interface on the unit level

ADSL Line

variable

section

Unit functional layer and UNEM ADSL section interface

P0

64 kbit/s

path

UCST TDM cross connections

P0_nc

n x 64 kbit/s

path


E0

64 kbit/s

section

Unit functional layer and UNEM

P12

2 Mbit/s

path


E12

2 Mbit/s

section


P0 … E12

-

-

Functional layers 64 kbit/s … 2 Mbit/s on the unit level

P22

8 Mbit/s

path

IF on the unit level

E22

8 Mbit/s

section


O22

8 Mbit/s

section

Unit functional layer and UNEM Physical Medium Section

P31

34 Mbit/s

path

IF on the unit level (FUTURE OPTION)

E31

34 Mbit/s

section


P32

45 Mbit/s

path

IF on the unit level (FUTURE OPTION)

E32

45 Mbit/s

section


Ethernet Phy

variable

section

Unit functional layer and UNEM CSMACD section interface

P-DSL

variable

path

Unit functional layer and UNEM xDSL path interface on the unit level (can adapt to P0_nc or P12 or VC-12)

E-DSL

variable

section

Unit functional layer and UNEM xDSL section interface

VC

variable

path

UCST ATM cross connections

VC-12

2 Mbit/s

path

UCST TDM cross connections Virtual Container 12 of STM-1

VC-3

34 or 45 Mbit/s

path

UCST TDM cross connections Virtual Container 3 of STM-1

VC-4

139 Mbit/s

path

Unit functional layer and UNEM Virtual Container 4 of STM-1

VP

variable

path

UCST ATM cross connections


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Introduction Layer

Specification

UCST R8B

Signal rate

Layer

Description

P-SHDSL

variable

path

Unit functional layer and UNEM SHDSL path interface on the unit level (can adapt to P0_nc or P12 or VC-12)

E-SHDSL

variable

section

Unit functional layer and UNEM SHDSL section interface

STM- MSP

-

section

Unit functional layer and UNEM Multiplex Section Protection of STM-4/1

STM- MS

-

section

Unit functional layer and UNEM Multiplex Section of STM-4/1

STM-- RS

-

section

Unit functional layer and UNEM Regenerator Section of STM-4/1

STM- PMS: OS ES

-

section

Unit functional layer and UNEM Physical Medium Section of STM-4/1 (OS = optical, ES = electrical, STM-1 only)

Undefined

-

-

Rate not yet defined

Unknown

-

-

Existing rate but inherently unknown (typically serial interfaces)

The number of functional layers available depends on the selected unit and the type of configuration (unit parameter, alarms).

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© KEYMILE AG

2 2.1

New content Functionality

This paragraph describes the new functionality of the UMUX and UMUX units. For details of hardware, ESW and a short list of features please refer to chapter 4: «Summary «Summary of units». units». 2.1.1

R8B SP01 SYN4E

The platform R8B introduces the new SYN4E function f unction unit, which is released with the R8B SP01 for general deployment. The SYN4E 610 unit provides 2 STM-4/1 and 2 STM-1 SFP based interfaces. The STM-1 interfaces support SPF modules with optical or electrical STM-1 interfaces. The STM-4 interfaces support SFP modules for optical transmission. transmission. A local cross cr oss connect allows for the cross connection of VC-12, VC-3 and VC-4 traffic between the local STM-x interfaces. For the traffic access to other traffic units in the UMUX subrack the SYN4E.provides also access to the SBUS and to the PBUS for locally terminated SDH traffic. The SYN4E unit implements also the SETS function for the NE. Beside the SDH interfaces, SYN4E offers also four electrical 10/100/1000BASE-T interfaces. The SYN4E handles the encapsulation of the tributary Ethernet traffic into the SDH signals (VC12, VC-3 and VC-4). Please note that the operation of the SYN4E requires a COBU with R5 ESW ( ≥R5H). 2.1.2

R8B SP02

2.1.2.1

NEMSG

The platform R8B with the Service Pack 02 introduces the new NEMSG function unit. Page 14 of 129


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Functions and systems

© KEYMILE AG

The NEMSG unit has just like the NEMCA / NEMGE eight E&M voice and signalling interfaces. In addition to this, the NEMSG provides conference circuits allowing the combination of voice and signalling information of up to 17 participants per conference. The NEMSG also supports P0 data conferences. These enhancements enhancements make the NEMSG unit even fitter to address multipoint network scenarios in utilities and private networks. NEMSG is not only able to address new network topologies but offers also an easier user interface to configure these functions. The functionalities of NEMSG include: • • • •

•

• • • •

8 E&M E&M interfaces interfaces with with 2-wire or 4-wire 4-wire voice interface 2 signalling interfaces per voice channel Support of the E&M signalling signalling interface types I to V Support of of different network topologies topologies (point-to-point, (point-to-point, point-to-multipoi point-to-multipoint, nt, multipoint-tomultipoint-tomultipoint) 8 conference circuits with up to 17 participants participants per conference, conference, maximum maximum 32 participants participants per NEMSG unit Equipment protection with slot switching Simulation of channel channel failure for debugging or decoupling decoupling of a faulty slave Unit reset button in GUI Using the new UCST wizard, point-to-multipoint point-to-multipoint and and multipoint-to-multipoin multipoint-to-multipointt network topologies with «Shared Protection Ring» can be easily configured

The NEMSG is a functional replacement for the NEMCA / NEMGE units and adds with its conference features substantial new functionality to the UMUX.

2.1.2.2

NEBRE

The platform R8B with the Service Pack 02 introduces the new NEBRE function unit. Ethernet based business services are a growing need for public and private network operators. The UMUX module NEBRE brings wire-speed switching into the UMUX platform to address high speed Ethernet services. The NEBRE is ideal for bandwidth intensive applications like corporate internet access, LAN interconnections and VPNs (Virtual Private Networks). The NEBRE offers six Ethernet interfaces to connect your customers: 4 x 10/100Base-T and 2 x SFP cages for 100BaseFX or Gigabit Ethernet. When used in conjunction with the STM-4 unit SYN4E in the UMUX, the NEBRE allows high flexibility in the range of Ethernet services plus the carrier grade reliability of SDH transport.

Page 15 of 129


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© KEYMILE AG

The NEBRE is a functional replacement for the existing ETHUB unit of the UMUX. In addition to a significantly superior Ethernet switching function, the NEBRE is also a managed solution under the umbrella of the UCST/UNEM system. Compatibility of the NEBRE •

2.1.2.3

Control units: The NEBRE unit requires COBUX R3 at least. If equipment equipment protection for the NEMSG shall be implemented, both the COBUX ESW and the COBUX template must be R5 or higher.

DATA R3

The platform R8B with the Service Pack 02 introduces the R3 of the DATA function units which provide substantial feature enhancements enhancements with respect to the DATA R2. The new features are: •

Direct encapsulation encapsulation of the DATA Ethernet Ethernet traffic for the the transport via HDLC to DTM (without PPP encapsulation) encapsulation)

•

Point-to-multipoint Point-to-multipoint (P2MP) and multipoint-to-multipoi multipoint-to-multipoint nt (MP2MP) connectivity between stations in linear networks with SPRING (Shared Protection Ring) topology.

The table below gives a synoptical overview of the full DATA R3 feature set and the supported data rates and interfaces respectively. Table 2-1:

Page 16 of 129

Overview of DATA features and supported data rates

Transmission mode

User data rate [kbit/s]

Timing signal [kHz]

Transport mode

Transparent

2048

2048

Clock master

2048

Terminated

1

DCE interface type

P2MP/I and P2MP/S

P2MP/I

V.35 V.35,, X.24 X.24//V.1 V.11

V.24 V.24//V.2 V.28

RS48 RS485 5

V.3 V.35, X.24 X.24/V /V..11

V.2 V.24/V. 4/V.28 28

RS485 S485

P12

yes

no

no

na

na

na

2048

P12

yes

no

no

na

na

na

nx64

2048

P12

yes

no

no

na

na

na

Synchronous

nx64

nx64, n ≤ 31

nx64 kbit/s

yes

no

no

av

na

na

Synchronous

nx64

nx64, n ≤ 2

nx64 kbit/s

yes

yes

no

av

av

na

Synchronous

48/56

48/56

Subrate

yes

yes

no

av

av

na

Synchronous

0.6 ... 38.4

0.6 … 38.4

Subrate

yes

yes

no

av

av

na

Synchronous

0.6 … 19.2

0.6 … 19.2

Subrate Mux

yes

yes

no

na

na

na

Asynchronous

0.6 … 38.4

0.6 … 38.4

Subrate

yes

yes

no

av

av

na


1

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© KEYMILE AG

Transmission mode

User data rate [kbit/s]

Timing signal [kHz]

Transport mode

Asynchronous

0.6 … 19.2

0.6 … 19.2

Oversampling

0 … 600

nx64, n ≤ 31

Oversampling

0 … 96

nx64, n ≤ 4

Oversampling

0 … 0.3

≤ 19.2

1

DCE interface type

P2MP/I and P2MP/S

V.35 V.35,, X.24 X.24//V.1 V.11

V.24 V.24//V.2 V.28

RS48 RS485 5

V.3 V.35, X.24 X.24/V /V..11

V.2 V.24/V. 4/V.28 28

RS485 S485

Subrate Mux

yes

yes

no

na

na

na

nx64 kbit/s

yes

no

yes

av

na

av

nx64 kbit/s

yes

yes

yes

av

av

av

Subrate

yes

yes

no

av

av

na

2

2

2

na: av:

not applicable available

1

Although marked as “available”, P2MP/* cannot be activated on a path in combination with CAS, PM TS being enabled. This signal is only used internally to sample the data signal. On the DCE interface none of timing interchange circuits will be activated.

2

P2MP/I

1

The R3 DATAS release continues the support of scaled DATA versions application optimised feature sets. The features quoted in table 2-1 are available with unit templates (DATA) and hardware as follows: Table 2-2: No.

Page 17 of 129

Availability of features vs. DATA units

Short name Function unit HW unit

DCE interface type

Network functions

X.24/V.11

V.35

V.24/V.28

RS485

Subrate multiplexing 1+1 linear trail protection Performance monitoring time slot Point to multipoint application

1

DATAS











2

DATA5









-

3

DATAV

-



-

-



4

DATA3

-



-

-

-

5

DATAR

-

-



-



6

DATA4

-

-



-

-

7

DATAT



-

-

-



8

DATA1



-

-

-

-


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© KEYMILE AG

Compatibility of the DATA R3 •

Hardware and features: The DATA R1A and R1B hardware do not support P2MP/I with subrates. The support of this feature requires a DATA R3 hardware. All other features are fully f ully supported with the R1A and R1B DATA hardware.

•

Hardware and ESW: The embedded DATA ESW versions R1A, R2A, R2B and R3A support all the DATA hardware versions R1A (HW key x02), R1B (HW key x02) and R3A (HW key x03) with one exception: The hardware R3A (HW key x03) and ESW R1A are not compatible .

•

Page 18 of 129

Control units: The DATA R3 requires COBUX ESW R5 and COBUX templates R4 at least. If equipment protection for the DATA shall be implemented, implemented, both the COBUX ESW and the COBUX template must be R5 or higher.


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© KEYMILE AG

2.2

Correction of deficiencies

2.2.1

Cleared limitations

Please check the current state s tate of identified and not yet cleared deficiencies for UMUX units and functions in the letter of limitations in chapter 8: «Limitations «Limitations». ». The state of identified limitations for the UNEM management software as known at the time of the compilation of the release note is available in the UNEM release note [NM].[152]. The release notes are updated as required to reflect the current state of identified and corrected deficiencies. For registered customers, up-to-date release notes for the UMUX/UCST and UNEM platform are available for download from KEYMILE's Extranet (access via www.keymile.com www.keymile.com). ). After the login to the Extranet follow follow the path «Documentation «Documentation & Software Software → UMUX/UCST → Re UMUX/UCST  Release Information» and «Documentation & Software → UNEM → «Release Information».  UNEM  «Release

2.2.2

New ESW for current function units

To eliminate identified limitations of the UMUX units and functions, updated ESW for released function units is also released asynchronously to the platform releases. To this purpose the ESW for units as follows has been updated and released since the initial release of the UMUX / UCST R8B package (most recent on top): Table 2-3:

Page 19 of 129

ESW maintenance releases within the platform period R8B

ESW

Rev. notes Correction of deficiencies

Features changed with ESW

LOMIF R5C

08-06-08

In case of CRC BER 1E-3 an RDI is inserted. Protection switching between LOMIFterminated traffic becomes bi-directional (SPRING applications). Function available with UCST R8B SP02 (and higher) only.

No issues to fix


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Page 20 of 129

© KEYMILE AG

ESW



ISBUQ R3L

26-03-08

Several fixes for issues related to data - Collection of performance data - Performance monitoring and other minor issues.

None

ISBUT R3L

26-03-08

Several fixes for issues related to data - Collection of performance data - Performance monitoring and other minor issues.

None

NEBRO_R2F

10-03-08

No issues related to NEBRO and NRBRA to fix

Support of the new NEBRE unit introduced with UMUX / UCST R8B SP02.

SYNAC R3D

11-02-08

Several fixes for issues related to - resilience against high traffic load (SYNAM, SYNAD) improved switching time improved - protection switching and other minor issues.

None

SYN4E R1C

10-01-08

Several fixes for issues related to - timing system (SETS, PETS) - protection switching - Interoperation with PCONV and PCON2 in V5 mode - inactive subunits (TIM, PBUS) and other minor issues.

Synchronisation goes to free-run instead of remaining in hold-over when a clock source is removed.

IPLMA R1G

16-11-07

Several fixes for issues related to - ATM-based bonding groups frozen Log overflow - Trap Log - Telenet session gets occasionally blocked - CLI blocks occasionally - Support of new DSP versions - SHDSL device ID check fails - IVM MAC address check rang to small and other minor issues.

None

IPLMB R1G

16-11-07

Ditto.

None

IPLMS R1G

16-11-07

Ditto

None

COBUX R5H

20-07-07

Issue of not reliable SNCP cross connection with SYNAC solved

None

SYN4E R1B

19-07-07

Issue with ECC traffic delay solved

None


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ESW



STICx R2B

16-07-07

Several fixes for issues related to output on NT not properly - Set-up of clock output working inventory blocked - CPE inventory - Wetting current feature feature not properly workworking - Synch behaviour with SREG1 - Synch loss STIC - DATA data transmission after reconfigu- Loss of data ration fixed the way same as for STIM - Improvement of transmission characteristics with 0.8 mm wires not - P12 transparent mode on 2 pair links not properly working regenerator - S/N inventory for regenerator and other minor issues

None

ISBUQ R3K

20-06-07

Several fixes for issues related to - Loop 2 not properly working and other minor issues.

None

ISBUT R3K

20-06-07

Several fixes for issues related to - Permanently disturbed channels with “Festverbindungs” mode - Activation failures - Activation failure of U-interface with new hardware - Recovery time after channel reset for “Festverbindungs” mode increased and other minor issues.

None

If you need more information on the above issues, please contact your KEYMILE sales representative or KEYMILE’s customer support desk.

Page 21 of 129


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3


3.1

UMUX 1500

3.1.1

Features

The UMUX 1500 subrack is for 19-inch and ETSI rack installation with DC power supply from the battery. The UMUX 1500 has a dual power supply option for the subrack and a fan (external fan unit) option. Forced ventilation of the UMUX subrack is mandatory for the t he operation of some traffic units and for the IP DSLAM functionality. The UMUX 1500 subrack R2 with the FANU5 fan unit (option) has a power capacity of up to 30 A with up to 1200 Watt of power dissipation. The DUPI4 dual power supply unit (option) is mechanically integrated in the UMUX 1500 subrack R2. The UMUX 1500 can be used to interface the UMUX Access Network to a Backbone Network. This implies the ability to •

terminate high high capacity aggregate signals (STM-1 ATM, STM-4/1 SDH) down to 64 kbit/s circuits

•

provide physical physical user service interfaces interfaces (POTS, ISDN, ISDN, data leased lines, IP traffic)

•

provide transmission transmission capability capability to remote systems over optical optical fibre and and copper cables cables (xDSL transmission interfaces).

•

support UMUX CPE for the remote connection connection of service interfaces including including interfaces interfaces for IP traffic.

The UMUX 1500 offers 21 standard slots for traffic, control and power units. The figure below shows the UMUX 1500 architecture and compatible units.

Page 22 of 129


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Summary of network elements Figure 3-1:

© KEYMILE AG

UMUX 1500 block diagram

SYNIO VC-12 VC-3

SYNUF SYNIF VC-12 VC-12 VC-3 VC-3

SYNAM SYTEL SYNAD VC-3

SYNIC VC-12 VC-3

2 x STM-1 [AD]

2)

<--> 1 x STM-1 [X]

SYNOT VC-12 VC-3

3)

NEBRO NEBRA

NEBRE

ATIOP ATM STM1

VC-12/3

Sector B

[OR]

4)

SYN4E (STM4) VC-4/3, VC-12 P-12, Ethernet

2)

<--> 1 x STM-1 [X]

3)

[OR]

4)

ATM 1215 kcells/s Sector A

ACONV ATM ATM P-12

IPSMG TU-12

P-12 TUPON

LOMIF LOMI4

ATM

ABUS Sector A

SYNAC P-12

ADACS

ATM 1215 kcells/s Sector B

SBUS 2 x STM-1 [ AD]

ADACA ADACB ATM

PCONV PCON2

PBUS

PHLC

128 x 2 Mbit/s

SUBH

NEMSG

P0_nc

LAWA4 LEMU6 LEMQ6

DATA

1)

DUPI4 -U1

STIC1 STIC2

Supply & control

-U2 -48 Vdc

LESA8 LESI8

SLIM1 SLID1

SLIM2 SLID2

-48 Vdc

-48 Vdc

System Control COBU

POSU POSU POSU

Management Alarming

System Control COBU Management Synchronisation Diagnostics

POSUS POSU POSUM POSUS Power supply

Management Alarming Synchronisation

PBUS Access of the UBUS

Synchronisation

1)

UBUS

8 x 2 Mbit/s

2)

1)

3) 4)

TUNxy

Page 23 of 129

LECA2 LE2Q2

SIFOX GECOD

MEGIF

UNIDA

NEMCA

EXBAT EXLAx SUBAT SUBLx


NEMCA EXLIx

SULIx

lSBUQ ISBUT ISBUT

PHOV5 PHONE

Special units

IPLM1 IPLM2 IPLM4

IPLM6

Capacity availability depends on COBU control unit [AD] Add Drop connections [X] Through connections [OR]

Each section is either operated as S-bus or A-bus

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Please note that the UMUX 1500 supports •

Control units − COBUX 219/223 units (R5) − COBUV 220/224 units (R5) Other control units (R4 and below) do not support all traffic functions (refer to 6.3.1) 6.3.1) and do not allow to fully benefit from the enhanced MIB and configuration data handling provided with the R5 control units.

•

Power units (exclusively) − POSUM 206 unit. − POSUS 106 unit (obsolete function unit) Power supply from mains via the POSUA power converter is not released for the UMUX 1500.

•

DUPI4 dual power unit for the redundant power supply of the UMUX 1500 subrack R2. The

DUPI4 is mechanically integrated into the UMUX 1500 subrack R2 (functional supervision via the COBU interfaces for external alarms). •

•

•

FANU5 fan unit for forced subrack ventilation. The FANU5 is mechanically and functionally functionally independent dependent of the UMUX 1500 subrack (functional supervision via the COBU interfaces for external alarms).

Special Units Units without or limited access to the UMUX internal traffic bus structures. Among other other units these are the ALCAR, ETHUB, IPLM, IPLM, LECAF, MAGIC, MAGIC, MAGI8 and TUNOF. Simultaneous Simultaneous operation of its 2 ABUS/SBUS Sectors. The 2 ABUS/SBUS sectors of the UMUX 1500 constitute one logical SETS system (SETS is a NE level function). The physical SETS systems in the 2 sectors run synchronously. The SETS system of one of the sectors is the leading Prime SETS Sector and and the other sector is the slave Agent SETS Sector . The Prime SETS Sector provides all the SETS functions and the ESO-4 signal. The Agent SETS Sector just synchronises to the output signal of the t he Prime SETG to create a synchronous signal for its sector. It is not possible to protect the Prime SETS Sector with the Agent SETS Sector. The sector with the first configured unit with SETS (SYN4E, SYNUF, SYNI, ATIOP) becomes automatically the Prime SETS Sector.

Page 24 of 129


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Summary of network elements 3.1.2

© KEYMILE AG

System cores

The UMUX & UCST R8B supports the t he following UMUX 1500 system cores: Table 3-1:

3.1.3

UMUX 1500 system cores

Name

KEYMILE PEC

Functions

U1500-CU

11/ZFEBU 150 101 R2A

UMUX 1500 R2 Core Unit including the following items:

BFDBU 101 101/1

R2A

UMUX 1500 subrack R2 including - front cover - cable tray - DC power cable for the subrack - packing

FALBU 150 104/1

R1A

UCST RTU (Right to Use) for the UMUX 1500.

U1500-CS

…/ZFEBU 150 ….

…..

UMUX 1500 Core Systems are available with different assemblies of units. Core Systems include typically - UMUX U1500-CU - Control unit (COBUX, COBUV, COBUL) - Power converter Use) - UCST RTU (Right to Use) management licence fee - Network management Please contact KEYMILE for details.

U1500-AP

…/ZFEBU ……….

…..

UMUX 1500 Core Systems tailored to customer specific applications are available where applicable,. Applications include typically - UMUX U1500-CU - installation options - Control unit (COBUX, COBUV, COBUL) - Power converter - additional units - UCST RTU (Right to Use) Use) management licence fee - Network management Please contact KEYMILE for details.

U1500-SL

FALBU 150 201/1

R1A

UCST & UNEM RTU (Right to Use) for the UMUX 1500.

Auxiliary equipment

Auxiliary equipment equipment is not directly related related to the UMUX & UCST R8B release. release. These functions functions are not configurable via the Element Managers:

Page 25 of 129


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Summary of network elements Table 3-2:

© KEYMILE AG


Name

KEYMILE PEC

Functions

DUPI4-FU

BMKBU 101 102/1 R1A

DUPI4 dual power connection unit for the UMUX 1500 subrack R2. The DUPI4 includes features as follows: battery power supply circuits for the UMUX - interfaces for 2 independent battery 1500 subrack R2. both supply circuits for failures - monitoring of both COBU interfaces for exter- alarm cable connection to the FANU5 or COBU nal alarms. UMUX 1500 subracks R2 are upgradeable with DUP4 at any time.

FANU5-207

BFD01-AC

FANU5 fan unit for 19-inch rack installation: - 10 fans (temperature controlled speed) - interfaces for external alarms (e.g. DUPI4) - 1 HU (44.45 mm) Adapters for ETSI rack installation available COZBU 102 207/1

FANU5 for operation with UMUX 1500 subrack R2 including FANU5 - power cable for the UMUX 1500 subrack R2 - alarm cable for the COBU

COZBU 102 207/3

FANU5 for operation with UMUX 1500 subrack R1 without DUPOS including FANU5 - power cable for the UMUX 1500 subrack R1 - alarm cable for the COBU (FANU5 retrofit in UMUX 1500 R1 without DUPOS)

COZBU 102 207/4

FANU5 for operation with UMUX 1500 subrack R1 with DUPOS including FANU5 - power and alarm cable for the DUPOS DUPOS (UMUX 1500 subrack R1) (FANU5 retrofit in UMUX 1500 R1 with DUPOS)

BFYBU 150 103/2

R1A

Heat deflection shield for 19-inch rack installation (UMUX 1500 subrack R2): - operates with the FANU5 unit - 2 HU (88.90 mm) Adapters for ETSI rack installation available Adapters for UMUX installation in ETSI racks:

BFD01-AC BFYBU 201 106/2 BFYBU 201 106/3 BFYBU 201 106/1 BFYBU 201 106/6 BFYBU 201 106/4 BFYBU 201 106/7

Page 26 of 129

R1A R2A R2A R2A R2A R2A

For UMUX 1500 subrack R2 and related equipment (FANU5 etc.): FANU5 unit only - 1 HU (44.45 mm) - 2 HU Heat deflection shield only UMUX 1500 subr./cable tray - 8 HU UMUX 1500 subr./cable tray + FANU5 - 9 HU UMUX 1500 subr./cable tray + Heat defl. shield - 10 HU UMUX 1500 subr./cable tray + FANU5 + - 11 HU Heat defl. shield


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3.2

UMUX 1200

3.2.1

Features

© KEYMILE AG

The UMUX 1200 is designed for stand alone installation while still supporting 19-inch and ETSI rack installations. It operates from standard DC power supply and provides power supply options for AC mains power supply with battery backup. The UMUX 1200 has a dual subrack power supply option and fan (internal fan unit) option. Forced ventilation v entilation of the UMUX subrack is mandatory for the operation of some traffic units and for the IP DSLAM functionality. The fan unit is imperatively required if the UMUX 1200 is operated horizontally (rack installation). The UMUX 1200 subrack R2 with the FANU2 R2 fan unit (option) has a power capacity of up to 10 A with up to 480 Watt of power dissipation. Please not that the power capacity with the AC powering option is restricted to 2.8 A / 140 Watt. The UMUX 1200 can be used to interface the UMUX Access Network to a Backbone Network. This implies the ability to •

terminate high high capacity aggregate signals (STM-1 ATM, STM-4/1 SDH) down to 64 kbit/s circuits

•

provide physical physical user service interfaces interfaces (POTS, ISDN, ISDN, data leased lines, IP traffic)

•

provide transmission transmission capability capability to remote systems over optical optical fibre and and copper cables cables (xDSL transmission interfaces).

•

support UMUX CPE for the remote connection connection of service interfaces including including interfaces interfaces for IP traffic.

The UMUX 1200 has a compact subrack and offers 8 standard slots for tr affic, control and power units The figure below shows the UMUX 1200 architecture and compatible units.

Page 27 of 129


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Summary of network elements Figure 3-2: SYNIO VC-12 VC-3

© KEYMILE AG



SYNAM SYNAD VC-12

SYNIC

SYNOT VC-12 VC-3

SYTEL

NEBRO NEBRE NEBRA

VC-3

VC-12/3

ADACA ADACB ATM

ATIOP ATM STM1

ADACS ATM

ABUS 2 x STM-1 [AD] 2) <--> 1 x STM-1 [X]

3)

[OR]

Sector A

4)

ATM

1215 kcells/s

Sector A

SBUS SYN4E (STM4) VC-4/3, VC-12 P-12, Ethernet

SYNAC P-12

SYNVA

IPSMG

TU-12

P-12 LOMIF LOMI4

TUPON

PBUS

PCONV PCON2

PHLC

128 x 2 Mbit/s

ACONV ATM P-12 NEMSG

SUBH

P0_nc

LAWA4 LEMU6 LEMQ6

DATA

1)

DUPOS -U1

STIC1 STIC2

Supply & control

-U2

LESA8 LESI8

SLIM1 SLID1

SLIM2 SLID2

-48 Vdc

-48 Vdc

-48 Vdc

System Control COBU

-48 Vdc

POSU POSU POSUA Mains 115 / 230 Vac

POSUM POSUS Power supply

Management Alarming

System Control COBU

Management

Management Synchronisation Diagnostics

Alarming Synchronisation

PBUS Access of the UBUS

Synchronisation 1)

2)

UBUS

8 x 2 Mbit/s

1)

3) 4)

TUNxy

Page 28 of 129

LECA2 LE2Q2

SIFOX GECOD

MEGIF

UNIDA

NEMCA NEMCA

EXBAT SUBAT


EXLAx SUBLx

EXLIx NEMCA SULIx

lSBUQ ISBUT

PHOV5 PHONE

Special units

IPLM1 IPLM2 IPLM4

IPLM6 5)

Capacity availability depends on COBU control unit [AD] Add Drop connections [X] [OR]

Through connections Each section is either operated as S-bus or A-bus The 6 slots available for traffic units in the UMUX 1200 subrack do normally not require

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© KEYMILE AG


Control units − −

COBUX 219/223 units (R5) COBUV 220/224 units (R5)

Other control units (R4 and below) do not support all traffic functions (refer to 6.3.1) 6.3.1) and do not allow to fully benefit from the enhanced MIB and configuration data handling provided with the R5 control units. •

Power units (exclusively) − POSUM 206 unit. − POSUS 106 unit (obsolete function unit)

•

POSUA AC/DC power supply unit (limited to 2.8 A / 140 Watt).

•

FANU2 fan unit (optional) for forced subrack ventilation. The FANU2 is mechanically and func-

tionally integrated in the UMUX 1200 subrack. •

Special Units Units without or limited access to the UMUX internal traffic bus structures. Among other other units these are the the ALCAR, ETHUB, LECAF, LECAF, MAGIC, MAGI8 and TUNOF.

The UMUX 1500 and UMUX 1200 have the following main differences: • • • •

3.2.2

UMUX 1200 1200 provides provides a maximum of 6 slots for traffic units. UMUX 1200 has only 1 SBUS Sector. FANU2 fan fan unit is proprietary proprietary for the UMUX 1200 subrack POSUA is only only released released for the the UMUX UMUX 1200. 1200.

System cores


Page 29 of 129


Name

KEYMILE PEC

Functions

U1200-CU

11/ZFEBU 120 106 R2A

UMUX 1200 R2 Core Unit for - horizontal 19-inch rack installation - DC powering including the following items:

BFDBU 101 102/1

UMUX 1200 basic subrack R2 including: - front cover - packing

R2A


EN/LZTBU 980 415/512 RA

Summary of network elements Name

KEYMILE PEC BFYBU 201 104/2

Functions R1A

1/COZBU 102 209/1 R2A

U1200-CU

19-inch installation set (cable tray) FANU2 R2 fan unit

TSRBU 101 191/3

R1B

DC power cable for the subrack

FALBU 150 103/1

R1A


11/ZFEBU 120 109 R2A

UMUX 1200 R2 Core Unit for - horizontal 19-inch rack installation - AC powering including the following items:

BFDBU 101 102/1

R2A

UMUX 1200 basic subrack R2 including: - front cover - packing

BFYBU 201 104/2

R1A

19-inch installation set (cable tray)

1/COZBU 102 209/1 R2A

FANU2 R2 fan unit

TSRBU 101 220/3000 R1A

Mains power cable for the POSUA

FALBU 150 103/1

Page 30 of 129

© KEYMILE AG

R1A


U1200-CU

11/ZFEBU 120 ….

The above UMUX 1200 Core Units are 2 examples of U1200-Cus. Various U1200-Cus are available for the different UMUX 1200 installation options. Please contact KEYMILE for details.

U1200-CS

…/ZFEBU 120 ….

U1200-AP

…/ZFEBU 120 ……. …..

UMUX 1200 Core Systems tailored to customer specific applications are available where applicable: Applications include typically - UMUX U1200-CU - installation options - Control unit (COBUX, COBUV, COBUL) - Power converter - additional units - UCST RTU (Right to Use) Use) management licence fee - Network management Please contact KEYMILE for details.

U1200-SL

FALBU 150 202/1

UCST & UNEM RTU (Right to Use) for the UMUX 1200 or UMUX 900.

…..

R1A

UMUX 1200 Core Systems are available with different assemblies of units. Core Systems include typically - UMUX1200-CU - installation options - Control unit (COBUX, COBUV, COBUL) - Power converter - UCST RTU (Right to Use) Use) Please contact KEYMILE for details.


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Summary of network elements 3.2.3

© KEYMILE AG

Auxiliary equipment

Auxiliary equipment equipment is not directly related related to the UMUX & UCST R8B release. release. These functions functions are not configurable via the Element Managers: Table 3-4:


Name

KEYMILE PEC

Functions

DUPOS-FU

BMKBU 101 101/1 R1C

DUPOS connection box for dual power supply circuits with UMUX 1200 and UMUX 900. The DUPOS includes features as follows: independent battery power supply circuits for the - connection points for 2 independent UMUX both supply circuits for failures - monitoring of both - cable connections to the COBU interfaces for external alarms. UMUX 1200 and 900 subracks are upgradeable with DUPOS at any time.

BFD01-SE BFYBU 201 108/1

Page 31 of 129

R1A

UMUX 1200: - 4 HU

FANU2 209

COZBU 102 209/1 R2A

FANU2 R2 fan unit

BFD01-SE

BFYBU 401 109/1

R1A

Air filter set for UMUX 1200

BATMO-SE

BFYBU 401 104/1

R1A

Battery module for the battery backup with the POSUA (UMUX 1200 only!). The batteries are not included with the BATMO package. Please contact KEYMILE for details.


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3.3

UMUX 900

3.3.1

Features

© KEYMILE AG

The UMUX 900 is designed for the installation in slim racks while still supporting 19-inch and ETSI rack installations. It operates from standard DC power supply only. The UMUX 900 has a dual subrack power supply option and fan (internal fan unit) option. Forced ventilation of the UMUX subrack is mandatory for the operation of some traffic. The fan unit is imperatively required if the UMUX 900 is operated horizontally (rack installation). The UMUX 900 can be used to interface dedicated services to a Backbone Network. Accordingly, the UMUX 900 has the ability to terminate high capacity aggregate signals (STM-1 ATM, STM-4/1 SDH) down to 64 kbit/s circuits. With a subset of released traffic units it provides physical user interfaces (data, data leased lines) and xDSL and optical transmission interfaces and supports UMUX CPE for the remote connection of service interfaces including interfaces for IP traffic. The UMUX 900 has 6 standard slots for traffic, control and power units. The figure below shows the UMUX 900 architecture and compatible units.

Page 32 of 129


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Summary of network elements Figure 3-3: SYNIO VC-12 VC-3

© KEYMILE AG



SYNIC VC-12 VC-3

SYNAM SYNOT SYNAD VC-12 C-12 VC-3

SYTEL

NEBRO NEBRA

VC-3

VC-12/3

NEBRE

ATIOP ATM STM1

ADACA ADACB ATM

ADACS ATM

ABUS 2 x STM-1 [AD] 2) <--> 1 x STM-1 STM-1 [X] [X]

3)

[OR]

Sector A

4)

ATM

1215 kcells/s

Sector A

SBUS SYN4E (STM4) C-4/3, VC-12 P-12, Ethernet

SYNAC P-12

SYNVA

ACONV ATM P-12

TU-12

LOMIF LOMI4

PBUS

TUPON

128 x 2 Mbit/s

DUPOS -U1 -U2

STIC1 STIC2

Supply & control

-48 Vdc

LESA8 LESI8

SLIM1 SLID1

SLIM2 SLID2

-48 Vdc

-48 Vdc

System Control 5)

POSUM POSUS Power supply

COBUX Management Synchronisation Diagnostics PBUS Access of the UBUS

Management Alarming

Synchronisation

1)

Use of the UBUS depends on units released released for the UMUX 900

2)

[AD] [X]

3) 4)

UBUS

8 x 2 Mbit/s

1)

5) Special units

Page 33 of 129


Add Drop connections Through connections

[OR]

Each section is either operated as SBUS or ABUS The subrack has 4 slots for traffic units. 1 POSUS/POSUM unit provides enough power for all applications.

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© KEYMILE AG


Control units COBUX 219/223 units (R5) Other control units (R4 and below) do not support all traffic functions (refer to 6.3.1) 6.3.1) and do not allow to fully benefit from the enhanced MIB and configuration data handling provided with the R5 control units. −

•

Power units (exclusively) − POSUM 206 unit. − POSUS 106 unit (obsolete function unit) Power supply from mains via the POSUA power converter is not released for the UMUX 900.

•

FANU3 fan unit (optional) for forced subrack ventilation. The FANU3 is mechanically and func-

tionally integrated in the UMUX 900 subrack. The UMUX 1500 and UMUX 900 have the following main differences: • • • • •

3.3.2

UMUX 900 900 provides provides a maximum of 4 slots for traffic units. UMUX 900 does not not support equipment equipment protection of the control unit. unit. UMUX 900 has only 1 SBUS Sector. UMUX 900 supports a subset of all all the traffic units units that are released for the UMUX 1500. 1500. FANU3 fan fan unit is proprietary proprietary for the UMUX UMUX 900 subrack.

System cores


Page 34 of 129


Name

KEYMILE PEC

Functions

U900-CU

11/ZFEBU 090 101 R1A

UMUX 900 Core Unit for - horizontal 19-inch rack installation - DC powering including the following items:

BFDBU 101 107/1

1/COZBU 102 210/1 R1A

UMUX 900 basic subrack including: - front cover - packing FANU3 fan unit

TSRBU 101 191/3


R1A

R1B


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KEYMILE PEC FALBU 150 103/1

U900-CU

3.3.3

© KEYMILE AG

Functions R1A


11/ZFEBU 090 102 R1A

UMUX 900 Core Unit for - vertical installation - DC powering including the following items:

BFDBU 101 107/1

UMUX 900 basic subrack including: - front cover - packing

R1A

BFYBU 201 102/1

R1A

Dummy bezel

TSRBU 101 191/3

R1B


FALBU 150 103/1

R1A


U900-CS

1/ZFEBU 090 …

…

UMUX 900 Core Systems are available with different assemblies of units. Core Systems include typically - UMUX U900-CU - Control unit COBUX - Power converter Use) - UCST RTU (Right to Use) Please contact KEYMILE for details.

U1200-SL

FALBU 150 202/1

R1A

UCST & UNEM RTU (Right to Use) for the UMUX 1200 or UMUX 900.

Auxiliary equipment

Auxiliary equipment equipment is not directly related related to the UMUX & UCST R8B release. release. These functions functions are not configurable via the Element Managers: Table 3-6:

Page 35 of 129


Name

KEYMILE PEC

Functions

DUPOS-FU

BMKBU 101 101/1 R1C

DUPOS connection box for dual power supply circuits with UMUX 1200 and UMUX 900. The DUPOS includes features as follows: independent battery power supply circuits for the - connection points for 2 independent UMUX both supply circuits for failures - monitoring of both - cable connections to the COBU interfaces for external alarms. UMUX 1200 and 900 subracks are upgradeable with DUPOS at any time.


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KEYMILE PEC

Functions

BFD01BFYBU 201 103/1 FANU3 210

3.4

© KEYMILE AG

R1A

COZBU 102 210/1 R2A

UMUX 900: - 3 HU FANU3 R2 fan unit

Patch panels Patch panels are not UCST relevant but hardware oriented. Table 3-7: Name

Auxiliary equipment equipment KEYMILE PEC

Functions 19-inch patch panel for Cable Modules with 75 Ohm connectors:

1/BGKBU 202 101/2 R1A 1/BGKBU 202 104/1 R1B

height Connector Modules - 2 HU (44.45 mm) for up to 4 single height height Connector Modules - 1 HU (44.45 mm) for up to 4 single height Connector Modules:

Page 36 of 129

- TSRBU 102 214/ - TSRBU 102 208/

Module: - 1 single height (1 HU) Connector Module: - LOMIF/LOMI4/SYNAM (Minicoax) - LOMIF/LOMI4/SYNAM (BT43)

- TSRBU 102 194/ - TSRBU 102 196/

- 2 single height (1 HU) Connector Modules: - SYNAD (Minicoax) - SYNAD (BT43)

- TSRBU 102 209/

- 1 double height (2 HU) Connector Module: - LOMIF/LOMI4/SYNAM (BNC)

- TSRBU 102 193/

- 2 double height (2 HU) Connector Modules: - SYNAD (BNC)


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3.5

© KEYMILE AG

Legacy equipment Please note that the UCST R8B is backward compatible within the UMUX and DSL System platform and still supports the legacy system members of the UMUX and DSL System platforms: • • • •

Page 37 of 129

UMUX 1300 (CENCA) UMUX 1100(E) (CENCA) DSL System (SUCO2) Desktop units


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© KEYMILE AG

4

Summary of units

4.1

Control, power and fan units

4.1.1

Control units

Table 4-1:

Preferred functions of control units and compatible hardware/software UMUX (UCST R8B SP02)

Functions

Unit hardware PEC

Template Templa te

TIU

UMUX UMUX Name Name

COBUX 212

R5C

1500 1200 900

Bootloader SW or APDSW

ESW or System SW Name

Vers. Vers.

HK

PH

Name

ROFBU 367 103/1 R2A

103

8

BCOBU R2A06 COBUX R5H..

Vers.

Functional Description / Remarks

Vers. Control Unit for the UMUX 1500/1200 and 900. - supports all the PDH and SDH functionalities - access to 8 UBUS Hwys Hwys - support of 128 PBUS Hwys units with CPE-rcu files - supports remote units TCP/IP tunnelling, Q 1-master IF ECC, diagnostics.

COBUX 213

R5C

1500 1200 900

ROFBU 367 103/1 R2B

105

ROFBU 367 103/1 R2C

107

ROFBU 367 103/1 R2A

103

BCOBU R2B01

Ditto plus symmetrical symmetrical Ifs for the ESI-1 and ESO-4. Ditto.

8


Control Unit for the UMUX 1500/1200 and 900. - supports all the PDH and SDH functionalities - access to 8 UBUS Hwys Hwys - support of 40 PBUS Hwys units with CPE-rcu files - supports remote units TCP/IP tunnelling, Q 1-master IF ECC, diagnostics.

Page 38 of 129

ROFBU 367 103/1 R2B

105

ROFBU 367 103/1 R2C

107


BCOBU R2B01

Ditto plus symmetrical symmetrical Ifs for the ESI-1 and ESO-4. Ditto.

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Summary of units Functions

© KEYMILE AG

Unit hardware PEC

Template Templa te

TIU

UMUX UMUX Name Name

COBUX 219

R6A

1500 1200 900



Vers. Vers.

HK

PH

Name

ROFBU 367 103/1 R2A

103

8


Vers.


Vers. New Control Unit for the UMUX 1500/1200 and 900. - supports all the PDH, SDH and ATM functionalities - access to 8 UBUS Hwys Hwys - support of 128 PBUS Hwys units with CPE-rcu files - supports remote units - support of compressed MIB TCP/IP tunnelling, Q 1-master IF ECC, diagnostics.

COBUX 223

R6A

1500 1200 900

ROFBU 367 103/1 R2B

105

ROFBU 367 103/1 R2C

107

ROFBU 367 103/1 R2A

103

BCOBU R2B01

Ditto plus symmetrical symmetrical Ifs for the ESI-1 and ESO-4.


New Control Unit for the UMUX 1500/1200 and 900. - supports all the PDH, SDH and ATM functionalities - access to 8 UBUS Hwys Hwys - support of 40 PBUS Hwys units with CPE-rcu files - supports remote units - support of compressed MIB

Ditto. 8

TCP/IP tunnelling, Q 1-master IF ECC, diagnostics.

COBUV 217

R5C

1500 1200

ROFBU 367 103/1 R2B

105

ROFBU 367 103/1 R2C

107

ROFBU 367 103/2 R1A

205

BCOBU R2B01

Ditto plus symmetrical symmetrical Ifs for the ESI-1 and ESO-4.

BCOBU R2B01 COBUX R5H..

Control Control Unit UMUX 1500/1200 1500/1200 - supports all the PDH and SDH functionalities - access to 8 UBUS Hwys - support of 128 PBUS Hwys Hwys units with CPE-rcu files - supports remote units

Ditto. 8

TCP/IP tunnelling, Q 1-master IF ECC, diagnostics and conference function, symmetrical Ifs for the ESI-1 and ESO-4.

COBUV 218

R5C

1500 1200

ROFBU 367 103/2 R1B

207

ROFBU 367 103/2 R1A

205

Ditto. 8


Control Control Unit UMUX 1500/1200 1500/1200 - supports all the PDH and SDH functionalities - access to 8 UBUS Hwys - support of 40 PBUS Hwys Hwys units with CPE-rcu files - supports remote units TCP/IP tunnelling, Q 1-master IF ECC, diagnostics and conference function, symmetrical Ifs for the ESI-1 and ESO-4.

ROFBU 367 103/2 R1B

Page 39 of 129

207


Ditto.

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© KEYMILE AG

Unit hardware PEC

Template Templa te

TIU

UMUX UMUX Name Name

COBUV 220

R6A

1500 1200

Vers. Vers.

ROFBU 367 103/2 R1A



HK

PH

Name

205

8


Vers.


Vers. New Control Control Unit UMUX 1500/1200 1500/1200 - supports all the PDH, SDH and ATM functionalities - access to 8 UBUS Hwys Hwys - support of 128 PBUS Hwys units with CPE-rcu files - supports remote units - support of compressed MIB TCP/IP tunnelling, Q 1-master IF ECC, diagnostics and conference function, symmetrical Ifs for the ESI-1 and ESO-4.

COBUV 224

R6A

1500 1200

ROFBU 367 103/2 R1B

207

ROFBU 367 103/2 R1A

205

Ditto. 8


New Control Control Unit UMUX 1500/1200 1500/1200 - supports all the PDH, SDH and ATM functionalities - access to 8 UBUS Hwys Hwys - support of 40 PBUS Hwys units with CPE-rcu files - supports remote units - support of compressed MIB TCP/IP tunnelling, Q 1-master IF ECC, diagnostics and conference function, symmetrical Ifs for the ESI-1 and ESO-4.

COBUL 216

R5C

1500 1200

ROFBU 367 103/2 R1B

207

ROFBU 367 215/1 R1A

403

Ditto. 4


Control Control Unit UMUX 1500/1200 1500/1200 functionalities - supports PDH functionalities - access to 4 UBUS Hwy.s Hwy.s - support of 128 PBUS Hwy.s units with CPE-rcu files - supports remote units Ethernet IF, F-, Q 1- and Q1-master IF. All synchronisation interfaces are 75 Ohm impedance.

ROFBU 367 215/1 R1B

407


Ditto. ESI-1 provides additionally 120 Ohm impedance and ESO-1 has galvanic isolation.

Please note that: • •

•

Page 40 of 129

Empty fields fields are «not applicable» applicable» for the corresponding function. The «Bootloader» «Bootloader» software software is included included in the table. The data is readable readable with the inventory function of the EM. You can compose the name of the files with compressed unit software (ESW) by composing the expressions from the columns «Name» and «Version» as follows (example): «Name»: COBUX «Version»: R5F02 «Filename»: COBUX_R5.F02


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Summary of units 4.1.2

© KEYMILE AG

Power units

Table 4-2:

Preferred functions of power units and compatible hardware UMUX (UCST R8B SP02)

Functions

Unit hardware PEC


ESW or System SW

Template Templa te

TIU

UMUX UMUX Name Name

Vers. Vers.

HK

PH

Name

Vers.

Name

POSUM 306

R5B

1500 1200 900

COZBU 110 R1B

306/1

1

-

-

-

-

POSUA 206

R4E

1200

COZBU 110 206/1 R1A

1

-

-

-

-


Vers. DC/DC power converter for UMUX 1500 / 1200 Vin –48/-60 V, Pmax. 85 W -

Power converter unit for the UMUX 1200. POSUA provides: - AC/DC power conversion to the primary voltage voltage (-48 V DC) and charging (temperature controlled) of the external backup battery (with the BATMO option) VIN = 110/230 V AC PMAX = 140 W - DC/DC power conversion for the secondary power supply +IMAX = 16 A (+5 V DC) -IMAX = 1 A (-5 V DC)

Please note that empty fields are «not applicable» for the corresponding function:

4.1.3

Fan units

Table 4-3:

Preferred functions of fan units and compatible hardware UMUX (UCST R8B SP02)

Functions

Unit hardware PEC

Template Templa te

TIU

UMUX UMUX Name Name

FANU2 209

R4E

1200

FANU3 210

R5C

-

n.a.

Vers. Vers.


ESW or System SW


HK

PH

Name sion

Ver-

Name

Vers.

COZBU 102 209/1 R1A

1

-

-

-

-

-

Fan unit for the UMUX 1200. Integrated in the UMUX subrack

900

COZBU 102 210/1 R1A

1

-

-

-

-

-

Fan unit for the UMUX 900. Integrated in the UMUX subrack

1500

COZBU 102 207/1

-

-

-

-

-

-

Note: The FANU5 fan unit for the UMUX 1500 is independent of the UMUX 1500 subrack and is no manageable object of the UCST. Accordingly, the FANU5 has no UCST template (functional supervision via the COBU interface for external alarms).

Please note that empty fields are «not applicable» for the corresponding function: Page 41 of 129


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Summary of units

4.2

© KEYMILE AG

ABUS units Table 4-4:

Preferred functions of ABUS units and compatible hardware/software UMUX (UCST R8B SP02)

Functions

Unit hardware PEC

Template

TIU

UMUX Name

ACONV 751

R6A

1500 1200 900

Vers.

ROFBU 367 751/1 R1A

Bootloader Software

Unit Software ESW Name

HK

PH

Name

Vers.

2

16

BTLP3

R1A08 ACONV R1D..


Vers. Traffic Traffic processing processing unit for ATM and P12 traffic traffic providing providing - CES 2 Mbit/s (Circuit Emulation Service for Unstructured Data Transfer) for up to 16 CES instances (reduced functionality only 8 CES instances). - Support of the same P12 layer features features (CES) as the LOMIF. - IMA (Inverse Multiplexing for ATM) functionality for up to 14 instances: - IMA-1: Premium IMA service class - IMA-2 … 14: 14: Regular IMA service class (full functionality licence only) - Synchronous, adaptive and SRTS synchronisation for P12 traffic (IMA). for CES and IMA. - 16 x P12 PBUS access for - ABUS master capability - Support of ECC over ATM (IMA) Note: The compatibilities of the UCST template template with the the unit hardware hardware and ESW apply for the full and reduced functionality ACONV licence.

ROFBU 367 751/1

R1B

01003

Ditto Ditto but with with IMA suppor supportt as follows: lows: - Premium IMA service class for all IMA groups (IMA-1 … 14) Note: Same ACONV licensing.

ADACA 738

Page 42 of 129

R6A 1500 SP01 1200 900

ROFBU 367 738/1 R1A

1

ROFBU ROFBU 367 738/1 738/1 R2A

02002 02002


-

BTLP3

R1A08 ADACX R1C.. R1C..

Unit with ADSL interfaces interfaces and access to the ABUS providing providing - 16 subunits (ADSL ports) G.992.1) line code - DMT (ITU-T G.992.1) - Transport of ATM cells via ADSL - 8064 kbit/s downstream and 1024 kbit/s upstream - Support of parameter Profiles - Compatible with ADSL modems modems that comply with ITU-T ITU-T G.992.1. for simultaneous ADSL and POTS service via the same - Operation with splitter for pair. - ATM QoS classes: CBR, UBR, rt-VBR, nrt-VBR 10 VCs per ADSL port - Up to 10

B82xx B82xx

R1B05 R1B05

Ditto. Ditto.

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© KEYMILE AG

Unit hardware PEC

Template

TIU

ADACB 739

R6A 1500 SP01 1200 900

UMUX Name

Vers.

Bootloader Software



HK

PH

Name

Vers.

ROFBU 367 738/2 R1A

101

-

BTLP3

R1A08 ADACX R1C.. R1C..

Vers. Same as ADACA 738 but for simultaneous ADSL and ISDN-BA service via the same - Operation with splitter for pair.

ROFBU ROFBU 367 738/2 738/2 R2A

02102 02102

B82xx B82xx

R1B05 R1B05

Ditto. Ditto.

ROFBU ROFBU 367 738/3 738/3 R1B

02201 02201 -

B82xx B82xx

R1B05 R1B05 ADACS ADACS R1B.. R1B..

Unit with SHDSL interfaces and access to the ABUS providing - 16 subunits (SHDSL ports) - PAM-16 (ITU-T G.991.2) G.991.2) line code - Transport of ATM cells via SHDSL with up to - Symmetrical bit rates for up- and downstream with - 2320 kbit/s - 4640 kbit/s (with (with pair bonding) bonding) - Support of parameter Profiles modems (IADs) that comply with ITU-T G.991.2. - Compatible with SHDSL modems - ATM QoS classes: CBR, UBR, rt-VBR, nrt-VBR - Up to 10 VCs per SHDSL port

Note: The ESW ADACX_R1.B.. is not released for ADACB! ADACS 740

R6B

1500 1200 900

Note: Simultaneous operation for SHDSL and and POTS service via the same pair pair is not possible. ATIOP 731

R6A 1500 SP01 1200 900

ROFBU 367 731/1

R1A

-

BTLP3

R1A08 ATIOP

R1F..

STM-1 aggregate interface for ATM traffic providing - 1 optical STM-1 IF S1.1 (L1.1 or L1.2) - ABUS access - Multiplexing of ATM cells into the VC-4 - SETS function - SETS equipment protection. simultaneous operation of 2 ABUS/SBUS Sectors - Supports additionally the simultaneous (UMUX 1500) - ABUS master capability - Support of ECC over ATM

ROFBU 367 731/2 R1A

Ditto but - 1 optical STM-1 IF L1.1

ROFBU 367 731/3 R1A


ROFBU 367 731/1 R1B

01002 01002

Ditto (1 optical optical STM-1 IF S1.1)

ROFBU 367 731/2 R1B


ROFBU 367 731/3 R1B


ROFBU ROFBU 367 704/1 704/1 R1A

Page 43 of 129

1

04003 04003


B82xx B82xx

R1E01 R1E01

Ditto. Ditto.

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© KEYMILE AG

Unit hardware PEC

Template

TIU

UMUX Name

IPSMG 706

R7B

1500 1200

Vers.

HK

PH

Bootloader Software



Name

Vers.

ROFBU 367 702/1 R1B/3

01002 16

BTLP3

R1A08 IPSMG R3B..

Vers. Access Gateway Gateway unit for telephony telephony NGN supporting supporting PSTN and ISDN-BA ISDN-BA user ports. - TDM to RTP (UDP/IP) protocol for TDM/IP channel set-up/release set-up/release - H.248 / MEGACO protocol - PSTN signalling conversion in H.248 messages - Voice modem ITU-T G.711, 64 kbit/s, A-law - 64 kbit/s clear channel (B-ch.) - Echo cancellation ITU-T G.168 up to 64 ms tail length Gateway (ISDN-BA) - Signalling Gateway SIGTRAN (IUA/SCTP - DTMF relay service according to RFC 2833 - User port access: up to 16 16 P12s corresponding to 480 POTS - Uplink interface - H.248.1 v1 - 10BASE-T / 100BASE-TX channels/unit): - Capacity (active channels/unit): - 200 (G.711 (G.711 codec) - 10000 BHCA (< 0.04% PDR) PDR) - Class of service: Differentiated services. - VLAN tagging IEEE 802.1Q - User priority IEEE 802.1p equipment protection - N+1 equipment - Silence suppression for voice modem ITU-T G.711, 64 kbit/s, A-law - Voice modem G. 729 A with silence suppression G.729 B for signalling Gateway Gateway - Amet-package (metering) for - DTMF relay service according to RFC 2833 is de/selectable de/selectable

ROFBU ROFBU 367 704/1 704/1 R1A

04003 04003

B82xx B82xx

R1E01 R1E01

Ditto. Ditto.

Note: The IPSMG requires a COBUX ESW ≥ R5D

Please note that:

Page 44 of 129

•

Operation of the above (ABUS) units requires COBU R5 units. units.

•

The version of the «Bootloader» «Bootloader» software is included included in the the table. The The data is readable with the inventory function of the EM.

•

You can compose compose the name of the the files with compressed unit unit software (ESW) by composing the expressions from the columns «Name» and «Version» as follows (example): «Namew: ATIOP «Version»: R1F10 «Filename»: ATIOP_R1.F10


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Summary of units

4.3

© KEYMILE AG

PBUS units The table below shows the preferred set of PBUS function units available with the UCST R8B. KEYMILE recommends the use of these templates and the most recent ESW to implement the corresponding functions. The UCST supports legacy function units as documented in the paragraph «Obsolete function units». Table 4-5:

Preferred functions of PBUS units and compatible hardware/software UMUX (UCST R8B SP02)

Functions

Unit hardware PEC

Template

TIU

DATAS 522

R8B 1500 SP02 1200

UMUX Name

Vers

ROFBU 367 070/1 R1A

HK

PH

02002 4

Bootloader Software

Unit Software ESW

Name

Vers.

Name

BL8xx

R2A00 DATAS R3A


Vers. Traffic Traffic unit providing providing serial data interfaces interfaces with P0, P0-nc and P12 PBUS access as follows: - DCE serial interfaces - X.24/V.11 - V.35 - V.24/V.28 - RS-485 serial bus IF - Data rates and modes - P12 modes (V.35, X.24/V.11 IFs only!) - P0, P0-nc - 4 serial front IFs (only 3 serial IFs are available if the Ethernet IF is active!) - Simultaneous support of all IFs (multiprotocol unit) - Subrate multiplexing - P0-nc path protection - Point to multipoint - Performance monitoring - Ethernet 10BaseT / 100Base-TX LAN interface according to IEEE Std. 802.32002 (half and full duplex). - LAN modes - MAC bridging - WAN - Direct Ethernet traffic encapsulation on HDLC (no PPP encapsulation) - Point-to-multipoint (P2MP) connectivity in linear networks networks with SPRING (Shared Protection Ring) topology (no support of subrates with HW R1A, R1B) Note: The DATAS requires a COBUX COBUX ESW ≥ R5 and COBUX template ≥ R4 COBUX ESW and template ≥ R5 are required for DATAS EQP.

ROFBU ROFBU 367 070/1 070/1 R1B

Page 45 of 129

03002 03002 4


BL8xx BL8xx

R2B00 R2B00

Ditto. Ditto.

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Summary of units Functions Template

DATAV 524

DATAR 526

DATAT 528

DATA5 523

Page 46 of 129

© KEYMILE AG

Unit hardware PEC TIU

UMUX Name

Vers

HK



Name

Vers.

ROFBU ROFBU 367 070/1 070/1 R3A

05003 05003 4

BL8xx BL8xx

R2C00 R2C00

Ditto. Ditto. The R3A hardware supports additionally P2MP/I with subrates.

ROFBU 367 070/3 R1A R1A

02202 02202

BL8xx

R2A00

Same as DATAS (HW R1A), with exceptions exceptions for the support support of serial interfaces interfaces as follows: The DATAV supports 4 serial V.35 DCE IFs (single protocol unit).

ROFBU ROFBU 367 070/3 070/3 R1B

03202 03202

BL8xx BL8xx

R2B00 R2B00

Ditto. Ditto.

ROFBU ROFBU 367 070/3 070/3 R3A

05203 05203

BL8xx BL8xx

R2C00 R2C00


ROFBU 367 070/5 R1A R1A

02402 02402

BL8xx

R2A00

Same as DATAS (HW R1A), with exceptions exceptions for the support support of serial interfaces interfaces as follows: The DATAR supports 4 serial V.24 / V.28 DCE IFs (single protocol unit).

ROFBU ROFBU 367 070/5 070/5 R1B

03402 03402

BL8xx BL8xx

R2B00 R2B00

Ditto. Ditto.

ROFBU ROFBU 367 070/5 070/5 R3A

05403 05403

BL8xx BL8xx

R2C00 R2C00


ROFBU 367 070/7 R1A R1A

02602 02602

BL8xx

R2A00

Same as DATAS (HW R1A) with exceptions exceptions for the support support of serial interfaces interfaces as follows: The DATAT supports 4 serial X.24 / V.11 DCE IFs (single protocol unit).

ROFBU ROFBU 367 070/7 070/7 R1B

03602 03602

BL8xx BL8xx

R2B00 R2B00

Ditto. Ditto.

ROFBU ROFBU 367 070/7 070/7 R3A

05603 05603

BL8xx BL8xx

R2C00 R2C00


ROFBU 367 070/2 R1A R1A

02102 02102

BL8xx

R2A00

Traffic Traffic unit providing providing serial data interfaces interfaces with P0, P0-nc and P12 PBUS access as follows: - DCE interfaces - X.24/V.11 - V.35 - V.24/V.28 - RS-485 serial bus IF - Data rates and modes - P12 modes (V.35, X.24/V.11 IFs only!) - P0, P0-nc - 4 serial front IFs (only 3 serial IFs are available if the Ethernet IF is active!) - Simultaneous support of all IFs (multiprotocol unit) - Ethernet 10BaseT / 100Base-TX LAN interface according to IEEE Std. 802.32002 (half and full duplex). - LAN modes - MAC bridging - WAN - Direct Ethernet traffic encapsulation on HDLC (no PPP encapsulation)


PH

Bootloader Software

Vers.

EN/LZTBU 980 415/512 RA


© KEYMILE AG


UMUX Name

Vers

HK

PH

Bootloader Software

Unit Software ESW

Name

Name

Vers.


Vers. Note: The DATA5 requires requires a COBUX ESW ≥ R5 and COBUX template ≥ R4 COBUX ESW and template ≥ R5 are required for DATAS EQP.

DATA3 525

DATA4 527

DATA1 529

Page 47 of 129

LAWA4 265

R5C 1500 SP03 1200

LEMU6 266

R5C 1500 SP03 1200

ROFBU ROFBU 367 070/2 070/2 R1B

03102 03102

BL8xx BL8xx

R2B00 R2B00

Ditto. Ditto.

ROFBU ROFBU 367 070/2 070/2 R3A

05103 05103

BL8xx BL8xx

R2C00 R2C00

Ditto. Ditto.

ROFBU 367 070/4 R1A R1A

02302 02302

BL8xx

R2A00

Same as DATA5 (HW R1A), with exceptions exceptions for the support support of serial interfaces interfaces as follows: The DATA3 supports 4 serial V.35 DCE IFs (single protocol unit).

ROFBU ROFBU 367 070/4 070/4 R1B

03302 03302

BL8xx BL8xx

R2B00 R2B00

Ditto. Ditto.

ROFBU ROFBU 367 070/4 070/4 R3A

05303 05303

BL8xx BL8xx

R2C00 R2C00

Ditto. Ditto.

ROFBU 367 070/6 R1A R1A

02502 02502

BL8xx

R2A00

Same as DATA5 (HW R1A), with exceptions exceptions for the support support of serial interfaces interfaces as follows: The DATA4 supports 4 serial V.24 / V.28 DCE IFs (single protocol unit).

ROFBU ROFBU 367 070/6 070/6 R1B

03502 03502

BL8xx BL8xx

R2B00 R2B00

Ditto. Ditto.

ROFBU ROFBU 367 070/6 070/6 R3A

05503 05503

BL8xx BL8xx

R2C00 R2C00

Ditto. Ditto.

ROFBU 367 070/8 R1A R1A

02702 02702

BL8xx

R2A00

Same as DATA5 (HW R1A), with exceptions exceptions for the support support of serial interfaces interfaces as follows: The DATA1 supports 4 serial X.24 / V.11 DCE IFs (single protocol unit).

ROFBU ROFBU 367 070/8 070/8 R1B

03702 03702

BL8xx BL8xx

R2B00 R2B00

Ditto. Ditto.

ROFBU ROFBU 367 070/8 070/8 R3A

05703 05703

BL8xx BL8xx

R2C00 R2C00

Ditto. Ditto.

ROFBU 367 135/1 R1A

1

ROFBU 367 135/1 R1B

2

ROFBU 367 134/1 R1A

2


8

BLEMU R1A01 LAWA4 R4E..

Connects a local area network (LAN) over a 10BaseT interface to the UMUX units with aggregate interfaces. - Flexible Layer 2 or 3 IP concentration - Cascadable over the UMUX internal cross connect - Frame Relay FRAD functionality - Static routing - Supported routing protocol: OSPF2 (optional) (optional) - Supports port-based and circuit based VLANs - Spanning Tree Protocol and for Voice over IP applications - Hardware prepared for NAT and - Filters for IP traffic and MUSIC MUSIC - Handling of Quality of Service for IP packets v ia process on LAWA4 and 100 (R4C).

8

BLEMU R1A01 LEMU6 R4E..

xDSL multi-user unit that concentrates the xDSL IP-packed oriented traffic of 6 subscribers and transfers it to the local 10BaseT front interface or to the PBUS cross connect. The LEMU6 uses CAP encoding and provides: - Bridging, with diverse sub modes - IP static routing

Ditto.

EN/LZTBU 980 415/512 RA


© KEYMILE AG


UMUX Name

Vers

HK

PH

Bootloader Software

Unit Software ESW

Name

Name

Vers.


Vers. IP OSPF V2 dynamic routing Unnumbered IP links on DSL and PBUS interfaces Spanning Tree Protocol Protocol Frame Relay FRAD functionality DHCP relay configurable for MUSIC 100 IP managed bridge configurable for MUSIC 100. 100. Filters for IP traffic Handling of Quality of Service for IP packets v ia process on LAWA4 and and MUSIC MUSIC 100 (R4C). Ditto.

-

ROFBU 367 134/1 R1B LESA8 086

R5B

1500 1200 900

ROFBU 367 161/1 R1A/A 203

ROFBU 367 161/1 R1B R1C R1D

Page 48 of 129

3

202


8

BLESA R1B00 LESAC R2D..

xDSL unit with 8 x 2 Mbit/s PBUS access and - 8 DSL services via 1 pair - 4 DSL services via 2 pairs - a mixture of the above - nx64 kbit/s and P12 regenerator (1168 kbit/s) - Operation with CAP regenerator - SW download for the MUSIC 200. No remote powering Line code / speed - CAP: 1168 1168 kbit/s - CAP: 2320 2320 kbit/s

LESAE

R2D..

Ditto with line code / speed - 2B1Q: 1168 1168 kbit/s - PAM16: 2320 2320 kbit/s

LESAF

R2D..

Ditto with line code / speed - PAM16: 1168 1168 kbit/s - PAM16: 2320 2320 kbit/s

EN/LZTBU 980 415/512 RA



UMUX Name

LESI LESI8 8 092 092 R5C R5C 1500 SP05 1200 900

Bootloader Software

Unit Software ESW

Vers.

Vers

HK

PH

Name

Name

Vers.

203

8

BLESA R1B00 LESIC

R1D..

Same as LESA8 086. The LESI8 092 supports additionally: - nx64 kbit/s, P12 and VC-12 - SW download for CPE remote units (e.g. MUSIC 200). of remote units within the pairs 2n-1 and 2n (n = 1, 2, - operation of different types of 3, 4) No remote powering Line code / speed - CAP: 1168 1168 kbit/s - CAP: 2320 2320 kbit/s

ROFBU 367 161/1 R1B R1C R1D

202

LESIF

R1D..

Ditto, but with line code / speed - PAM16: 1168 1168 kbit/s - PAM16: 2320 2320 kbit/s

R5C 1500 SP02 1200 900

ROFBU 367 152/1 R1A

101

4

B302I

R1B00 LOMIF

R5C..

LOMIF 152

R5C 1500 SP02 1200 900

ROFBU 367 101/1 R1A

1

8

B302I

R1A21 LOMIF

R5C..

ROFBU ROFBU 367 101/1 101/1 R1B

1

8

B302I B302I

R1B00 R1B00

37540009 37540009 NEMSG R1A

1

4

BL8xx

R2C02 NEMSG R1A..

R8B 1500 SP02 1200


ROFBU 367 161/1 1A/A 1A/A

LOMI4 151

NEMSG 540

Page 49 of 129

© KEYMILE AG


- MUSIC 710λ, MUSIC 703λ and 711λ CPEs as follows: - 1168 kbit/s 2 links: PAM16 - 2320 kbit/s 1 link: PAM16 2 Mbit/s IF, G.703 4 ports 120 / 75 Ohm Supports the same features as the LOMIF 152 2 Mbit/s IF, G.703 8 ports 120 / 75 Ohm and - P12-modes (terminated, monitored, transparent, clock master mode) - Sa-modes (handling of TS0-bites) - SSI, ECC, SSM G.704 - V5.X - PRA modes - NT1-Lease Line modes - CRC-4 MFA Status/Maintenance functions - PM according to ITU-T G.826 - Bi-directional protection switching (ESW ≥ R5C, UCST ≥ R8B SP02) The LOMIF 152 supports additionally a special AIS handling (terminated mode only) between LOMIF in the same subrack. The R5C ESW adds bi-directional protection switching for SPRING applications.

Voice interface interface unit with E&M signalling signalling 8 ports - 4- and 2-wire voice interfaces selectable - E&M and E’&M‘ signalling - Voice level adjustment in receive and transmit direction with local and remote participants - Conference circuits with applications - Point-to-point, point-to-multipoint and multipoint-to-multipoint applications - 1+1 path protection - Equipment protection (switching of external cabling required)

EN/LZTBU 980 415/512 RA


© KEYMILE AG

Unit hardware PEC

Template

TIU

UMUX Name

PCON 2 170

R6B

1500 1200

Bootloader Software


Vers

HK

PH

Name

Vers.

ROFBU 367 115/1 R1A

103

20

B360I

R1C00 PCONV R5C.. R5C..


Vers. V5.x protocol processing unit for PSTN and ISDN service - 480 PSTN user ports - 224 ISDN-BA user ports with - processing of p- and f-data - digital leased lines - IE pulsed reversed battery All features implemented with PCONV 149 fully comply with V5.x Edition 2:

PCONV 149

R6B

1500 1200

ROFBU 367 108/1 P1B

2

12

B360I

R1A12 PCONV R5C..

- V5.1: EN 300 324-1 V2.1.1 - V5.2: EN 300 347-1 V2.2.2 - Identical V5 core implementation for PCONV and PCON2 (R5) V5.x protocol protocol processing processing unit for PSTN and ISDN services services - 240 PSTN user ports - 112 ISDN-BA user ports with - processing of p- and f-data - digital leased lines - IE pulsed reversed battery All features implemented with PCONV 149 fully comply with V5.x Edition 2:

PHLC1 183

Page 50 of 129

R5C 1500 SP03 1200

ROFBU 367 108/1 R1A

2

12

B360I

R1B00

- V5.1: EN 300 324-1 V2.1.1 - V5.2: EN 300 347-1 V2.2.2 - Identical V5 core implementation for PCONV and PCON2 (R5) - E12/P12 traffic layer same as LOMIF/LOMI4 R4 (LOMIF 159, 159, LOMI4 159). Ditto

ROFBU 367 108/1

3

12

B360I B360I

R1C00 R1C00

Ditto Ditto

2

4

B302I

R1A21 PHLC1 R5C..

Unit with subscriber subscriber line IFs as follows: follows: - 60 a/b-wire PSTN interfaces impedance, ringing - Configurable parameters common for all user ports (voice impedance, frequency, metering pulse, parameters for the subscriber line test) Line, Carrier adapter, - 1 provisioning set for all user ports (V5.x, MCAS Direct Line, Phone Exchange modes, loop current) output levels configurable per user port - Input and output - Application of subscriber line test is configurable configurable per user port testing, test results, operational state, shut- Maintenance functions (manual testing, down/lock user ports etc.) - Thermal management and overload protection - - The new MCAS modes: - Loop Calling PBX - Earth Calling PBX - PBX Extension - 2 provisioning set for all all user ports (V5.x, MCAS Direct Line, Line, Carrier adapter, Phone Exchange modes, loop current) Ring over b-wire.

R1A/ R1A/1 1 R1B R2A

ROFBU 367 107/1 R1B


EN/LZTBU 980 415/512 RA


© KEYMILE AG


UMUX Name

PHLC2 184

PHLC3 127

R5C 1500 SP03 1200

R5B

1500 1200

Unit Software ESW

Name

Name

HK

R1B 1B/A

3

Ditto but ring over b-wire with earth back

ROFBU 367 107/1 R1B R1D

5

Ditto ring over b-wire New unit HW/ESW

ROFBU 367 107/2 R1B R1D

6

Ditto but ring over b-wire with earth back. New unit HW/ESW.

ROFBU 367 128/1 R1A

2

ROFBU 367 128/2 R1A

3

ROFBU 367 128/1 R1B R1C

5


ROFBU 367 128/2 R1B R1C

6

Ditto but ring over b-wire with earth back. New unit HW/ESW.

ROFBU 367 126/1 R1A

2

ROFBU 367 126/1 R1B

5


ROFBU 367 126/2 R1A

6

Ditto but ring over b-wire with earth back.

ROFBU 367 491/1 R1A

102

4

B302I

Vers.


Vers

ROFBU 367 107/2

PH

Bootloader Software

Vers.

R1A21 PHLC1 R5C..

Unit with subscriber subscriber line IFs as follows: follows: - 30 a/b-wire PSTN interfaces - other features are the same as PHLC1 183 Ring over b-wire Ditto ring over b-wire with earth back

4

B302I

R1A21 PHLC1 R5C..

Unit with subscriber subscriber line IFs as follows: follows: - 10 a/b-wire PSTN interfaces set for user user ports - 2 provisioning set - V5.x, multiple MCAS, Carrier adapter, Phone Exchange and multiple Phone-Phone modes - loop current - parameters depending depending on selected mode - provisioning set selectable per user port - other features are the same as PHLC1 183 Ring over b-wire

SLID SLID1 1 493 493 R5C R5C 1500 SP05 1200 900

Page 51 of 129


4

BSLIM

R1A01 SLIDC

R1D..

Same as SLIM1 491. The SLID1 493 supports additionally: - SW download for CPE remote units (e.g. MUSIC 200). Line code / speed - CAP: 1168 1168 kbit/s - CAP: 2320 2320 kbit/s

SLIDF

R1D..


EN/LZTBU 980 415/512 RA


© KEYMILE AG


UMUX Name

SLID SLID2 2 494 494 R5C R5C 1500 SP05 1200 900

Vers

ROFBU 367 492/1 R1A

HK

PH

202

Bootloader Software

Unit Software ESW

Name

Name

BSLIM

Vers.

R1A01 SLIDC

Vers.

R1D..

- MUSIC 710λ, MUSIC 703λ and 711λ CPEs as follows: - 1168 kbit/s 2 links: PAM16 - 2320 kbit/s 1 link: PAM16 Same as SLIM1 491. The SLID2 494 supports additionally: - SW download for CPE remote units (e.g. MUSIC 200). for the remote equipment equipment (CAP only!). - remote powering for Line code / speed - CAP: 1168 1168 kbit/s - CAP: 2320 2320 kbit/s

SLIDF

Page 52 of 129


SLIM1 491

R5B

1500 1200 900

ROFBU 367 491/1 R1A

102

SLIM2 492

R5C

1500 1200 900

ROFBU 367 492/1 R1A

STIC1 257

R7B 1500 SP02 1200 900

ROFBU 367 200/1 R1A


- MUSIC 710λ, MUSIC 703 λ and 711λ CPEs as follows: - 1168 kbit/s 2 links: PAM16 - 2320 kbit/s 1 link: PAM16 xDSL unit with 4 x 2 Mbit/s PBUS access and - 2 DSL services via 1 pair - 2 DSL services via 2 pairs - a mixture of the above - n x 64 kbit/s, P12 - SW download for the MUSIC 200 - clock backup if the COBUX fails The SLIM1 provides no remote powering for remote equipment. Line code / speed - CAP: 1168 1168 kbit/s - CAP: 2320 2320 kbit/s

BSLIM

R1A01 SLIMC

R2D..

202

BSLIM

R1A01 SLIMC

R2D.. R2D..

Same as SLIM1 491. The SLIM2 492 supports additionally: for the remote equipment. equipment. - remote powering for Line code / speed - CAP: 1168 1168 kbit/s - CAP: 2320 2320 kbit/s

02002 02002 8

BL8xx

R2A00 STICX

R2B..

xDSL unit with 8 x 2 Mbit/s PBUS access and - 8 DSL services via 1 pair - 4 DSL services via 2 pairs - a mixture of the above - nx64 kbit/s, P12 - SW download for CPE remote units (e.g. Line Runner DTM). - wetting current for line IFs of remote units within the pairs 2n-1 and 2n (n = 1, 2, - operation of different types of 3, 4) 2-pair trunk connection (continued transmission of first half of - Partial operation for 2-pair


4

R1D..

EN/LZTBU 980 415/512 RA


© KEYMILE AG


UMUX Name

Vers

HK

PH

Bootloader Software

Unit Software ESW

Name

Name

Vers.


Vers. timeslots on failure of one pair) - Operation with regenerators (1 or 2 pairs) if locally powered No remote powering The STICX R2B fixes some bugs of the R2A ESW. Line code / speed - TC 16-PAM: 192 ...2048 kbit/s

STIC2 256

R7B 1500 SP02 1200 900

ROFBU 367 200/2 R1A

02102 02102

SUBH1 191

R6B

ROFBU 367 187/2 R1A

03101 03101 1

1500 1200

Ditto but with remote remote powering. powering. or 2 pairs) remotely powered - Operation with regenerators (1 or BL8xx

R1C00 SUBHX R2B.. R2B..

Unit with subscriber subscriber line IFs as follows: follows: - 10 a/b-wire PSTN interfaces - Configurable parameters common for all user ports (voice impedance, impedance, ringing frequency, metering level, parameters for the subscriber line test) - 2 provisioning sets selectable per port (V5.x, MCAS, Carrier adapter, adapter, Phone Exchange and Phone-Phone modes, loop current) - Configurable per per user port - provisioning set - Input and output levels - line echo cancellation - channel optimisation for modem transmission - Balanced ringing signal superposed on a- and b-wire. configurable per user port - Application of subscriber line test is configurable - Maintenance functions (manual testing, testing, test results, operational state, shutdown/lock user ports etc.) - Thermal management and overload protection subscriber line test - Enhanced subscriber Notes: SUB H1 substitutes the PHLC 3 The SUBH1 requires a COBUX ESW ≥ R5

SUBH3 189

R6B

1500 1200

ROFBU ROFBU 367 187/2 187/2 R1B

04101 04101

Ditto. Ditto.

ROFBU 367 187/1 R1A

03001 03001 1

BL8xx

R1C00 SUBHX R2B.. R2B..

Unit with subscriber subscriber line IFs as follows: follows: - 30 a/b-wire PSTN interfaces - other features are identical with SUBH1 Notes: SUB H3 substitutes the PHLC 1 and 2 The SUBH3 requires a COBUX ESW ≥ R5

TUPON 397

Page 53 of 129

R5B

1500 1200 900

ROFBU ROFBU 367 187/1 187/1 R1B

04001 04001

ROFBU 367 397/1 R1A

2


Ditto. Ditto. 4

B302S

R1A03 TUPON R1B..

- Unit with optical and electrical front interfaces , PBUS access and - 1 optical 8 Mbit/s IF ST.1 (1300 nm) - Typical optical range (single mode): 55 km - 4 x 2 Mbit/s multiplexer G.703 for 120 Ohm and 75 Ohm - 4 electrical 2 Mbit/s interfaces G.703 - PBUS access: 4 x 2 Mbit/s EN/LZTBU 980 415/512 RA


© KEYMILE AG


UMUX Name

Vers

HK

PH

Bootloader Software

Unit Software ESW

Name

Name

Vers.


Vers. features and Sa-modes as LOMIF 158. - P12 traffic signals with features (operation without COBU support) for local - Standalone mode of operation (operation TUPON traffic. 64/128 kbit/s in the optical overhead. - Management channel 64/128 optical interface is compatible with the - The TUPON 397 optical - TUPON 397 R5B01) - TUNOR (ESW version R5B01) Note: For the 4 x 2 Mbit/s payload, the TUPON 397 397 is compatible with the optical interfaces of the legacy TUNO units.

ROFBU 367 397/3 R1A

Ditto but - 1 optical 8 Mbit/s IF LT.2 (1550 nm) - Typical optical range (single mode): 70 km

Please note that:

Page 54 of 129

•


•

You can compose compose the name of the the files with compressed unit unit software (ESW) by composing the expressions from the columns «Name» and «Version» as follows (example): «Name»: LOMIF «Version»: R5A10 «Filename»: LOMIF_R5.A10


EN/LZTBU 980 415/512 RA

Summary of units

4.4

© KEYMILE AG

SBUS units Table 4-6:

Preferred functions of SBUS units and compatible hardware/software UMUX (UCST R8B SP02)

Functions

Unit hardware PEC

Template

TIU

IPSMG 707

R8A 1500 SP01 1200

UMUX Name

Vers.

HK

PH

Bootloader Software



Name

Vers.

ROFBU 367 702/1 R1B/3

01002 16

BTLP3

R1A08 IPSMG R4D.. R4D..

Vers. Access Gateway Gateway unit for telephony telephony NGN supporting supporting PSTN and ISDN-BA ISDN-BA user ports. - TDM to RTP (UDP/IP) protocol for TDM/IP channel set-up/release set-up/release - H.248 / MEGACO protocol - PSTN signalling conversion in H.248 messages - Voice modem ITU-T G.711, 64 kbit/s, A-law - 64 kbit/s clear channel (B-ch.) - Echo cancellation ITU-T G.168 up to 64 ms tail length - Signalling Gateway Gateway (ISDN-BA) SIGTRAN (IUA/SCTP - DTMF relay service according to RFC 2833 16 P12s - User port access: up to 16 corresponding to 480 POTS - Uplink interface - H.248.1 v1 - 10BASE-T / 100BASE-TX channels/unit): - Capacity (active channels/unit): - 200 (G.711 (G.711 codec) - 10000 BHCA (< 0.04% PDR) PDR) - Class of service: Differentiated services. - VLAN tagging IEEE 802.1Q - User priority IEEE 802.1p equipment protection - N+1 equipment - Silence suppression for voice modem ITU-T G.711, 64 kbit/s, A-law - Voice modem G. 729 A with silence suppression G.729 B - Amet-package (metering) for for signalling Gateway Gateway de/selectable - DTMF relay service according to RFC 2833 is de/selectable - Support ISDN PRA - Support of MCAS - Support of RTCP The IPSMG R4D fixes some bugs of the previous ESW (voice quality etc.) and provides - soft-switch controlled fax support - improved interoperability with soft-switches

ROFBU ROFBU 367 704/1 704/1 R1A

04003 04003

B82xx B82xx

R1E01 R1E01

Ditto. Ditto.

Note: The IPSMG requires a COBUX ESW ≥ R5D

Page 55 of 129


EN/LZTBU 980 415/512 RA


© KEYMILE AG

Unit hardware PEC UMUX Name

Vers.

HK

PH

Bootloader Software



Template

TIU

Name

Vers.

NEBRE 195

R8B 1500 SP02 1200

ROFBU 367 195/1 R1A

05104 05104 -

BL8xx

R1B05 NEBRO R2F..

Vers. Managed Managed Ethernet Ethernet switch - 4 electrical IFs: 10BASE-T / 100BASE-TX s - 2 optical IFs with SFP cages cages for 100BASE-FX / 1000BASE-SX/LX transceivers bridge/switch with - Ethernet bridge/switch - 14 ports (6 Ethernet, 8 EoS) - Port and tag based VLAN - Tag stacking - RSTP - Traffic prioritisation (QoS) for Ethernet IfFs IfFs - Flow control for

NEBRO 197

R6B 1500 SP01 1200 900

ROFBU 367 196/1 R1A

02001 02001 -

BL8xx

R1B05 NEBRO R2F.. R2F..

Encapsulatio Encapsulation n of Ethernet Ethernet traffic traffic (front (front interfaces) interfaces) for Ethernet Ethernet over SDH transport: transport: - 4 electrical IFs: 10BASE-T / 100BASE-TX s cages for 100BASE-FX / 1000BASE-SX/LX transceivers - 2 optical IFs with SFP cages - Ethernet over SDH - GFP according to G.7041 - VCAT at VC-12, VC-3 level - LCAS according to G.7042 - Ethernet over SDH transport layer - VC-12 / VC-3 transport layer with up to 63 VC-12 / 3 VC-3 - SNCP - Ethernet bridge/switch bridge/switch with - 14 ports (6 Ethernet, 8 EoS) - Port and tag based VLAN - Tag stacking - RSTP - Traffic prioritisation (QoS) - Flow control for for Ethernet Ifs Ifs The NEBRO R2F ESW provides compatibility with the NEBREswitch functionality.

ROFBU ROFBU 367 196/1 196/1 R1B

04003 04003

BL8xx BL8xx

R1C0 R1C00 0

Ditto Ditto with with new unit unit HW.

BL8xx

R1C00 NEBRO R2F..

Same features features as NEBRO but with interfaces interfaces as follows: follows: - 4 optical IFs 100BASE-FX - 2 optical IFs 100BASE-FX or 1000BASE-SX/LX transceivers

Note: The NEBRE requires a COBUX ESW ≥ R5

Note: The NEBRO requires requires a COBUX ESW ≥ R5

NEBRA 198

R6B 1500 SP01 1200 900

ROFBU 367 196/1 R1E

05004 05004

ROFBU 367 198/1 R1A

01002 -

Ditto with new unit HW.

(all IFs are equipped with SFP cages) The NEBRO R2F ESW provides compatibility with the NEBRE switch functionality. Note: The NEBRO requires requires a COBUX ESW ≥ R5

Page 56 of 129


EN/LZTBU 980 415/512 RA


© KEYMILE AG


UMUX Name

Vers.

ROFBU 367 104/1 R1C

HK

PH

Bootloader Software

Unit Software ESW

Name

Name

Vers.

Vers.

108

Ditto with new unit HW and - 1 optical STM-1 port S1.1

ROFBU 367 104/2 R1C

- 1 optical STM-1 port L1.1

ROFBU 367 104/3 R1C SYNIO 605

R5A

1500 1200 900

- 1 optical STM-1 port L1.2

ROFBU 367 105/1 R1A

3

ROFBU 367 105/1 R1B

5

-

B360I

R1D00 SYNIF

R3B..

ROFBU 367 105/2 R1B

Ditto 2 optical STM-1 ports L1.2 6

Ditto with new unit HW and - 2 optical STM-1 ports S1.1

ROFBU 367 105/2 R1C

- 2 optical STM-1 ports L1.1

ROFBU 367 105/3 R1B ROFBU 367 105/1 R1D

- 2 optical STM-1 ports L1.2 8

Ditto with new unit HW and - 2 optical STM-1 ports S1.1

ROFBU 367 105/2 R1D

- 2 optical STM-1 ports L1.1

ROFBU 367 105/3 R1C SYNOT 160

R5B

1500 1200 900

ROFBU 367 160/1 R1A

- 2 optical STM-1 ports L1.2 2

-

B360I

R1D00 SYNOT R1A..

ROFBU 367 160/2 R1A ROFBU 367 160/3 R1A SYNVA 119

Page 58 of 129

R5B

1500 1200 900

ROFBU 367 119/1 P1B R1A

STM-1 aggregate interface for SDH aggregate traffic providing - 2 optical STM-1 S1.1 interfaces - aggregate SBUS access - SETS - Multiplex Section Protection with unit IFs Ditto 2 optical STM-1 ports S1.1 Ditto 2 optical STM-1 ports L1.1

ROFBU 367 105/3 R1A ROFBU 367 105/1 R1C


STM-1 tributary interface for SDH aggregate traffic providing - 1 optical STM-1 S1.1 interface - Termination of STM-1 tributary signal and corresponding VC-12 and/or VC-3 tributary traffic aggregate traffic - Connection of traffic via SBUS to the VC-12 and VC-3 aggregate - SNCP for VC-12 and VC-3 traffic (SDH network) network) channels via the RS- and MS-SOH (ECC - Flexible allocation of bandwidth for data channels applications) Ditto but with optical IF - STM-1 L1.1 Ditto but with optical IF - STM-1 L1.2

1


32

B302I

R1B00 SYNVA R1A..

Connection of VC-12 tributary traffic between PBUS and SDH aggregate traffic - 32 subunits per unit - Connection of VC-12 traffic from the PBUS via the SBUS to the SDH aggregate traffic - Support of TCM towards the SDH network including TCM maintenance functions - VC-12 monitoring and TCM TCM selectable per subunit traffic (SDH network) with individual definition of switching - SNCP/N for VC-12 traffic criteria EN/LZTBU 980 415/512 RA


© KEYMILE AG

Unit hardware PEC

Template

TIU

UMUX Name

SYNUF 606

R7B

1500 1200 900

Vers.

ROFBU 367 120/1 R1A

Bootloader Software


HK

PH

Name

Vers.

2002

-

BL8xx

R2A00 SYNUF R1B..


Vers. STM-1 aggregate interface for SDH aggregate traffic providing - 1 SFP cage for SFP modules with optical and electrical STM-1 interfaces with diagnostics (optical IFs) - Support of SFP modules with - aggregate SBUS access - SETS - SETS equipment protection with 2 SYNUF units - MSP for the physical section with - Substitute for SYNIF, SYNIF, SYNIC and and SYNIO. Notes: The SYNUF requires a COBUX ESW ≥ R5. KEYMILE provides a list of approved SFP modules.

SYN4E

SYTEL 162

R8B 1500 SP01 1200 900

R5B

1500 1200 900

ROFBU 367 610/1 R1A

ROFBU 367 163/1 P1A R1A R1B

2001

1

4

-

B82xx

B302S

R2C00 SYN4E R1C..

R1A03 SYTEL

R1A..

STM-4/1 aggregate interfaces for SDH aggregate traffic providing modules with optical STM-4/1 and electrical STM-1 inter- 4 SFP cages for SFP modules faces (up to 2 STM-4 interfaces) - Local cross connection for VC-12, VC-3 and VC-4 traffic - SBUS access (aggregate) for local SDH traffic - PBUS access (4 x P0/P0_nc) - SETS with support of SETS equipment protection - MSP for the physical sections of local STM- interfaces - Substitute for SYNIF, SYNIC, SYNIC, SYNIO, SYNUF and and SYNAC. - 4 Gigabit Ethernet interfaces - Encapsulation of Ethernet traffic traffic in VC-12, VC-3 and VC-4 containers The SYN4E R1C fixes some bugs of the SYN4E. Notes: The SYN4E requires a COBUX ESW ≥ R5H. KEYMILE provides a list of approved SFP modules. E31 and E32 tributary interface for the SDH aggregate traffic providing and E32 (45 Mbit/s) - 1 electrical E31 (34 Mbit/s) and traffic into the VC-3 container - Mapping of the E31 / E32 tributary traffic aggregate traffic - Connection of traffic via SBUS to the VC-3 aggregate - Linear Trail Protection for VC-3 traffic (SDH network) - Coaxial front connectors 75 Ω (Series 1.6/5.6 ms)

Please note that:

Page 59 of 129

•


•

You can compose the name of the files with compressed unit unit software (ESW) (ESW) by composing the expressions from the columns «Name» and «Version» as follows (example): «Name»: SYNIF «Version»: R3B10 «Filename»: SYNIF_R3.B10


EN/LZTBU 980 415/512 RA

Summary of units

4.5

UBUS units Table 4-7:

Preferred functions of UBUS units and compatible hardware/software UMUX (UCST R8B SP02)

Functions

Page 60 of 129

© KEYMILE AG

Unit hardware PEC

Bootloader Software Vers. HK

Unit Firm/Software

Description / Remarks

Template Template

TIU

UMUX Name

Name Name

Vers.

Name

Vers.

EXLA6 352

≤ 2.5.d

1500 1200 1300 1100

COZBU 103 352/3 R1J

6

-

-

EXLA6

R2F

EXLAN 342

≤ 2.5.d

1500 1200 1300 1100

COZBU 103 342/4 R1J

7

-

-

EXLAN R2F

PSTN exchange line IF 12 ports a/b, complex imp.

EXLIC 451

≤ 2.5.d

1500 1200 1300 1100

COZBU 103 451/4 R1C

7

-

-

EXLIC

ISDN BA exchange line IF 12 ports, 2B1Q line code

GECOD 371

≤ 2.5.d

1500 1200 1300 1100

COZBU 103 371/5 R1C

7

-

-

GECOD R1B

Data IF 64 kbit/s G.703, co-directional 8 ports

GECOD 372

≤ 2.5.d

1500 1200 1300 1100

COZBU 103 372/2 R1B

7

-

-

GECOD R2A

Ditto plus 1+1 protection

ISBUQ 141

R4E

1500 1200 1300 1100

ROFBU 367 109/1 R1A/ R1A/1 1 1

ISBUQ

Subscriber line IF ISDN BA 96 V remote powering for NT-1: - 8 ports - 2B1Q line code and f-data - p- and - permanent activation of digital section - extended test and maintenance functions Additionally: - accelerated status functions - alarm for active test loops status for test purposes - control of the remote powering via status For subscribers with “Permanent activation”: If the NT is disconnected - the ISBUQ blocks the U-IF and sends a corresponding message to the switch. - the ISBUQ creates a corresponding status for the U-IF. the interface. The PCON consid- the PCON may show an inconstant state for the


B302U R1A22

R1C

R3L..

PSTN exchange line IF 12 ports a/b, imp. 600 Ohm

EN/LZTBU 980 415/512 RA

Summary of units Functions Template Template

© KEYMILE AG


UMUX Name

Vers. HK

Bootloader Software

Unit Firm/Software

Name Name

Name

Vers.


Vers. ers the ISBUQ initiated blocking the same as a UCST controlled blocking. This mode is required for switches which do not correctly process the NT-disconnected status of subscribers with “Permanent activation” of the U-IF. The ISBUQ R1K ESW fixes of previous releases. Note: This ESW only only runs on the ISBUQ hardware.

ISBUT 110

Page 61 of 129

R4C

1500 1200 1300 1100

ROFBU 367 109/1 R1B

4

ROFBU 367 110/1 R1A R1B

102

Ditto with new unit HW. B302U R1A22

ISBUT ISBUT

R3L.. R3L..

Subscr iber line IF ISDN BA 8 ports, 4B3T line code, 96 V remote powering for NT-1 Additionally support of and f-data - p- and - permanent activation of digital section - extended test and maintenance functions - digital leased lines (“Standard Festverbindungs Modus”) The ISBUT R1K ESW fixes among other bugs deficiencies of the “Festverbindungs” mode of previous releases.

ROFBU 367 110/1 R1C

104

NEMCA 311

≤ 2.5.d

1500 1200 1300 1100

COZBU 103 311/2 R1A

6

-

-

NEMCA R2A

Analogue telephone. IF, 2/4w 8 ports

NEMCA 312

≤ 2.5.d

1500 1200 1300 1100

COZBU 103 312/2 R1C

6

-

-

NEMCA R3A

Ditto including 1+1 protection

NEMGE 315

≤ 2.5.d

1500 1200 1300 1100

COZBU 103 315/1 R1B

7

-

-

NEMGE R1A

German parameter version of NEMCA

PHOV5 424

4E

1500 1200 1300 1100

COZBU 103 424/1 R1A/1 9

-

-

PHOV5_1 PHOV5_1 R1b PHOV5_2 R1a

SULIC 391

≤ 2.5.d

1500 1200 1300 1100

COZBU 103 391/5 R1F

7

-

-

SULIC

R1C

Subscriber line IF ISDN BA for the P-Phone premium business telephone service: copper wire pair - Six 2-wire speech interfaces over non-loaded copper - Six P-Phone 8 kHz signalling interfaces over the same pair as the speech channels - V5.2 protocol extended to support support P-Phone signalling and speech paths - Simultaneous speech and signalling transmission - No ringer generator requirement requirement Trunk IF for NTU 8 ports, 2B1Q line code

SULIC 392

≤ 2.5.d

1500 1200 1300 1100

COZBU 103 392/2 R1D

7

-

-

SULIC

R2A


Ditto with new unit HW/ESW


EN/LZTBU 980 415/512 RA


© KEYMILE AG

Unit hardware PEC

Bootloader Software Vers. HK

Unit Firm/Software


Template Template

TIU

UMUX Name

Name Name

Vers.

Name

Vers.

SULIC 396

≤ 2.5.d

1500 1200 1300 1100

COZBU 103 396/1 R1C

7

-

-

SULIC

R3B

Ditto including PM

SULIS 393

≤ 2.5.d

1500 1200 1300 1100

COZBU 103 393/2 R1E

7

-

-

SULIS

R1C

Trunk IF for ISDN NT1 8 ports, 2B1Q line code

UNIDA 431

≤ 2.5.d

1500 1200 1300 1100

COZBU103431/2xx R1E

6

-

-

UNIDA

R1G

Data interface V.24 (0 … 38.4 kbit/s) 4 ports: xx = 00 No options xx = 011+1 protection (1) xx = 02Point-to-multipoint (2) xx = 08Subrate multiplexer (4) xx = 15All options (1, 2, 4) This UNIDA 431 supports the rates n = 1 (64 kbit/s) … 4 (256 kbit/s) to allow the implementation of the workaround for the PM with subrate traffic signals.

Page 62 of 129

UNIDA 432

≤ 2.5.d

1500 1200 1300 1100

COZBU103432/2xx R1E

6

-

-

UNIDA

R1G

UNIDA 433

≤ 2.5.d

1500 1200 1300 1100

COZBU103433/2xx R1E

6

-

-

UNIDA

R1G


Note: Do not use rates ≥ 64 kbit/s for other traffic signals! The interface may not operate for these rates. Data interface n x 64 kbit/s, V.35 (0.6 … 64 kbit/s) 4 ports: xx = 00 No options xx = 01 1+1 protection (1) xx = 02 Point-to-multipoint (2) xx = 04 Performance Monitoring (3) *) xx = 08 Subrate multiplexer (4) xx = 15 All options (1, 2, 2, 3, 4) Data interface n x 64 kbit/s, V.11/X.24 (0.6 … 64 kbit/s) 4 ports: xx = 00 xx = 01 xx = 02 xx = 04 xx = 08 xx = 15

No options 1+1 protection (1) Point-to-multipoint (2) Performance Monitoring (3) *) Subrate multiplexer (4) All options (1, 2, 2, 3, 4)

EN/LZTBU 980 415/512 RA


© KEYMILE AG

Unit hardware PEC

Template Template

TIU

UMUX Name

UNIDA 434

≤ 2.5.d

1500 1200 1300 1100

COZBU103434/2xx R1E

1500 1200 1300 1100

COZBU103435/2xx R1E

1500 1200 1300 1100

COZBU 103436/1x R1B

1500 1200 1300 1100

COZBU 103437/1x R1B

1500 1200 1300 1100

COZBU 103438/1x R1A

UNIDA 435

UNIDA 436

UNIDA 437

UNIDA 438

≤ 2.5.d

R4C

R4C

R4E

Vers. HK 6

Bootloader Software

Unit Firm/Software

Name Name

Vers.

Name

Vers.

-

-

UNIDA

R1G


Data interface n x 64 kbit/s, V.36/RS-449 2 ports: xx = 00 xx = 01 xx = 02 xx = 04 xx = 15

6

-

-

UNIDA

R1G

Data interface n x 64 kbit/s, V.36/V.11 (48 … 64 kbit/s) 4 ports: xx = 00 xx = 01 xx = 02 xx = 04 xx = 08 xx = 15

5

-

-

UNIDA

R1H

-

-

UNIDA

R1H

-

-

UNIDA

R1D

No options 1+1 protection (1) Point-to-multipoint (2) Performance Monitoring (3) *) All options (1, 2, 3)

Data interface n x 64 kbit/s, V.35 4 ports without Subrate Multiplexing x= x=1 x=2 x=3 x=4

5

No options 1+1 protection (1) Point-to-multipoint (2) Performance Monitoring (3) *) Subrate multiplexer (4) All options (1, 2, 2, 3, 4)

Data interface X.24/V.11 4 ports without Subrate Multiplexing x= x=1 x=2 x=3 x=4

5

No options 1+1 protection (1) Point-to-multipoint (2) Performance Monitoring (3) *) All options (1, 2, 2, 3, 4)

No options 1+1 protection (1) Point-to-multipoint (2) Performance Monitoring (3) *) All options (1, 2, 3)

Data interface X.24/V.11 4 ports - without Subrate Multiplexing - with Scrambler (ITU-T V.38) x= No options x=1 Point-to-Multipoint (2) x=2 Performance Monitoring (3) *) x=3 Both options (2, 3) Note: With the active scrambler PM is not available available

Page 63 of 129


EN/LZTBU 980 415/512 RA

Summary of units *)

© KEYMILE AG

The UNIDA supports PM only for bit rates ≥ 64 kbit/s. For bit rates < 64 kbit/s a workaround (as described in the Letter of Limitations) is available. Please note that: •

•

•

• •

Page 64 of 129

Partial inventory inventory data means means that the units only only provide a part of the standard informainformation for inventory managemen management. t. If the UMUX 1500 implementation implementation of a particular particular function (unit) (unit) goes with functional restrictions compared to the features quoted in the unit description, the table shows the limitations. The tables include the version of the the «Bootloader» «Bootloader» software. software. The inventory inventory function of the EM can read the data (if applicable). New UBUS units and some of the existing UBUS units feature SW download as well. You can compose the name name of the the files with (compressed) (compressed) unit software (ESW) by composing the expressions from the columns «Name» and «Version» as follows (example): «Name»: ISBUQ «Version»: R3E11 «Filename»: ISBUQ_R3.E11


EN/LZTBU 980 415/512 RA

Summary of units

4.6

© KEYMILE AG

Special units Table 4-8:

Preferred special units and compatible hardware/software UMUX (UCST R8B SP02)

Functions Template Template ALCAR 804

ETHUB 194


UMUX Name



Name

Vers.

Name

≤ 2.5.d 1500 1200 1300 1100

COZBU 103 804/1 R1B

7

-

-

ALCAR R1A

Alarm unit with 24 binary inputs/ 4 command outputs and 4 ports for serial communication

R4E

COZBU 110 194/1 R1B

1

-

-

-

The ETHUB is an Ethernet switch with 5 10/100BaseT interfaces (front access). The ETHUB provides the full UMUX inventory and alarm and Ifs.

1500 1200

Vers. HK

ESW or System SW Vers.

-

The ETHUB 194 is included with the Service Pack 02 and provides a separate alarm for failures of the local 3.3 VDC power supply. IPLM1 742

R7B

1500

ROFBU 367 742/1

R1A

1

-

-

IPLMA

R1G

The IPLM1 unit provides an IP (Ethernet) DSLAM for the UMUX: ADSL/ADSL2(+) interfaces - 24 ADSL/ADSL2(+) - Interworking functions for the termination of the ATM layer Broadband Internet - Adaptation of the Ethernet traffic for IP services, such as VoIP, Broadband Video on Demand (Triple Play). - VLAN support up to 512 - 2 Gbit Ethernet uplinks (1 electrical, 1 SFP module) - Up to 6 units in daisy chain The IPLM R1G ESW fixes some bugs of the previous version. Note: The IPLM1 requires requires a COBUX ESW ≥ R5E

IPLM2 743 IPLM4 753

Page 65 of 129

ROFBU 367 743/1 R1A

-

-

ROFBU 367 753/1 R1A

-

-

Ditto but with 2 electrical Gbit-Ethernet front interfaces (Uplinks) Note: The IPLM2 requires requires a COBUX ESW ≥ R5E

R7B SP03


IPLMB

R1G

Ditto but with support of ADSL2+ over ISDN-BA (annex B). Note: The IPLM4 requires requires a COBUX ESW ≥ R5E

EN/LZTBU 980 415/512 RA


© KEYMILE AG

Unit hardware PEC

Template Template

TIU

IIPLM6 763

R7B SP03

UMUX Name

Vers. HK

ROFBU 367 763/1 R1A


ESW or System SW

Name

Vers.

Name

Vers.

-

-

IPLMS

R1G


Ditto but with the support of SHDSL line interfaces:

- 24 SHDSL line interfaces - SHDSL support - single pair - G.SHDSL, ITU-T G.991.2 - G.SHDSL.bis, ITU-T G.991.2 annex F/G F/G - pair bonding. - SHDSL ITU-T G.994.1 annex B Note: The IPLM6 requires requires a COBUX ESW ≥ R5E

LECAF 070

R4E

1500 1200 1300 1100

COZBU 402 070/1 R2C

10

-

-

LECAF

R6C

DSL transmission IF (CAP) 2 HDSL Ifs for twisted pairs. - Data IF with front front access, no highway access - Support of LECAR - Support of MUSIC 100 - Support of the regenerator - Supports 120 and 75 Ohm termination. The LECAF (COZBU … R2A) front panel is compatible with the legacy UMUX and operates in all the UMUX including the UMUX 1300/1100(E).

1500 1200

NTMBU 201 953/6 R1B (Upgrade kit only)

LECAF

R7B

Same functionality as the LECAF 070 (FW R6A), but can only be used as an NT in a connection to - LESA8 - SLIM1/2

R6A

Same features as above.

The FW R7B is only available as an upgrade kit for the LECAF and LECA2. COZBU 402 070/1 R1A

10

-

-

LECAF

-

-

-

Operates in the UMUX 1500 / 1200 only and is no longer available! MAGIC 317

MAGI8 319

≤ 2.5.d

R7B SP03

1500 1200 1300 1100

COZBU 103 317/1 R1A

1500 1200

COZBU 103 319/1 R1A

The MAGIC converts the E&M signalling of NEMCA to the magneto line signalling. - 8 magneto subscriber line interfaces - signalling conversion E&M <-> magneto line. For more information please contact KEYMILE

-

-

-

The MAGI8 converts the E&M signalling of NEMCA to the magneto line signalling. - 8 magneto subscriber line interfaces - signalling conversion E&M <-> magneto line. - Onboard generation of ringing signal. MAGI8 is a substitute for MAGIC in the UMUX 1500 and UMUX 1200.

Page 66 of 129


EN/LZTBU 980 415/512 RA


© KEYMILE AG

Unit hardware PEC

Template Template

TIU

UMUX Name

TUNOF 284

R4E

1500 1200 1300 1100

Bootloader SW or APDSW Vers. HK

COZBU 110 284/1 R2B

3

ESW or System SW

Name

Vers.

Name

-

-

TUNOF R2B


Vers. Optical/electrical transmission IF: - 1 optical 8 Mbit/s interface - 4 el. 2 Mbit/s front Ifs (G.703) - 2 to 8 Mbit/s DMX 120/75 Ohm - Front access for the 4 electrical 2 Mbit/s Ifs, 120/75 - Overhead channel The TUNOF (COZBU … R2A) front panel is compatible with the legacy UMUX. With the UCST R5C and more recent UCST releases the TUNOF is supported in all the UMUX including UMUX 1300/1100(E).

COZBU 110 284/1 R1A

3

-

-

TUNOF R2B

Same features as above. Operates in the UMUX 1500 / 1200 only and is no longer available!

Empty fields are «not applicable» for the corresponding function. function.

Page 67 of 129


EN/LZTBU 980 415/512 RA

Summary of units

4.7

© KEYMILE AG

Obsolete function units The UCST R8B supports the obsolete function units listed in the table below. If available, KEYMILE recommends the upgrading of these functions to compatible preferred functions and substitutes as shown in the previous paragraphs. Table 4-9:

Obsolete functions and templates UMUX (UCST R8B SP02)

Function Template

Page 68 of 129

Description

Preferred substitute

TIU TIU

TOU TOU

EXBAT 401

≤ 2.5.d

R5A

UMUX UMUX ISDN BA exchange line IF 8 ports, 4B3T line code

None

EXLAN 343

≤ 2.5.d

R5A

PSTN exchange line IF, remote op. 12 ports a/b, complex imp. Sensitive metering detection

None

HIRAC 810

R4A

R5B

AM64/512 2B1Q

None

IPSMG 704

R6B

R7A

Access Gateway unit for telephony NGN supporting PSTN and ISDN-BA user ports.

IPSMG 706 IPSMG 707

ISBUQ 130

R4A

R5A

Subscriber line IF ISDN BA 8 ports, 2B1Q line code, 96 V remote powering for NT-1

ISBUQ 141

LAWA4 LAW A4 235

R4E

R6A

Connects a local area network (LAN) over a 10BaseT interface to the UMUX units with aggregate interfaces

LE2Q2 244

R4E

R5A

2 Mbit/s transmission IF Line IF for 2 twisted pairs with 2B1Q encoding. Supports LECAR

SLIM 1 491 (LESA8 086)

LECA2 050

≤ 2.5.d

R5A

2 Mbit/s transmission IF Line IF for 2 twisted pairs with CAP encoding. Supports LECAR

SLIM 1 491 (LESA8 086)

LECA2 052

R3.3a

R5A

Ditto including operation of LECAR and MUSIC 100

SLIM 1 491 (LESA8 086)

LECA2 054

R4A

R5A


SLIM 1 491 (LESA8 086)

LECA2 056

R4E

R5A


SLIM 1 491 (LESA8 086)

LEMQ LE MQ6 6 148 14 8

R4E R4 E

R6A

Concentrates the xDSL (2B1Q) IP-packed oriented traffic of 6 subscribers and transfers it to the local 10BaseT front interface or to the PBUS cross connect.

LEMQ6 248

LEMQ6 248

R5C SP03

R7A

Ditto. Ditto.

None

LEMU LE MU6 6 236

R4A R4 A

R6A

Concentrates the xDSL (CAP) IP-packed IP-packed oriented traffic of 6 subscribers and transfers it to the local 10BaseT front interface or to the PBUS cross connect.

LEMU6 266

LESA8 085

R5A

R5B

DSL 4-8 ports

LESA8 086


LAWA4 LAW A4 265

EN/LZTBU 980 415/512 RA

Summary of units

© KEYMILE AG

Function Template

Page 69 of 129

Description


TIU TIU

TOU TOU

LOMI4 150

R4E

R5B

UMUX UMUX 2Mbit/s Unit, 4 ports, PRA, PM

LOMI4 151

LOMI4 159

R5C SP02

R6A

ditto

LOMI4 151

LOMIF 101

3.2.a

R5A

2Mbit/s Unit, 8 ports

LOMIF 152

LOMIF 120

3.3a

R5A

2Mbit/s Unit, 8 ports, SNC, PM

LOMIF 152

LOMIF 140

R4B

R5B

2Mbit/s Unit, 8 ports, PRA, PM

LOMIF 152

LOMIF 158

R5C SP02

R6A

ditto

LOMIF 152

LORAX 815

R4E

R5B

AM192/64 X50

None

MEGIF 261

≤ 2.5.d

R5A

2 x 2 Mbit/s, G.703 2 ports 75 Ohm

LOMI4 151, LOMIF 152

MEGIF 262

≤ 2.5.d

R5A

Ditto including PM


MEGIF 264

R4C

R5A

Ditto including PM and SSI-mode


MEGIF 271

≤ 2.5.d

R5A

2 Mbit/s, G.703 2 ports 120 Ohm


MEGIF 272

≤ 2.5.d

R5A

2 Mbit/s, G.703 2 ports 120 Ohm, GWF

None

MEGIF 273

≤ 2.5.d

R5A

2 Mbit/s, G.703 2 ports 120 Ohm and PM


MEGIF 274

R4C

R5A

Ditto including PM and SSI-mode


ML70A087

R5C SP03

R6A

Desktop unit (MUSIC 700 λ) with G.SHDSL line interfaces and POTS and LAN interfaces

ML70A091

NEBRO 196 R6B

R7A

Ethernet over SDH transport

NEBRO 197

PCON2 115 R4A

R5A

V5.x 480 PSTN / 224 ISDN UP

PCON2 142

PCON2 142 R4E

R7A

ditto

PCON2 170

PCONV 121 R3D

R5A

V5.x 240 PSTN / 112 ISDN UP

PCONV 149

PCONV 131 R4A

R5A

ditto

PCONV 149

PCONV 143 R4E

R7A

ditto

PCONV 149

PHLC1 122

R3D

R5A

PSTN 60 Sub/LT/V5/MCAS

PHLC1 183, SUBH3 189

PHLC1 125

R4A

R5B

PSTN 60 Sub/LT/V5/MCAS/P-E/CA


PHLC1 185

R5B

R6A



PHLC2 128

R3D

R5A

PSTN 30 Sub/LT/V5/MCAS


PHLC2 129

R4A

R5B



PHLC2 186

R5B

R6A




EN/LZTBU 980 415/512 RA

Summary of units

© KEYMILE AG

Function Template


TIU TIU

TOU TOU

R4E

R5B



PHONE 324 R3D

R5B

6 Subscriber line Ifs P-Phone service (no V5 services)

PHOV5 424

PHLC3 126

PODIS 033

Page 70 of 129

Description UMUX UMUX

R7A

Power distribution unit for the remote powering of 4 HDSL CAP desktops

None

POSUS 106 3.2a

R7A

DC/DC power converter for UMUX 1500 / 1200

POSUM 306

RIGEN 241

≤ 2.5.d

R5A

Ringing Generator f. SUB 16 / 25 / 50 Hz, b-wire

None

RIGEN 251

≤ 2.5.d

R5A

Ringing Generator f. SUB 25 Hz, a-wire

None

SIFOX 381

≤ 2.5.d

R5A

Data IF 64 kbit/s IF X.24/V.11 4 ports

None

≤ 2.5.d

SIFOX 382

≤ 2.5.d

R5A


None

SUBAT 461

3.2a

R5A

Trunk IF for ISDN NT1 4 ports, 4B3T line code

None

SUBH1 188

R6B

R7A


SUBH1 191

SUBH3 187

R6B

R7A


SUBH3 189

SUBL6 327

3.3a

R5A

Subscriber line IF PSTN 12 ports a/b, imp. 600 Ohm hot line


SUBL6 335

R4A

R5A

Subscriber line IF PSTN 12 ports a/b, 600 Ohm, hot line, auto ring down


SUBLA328

3.3a

R5A

Subscriber line IF PSTN 12 ports a/b, imp. complex, hot line


SUBLA334

R4A

R5A

Subscriber line IF PSTN 12 ports a/b, imp. complex, hot line, auto ring down


SUBLA 336

R4A

R5A

Subscriber line IF PSTN 12 ports a/b, imp. complex, hot line, auto ring down Iloop = 44 mA


SUBUK 333 3.3a

R5A

Subscriber line IF (UK/LINTE) 12 ports a/b, hot line


SYNAC 163 R4D

R5C

Termination of VC-12 tributary from the SBUS and access to the 2 Mbit/s traffic on the PBUS. 8 subunits

SYNAC 167

SYNIC 118

R4D

R5B

STM-1, electrical 1 port, SETSP

SYNIC 168

SYNIF 164

R4D

R5B

STM-1, optical 1 port, SETSP

SYNIF 604


EN/LZTBU 980 415/512 RA

Summary of units

© KEYMILE AG

Function Template

Description


TIU TIU

TOU TOU

SYNIO 165

R4D

R5B

UMUX UMUX STM-1, optical 2 port, MSP

SYNIO 605

TUNEL 481

≤ 2.5.d

R5A

Electrical IF 8 Mbit/s 2 el. ports 8 Mbit/s, G.703/75 Ohm

None

TUNOL 286

R5C

R5C

Same features as the TUNOL 299. Additional features: Automatic laser shutdown/restart Alarm for bit errors BER > 1E-9 Please note that the TUNOL 286 is an obsolete function unit. does not operate with the TUNOR. is not released for the UMUX 1300/1100(E)!.

TUPON 397

TUNOL 299

≤ 2.5.d

R5A

Optical/electrical transmission IF: 1 optical 8 Mbit/s interface 4 el. 2 Mbit/s front Ifs (G.703) UBUS and front access for the 4 electrical 2 Mbit/s Ifs, 120/75 Ohm 2 to 8 Mbit/s DMX Cross connect configurable Overhead channel

TUPON 397

TUNOP 292

≤ 2.5.d

R5A

Opt. IF 8 Mbit/s single and multi-mode fibres 2 ports

TUPON 397

TUNOS 293

≤ 2.5.d

R5A

Opt. IF 8 Mbit/s single mode fibres 1300 nm 2 ports

TUPON 397

TUNOS 294

≤ 2.5.d

R5A

Opt. IF 8 Mbit/s single mode fibres 1500 nm 2 ports

TUPON 397

ULCAS 471

R3D

R5A

AM 64/128

None

ULCAS 472

R4E

R5B

AM 64/128

None

1500 1200

Please note that: • •

•

Page 71 of 129

Obsolete functions are still compatible with the UCST R8B. R8B. The corresponding templates are available available in the Obsolete directory in the UCST Data directory. For information information on compatibility of hardware with former ESW consult consult the correspondcorresponding release notes.


EN/LZTBU 980 415/512 RA

Summary of units

4.8

© KEYMILE AG

Desktop units Table 4-10:

Interoperability and software of desktop desktop units units (UCST R8B SP02) SP02)

Functions Name LE2RG

Compa Compatib tible le Units Units

TIU

Name

LECA2 056 LECAF 070 (POSUR/PODIS required) SLIM2 492 SLID2 494

R4E ZHTBU 401 019/1 R4E

System SW


Vers.

Name

Vers.

R1A

LE2RG R2A

CAP Regenerator in aluminium outdoor box for remote powering

LE2RG R2A

CAP Regenerator subrack unit with local DC powering

R5C

LE2RG

LECA2 056 LECAF 070 LESA8 085 LESA8 086 LESI8 092 SLIM1 491 SLIM2 492 SLID1 493 SLID2 494

R4E COZBU 401 019/3 R1A R4E R5A R5B R5C R5B R5C R5C

LECAR

R5A LESA8 086 SLIM1 491

COZBU 405 105/1 R1B

LECA2

R7B

Desktop HDSL/CAP 230 V without IF special version for use as NT only Supports 1-pair and 2-pair DSL operation mode

LECAR

LECA2 056 LECA2 057 LECAF 070

R4E COZBU 405 100/1 R1C R4E R4E

LECA2

R6A

HDSL/CAP 230 V without IF

LECAR (LE2QR)

LE2Q2 244

R4E COZBU 405 244/1 R1B

LECA2

R6A

HDSL/2B1Q 230 V without IF

LECAR

LECA2 056 LECA2 057 LECAF 070

R4E COZBU 405 101/1 R1D R4E R4E

LECA2

R6C


LECAR

LECA2 052 LECA2 053

3.3°/1 COZBU 405 069/1 R2E 3.3°/1

LECA2

R4.2 (R4C)


LECAR

LECA2 052 LECA2 053

3.3°/1 COZBU 405 068/1 R2E 3.3°/1

LECA2

R4.2 (R4C)


LECAR

LECA2 050 LECA2 051

2.5d 2.5d/2 /2 COZBU 405 061/1 R2C

LECA2

3.1


LRD1A

R3C

LineRunner LineRunner DTM - 1 pair - maximum user data rate 2048 kbit/s power supply - AC power

LRD1A 044

Page 72 of 129


R7B STIC1 257 SP02 STIC2 256 SREG1 081 (SREG2 082)

R7B R7B 37 853 406 R7B R7B R7B R7B R7B


EN/LZTBU 980 415/512 RA

Summary of units

© KEYMILE AG

Functions Name



TIU

Name

System SW Vers.

Name

Vers.

LRD1B 062

R7B STIC1 257 SP02 STIC2 256 SREG1 081 (SREG2 082)

R7B R7B 37 854 305 R7B R7B R7B R7B R7B

LRD1B

R3C

LineRunner LineRunner DTM - 1 pair - maximum user data rate 512 kbit/s power supply - AC power

LRD2A 045

R7B STIC1 257 SP02 STIC2256 SREG2 082 (SREG1 081)

R7B R7B 37 853 805 R7B R7B R7B R7B R7B

LRD2A

R3C

LineRunner LineRunner DTM - 1 pair and 2 pairs - maximum user data rate 2048 kbit/s power supply - AC power LineRunner DTM - 1 pair and 2 pairs - maximum user data rate 2048 kbit/s power supply - DC power

37 853 600

37 853 708

LineRunner DTM - 1 pair and 2 pairs - maximum user data rate 2048 kbit/s power supply - AC power powering source - remote powering

37 853 503

LineRunner DTM - 1 pair and 2 pairs - maximum user data rate 2048 kbit/s - DC power power supply - remote powering

MUSIC 100 MCAP

R5C LECA2 056 LECA2 057 LECAF 070 LEMU6 236

R4E ZATBU 121 060/2 R4E R4E R4E

R3E

_MCAP R4E

MSDSL (all speeds, with LEMU6) and HDSL (with LECA2/F) CAP

MUSIC 100 LMCAP

R5C LEMU6 236

R4E ZATBU 121 060/5

R3E

_LMCAP R4E

LMSDSL (128/256 kbit/s) CAP

MUSIC 100 2B1Q

R5C LE2Q2 244 LEMQ6 148

R4E ZATBU 121 060/8 R4E

R1E

_2B1Q

HDSL 2B1Q

MUSIC 200

R5B LESA8 086 with ESW LESAC SLIM1 491 and SLIM2 492 with ESW SLIMC LE2RG

R5B ZATBU 121 086/1

R1C

LESRC R1C

R4E

R5B

ZATBU 121 086/21 R1B MU20A 012 (MUSIC 200)

Page 73 of 129


R5C LESI8 092 with SP03 ESW LESIC SLID1 493 and

R5C ZATBU 121 012/1 R5C


R1C

Supports the speed/line code - 1168 kbit/s: CAP - 2320 kbit/s: CAP Power supplies 230 V AC and –48 V DC.

Ditto but for operation with AC power supplies only 1) 110 … 240 V AC. MU20C R2C

Power supplies 230 V AC and –48 V DC. Supports the speed/line code

EN/LZTBU 980 415/512 RA

Summary of units

© KEYMILE AG

Functions Name



TIU

Name

System SW Vers.

Name

Vers.

SLID2 494 with ESW SLIDC LE2RG

- 1168 kbit/s: - 2320 kbit/s: ZATBU 121 012/21 R1B

CAP CAP

Ditto but with AC power supplies only 1) 110 … 240 V AC

MUSIC 200

R5B LESA8 086 with ESW LESAE

R5B ZATBU 121 086/2

R1C

LESRE R1C

Supports the speed/line code - 1168 kbit/s: 2B1Q - 2320 kbit/s: PAM16 Power supplies 230 V AC and –48 V DC.

MUSIC 200

R5B LESA8 086 with ESW LESAF

R5B ZATBU 121 086/3

R1C

LESRF

R1C

Supports the speed/line code - 1168 kbit/s: PAM16 - 2320 kbit/s: PAM16 Power supplies 230 V AC and –48 V DC.

MU20A 012 (MUSIC 200)

R5C LESI8 092 with SP03 ESW LESIF SLID1 493 and SLID2 494 with ESW SLIDF

R5C ZATBU 121 012/3

R1C

MU20F R2C

Supports the speed/line code - 1168 kbit/s: PAM16 - 2320 kbit/s: PAM16 Power supplies 230 V AC and –48 V DC.

R5C

ZATBU 121 012/23 R1B ML70A 091 (MUSIC 710λ)

Page 74 of 129



R5C ZATBU 121 091/1 R5C


R1A

Ditto but for operation with AC power supplies only 1) 110 … 240 V AC. ML700

R2C

Desktop unit with G.SHDSL line interfaces and POTS and LAN interfaces: - 2 DSL lines (copper pairs) 10BaseT / 100 BaseTx Ethernet interfaces - 2 independent 10BaseT traffic of the Ethernet interfaces - routing and bridging for data traffic for telephone services - 8 (indoor) POTS interfaces for parameters configurable configurable - operational parameters parameters for all user ports configurable - general operational parameters - voice impedance - ringing frequency - metering pulse - parameters for subscriber subscriber line test - 2 provisioning sets for all user ports - V5.x, Carrier adapter modes - MCAS mode Direct Line - PHLC1 183 supports supports additionally new MCAS modes: modes: - Loop Calling PBX - Earth Calling PBX - PBX Extension Phone Exchange modes - loop current - parameters depending depending on mode port - input and output levels configurable per user port - local interface for unit configuration - local DC (nominal 12 V DC) or mains (230 V AC) power supply

EN/LZTBU 980 415/512 RA

Summary of units

© KEYMILE AG

Functions Name



TIU

Name

System SW Vers.

Name


Vers.

- metallic indoor case power - intelligent heat management for locally dispipated power PAM16 - 1168 kbit/s via 2 links: PAM16 - 2320 kbit/s via 1 link: ML70C 089 (MUSIC 711λ)

ML70E 093 (MUSIC 703λ)


R5C ZATBU 121 089/1


R5C ZATBU 121 093/1

NTU 421

Page 75 of 129

R1A

ML700

R2B

Ditto. The MUSIC 711λ additionally supports a serial data interface n x 64 kbit/s (up to 2048 kbit/s) for interfaces as follows - X.21/V.11 - V.35 - V.36

R1A

ML700

R2B

Same basic features as the MUSIC 710 λ but without POTS services. Instead, the MUSIC 703 λ supports 3 serial data interface n x 64 kbit/s (up to 2048 kbit/s) for interfaces as follows - X.21/V.11 - V.35 - V.36

COZBU 405 421/4 R1H

NTUL

R1D

Network Terminating (Desktop) Unit with 2B1Q data transmission over a twisted pair for the operation with - SULIC 391, 392, 396 (UMUX) remote powering of the NTU is supported (33 … 96 V DC). - NTU (point-to-point) local powering of the NTU required (+5.5 VDC). The NTU supports data interfaces as follows: - V.24/V.28 (600 bit/s … 38.4 kbit/s) - X.21/V.11 (600 bit/s … 56 kbit/s, 64 and 128 kbit/s T, R signals only) power supply only!) - V.35 (with adapter and local power

COZBU 405 039/1 R1C

-

-

R5C

R5C

V.35 adapter for the NTU 421.

SREG1 081

R7B LR DTM STIC1 200 STIC2 199

R7B 378 507 17 R7B R7B

SREG1 R2A

LineRunner Regenerator 1 pair

SREG2 082

R7B LR DTM STIC1 200 STIC2 199

R7B 378 507 25 R7B R7B

SREG2 R2A

LineRunner Regenerator 2 pairs

TUNOR 297

TUPON 397 TUNOL 299 TUNOF 284

R5B COZBU 405 297/1 R1E R3D R4E

TUNOR R1C

Desktop unit with optical 8 Mbit/s IF for 4 x 2 Mbit/s traffic (G.703 or V.11) The TUNOR 297 is for 230 V AC mains powering

TUNOR 298



TUNOR R1C

Desktop unit with optical 8 Mbit/s IF for 4 x 2 Mbit/s traffic (G.703 or V.11). 1 IF supports the ISDN PRA service. The TUNOR 298 is for 230 V AC mains powering


EN/LZTBU 980 415/512 RA

Summary of units

© KEYMILE AG

Functions

Unit hardware PEC

Name

Name

Vers.

Name



TIU

TUNOR 300



TUNOR R1C

Desktop unit with optical 8 Mbit/s IF for 4 x 2 Mbit/s traffic (G.703 or V.11). The TUNOR 300 is for 115 V AC mains powering

TUNOR 280



TUNOR R1C

Desktop unit with optical 8 Mbit/s IF for 4 x 2 Mbit/s traffic (G.703 or V.11). 1 IF supports the ISDN PRA service. The TUNOR 280 is for 115 V AC mains powering

1)

TIU

System SW Vers.

FUTURE OPTION. For details of availability, please contact your KEYMILE sales channel. Please note that the table above •

does not show compatible compatible desktop devices (for this information, refer refer to the table below).

•

describes only standard standard versions. versions. For customer specific specific versions, versions, please contact KEYMILE or use your customer specific ordering codes.

The table below shows the released interoperability between the units.

Page 76 of 129


EN/LZTBU 980 415/512 RA

Summary of units Tab. 4-1:

© KEYMILE AG

Summary interoperability interoperability of xDSL units (UCST R8B SP02)

) 3 R ( 6 3 2 6 U M E L

) 4 R ( 6 6 2 6 U M E L

) 1 R ( 5 8 0 8 A S E L

) 2 R ( 6 8 0 8 A S E L

-

-

-

-

) 2 R ( 1 9 4 1 M I L S

) 2 R ( 2 9 4 2 M I L S

) 1 R ( 2 9 0 8 I S E L

) 1 R ( 3 9 4 1 D I L S

) 1 R ( 4 9 4 2 D I L S

6 R R A C E L

B 7 R R A C E L

-

-

-

-

X

-

X

X

X

1 R 0 0 1 C I S U M

2 R 0 0 1 C I S U M

3 R 0 0 1 C I S U M

4 R 0 0 1 C I S U M

1 R 0 0 2 C I S U M

2 R 0 0 2 C I S U M

) 1 R ( 7 8 0 A 0 7 L M

) 2 R ( 1 9 0 A 0 7 L M

6 R F / 2 A C E L

B . 7 R F / 2 A C E L

LE LECA2/F R6

X

-

-

LE L EMU6 236 (R3)

-

-

X

-

-

-

-

-

-

-

-

-

-

-

-

LE LEMU6 266 (R4)

-

-

-

X

-

-

-

-

-

-

-

-

-

-

-

LE LESA8 085 (R1)

-

-

-

-

X

-

-

-

-

-

-

-

X

-

-

-

-

-

-

-

-

LESA8 086 (R2)

-

X

-

-

-

X

X

X

-

-

-

-

X

-

-

-

-

X

-

-

-

SL SLIM1 491 (R2)

-

X

-

-

-

X

X

X

-

-

-

-

X

-

-

-

-

X

-

-

-

SL SLIM2 492 (R2)

-

X

-

-

-

X

X

X

-

-

-

-

X

-

-

-

-

X

-

-

LE LESI8 092 (R1)

-

-

-

-

-

-

-

-

X

X

X

-

-

-

-

-

-

-

X

SL SLID1 493 (R1)

-

-

-

-

-

-

-

-

X

X

X

-

-

-

-

-

-

-

X

SL S LID2 494 (R1)

-

-

-

-

-

-

-

-

X

X

X

-

-

-

-

-

-

-

LE L ECAR R6

-

-

-

-

-

-

-

-

-

-

-

X

-

X

X

X

X

MU MUSIC 100 R1

-

-

-

-

-

-

-

-

-

-

-

-

-

X

-

-

MU MUSIC 100 R2

-

-

-

-

-

-

-

-

-

-

-

-

-

-

X

-

MU MUSIC 100 R3

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

MU MUSIC 100 R4

-

-

-

-

-

-

-

-

-

-

-

-

-

-

MU MUSIC 200 R2

-

-

-

-

-

-

-

-

-

-

-

-

-

-

NT LT

) 2 R ( 9 8 0 C 0 7 L M

) 2 R ( 3 9 0 E 0 7 L M

r e w o p l a c o l

r e w o p e n i l G R 2 E L

G R 2 E L

X

-

-

-

-

-

-

X

X

X

X

-

-

-

-

-

-

-

-

-

X

-

-

-

-

-

-

-

-

-

-

-

X

-

-

-

X

-

-

-

X

-

-

-

X

X

X

X

X

X

-

X

X

X

X

X

-

X

X

X

X

X

X

X

X

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

X

-

-

-

-

-

-

-

-

-

-

-

X

-

-

-

-

-

-

-

-

-

-

-

-

X

-

-

-

-

-

-

-

This chart shows the ESW release only – in addition the same line code must be used for both the LT and the NT Please note: • •

•

•

Page 77 of 129

The regenerators regenerators (LE2RG) are only available available for the line code code CAP at 1168 kbit/s. LT operation operation is not supported supported for LECA2/F R7B, LECAR R7B, MUSIC200 MUSIC200 R1 and all MUSIC 700 versions. LESA8 simultaneously simultaneously supports supports MUSIC 200 200 and LECAR LECAR on the same unit (however not within the same set of copper pairs). LECAR and LECA2 must have matching matching FW. The The change of FW requires requires the exchange of EPROM devices since the units do not support remote software download.


EN/LZTBU 980 415/512 RA

Summary of units

4.9

Modules

4.9.1

PC memory cards

Table 4-11:

4.9.2

PC memory cards

Name

KEYMILE PEC

UMUX-UG

KDYBU 201 101/1

Functions R1B

Upgrade 16 MBytes PC memory card for COBU

SFP modules

Table 4-12: Name

SFP modules KEYMILE PEC

Functions

KRCBU 101 103/1 KRCBU 101 104/1

SFP modules with Ethernet interfaces for IPLM1: - SFP Trans. 1000BASE-SX MM (duplex LC) - SFP Trans. 1000BASE-LX SM (duplex LC)

KRCBU 101 101/1 KRCBU 101 102/1 KRCBU 101 103/1 KRCBU 101 104/1

SFP modules with Ethernet interfaces for NEBRO/NEBRA : - SFP Trans. 100BASE-FX MM (duplex LC) - SFP Trans. 100BASE-FX SM (duplex LC) - SFP Trans. 1000BASE-SX MM (duplex LC) - SFP Trans. 1000BASE-LX SM (duplex LC)

KRCBU 101 105/1 KRCBU 101 106/1 KRCBU 101 107/1 KRCBU 101 108/1 KRCBU 101 110/x KRCBU 101 112/x KRCBU 101 109/1

SFP modules with SDH STM-1 interfaces for SYNUF and SYN4E: - SFP Trans. S-1.1 SM (duplex (duplex LC) - SFP Trans. L-1.1 SM (duplex LC - SFP Trans. L-1.2 SM (duplex LC) (duplex LC) - SFP Trans. X-1.2 SM (duplex - SFP Trans. CWDM 1610 nm … 1470 nm LR SM (duplex LC) - SFP Trans. CWDM 1610 nm … 1470 nm XR SM (duplex LC) 1.0/2.3 75 Ohm, female) female) - SFP Trans. STM-1 electrical (DIN 1.0/2.3

KRCBU 101 113/1 KRCBU 101 114/1 KRCBU 101 115/1 KRCBU 101 116/1

SFP modules with SDH STM-4 interfaces for SYN4E: - SFP Trans. S-4.1 SM (duplex (duplex LC) - SFP Trans. L-4.1 SM (duplex LC - SFP Trans. L-4.2 SM (duplex LC) (duplex LC) - SFP Trans. X-4.2 SM (duplex

IPLM1-AC

NEBRO-AC NEBRA-AC

SYNUF-AC SYN4E-AC

SYN4E-AC

Page 78 of 129

© KEYMILE AG


EN/LZTBU 980 415/512 RA

Summary of units

© KEYMILE AG

For detailed and updated information of supported and recommended SFP modules please contact your KEYMILE sales representative or retrieve the corresponding information from KEYMILE’s Extranet. For registered customers, the UCST software is available for download from KEYMILE's Extranet (access via www.keymile.com www.keymile.com). ). After the login to the Extranet follow follow the path «Documentation «Documentation & Software → UMUX/UCST → Techn. Documentation → Bulletins».

Page 79 of 129


EN/LZTBU 980 415/512 RA

© KEYMILE AG

5

UCST R8B

5.1

PC / OS requirements

5.1.1

General

The UCST software (32-bit versions) is released for PC/computers running Microsoft Windows® operating systems as follows: •

Windows® 2000 Windows® XP Professional Professional • Windows® Vista Enterprise (32-bit version) • Windows® Server 2003 •

The above list of operating systems is definitive. Principally, it is also possible to operate the UCST R8B SP02 under Windows ® Vista Home Basic . However, some operational restriction applies. When starting the «Communication Manager», Manager», the check for running UCST instances fails. Accordingly, no error is reported if there are running instances and the changes changes of the RAS/Modem configuration configuration applied via the «Communication Manager» are lost when closing the UCST (instances).

5.1.2

Windows

2000

If your PC/computer runs the Windows® 2000 operating system, the PC/computer meets the basic requirements (microprocessor type/speed, RAM, hard disk, CD-ROM drive) to run the UCST (32-bit versions) software. For your convenience and a reasonable performance, your desktop or laptop PC/computer should meet the following additional requirements: Page 80 of 129


EN/LZTBU 980 415/512 RA

UCST R8B •

• • •

•

© KEYMILE AG

256 Mbytes RAM RAM min., 512 Mbytes strongly strongly recommended recommended A small memory memory installed on the computer reduces reduces the access times and and hence the life of the Hard Disk. This could result in the replacemen r eplacementt (swapping) of the hard disk. Microsoft Mouse or compatible compatible pointing device. SXGA colour colour screen screen system, min. resolution resolution 1024 x 768 pixels. Additional memory requirements requirements for UCST and and unit software on hard disk drive: 80 Mbytes minimum, 100 Mbytes recommended. Serial interface RS-232 C (UMUX (UMUX F- and and Q1-interface, modems etc.)

Recommended options: Ethernet interface 10BaseT

•

5.1.3

Windows

XP Professional Professional

The same requirements and recommendation apply apply as for running the UCST under the Windows® 2000 operating system.

5.1.4

Windows

Vista Enterprise (32-bit version)

The same requirements and recommendation apply apply as for running the UCST under the Windows® 2000 operating system.

5.1.5

Windows

Server 2003

The same requirements and recommendation apply apply as for running the UCST under the Windows® 2000 operating system. The additional requirements requirements quoted are not requirements to run Windows® 2000/ XP Professional/Server 2003 but complementary requirements to run the UCST under Windows® 2000/XP Professional/Server 2003.

Page 81 of 129


EN/LZTBU 980 415/512 RA

UCST R8B 5.1.6

© KEYMILE AG

RS-232C interface

Recent PC/notebook hardware may have no physical RS-232C interface. With a USB to RS-232C serial converter it is possible to physically implement the RS-232 C interface for the UMUX F- and Q1-interfaces, modems etc. for these PC/notebooks. A dedicated Engineering Engineering Bulletin Bulletin (EN/LZTBU 880 880 148) is available available which describes describes the installation and commissioning of such devices for the application with the UCST. The EB includes a list of recommended USB to RS-232C serial converters that have been successfully tested with Windows® XP Professional and the UCST.

Page 82 of 129


EN/LZTBU 980 415/512 RA

UCST R8B

5.2

© KEYMILE AG

Installation of UCST service packs The installation of the current Service Pack automatically updates updates the UCST with the contents of the previously released Service Packs (if applicable). Thus, with your new Service Pack you do not need any of the previously released Service Packs. 1.

Login to your PC with administrator rights (if applicable).

2.

Ensure that all running UCST programs and instances are closed.

3.

Run UCST_R8B_SPxx.exe on the CD-ROM containing the UCST Service Pack software.

The Service Pack installation utility searches automatically for the appropriate UCST installation and guides you through the Service Pack installation process. The current service pack for UNEM R8B is SP02.

Please note that the upgrade procedure for customer specific UCST versions may differ from the above upgrade description.

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6 6.1

Compatibility and upgrades Support of legacy UMUX The UMUX network element types • • •

UMUX 1300 UMUX 1100 UMUX 1100E

are basically supported with UMUX / UCST R8 and its service packs. UNEM R8 under HP-UX still offers serial communication ports (RS232) and therefore supports all existing management communication networks. In contrast, UNEM R8 under LINUX does not support serial communication. Legacy UMUXs can still be reached via terminal servers or via a gateway UMUX 1500 / 1200 / 900. Existing management networks to legacy UMUXs may have to be modified.

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6.2

Configuration

6.2.1

Compatibility with previous configurations

© KEYMILE AG

Rules for compatibility: •

The new UCST can read read configurations configurations created with earlier UCST versions (UCST R3.3a/1 R3.3a/1 and higher) if the configuration describes only units (the template number is not relevant) that are still supported (this includes obsolete function units).

•

If the configuration configuration contains contains units that that are not supported anymore anymore with the new UCST, UCST, the conconfiguration cannot be read and failure is reported. r eported. In such a case you must eliminate these units with the original UCST version and replace the unit (if available) with a functional substitute that is supported by the new UCST.

KEYMILE strongly recommends upgrading obsolete obsolete units in legacy configurations with current preferred units.

6.2.2

Procedures

Before upgrading (UCST, embedded software, unit templates, configuration), configuration), it is of ultimate importance to save the configuration of all affected NEs using the existing (old) UCST. Although not imperative in all cases of upgrades, this measure will prevent any possible loss of configuration data. To upgrade an existing configuration to a configuration with more recent templates and ESW proceed as follows: • •

•

• • • •

Page 85 of 129

Install the new new UCST on the PC (that (that you want to use to upgrade NEs) NEs) Upload the configuration from the NE (refer to comments on compatibility of configurations above) above) Save configuration (refer to comments above) Only if applicable: Replace hardware with compatible compatible new new unit(s) unit(s) Deliver and and install new ESW, corresponding to the unit to upgrade (download) Convert unit to the new template (download) Update the NE configuration if necessary necessary (download)


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© KEYMILE AG

Please note: If you want to upgrade and the control unit is affected, the COBU unit must be upgraded in a first step before you upgrade the other units and functions. In systems with redundant COBU units, the ESW must also be installed in the redundant unit (“update redundant unit”). Because of enhanced function implementation in the new UCST, legacy configuration can loose (depending on the upgrade step) particular configuration information when upgrading. This applies in particular for •

Cross connections of the SDH ECCs via the SDH SOH (MS and RS path overhead) (Flexible SOH byte use with the UCST R5B and higher)

•

Cross connections of UBUS units with 1+1 protection (Unified traffic protection for all units with the UCST R5A and higher)

•

Special upgrade procedure for the PHLC3

If upgrades affect any of the above functions you must recreate the affected cross connections after the upgrade.

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6.3

Control units

6.3.1

Support of units

© KEYMILE AG

To support all functions of the new UMUX / UCST release, the NEs must operate with R5 Control Units running the latest COBUX ESW (If applicable you must upgrade your Control Units to R5 as described below). Functions and units as follows require R5 templates and/or R5 ESW: >= R5D ESW: - ATM, NGN (IPSMG) functionality - Enhanced handling of configuration data - NEBRO, NEBRA Ethernet over SDH functionality - NEBRE Ethernet switch - SUBH subscriber line interfaces - DATA versatile data interface unit

(R5 templates and ESW) (R5 templates and ESW) (R5 ESW) (R5 ESW) (R5 ESW) (R5 ESW)

>= R5E or more recent ESW: - IPLM1/2/4 and IPLM6 IP DSLAM - SYNUF

(R5 templates and ESW) (R5 ESW)

>= R5H ESW: - SYN4E

(R5 ESW)

Please note that intermediate ESW for COBU has also been released to correct functional deficiencies. Accordingly, an unconditional update to R5 Control Units with the most recent ESW is strongly recommended .

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Compatibility and upgrades 6.3.2

© KEYMILE AG

Upgrade process

To the upgrade of your control units in the UMUX NEs to R5 you should always use the current UCST and the most recent released COBUX ESW version – currently the COBUX_R5H ESW. Please note that the upgrade of control units is crucial. To upgrade proceed as follows: •

Install the new UCST on your PC/computer.

•

Connect the EM to the NE that you want to upgrade.

•

Load the NE configuration from the NE to the EM (upload).

•

Save the configuration file (strongly ( strongly recommended). recommended).

•

Deliver the the new COBU R5H ESW. Do not remove old APDSW files from the NE!

•

Configure the installation of the new ESW for the control unit.

•

Download this configuration (e.g. via a partial download) to the NE.

•

Check if the new COBUX ESW is running via the Inventory dialogue (the Software Installation

•

Status dialogue is only available with the COBU R5). If the NE has a protecting COBU, Open the COBU status dialogue (Board tab) and make sure, that the redundant control unit is synchronised with the active control unit. To achieve synchronism, you must press the t he button [Update Redundant Control Unit]. The update can take a couple of minutes, depending on the number of ESW files that are stored in the active COBU MIB.

•

•

Convert the templates of the control unit to the new R5 templates if required (via the NE Configuration… → Convert Units… menu) Download the configuration with the new templates to the NE (e.g. via a partial download).

The upgrade of control units is crucial Never upgrade to a new COBU R5 template unless you have checked that a COBUX R5 ESW is active on master and slave unit! Please note that it is

Page 88 of 129

•

not allowed to downgrade downgrade a NE (SW installation of COBUX ESW ESW R1 … R4 is not accepted if COBUX R5 ESW (or higher) is running).

•

no longer longer possible to manage a NE with UNEM/UCST UNEM/UCST R5 if its COBU has has been upgraded to R5 (both COBUX ESW and COBU template).


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© KEYMILE AG

However, it is possible to upgrade the COBU ESW to R5 and continue to manage the COBU R4 templates with the UNEM/UCST R5. The ATM and NGN functionalities have increased requirements on the capacity of the database (MIB) of the COBU control unit. The use of the COBU with the 16 MBytes PC memory card option is highly recommended. However, the 16 MBytes PC memory card option is not generally required to operate the ATM core or NGN functions. Current COBU units are delivered with 16 MBytes PC memory cards (8 Mbytes cards are no longer available). Converting the control unit to R5 ESW is a good opportunity to upgrade the capacity of the local PC memory card(s). For other aspects of PC memory card upgrades, refer also to «Support of PC flash memory cards» on page 89.

6.4

Support of PC flash memory cards The UMUX control units support different brands of PC memory cards. To this end, the control unit is able to detect the type of the memory card and use the appropriate software driver. The introduction of new PC memory card products requires an upgrade of the corresponding drivers, which are provided with the APDSW software. The most recent APDSW_R1.C03 (introduced with the UCST R4C) supports all the PC memory card products used with the UMUX control units. Running COBUX ESW older than COBUX_R3.B32 is not possible with some of the currently used PC memory card products. Trying to run such an ESW with these memory cards will create a software installation error. To eliminate this failure, the control unit requires the upgrade of its ESW and APDSW to remain compatible with all the PC memory card products: • •

• •

Delivery of the APDSW_R1.C03 to the NE. Delivery of the COBUX_R5.H02 ESW or a more recent ESW (but at least the COBUX_R3.B32 ESW) to the NE. Configuration of the new ESW ESW installation installation for the control control unit. unit. Download of the new configuration, configuration, which activates activates the new ESW. ESW. Please note that

Page 89 of 129

•

It is always always preferable to run the most recent control control unit ESW. The COBUX_R5.F02 is currently the most recent ESW available.

•

The COBU COBU is delivered delivered with a 16 16 MBytes PC memory card (8 Mbytes cards cards are no longer available).


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6.5

© KEYMILE AG

New unit hardware Over production time some of the components of the unit hardware are no longer available as standard components and have been replaced by functionally compatible components components and circuits. Such a replacement provides new hardware for the affected units. The new unit hardware implies a new hardware key and thus an adaptation of the ESW for compatibility with the new hardware (HW key). The new ESW is backward compatible. compatible. You can run the new ESW on old unit hardware. However, it is not possible to run old ESW on the new unit hardware. The new unit hardware imperatively requires the new ESW versions. Refer to «Summary of units» on page 38 for the old and new compatible ESW and, if applicable, for special entries («Ditto with new HW/ESW») concerning functions with new unit hardware.

6.6

IPSMG conversion The units IPSMG 705 and 706 are handled as ABUS units, while the IPSMG I PSMG 707 is an SBUS unit.

6.7

•

Adding of an IPSMG 707 to a bus sector with an already equipped IPSMG 705 or 706, is not possible. The equipped IPSMG 705 or 706 units must first be converted to IPSMG 707 units.

•

It is not possible to add an IPSMG IPSMG 707 unit to a bus sector that already already contains contains ABUS units. If available, use the second bus sector of the subrack to add the IPSMG 707.

NE traffic The standard upgrade procedure can disturb the NE traffic. However, if the upgrade requires the restart of the COBU, the (UBUS) traffic is shortly interrupted. Upgrades with loss of cross connections create interruptions for the traffic signals.

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6.8

Ordering of units

6.8.1

Ordering process

© KEYMILE AG

To order UMUX units proceed as follows: Specify the generic name of the unit that you want to order and the corresponding unit name and the Keymile ordering code. Examples are − − − −

COBUX-FU: LOMIF-FU: SYN4E-FU: etc.

A24A3651 A24A3323 A31A5296

Upon this order, you will receive the ordered unit hardware and a CD-ROM which contains the complete collection of the most recent unit software (Embedded Software ESW). The unit hardware together with compatible unit software (ESW) and your UCST unit template (configuration file) will create the required r equired function unit. For refer to «Summary of units» on page 38 in this release note or in previous release notes if required.

6.8.2

Background information

The UCST unit template (e.g. COBUX 212) is specific for the features and functions of a function unit as described in t he UMUX customer documentation (e.g. «UMUX Technical Descriptions Units COBUX 219, 223, 212, 213 & COBUV 220, 224, 217, 218»). Such a function unit is introduced with a particular UCST & UNEM r elease and is supported by subsequent releases of the management software for as long as required. Typically, a function unit is no longer supported when an updated function unit (with a new UCST unit template) with enhanced features and functions is introduced. Each new release of an ESW supports all earlier UCST unit templates, provided that it is compatible with the unit hardware. Such an incompatibility is only possible if a new modified hardware version for the function unit replaces previous hardware and this new hardware is more recent than the locally available ESW (Please note that ESW delivered with the unit hardware is always compatible with this hardware). Page 91 of 129


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For registered customers, the most recent ESW is also available for download from KEYMILE's Extranet. Example: Assumption:

You operate the the COBUX 145 in the NEs of your UMUX UMUX network.

The COBUX 145 has been initially introduced with the − −

UCST & UNEM R4C COBUX R3D ESW

To order a new compatible COBUX for your NEs, just specify the generic function unit «COBUX-FU» with the KM ordering code A24A3651. With this, you will receive the COBUX hardware (unit) and the most recent COBUX ESW. The configuration of your NE with the COBUX 145 template and any COBUX ESW equal to or newer than COBUX R3D will create the COBUX 145 functionality in your NE.

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7

Software Softwa re carriers and documentation

7.1

Software and software packages

7.1.1

UCST

Table 7-1:

UCST R8B package

Name

Order No.

KEYMILE PEC

Functions

UCST R8B + SP02 package

A32A0145

EN/LZYBU 199 026/1 R1C

UCST R8B package (KEYMILE standard version) including the following items: - CD-ROM with the UCST R8B software. UCST R8B SP02 software. software. - CD-ROM with the UCST Custom Parameter Sets - CD-ROM with current ESW for all supported units and Custom for V5 and NGN applications. The CD-ROM contains the most recent ESW and is in a package together with the UCST CD-ROM There are several customer versions of the UCST R8B package (including SP02) available. For more information, please contact KEYMILE.

UCST R8B SP02 package

A32A0620

EN/LZYBU 199 029/1 R1A

UCST R8B Service Pack 02 package including the following items: UCST R8B SP02 software. - CD-ROM with the UCST The UCST R8B SP02 package updates all customer specific versions of the UCST R8B software.

For registered customers, the UCST software is also available for download from KEYMILE's Extranet (access via www.keymile.com www.keymile.com). ). After the login to the Extranet follow follow the path «Documentation «Documentation & Software Software → Software → UCST».

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→

UMUX/UCST

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Software carriers and documentation documentation 7.1.2

© KEYMILE AG

Embedded Software

The current ESW (embedded software) for function units and public CPSs (customer parameter sets) are available on CD-ROM. Table 7-2:

Embedded software and CPSs

Name

Order No.

KEYMILE PEC

Embedded SW

A22A2397

EN/LZYBU 251 850/1

FW

(Date) current

Functions

CD-ROM with current ESW for all supported units and public Custom Parameter Sets for V5 and NGN applications. This CD-ROM is automatically provided with new unit deliveries. ESW is backward compatible with existing unit functions and templates. For details, please consult the corresponding release notes. KEYMILE recommends the use of current ESW in all installations, since the current ESW eliminates bugs and deficiencies of legacy ESW.

For registered customers, the most recent ESW is also available for download from KEYMILE's Extranet (access via www.keymile.com www.keymile.com). ). After the login to the Extranet follow follow the path «Documentation «Documentation & Software Software → Software → Embedded Software».

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→

UMUX/UCST

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Software carriers and documentation documentation

7.2

Customer documentation

7.2.1

Overview

© KEYMILE AG

The tables below describe the customer documentation related to the UMUX / UCST R8B. The customer documentation is divided into two groups: •

UMUX / UCST R8B customer documentation documentation

•

Associated customer documentation documentation

The tables for «associated customer documentation» show customer documentation which is related to the UMUX (and MileGate) network management management system.

7.2.2

UMUX / UCST customer documentation

7.2.2.1

UMUX / UCST documentation documentation CD ROM version Table 7-3: Name

UMUX/UCST R8B customer documentation documentation CD-ROM Order No.

UMUX / UCST R8B SP02 A32A1490 Customer Documentation

KEYMILE PEC

EN/LZYBU 801 156/1

RC

Type

Functions

CD ROM

UMUX platform documentation on CD-ROM (pdf format) format) for the UCST/UMUX R8B SP02: The CD ROM contains: - Collection of technical descriptions for the UMUX family (UMUX 1500, UMUX 1200 and UMUX 900) (contents of collection EN/LZABU 150 205 RA) - Collection of user guides for the UMUX family (UMUX 1500, UMUX 1200 and UMUX 900) (contents of collection EN/LZABU 150 305 RA)

-

Engineering bulletins Technical bulletins V5 / H.248 check lists UMUX cables manual Ordering codes Release Note UMUX / UCST R8B SP02 (EN/LZTBU 980 980 415/512 415/512 RA)

Note: For the contents contents of EN/LZABU EN/LZABU … refer to «Printed version» below.

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Software carriers and documentation documentation

© KEYMILE AG

For registered customers up-to-date customer documentation is available for download from KEYMILE's Extranet (access via www.keymile.com www.keymile.com)) as follows: • • • • •

Remote access to the customer documentation CD-ROM. Up-to-date release note New engineering bulletins Up-to-date information on supported supported transceivers and modems Product change notices

After the login to the Extranet follow follow the path «Documentation «Documentation & Software Software → Techn. Documentation → ...». 7.2.2.2

→

UMUX/UCST

UMUX / UCST documentation documentation hardcopies Table 7-4: Name

UMUX/UCST R8B customer documentation hardcopies Order No.

UMUX / UCST R8B SP02 A32A3397 Technical Descriptions 1)

KEYMILE PEC

Type

Functions

EN/LZABU 150 205 RA

Collection

Collection of technical descriptions for the UMUX family (UMUX 1500, UMUX 1200 and UMUX 900) with binders as follows:

Binder

Technical Description – Systems: Part 1 - NE System Descriptions - UMUX 1500 Technical Description - UMUX 1200 Technical Description - UMUX 900 Technical Description Functional Descriptions - UMUX Functional - UMUX TDM Traffic System - UMUX ATM Traffic System - UMUX Special Traffic Functions - UMUX Units - UMUX Operation & Maintenance - UMUX Management - UMUX System Specification

Binder

Technical Description – Units: Part 1 - Control units - Power units - ABUS units - SBUS units Technical Description- Units: Part 2 - PBUS units - UBUS units - Special units - Remote units

Binder

Note: Formerly released units units are documented documented in the User Guide – Legacy Units.

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Software carriers and documentation documentation Name

Order No.

UMUX / UCST R8B SP02 A32A3398 1) User Guides

© KEYMILE AG

KEYMILE PEC

Type

Functions

EN/LZABU 150 305 RA

Collection

Collection of user guides for the UMUX family (UMUX 1500, UMUX 1200 and UMUX 900) with binders as follows:

Binder

User Guide – Systems: Part 1 - Installation Guides - UMUX 1500 (DUPI4, FANU5) - UMUX 1200 (DUPOS, FANU2) - UMUX 900 900 (FANU3) (FANU3) - Patch Panel, - Over voltage & Lightning Protection

Binder

Binder

Binder

Binder Binder Binder

Binder

1)

Page 97 of 129

- UMUX User Guides - UMUX User Guide - UMUX TDM System & Cross Connect - UMUX ATM System & Cross Connect - UMUX Synchronisation User Guide – Systems: Part 2 - UCST Installation & Commissioning - UCST / System Operation Basics - UMUX Management Communication Networks - UMUX EOC Network Functions - UMUX Network User Guide – Units: Part 1 - Control units - Power units User Guide – Units: Part 2 - ABUS units - SBUS units User Guide – Units: Part 3A - PBUS units (set A) User Guide – Units: Part 3B PBUS units (set B) User Guide – Units: Part 4 - UBUS units - Special units - Remote units Note: Formerly released units units are documented documented in the User Guide – Legacy Units. User Guide – Legacy Units: - Legacy traffic units (UBUS) (documentation for legacy units released for the UMUX 1500/1200/900 only). units - Legacy desktop/remote units

The UMUX/UCST R8B customer documentation documentation collections (hardcopies) are available on request only.


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Software carriers and documentation documentation 7.2.3

© KEYMILE AG

Associated customer documentation

Table 7-5:

UNEM customer documentation documentation (CD-ROM compilation for Linux)

Name

Order No.

KEYMILE PEC

Description

Customer documentation A32A0268 EN/LZYBU 801 076/12 RD CD-ROM with the UNEM R8B customer documentaUNEM R8B SP02 tion compiled for the RHE Linux operation system. for RHE Linux Release note UNEM R8B SP02

The UNEM R8B SP02 release note [NM].[152] which includes the corresponding LoL is included in the CD compilation of the UNEM R8B customer documentation. Note: Please note that the release notes are updated as required and published in KEYMILE’s Extranet.

Table 7-6:

UNEM customer documentation documentation (CD-ROM compilation for HP-UX)

Name

Order No.

KEYMILE PEC

Description

Customer documentation A32A0267 EN/LZYBU 801 076/11 RD CD-ROM with the UNEM R8B customer documentaUNEM R8B SP02 tion compiled for the RHE Linux operation system. for HP-UX Release note UNEM R8B SP02

The UNEM R8B SP02 release note [NM].[152] which includes the corresponding LoL is included in the CD compilation of the UNEM R8B customer documentation. Note: Please note that the release notes are updated as required and published in KEYMILE’s Extranet.

For registered customers up-to-date customer documentation is available for download from KEYMILE's Extranet (access via www.keymile.com www.keymile.com)) as follows: • • •

Remote access to the customer documentation CD-ROM. Up-to-date release note New engineering bulletins

After the login to the Extranet follow follow the path «Documentation «Documentation & Software Software Documentation → ... ».

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→

UNEM → Techn.

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8 8.1

Limitations Overview This chapter describes known limitations and deviations from specified system behaviour of the UMUX/UCST R8B SP02 release. In this document both types are handled under the term «limitations». A limitation can have have temporary or or permanent significance: significance: •

Temporary Limitations are temporary temporary if it is it is possible to fix them. Typically this type of limitation is due to deficiencies of the system implementation. implementation. For temporary limitations, a release is specified which clears the limitation. Depending on the impact of the deficiency and its correction, it is not always possible to precisely schedule such a release.

•

Permanent Limitations are permanent permanent if it is not (reasonably) possible to fix them. Typically this type of limitation is inherent to the system implementation or given by the chip sets used.

If available, KEYMILE provides a workaround to eliminate or reduce the impact of a limitation.

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Limitations Id

System Unit

Function Functi on Area

© KEYMILE AG

SW syste system m involved UCST

Limitation

Description

Workaround Workaround

ESW

UCST / Platform

8055 ACONV

CES

R1D

In certain configurations, PM elapsed The problem occurs if IMA links allocate time clock is not running (shows 00:00:00 lower UVC12 subunits than the CES and CES layer status is «NCI» channels

8128 ACONV

SNCP

R1D

The protecting path does not work properly

When a defect causes a switchover to the No workaround protecting path, sometimes an alarm «Trail Signal Fail» is generated and the transmitted signal may is not usable

Limitation

Description

8.3 Id

Limitation cleared ESW to be defined to be defined

ADACA / ADACB System Unit




Limitation cleared

ESW

UCST / Platform

ESW

7260 ADACB

ADSL

R1C

Power management is not implemented.

With ADACB, power management is not working, i.e. there is no power reduction on the DSL line due to short loops. This limitation has no impact on the transmission quality.

No workaround

-

to be defined

7261 ADACA

ADSL

R1C

No output power indication for the downstream direction.

In the downstream direction the output power cannot be indicated, i.e. it is displayed as n/a.

No workaround

-

to be defined

7262 ADACA/B ADSL

R1C

The alarms «CPE not available» and «CPE not available (LRP)» are not working.

The alarms «CPE not available» and «CPE not available (LRP)» will never appear.

The alarm «Loss of Link» will appear, if there is no CPE at the far end.

-

to be defined

7443 ADACA

All

The cell counts of the connection point statistics are not accurate

The cell in and cell out counts of a connection point differ by a few cells.

No workaround

-

-

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Limitations

8.4 Id

© KEYMILE AG

ADACS System Unit



8143 ADACS

8.5 Id

SHDSL

Limitation

Description


Limitation cleared

ESW R1B

UCST / Platform

ESW to be defined

ADACS in worst case mode does not fall within the configured SNR margin in all cases

In worst case mode, the SHDSL link trains with the specified target SNR margin and a worst case self NEXT noise model (49 SHDSL disturbers). In the current implementation, the specified SNR margin is not guaranteed for all test loops.

Specify more SNR margin than required

-

Limitation

Description


Limitation cleared

ATIOP System Unit



ESW

6039 ATIOP

ATM Counter

R1B

STM1 port statistic counters (cell in and cell out) are not accurate.

The accuracy of the STM1 port statistic cell counters is about 1 cell per counted 100'000 cells.

6247 ATIOP

ATM OAM

R1B

f4 and f5 alarms with incorrect persistence/absence time behaviour.

The integration time for VCC-AIS, VCCRDI, VCC-LOC, VPC-AIS, VPC-RDI and VPC-LOC is specified in I.610 and is fixed. The user defined persist time is added to the integration time. The same behaviour applies for the absent time.

7088 ATIOP

ATM OAM

R1B

On VP endpoints, no VP (f4) segment loop-back OAM behaviour is supported.

Sending/receiving as well as looping of f4 Use f4 end-to-end OAM loop-back cells instead. segment OAM loop-back cell is not possible on terminated VP.

Page 102 of 129


To obtain the persist and absent times as specified in I.610, set the two parameters to their minimum in the configuration.

UCST / Platform

ESW

-

-

-

-

-

-

EN/LZTBU 980 415/512 RA

Limitations

8.6 Id

© KEYMILE AG

COBUX System Unit

SW system involved

Limitation

UCST

ESW

2391 COBUX

-

≥ R3B49

Loss of connectivity to selected NEs in an AS with redundant border routers

2481 COBUX

-

≥ R3B49

OSPF stub areas don’t work correctly

2482 COBUX

4408 COBUX

Page 103 of 129

External OSPF default routes don’t work

Ping fails with the COBU Status/Maintenance function

Generation of erroneous situation

In a generic network - You create a backbone (area 0) and a nd 2 area. Each area has a network of NEs. are connected via 2 redun- The 2 areas are dant border routers. connects via an ECC - Each border router connects to an NE in the 2 areas. The border routers connect to different NEs. in the areas - You interrupt the ECC connecting the area network to the border router A. - you configure stub areas. - you want OSPF to reach destinations outside the AS from the stub area.

You add a default route (destination 0.0.0.0) as External Route to OSPF.

Error description

Limitation cleared UCST / Platform

ESW

After interruption of the ECC to border border router A, the router A is no longer able to communicate with some of the NEs in the area with the interrupted ECC. However, redun- there is still an ECC path (via the redundant border router B) to the lost NEs router A has the lost NEs in - the border router its database.

No workaround

-

-

Destinations outside the AS are unreachable from the stub area and vice versa. The UMUX OSPF implementation does not add a summary route to the stub areas.

No workaround

-

-

None. UCST R5C does not permit a configuration of a default with OSPF enabled

-

-

Implement a static route to the far end COBU if appropriate.

-

The External OSPF Default Route does not work: route to the - OSPF doesn’t advertise this route other routers (over unnumbered PPP links) the other routes learned by - but it deletes the OSPF - You have an ECC via LAWA to a far end The ping returns no echo although the route is established (no routing errors) and COBU. function available from the it is possible to ping the far end COBU - Use the ping function COBU Status/Maintenance dialogue with the MS-DOS ping function. to ping the far end COBU. This error occurs if there is no static route from the far end COBU to the local COBU. When pinging the COBU sends first the node Id (IP address of the F-interface) and not its Ethernet IP address.


Workaround

EN/LZTBU 980 415/512 RA

Limitations

8.7 Id

© KEYMILE AG

GECOD System Unit

3132 GECOD

SW system involved

Limitation

UCST

ESW

R4D10

-

Unexpected alarm severity defaults


- GECOD 371: Loss of signal: Log Book Only (->UA) Loss of octet: Log Book Only (-> UA) Test loop active: Log Book Only (-> NA) - GECOD 372: Loss of signal: Log Book Only (-> UA) Loss of octet: Log Book Only (-> UA) Test loop active: Log Book Only (-> NA)

4129 GECOD UBUS units

Page 105 of 129

≥ R4E70

R1B00

(only if converted from a GECOD 371 unit) No AIS with Test loop 3b - Applies for UBUS units with EPIC in the UMUX 1500 and UMUX 1200 only. - Configure the Test Test loop 3b for GECOD. This loop should loop the signal from the front IF back to the front and feed AIS to the UBUS.


Error description

You might expect in all these cases the alarm option indicated in brackets instead of the logbook only.

Workaround

Limitation cleared

Change the default values to your preferred severity option.

UCST / Platform

ESW

-

-

-

-

These alarm severities are typical for all the 64 kbit/s traffic interfaces.

With the UMUX 1500 and UMUX 1200 the No workaround loop 3b (or equivalent) sends instead of AIS the signal from the front interface to the UBUS. The customer documentation describes the behaviour for the loop 3b (or equivalent) in the UMUX 1300 and UMUX 1100(E) only.

EN/LZTBU 980 415/512 RA

Limitations

8.8 Id

© KEYMILE AG

IPLMx System Unit

SW system involved UCST

Limitation


Error description

Workaround

Limitation cleared

ESW

IPLMx

R1B

In order to enable the use of two VLAN tags on the IPLM uplink, the IPLM Administrator must enable the port provider status on the uplink bridge port (usually bridge port 193). If the IPLM is managed via the uplink this procedure will disrupt management communications to the IPLM.

Enable port provider status on uplink: $modify bridge port intf portid 193 status disable $modify gvrp port info portid 193 ppstatus enable $modify bridge port intf portid 193 status enable

Of the three listed commands, the first command will disable port 193. As port 193 is also used for the management of the IPLM this will have the effect of disabling ip comms to the IPLM, thus rendering the IPLM un-reachable

There are two workarounds: - Use Management via ECC - Download the commands to the IPLM and apply the script.

IPLMx

R1B

The administrator will observe a loss of comms if the port provider status is enabled on port 193 and 0x9100 is the TPID.

Issue the following commands while the TPID is set to 0x9100: $modify bridge port intf portid 193 status disable $modify gvrp port info portid 193 ppstatus enable $modify bridge port intf portid 193 status enable

While the TPID value is 0x9100, and the listed commands are issued, the IPLM will no longer be reachable by a PC telnet session which does not use 0x9100 as the TPID.

To avoid the loss of comms to the IPLM, the administrator should modify the TPID in the IPLM sizing table to the desired value before enabling the port provider status. 0x8100 is supported for PC telnet sessions and therefore recommended. It is recommended that the following commands are issued: $modify nbsize svlanprotocolid 0x8100 $commit $reboot

Page 106 of 129


UCST / Platform

ESW

n/a

>R1

> R1

EN/LZTBU 980 415/512 RA

Limitations Id

System Unit


12786 IPLMx

8.9 Id

© KEYMILE AG

Limitation


Error description

Workaround

Limitation cleared

ESW R1B

UCST / Platform IPLMx not manageable after change of IP address

After reconfiguration the units did not respond on the new IP address for Ethernet in-band management. An ECC management connection was created in addition to the in-band on all three units. All units were accessible over ECC now and showed (cli command "get ip address"), there was still the former IP address stored in the configuration.

This happens if the uplink port belongs to a VLAN.

Proceed as follows: - Set up an extra ECC management channel and log in to the unit - Restart the unit with “reboot config default” and the IPLMx starts up with the correct IP address, but without default gateway - Remove the ECC management channel in the UCST menu and perform a partial download - Login to the IPLMx from a local node, which is located in the same IP subnet and execute another “reboot config default” - The IPLMx starts up with the correct IP and gateway address See also EB "IPLMx Management Access - Change of IP Address for Ethernet IF"

Limitation


Error description

Workaround

ESW >R1

IPSMG System Unit


Limitation cleared

ESW

UCST / Platform

ESW

9489 IPSMG

R2

Jitter Buffer is always in adaptive mode.

The customer configures the Jitter Buffer to be in fixed mode.

Though the Jitter Buffer is configured to be No workaround in fixed mode, it is actually running in adaptive mode.

To be defined

9685 IPSMG

R2

Five special characters cannot be used in the subunit name

Enter a subunit name containing at least one of the following five characters: <>"'&

No performance data can be retrieved from the subunits containing any of the mentioned characters

To be defined

Page 107 of 129


Do not use the mentioned characters in subunit names.

EN/LZTBU 980 415/512 RA

Limitations Id

System Unit

5625 LECAF LECA2

Page 110 of 129

SW system involved

© KEYMILE AG

Limitation

UCST

ESW

All

R7B


Error description

Workaround


LECAF/LECA2 with R7B You want to configure the LECAF or LECAF and LECA2 unit with R7B SW SW cannot be used in LECA2 unit with the R7B SW in the UMUX cannot be configured in a UMUX UMUX1300/1100(E) 1300 or UMUX 1100(E) 1300/1100(E), as there is no template for it. The UMUX 1300/1100(E) can support the LECAF 070 and LECA2 056 templates with the R6A SW only.


Use a LECA2 056 (R6A SW) instead. Applications using 1 DSL pair at 2320 kbit/s are not supported (i.e. do not start up). The UMUX 1500/1200 supports the LECAF 070 and LECA2 056 templates with the R7B SW.

ESW -

EN/LZTBU 980 415/512 RA

Limitations

8.13 Id

© KEYMILE AG

LEMU6 System Unit

SW system involved

Limitation


Error description

Workaround

Limitation cleared

UCST

ESW

5206 COBUX LEMU6 LAWA4

all

all

The OSPF database is - You have an OSPF AS with COBUX, blown up in an OSPF AS LEMU6 and/or LAWA4 routers. with areas - You add areas to the backbone of the AS. Please note that this and/or LAWA4 are limitation is not applica- - COBUX, LEMU6 and/or border routers between the backbone ble for AS with COBUX and the areas. routers only.

The OSPF data base of the routers is Use few OSPF areas in your blown up with the number of NEs and AS if the AS is small (few areas instead of being reduced. NEs). The units operating as border routers Split a big AS (many NEs) into between should only advertise an area several smaller AS and consummary to the other areas to keep the nect the AS with external links. OSPF traffic and data base small. The COBUX, LEMU6 and LAWA4 border routers promote via all their active OSPF interfaces both, the area summaries and the detailed network and router information.

-

5475 LEMU6 LAWA4

R5C

-

Pinging default network address 0.0.0.0 returns answer.

- The router knows an external route to the address 0.0.0.0 (with some netmask mask). dialogue - From the Status/Maintenance dialogue you ping 0.0.0.0.

The ping creates an answer although the No workaround route leads to no 0.0.0.0 host address (the 0.0.0.0 is no reasonable host router finds a route for the required adaddress. dress). There is no answer if the router does not know a route for 0.0.0.0.

-

-

6005 LEMU6

R4C

If a logical interface has neither ip nor bridge enabled, a «protocol down» situation can occur

Traffic may cease between the LEMU6s causing a «protocol down» alarm.

Delete the logical interface instead of disabling the protocol.

-

-

6570 LEMU6

R5C SP03 R4B

Status enquiry enquiry not possible with LEMU6 266

- Two LEMU6s are connected with a bridge over the PBUS - One LEMU6 has several MUSIC100s connected - Disable the network IF of a MUSIC100 and do a partial download Configure a LEMU6 266 and activate it. Open the «Status/Maintenance» dialogue and press«Get»

The error message «Communication error - Remote Layer 7: The i ntended register does not exist» is displaced.

LEMU6 236 must be used instead of LEMU6 266. Alternatively upgrade the LEMU6 ESW to R4C.

-

-

Page 111 of 129

UCST / Platform


ESW

EN/LZTBU 980 415/512 RA

Limitations Id

System Unit


Limitation

Page 113 of 129


Error description

Workaround

ESW

6145 LESA8

8131 LESA8 LESI8

© KEYMILE AG

R2D R1D


ESW

Invalid information for NT state of LESA8

- Interrupt the DSL link to a MUSIC 200 200 or The status displays data in spite of the fact Get the P-DSL status to ascer- that none is available. tain that the relevant service a LECAR channel is available before - Read the NT status getting the NT status

-

In SNCP, the protecting path does not work properly

Create a defect that causes a switchover to the protecting path

to be defined


When a defect causes a switchover to the protecting path, sometimes an alarm «Trail Signal Fail» is generated and the transmitted signal may is not usable

No workaround

EN/LZTBU 980 415/512 RA

Limitations

8.15 Id

© KEYMILE AG

LOMIF - LOMI4 System Unit

4198 LOMI4 LOMIF

SW system involved

Limitation

UCST

ESW

R5A15

-

Fault indicator LED remains active

R3, R4

Wrong thresholds for performance monitoring

4527 LOMIF


Error description

Limitation cleared

The - 1 or more subunits report a failure. The traffic failure LED is on. - you delete the unit via UCST or UNEM from the configuration. - Configure a LOMIF with ESW R3 as LOMIF 120 or - Configure a LOMIF with ESW R4 as LOMIF 120 or LOMIF 140 or - Configure a LOMI4 with ESW R4 as LOMI4 150

The lower fault indicator LED remains active.

No workaround

The thresholds for SES/ES are now 2500/650 instead of 430/22.

A LOMIF with ESW R3 must be configured as LOMIF 140 A LOMIF with ESW R4 must be configured as LOMIF 158 A LOMI4 with ESW R4 must be configured as LOMI4 159

- Subunit operates in PRA LT-V3 mode - Loop insertion expected in LT-U controlled via Sa6 bits received in PRA LTV3.

The loop is not inserted although the corresponding Sa6 bit pattern has been sent to LT-V3. This error appears with LOMIF hardware 1/ROFBU 367 101/1 P1A only. Please note that this information is available on the LOMIF board only! It is not possible to read this information via the inventory function.

Use LOMIF hardware more recent than 1/ROFBU 367 101/1 R1A.

4592 LOMIF

-

-

Loop LT-U not inserted

5754 LOMIF HW R1A

-

-

Unable to upgrade An error message «Layer 7 Generic Time(bootloader - A LOMIF has HW R1A (bootloader LOMIF firmware via PDH out» is generated. The activity list of the R1A21) ECC UNEM shows «Partial download failed» management - The UMUX receives its management and the management channel fails. After channel via an ECC in that LOMIF. communication is restored, the activity list for this - Configure an ESW upgrade for LOMIF in the SW installation as «Imme- reports «NE configuration changed by another EM» in spite of there being only diate» and do a partial download. one EM present. No ESW upgrade has been performed.

Page 114 of 129

Workaround


UCST / Platform

ESW

-

-

LOMIF R5A

-

-

Workaround: - Configure a scheduled ESW upgrade instead of an immediate one. the problem: problem: - Fix the - Exchange the LOMIF with HW R1A for one with HW R1B.

-

EN/LZTBU 980 415/512 RA

Limitations

8.16 Id

© KEYMILE AG

MIRIG System Unit

SW system involved

Limitation


Error description

UCST

ESW

1252 MIRIG 2119

-

-

Use of MIRIG in the UMUX 1100(E) versus slots

Documentation error in EN/LZTBU 341 213 RA (User Guide 2.5d, Units, chapter Analogue Units, page 5-4, paragraph paragraph Mechanical) it is stated: 1100E the MIRIG can be - «In the UMUX 1100E used in slot positions 13 and 14». - «The MIRIG can be used only in slot positions 16 or 17 in the UMUX 1100».

These statements are wrong or incomplete.

2119 MIRIG

all

-

UCST graphical implementation of the MIRIG in the UMUX 1100(E)

- Implement MIRIG in slot 16 - Implement MIRIG in slot 17 - Implement 2 MIRIGs in the subrack.

Graphical implementation errors: - The UCST shows the logical width (narrow) of the MIRIG in slot 16. - The UCST shows the logical width (narrow) of the MIRIG in slot 17. you to implement 2 - The UCST allows you MIRIGs in the subrack. It is not possible to operate 2 MIRIGs in the subrack.

Workaround


Correct statements: - In the UMUX 1100E it is not possible to use the MIRIG in the slots 13 and 14 (UCST does not allow). - You can use the MIRIG in slots 16, 17 and 15 (not recommended). However, the MIRIG implementation in slot 15 uses slot 16 as well. Implement MIRIG as stated in the customer documentation (refer to Id 1252).

ESW -

-

The units marked in grey are obsolete.

Page 115 of 129


EN/LZTBU 980 415/512 RA

Limitations

8.17 Id

MUSIC 100 System Unit


Limitation

5050 MUSIC 100

8.18

R5C


Error description

Workaround

Limitation cleared

ESW

0992 MUSIC 100

Id

© KEYMILE AG

R4E

No workaround

UCST / Platform

ESW

-

-

-

«Destination Unreachable Message» not implemented

RFC 972: If, according to the information in the gateway's routing tables, the network specified in the internet destination field of a datagram is unreachable (e.g., the distance to the network is infinity), the gateway may send a destination unreachable message to the internet source host of the datagram.

Rebooting Music 100 causes traffic problems across OSPF network

- LAW4 and LEMU6 build up an OSPF network. are connected to LEMU6 - MUSIC 100 are - A MUSIC 100 reboots

Traffic disruptions occur in all nodes conNo workaround nected to that network. This is a limitation of the This effect is caused by the OSPF and the OSPF stack. updates of the routing tables. The router of the LEMU6, which connects to the Music 100 that is rebooted, updates his routing table and advertise this to the other nodes. This OSPF update disrupts the traffic for some seconds.

-

Limitation


Error description

Limitation cleared


5038 MUSIC 200

Page 116 of 129


ESW

all

all

X.21 byte timing with 2Mbit/s user rate


Workaround

With 2Mb/s user rate (n=32), the byte Can only be cleared by a new HW version of Music 200 timing is not available. For all other data rates (n=1,...,31) the byte timing is correct.

UCST / Platform

ESW

-

-

EN/LZTBU 980 415/512 RA

Limitations

8.19 Id

© KEYMILE AG




Limitation

Error description

UCST / Platform

R1B

Error count in «Common Retrieve common or interface statistics of a MUSIC 700 Statistics» and «Interface Statistics» not reliable

6030 MUSIC 700

R1B

6107 MUSIC 700

Any

Id

Limitation cleared

ESW

5831 MUSIC 700

8.20

Workaround

ESW

While input and output values are correct, error counts are not reliable (0 or even negative)

No workaround

to be defined

Deactivating a POTS port leads to voice and data interruption of 8 seconds

the configuration Data is interrupted for 8 seconds or voice - Disable a POTS port in the calls may be dropped of a MUSIC 700 download - Do a partial download

No workaround

to be defined

Throughput between the the 2 LAN ports is limited to around 7-8 Mb/s in both routed and bridged mode

MUSIC700 using the two two - Configure the MUSIC700 LAN ports generator to measure the - Use a traffic generator throughput between the ports

High packet loss rates are measured. This No workaround is due to the processor capacity, which allows for a maximum transfer of approximately 4000 packets per second.

-

-

NEBRO / NEBRA System Unit



9685 NEBRO NEBRA

Page 117 of 129

Performance management

Limitation

Description


Limitation cleared

ESW R2B

UCST / Platform The following five characters cannot be used in the subunit name: <>"'&


No performance data can be retrieved from the subunits containing any of the mentioned characters

Do not use the mentioned characters in subunit names.

ESW To be defined

EN/LZTBU 980 415/512 RA

Limitations

8.21 Id

© KEYMILE AG

NEMCA System Unit


9167 NEMCA

Page 118 of 129

R5C and later

Limitation


Error description

Workaround

Limitation cleared

ESW

UCST / Platform NEMCA 301 cannot be converted to NEMCA 311

- In UCST, select an existing NEMCA 301 The error message «Unable to convert «NE Configuration - Convert layer Traffic NEMCA301 R1 into - Use menu «NE NEMCA311 R2» is displayed. Unit(s)» - Select NEMCA 311 and click «Open»


- Delete the existing NEMCA 301. and - Create a NEMCA 311 and reconfigure it.

ESW

-

EN/LZTBU 980 415/512 RA

Limitations

8.22 Id

© KEYMILE AG

PCONV - PCON2 System Unit

SW system involved

Limitation


Error description

Workaround

Limitation cleared

UCST

ESW

0347 PCONV

all

-

Front End Loop not available

Apply a front end loop on the E12/P12 interface of the PCONV.

The front end loop of the E12/P12 interface of the PCONV unit is not working. A «Frame Sync Loss» is generated for the subunit.

None. This limitation applies for PCONV with bus access ASIC version 1.

-

3146 PCONV PCON2

≥ R4D10

≥ R3D10

IC channels not operational after PCONV restart

you install a V5.1. the configuration seems to be ok you start the IF

The IC-channels are creating alarms for ISBUQ and PCONV and the ISDN ports are «unlocked / disable / local».

Restart the PCONV unit.

-

-

PCONV PCON2

-

R4C10

Only 1 P12 link is - You select a DMS CPS (Customer available with P-Phone Parameter Set) functionality and multiple - You configure several V5 interfaces V5 (V5.1) the P-Phone functionality. functionality. - You select the

The P-Phone functionality is only supported for the first P12 link subunit.

No workaround CPSs for the DMS switch are only released for the support of V5.2 services (including the PPhone service). The erroneous situation is not applicable for released services.

-

PCONV PCON2

-

R4C10

No status message if the - The PCONV SW detects unknown PCONV detects unPSTN information elements in the naknown information eletional PSTN protocol. ments

No workaround The PCONV SW sends no STATUS message to the LE: only an error is logged This behaviour is not erronein the protocol logbook. ous but according to the relevant standard .

R5C


8132 PCONV PCON2

Page 119 of 129

UCST / Platform

st

- Create a defect that causes a switchover switchover When a defect causes a switchover to the protecting path, sometimes an alarm to the protecting path «Trail Signal Fail» is generated and the transmitted signal may is not usable


No workaround

-

ESW

-

to be defined

EN/LZTBU 980 415/512 RA

Limitations

8.23 Id

© KEYMILE AG

PHLC1 - PHLC2 - PHLC3 System Unit

4525 PHLC3

SW system involved

Limitation

UCST

ESW

≥ R5B

-

4847 PHLC3

5105 PHLC3

R5B

5405 PHLC2/3 ISBUT

8905 PHLC1

Page 120 of 129

R5C

-


Error description

Workaround


PHLC3 conversion R3 -> R4 does not work properly

You have a configuration with P HLC3 126 The UCST does not allow this conversion (R3) and want to upgrade the configuraand issues a generic error message. tion with PHLC3 127 (R4). You apply the standard upgrade procedure (delivery of new ESW, upload of configuration, installation of new ESW and download, unit conversion, download of updated configuration).

PHLC3 ring generator creates failure alarm after UMUX power up.

and inserted in the - PHLC3 is configured and UMUX subrack powered - The UMUX is not powered - The UMUX is powered up

Special upgrade procedure R3 -> R4 for PHLC3

ESW

Before you convert the PHLC3 units you must manually delete all the cross connections with PHLC3 126. After the conversion you must re-create the cross connections for the PHLC3 127.

-

The PHLC3 ring generator creates a «Ring generator failure» alarm. This problem appears only occasionally. HW problem in ring generator component, fixed in latest production batches.

Remove the PHLC3 unit from the subrack and re-insert the PHLC 3 unit .

-

-

Refer to 4525

Refer to 4525

Refer to 4525

-

-

ESW changes its name depending on the installed unit

Install and configure a PHLC2, PHLC3 or ISBUT.

In spite of the ESW name being PHLC1 or ISBUQ, the inventory shows an ESW name PHLC2 for a PHLC2 card, PHLC3 for a PHLC3 card and ISBUT for an ISBUT card. In addition, a COBUX with ESW R3D shows a permanent SW installation error.

For the inventory: None

-

-

Changing the Provisioning Set blocks the port. (seen with IPSMG and uplink to CS2k)

Change the Provisioning Set from 1 to 2 and download the configuration.


For the SW installation error: Upgrade the COBUX ESW to >R3E

The port is blocked (no megaco messages Lock and unlock the port using when doing an off-hook). This happens the status/maintenance function even if the two sets are identical.

EN/LZTBU 980 415/512 RA

Limitations

8.24 Id

© KEYMILE AG

POTS Splitter System Unit


6568 POTS Splitter

Page 121 of 129

Limitation


Error description

Workaround

Limitation cleared

ESW Pulse dialling and hook Set up a DSL link with POTS splitters. off cause bit errors in the Connect a telephone link to the splitters DSL link that uses pulse dialling.


During dialling and on hook off bit errors are injected into the DSL link.

Change the telephone link to tone dialling. Use telephones with «soft hook off».

UCST / Platform

ESW

-

-

EN/LZTBU 980 415/512 RA

Limitations

8.26 Id

© KEYMILE AG

STIC1 - STIC2, LRD1A - LRD1B - LRD2A, SREG1 - SREG2 System Unit

15475 STICx

10670 STICx 10680 LRDxx 10681 SREGx

10934 SREGx

Page 123 of 129

SW system involved

Limitation


Error description

Workaround

Limitation cleared

UCST

ESW

UCST / Platform

--

COBUX

G.SHDSL lines are interrupted if the STICx interfaces is become the synchronisation source for the UMUX

An G.SDHL-line is terminated at each end on a STIC unit in 2 different UMUX NEs. There is at least 1 regenerator implemented in the G.SHDSL line. One of the STIC interfaces is configured as a timing source for the hosting UMUX.

If the clock source for the UMUX is switched from some source to the STICx interface or vice versa, the G.SHDSL-line gets interrupted. The line interruptions occur also with short loops (with regenerators!) however less frequently. Thus, If regenerators are used in networks where the UMUX synchronisation is taken from the G.SHDSL interface of a STICx, a re-synchronisation on the G.SHDSL line may occur that will lead to service interruption.

To avoid interruptions of the to be G.SHDSL-lines in networks defined where the UMUX synchronisation can be taken from the G.SHDSL interface of STICx, it is recommended that no regenerators are implemented in the G.SHDSL-lines connecting 2 UMUX NEs via STICx interfaces.

COBUX (to be defined)

R1A

Operation of loops not possible with «Reference clock» set to «Network Clock Synch»

Install and configure a STIC to DTM link without or with regenerators using «Network Clock Synch». Activate a loop in DTM or SREG.

Sometimes loops cannot be deactivated. False alarms are registered. In some cases bit errors occur during the time a loop is activated. The errors may persist after the loop has been released.

Do not use «Network Clock Synch» for «Reference Clock».

to be defined

SREG cannot sink wetting current

Line configuration with at least one SREG. No wetting current is flowing. Configure DSL line for «Wetting current This is a hardware limitation on current source». SREGxx.


No workaround

-

ESW

-

EN/LZTBU 980 415/512 RA

Limitations

8.28 Id

© KEYMILE AG

TUNOx System Unit

SW system involved

Limitation

UCST

ESW

1532 TUNOS

all

-

Limitation of cross connections

2490 TUNOP

≥ R3.3a/1

-

5275 TUNOF

6343 TUNOP


Error description

Workaround


ESW

No workaround

-

-

ACFA loop does not - An external signal is connected on the work, if no cross connect 1st subunit of a MEGIF that is cross on 2Mb/s is set connected (bi-directionally) to the 3rd subunit of the TUNOP. - All the TUNOP Board layer 2Mbit/s cross connections are disabled. l oop is set from subunit 3 to - An ACFA loop subunit 3 (under diagnostics parameter).

Errors: No workaround signal will be - The loop does not work, no signal received from the MEGIF. - However, if you cross connect ACFA 3 to DMX1 3 and vice versa, (but without enabling the laser) the loop will be correctly set.

-

-

-

TUNOF cannot be inserted in legacy UMUX

The TUNOF hardware uses the new front panel that is not compatible with the legacy UMUX (UMUX 1300/1100(E)).

If the unit is not compatible you need a recent TUNOF version. The TUNOF COZBU 110 284/1 R2A and up are compatible with all the UMUX.

-

-

R1.4

Traffic interruption on a TUNOP is installed in U1500/1200 TUNOP installed in - Change the configuration of TUNOP U1500/1200 after partial leaving an active channel untouched download of a configura- - Download the configuration configuration tion change

The traffic on the active channel will be interrupted for about 6 seconds

No workaround

-

-

- Optional: You configure the 1+1 protection mode. - You create 4 cross connections DMX2 > (UBUS and/or E12) and E12 -> UBUS within 1 segment of the cross connect. - You want to create a 5th cross connection within that segment.

It is not possible to physically insert the unit into the subrack.

Possible errors - 1+1 mode: The protection fails if a failure happens. UCST reports no error. creates - Without protection: The UCST creates «Connection not allowed» error. The connections DMX2 -> (UBUS and/or E12) and E12 -> UBUS share a cross connect segment with 4 lines (= cross connections) in total. th If you select a 5 connection, the error is created.

The entries marked in grey are from obsolete units.

Page 125 of 129


EN/LZTBU 980 415/512 RA

Limitations

8.29 Id

© KEYMILE AG

TUPON System Unit


8135 TUPON

Page 126 of 129

Limitation


Error description

Workaround

ESW R1A



Create a defect that causes a switchover to the protecting path


When a defect causes a switchover to the protecting path, sometimes an alarm «Trail Signal Fail» is generated and the transmitted signal may is not usable

No workaround

ESW to be defined

EN/LZTBU 980 415/512 RA

Limitations

8.30 Id

© KEYMILE AG

UNIDA System Unit

SW system involved

Limitation

UCST

ESW

3278 UNIDA

≥ R4E70

-

Spare signal with Loop 3c not correct with UNIDA 433, 436, 438 (X.24)

5196 UNIDA

all

R1.1 R1E

PM not available for UNIDA subrate traffic

Page 127 of 129


Error description

Workaround


-

no CAS, signal rate ≥ 64 kbit/s set Loop 3c signal T 0101. external plesiochronous clock X Loop 3c active

- You configure the UNIDA subunits for subrate traffic (< 64 kbit/s). - You want to use PM for subrate traffic (bit rates < 64 kbit/s).


ESW

The spare signal (towards the backplane) is not fixed but alternating 0101 and 1010. The time between changes depends on the frequency offset to the external clock

Set test loop options for «X.24 interface states if test loop active», «Loop 3c» set option «1». Do not select the option 0101.

-

Although it is possible to access PM functions, the PM does not perform with UNIDA subrate traffic. This applies for single subrate traffic signals and multiplexed subrate signals.

Do not configure or use PM for (R5C) UNIDA with subrate traffic (R4E + signals (<64 kbit/s). SP06) Use bit rates n = 1 (64 kbit/s) up to n = 4 (256 kbit/s) for oversampling the subrate traffic. The oversampling rate must be at least 3 times the subrate traffic signal. This requires additional TS in the network to transport the subrate signal! The UCST R5C and R4E + SP06 provide n =1 … 4 for the UNIDA 431. These rates are not released for standard traffic. This workaround is not applicable for multiplexed subrate signals.

(R1F)

EN/LZTBU 980 415/512 RA

release_note.pdf

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