W241BU/W241BUQ/W240BU/W245BUQ/W248BUQ/W249BUQ
Preface
Notebook Computer W241BU/W241BUQ/W240BU/W245BUQ/W248BUQ/ W249BUQ Service Manual
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Preface
Notice The company reserves the right to revise this publication or to change its contents without notice. Information contained herein is for reference only and does not constitute a commitment on the part of the manufacturer or any subsequent vendor. They assume no responsibility or liability for any errors or inaccuracies that may appear in this publication nor are they in anyway responsible for any loss or damage resulting from the use (or misuse) of this publication. This publication and any accompanying software may not, in whole or in part, be reproduced, translated, transmitted or reduced to any machine readable form without prior consent from the vendor, manufacturer or creators of this publication, except for copies kept by the user for backup purposes. Brand and product names mentioned in this publication may or may not be copyrights and/or registered trademarks of their respective companies. They are mentioned for identification purposes only and are not intended as an endorsement of that product or its manufacturer.
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Version 1.0 May 2011
Trademarks AMD® is a registered trademark of Advanced Micro Devices, Inc.
Windows® is a registered trademark of Microsoft Corporation. Other brand and product names are trademarks and/or registered trademarks of their respective companies.
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Preface
Ab ou t thi s Manual This manual is intended for service personnel who have completed sufficient training to undertake the maintenance and inspection of personal computers. It is organized to allow you to look up basic information for servicing and/or upgrading components of the W241BU/ W241BUQ/W240BU/W245BUQ/W248BUQ/W249BUQ series notebook PC. The following information is included: Chapter 1, Introduction, provides general information about the location of system elements and their specifications. Chapter 2, Disassembly, provides step-by-step instructions for disassembling parts and subsystems and how to upgrade elements of the system. P r e f a c e
Appendix A, Part Lists Appendix B, Schematic Diagrams Appendix C, Updating the FLASH ROM BIOS
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Preface
IMPORTANT SAFETY INSTRUCTIONS Follow basic safety precautions, including those listed below, to reduce the risk of fire, electric shock and injury to persons when using any electrical equipment: 1. Do not use this product near water, for example near a bath tub, wash bowl, kitchen sink or laundry tub, in a wet basement or near a swimming pool. 2. Avoid using a telephone (other than a cordless type) during an electrical storm. There may be a remote risk of electrical shock from lightning. 3. Do not use the telephone to report a gas leak in the vicinity of the leak. 4. Use only the power cord and batteries indicated in this manual. Do not dispose of batteries in a fire. They may explode. Check with local codes for possible special disposal instructions. 5. This product is intended to be supplied by a Listed Power Unit with an AC Input of 100 - 240V, 50 - 60Hz, DC Output of 19V, 1.58A (30 Watts) minimum AC/DC Adapter.
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CAUTION This Comput er’s Optic al Device is a Laser Class 1 Produ ct
FCC Statement This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: This device may not cause harmful interference. This device must accept any interference received, including interference that may cause undesired operation.
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Preface
Instruction s for Care and Operation The notebook computer is quite rugged, but it can be damaged. To prevent this, follow these suggestions: 1.
Don’t drop it, or expose it to shock. If the computer falls, the case and the components could be damaged. Do not expose the computer to any shock or vibration.
2.
Do not place anything heavy on the computer.
Keep it dry, and don ’t overheat it. Keep the computer and power supply away from any kind of heating element. This is an electrical appliance. If water or any other liquid gets into it, the computer could be badly damaged. Do not expose it to excessive heat or direct sunlight.
3.
Do not place it on an unstable surface.
Do not leave it in a place where foreign matter or moisture may affect the system.
Don’t use or store the com puter in a humid environment.
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Do not place the computer on any surface which will block the vents.
Follow the proper working procedures for the computer . Shut the computer down properly and don’t forget to save your work. Remember to periodically save your data as data may be lost if the battery is depleted. Do not turn off the power until you properly shut down all programs.
Do not turn off any peripheral devices when the computer is on.
Do not disassemble the com puter by yourself.
Perform routine maintenance on your computer.
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Preface 4. Avo id int erf eren ce. Keep the computer away from high capacity transformers, electric motors, and other strong magnetic fields. These can hinder proper performance and damage your data. 5.
Take care when using peripheral devices. Use only approved brands of peripherals.
Unplug the power cord before attaching peripheral devices.
Power Safety
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The computer has specific power requirements: • •
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Power Safety Warning
•
Before you undertake any upgrade procedures, make sure that you have turned off the power, and disconnected all peripherals and cables (including telephone lines). It is advisable to also remove your battery in order to prevent accidentally turning the machine on.
• • •
Only use a power adapter approved for use with this computer. Your AC adapter may be designed for international travel but it still requires a steady, uninterrupted power supply. If you are unsure of your local power specifications, consult your service representative or local power company. The power adapter may have either a 2-prong or a 3-prong grounded plug. The third prong is an important safety feature; do not defeat its purpose. If you do not have access to a compatible outlet, have a qualified electrician install one. When you want to unplug the power cord, be sure to disconnect it by the plug head, not by its wire. Make sure the socket and any extension cord(s) you use can support the total current load of all the connected devices. Before cleaning the computer, make sure it is disconnected from any external power supplies. Do not plug in the power cord if you are wet.
Do not use the power cord if it is broken.
Do not place heavy objects on the power cord.
Preface
Battery Precaution s • • • • • • • •
Only use batteries designed for this computer. The wrong battery type may explode, leak or damage the computer. Do not continue to use a battery that has been dropped, or that appears damaged (e.g. bent or twisted) in any way. Even if the computer continues to work with a damaged battery in place, it may cause circuit damage, which may possibly result in fire. Recharge the batteries using the notebook’s system. Incorrect recharging may make the battery explode. Do not try to repair a battery pack. Refer any battery pack repair or replacement to your service representative or qualified service personnel. Keep children away from, and promptly dispose of a damaged battery. Always dispose of batteries carefully. Batteries may explode or leak if exposed to fire, or improperly handled or discarded. Keep the battery away from metal appliances. Affix tape to the battery contacts before disposing of the battery. Do not touch the battery contacts with your hands or metal objects.
Battery Guidelines
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The following can also apply to any backup batteries you may have. • • •
If you do not use the battery for an extended period, then remove the battery from the computer for storage. Before removing the battery for storage charge it to 60% - 70%. Check stored batteries at least every 3 months and charge them to 60% - 70%.
Battery Disposal The product that you have purchased contains a rechargeable battery. The battery is recyclable. At the end of its useful life, under various state and local laws, it may be illegal to dispose of this battery into the municipal waste stream. Check with your local solid waste officials for details in your area for recycling options or proper disposal. Caution Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the manufacturer. Discard used battery according to the manufacturer’s instructions.
Battery Level Click the battery icon in the taskbar to see the current battery level and charge status. A battery that drops below a level of 10% will not allow the computer to boot up. Make sure that any battery that drops below 10% is recharged within one week.
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Related Document s You may also need to consult the following manual for additional information: User’s Manual on CD This describes the notebook PC’s features and the procedures for operating the computer and its ROM-based setup program. It also describes the installation and operation of the utility programs provided with the notebook PC.
System Startup 1. Remove all packing materials. 2. Place the computer on a stable surface. 3. Insert the battery and make sure it is locked in position. 4. Securely attach any peripherals you want to use with the computer (e.g. keyboard and mouse) to their ports. 5. Attach the AC/DC adapter to the DC-In jack on the left of the computer, then plug the AC power cord into an outlet, and connect the AC power cord to the AC/DC adapter.
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6. Use one hand to raise the lid/LCD to a comfortable viewing angle (do not exceed 130 degrees); use the other hand to support the base of the computer (Note: Never lift the computer by the lid/LCD). 7. Press the power button to turn the computer “on”. Shut Down
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Figure 1 Opening the Lid/LCD/Computer with AC/DC Adapter Plugged-In
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Note that you should always shut your computer down by choosing Shut Down from the Start Menu. This will help prevent hard disk or system problems.
Preface
Contents Introduction ..............................................1-1 Overview .........................................................................................1-1 Models Differences .........................................................................1-1 Specifications ..................................................................................1-2 External Locator - Top View with LCD Panel Open ......................1-4 External Locator - Front & Right side Views ................................. 1-5 External Locator - Left Side & Rear View ..................................... 1-6 External Locator - Bottom View .....................................................1-7 Mainboard Overview - Top (Key Parts) ......................................... 1-8 Mainboard Overview - Bottom (Key Parts) ........................... .........1-9 Mainboard Overview - Top (Connectors) .....................................1-10 Mainboard Overview - Bottom (Connectors) ............................... 1-11
Disassembly ...............................................2-1 Overview .........................................................................................2-1 Maintenance Tools ..........................................................................2-2 Connections .....................................................................................2-2 Maintenance Precautions .................................................................2-3 Disassembly Steps ...........................................................................2-4 Removing the Battery ......................................................................2-5 Removing the Hard Disk Drive .......................................................2-6 Removing the Optical (CD/DVD) Device . ..................................... 2-8 Removing the System Memory (RAM) ..........................................2-9 Removing the Wireless LAN Module ...........................................2-11 Removing the 3.75G Module ........................................................2-12 Removing the Keyboard ................................................................2-13
Part Lists ..................................................A-1 Part List Illustration Location ........................................................ A-2 Top (W248BUQ) ............................................................................A-3 Top (W245BUQ) ............................................................................A-4
Top (W240BUQ, W241BU-C) ...................................................... A-5 Bottom (W240BU, W241BU) W/O USIM ................................... A-6 Bottom (W240BU, W241BU) With USIM ................................... A-7 Bottom (W248BUQ, W249BU-C) ................................................ A-8 LCD (W240BU, W241BU) ........................................................... A-9 LCD (W245BUQ) ....................................................................... A-10 LCD (W248BUQ - C) ................................................................. A-11 SATA-DVD SUPER MULTI (W245BUQ/ W240BUQ/ W241BU-C) ................................................................................. A-12 SATA-DVD SUPER MULTI (W248BUQ) ............ .................... A-13 HDD ............................................................................................. A-14
Schematic Diagrams.................................B-1 System Block Diagram ...................................................................B-2 ONTARIO MEM & PCIE I/F, AP .................................................B-3 ONTATIO DISPLAY/ CLK/ MISC ............................................... B-4 ONTARIO POWER & DECOUPLING ......................................... B-5 INAGUA DDR3 SO-DIMMS A ....................................................B-6 INAGUA DDR3 SO-DIMMS B ....................................................B-7 Robson S3 PCIE/ LVDS 1/6 ...........................................................B-8 Robson S3 MAIN 2/6 ............................................... ......................B-9 Robson S3 MEM Interface 3/6 .............. .......................................B-10 Robson S3 Straps 4/6 ....................................................................B-11 Robson S3 Power 5/6 ....................................................................B-12 Robson S3 Power 6/6 ....................................................................B-13 Robson DDR3 MEM CH-A ......................................................... B-14 Robson DDR3 MEM CH-B ..........................................................B-15 HUDSON PCIE/ PCI/ CLOCK/ FCH ..........................................B-16 HUDSON GPIO/ USB/ STRAP ...................................................B-17 HUDSON SATA/ DEBUG IO/ SPI .............................................B-18 HUDSON POWER DECOUPLING ............................................B-19
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POWERGOOD/ TPM .................................................................. B-20 LVDS, INVERTER ...................................................................... B-21 HDMI/ CRT ................................................................................. B-22 CCD/ 3G ..................................................................................... .. B-23 Card Reader/ LAN JMC261C ........................... ........................... B-24 MINI PCIE/ SATA HDD/ ODD .................................................. B-25 AUDIO CODEC ALC261C ......................................................... B-26 USB 3.0 VL800 ............................................................................ B-27 KBC- ITE IT8518 ................... ..................................................... B-28 LED/ MDC/ BT ............................................................................ B-29 USB/ FAN/ TP/ MULTI CON ..................................................... B-30 5VS/ 3.3VS/ 1.8VS/ 1.5VS/ 1.1VS .............................................. B-31 POWER VDD3/ VDD5 ............ ................................................... B-32 Power 1.5V/ 0.75 .......................................................................... B-33 Power 1.1V/ 1VS .......................................................................... B-34 Power 1.8VS ................................................................................. B-35 APU CORE/ NB CORE ............................................................... B-36 VGA POWER .............................................................................. B-37 CHARGER/ DC IN ...................................................................... B-38 Click Board .................................................................................. B-39 Audio Board/ USB ............................................. .......................... B-40 Power Switch & LID Board ........ ................................................. B-41 EXTERNAL ODD Board ............................................................ B-42
Updating the FLASH ROM BIOS......... C-1
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Introduction
Chapter 1: Intro duct ion Overview This manual covers the information you need to service or upgrade the W241BU/W241BUQ/W240BU/W245BUQ/ W248BUQ/W249BUQ series notebook computer. Information about operating the computer (e.g. getting started, and the Setup utility) is in the User’s Manual. Information about drivers (e.g. VGA & audio) is also found in User’s Manual. That manual is shipped with the computer. Operating systems (e.g. Windows 7 etc.) have their own manuals as do application software (e.g. word processing and database programs). If you have questions about those programs, you should consult those manuals.
1 .I n t r o d u c t i o n
The W241BU/W241BUQ/W240BU/W245BUQ/W248BUQ/W249BUQseries notebook is designed to be upgradeable. See Disassembly on page 2 - 1 for a detailed description of the upg rade procedures for each specific component. Please note the warning and safety information indicated by the “ ” symbol. The balance of this chapter reviews the computer’s technical specifications and features.
Models Differences This notebook series includes different models that vary slightly in design style, color and general appearance. Note that though your computer may look slightly different from t hat pictured throughout this documentation, all ports, jacks, indicators, specifications and general functions are the same for all the design styles.
Overview 1 - 1
Introduction
Specifications
Latest Specification Information The specifications listed here are correct at the time of sending them to the press. Certain items (particularly processor types/speeds) may be changed, delayed or updated due to the manufacturer's release schedule. Check with your service center for more details.
Processor Options
Aud io
AMD-C Series A cceler ated Pr ocess ing Unit - C30 (1.2GHz)
High Definition Audio Compliant Interface
512KB L2 Cache, 40nm, DDR3-1066MHz, TDP 9W
Built-In Microphone
AMD-C Series (Du al-Cor e) Accel erated Proc essi ng Uni t C50 (1.0GHz)
Security
1MB L2 Cache, 40nm, DDR3-1066MHz, TDP 9W
2 * Built-In Speakers
Security (Kensington® Type) Lock Slot
Core Logic
BIOS Password
AMD A50M FCH
Communication
LCD
Built-In 10Mb/100Mb Ethernet LAN (Factory Option) 300K/1.3M Pixel USB PC Camera Module
14" (35.56cm) HD TFT LCD
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Memory
(Factory Option) 3.75G/HSPA Mini-Card Module WLAN/ Bluetooth Half Mini-Card Modules: (Factory Option) Wireless LAN (802.11b/g/n)
One 204 Pin SO-DIMM Socket Supporting DDR3 1066/ 1333MHz Memory
CPU The CPU is not a user serviceable part. Accessing the CPU in any way may violate your warranty.
(Factory Option) Wireless LAN (802.11b/g/n) + Bluetooth 3.0
Memory Expandable up to 4GB
Keyboard BIOS “WinKey” keyboard (with embedded numeric keypad) One 16Mb SPI Flash ROM AMI BIOS
Pointing Device
Storage
Built-in Touchpad
(Factory Option) One Changeable 12.7mm(h) Super Multi Optical Device Drive
Interface
(Factory Option) Dummy ODD for Models W240,W241and W245 only One Changeable 2.5" 9.5 mm (h) SATA HDD
Three USB 2.0 Ports One HDMI-Out Port One Headphone-Out Jack One Microphone-In Jack
Video Adapter AMD Radeon™ HD 6250 (APU Int egrat ed) Shared Memory Architecture of up to 1469MB Microsoft® DirectX11 Compatible
1 - 2 Sp ec if ic at io ns
One RJ-45 LAN Jack One DC-in Jack One External Monitor Port
Introduction Card Reader Embedded Multi-In-1 Card Reader
MMC (MultiMedia Card) / RS MMC SD (Secure Digital) / Mini SD / SDHC/ SDXC MS (Memory Stick) / MS Pro / MS Duo
Mini Card Slots Slot 1 for WLAN Module or WLAN and Bluetooth Combo Module (Factory Option) Slot 2 for 3.75G/HSPA Module
Power 3 Cell Smart Lithium-Ion Battery Pack, 24.42WH
1 .I n t r o d u c t i o n
(Factory Option) 6 Cell Smart Lithium-Ion Battery Pack, 48.84WH (Factory Option) 4 Cell Smart Lithium-Ion Battery Pack Full Range AC/DC Adapter AC Input: 100 - 240V, 50 - 60Hz DC Output: 19V, 1.58A (30W)
Environmental Spec Temperature Operating: 5°C - 35°C Non-Operating: -20°C - 60°C Relative Humidity Operating: 20% - 80% Non-Operating: 10% - 90%
Dimensions & Weight 340mm (w) * 238mm (d) * 13.9 - 31.8mm (h) 2.05 kg (with 24.42WH Battery and ODD) Or 341mm (w) * 238.5mm (d) * 16 - 34mm (h) 2.05 kg (with 24.42WH Battery and ODD)
Sp ec if ic at io ns 1 - 3
Introduction Figure 1 Top View
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1. Optional Built-In PC Camera 2. LCD 3. Power Button 4. Hot Key Buttons 5. LED Status Indicators 6. Keyboard 7. Built-In Microphone 8. Touchpad & Buttons
External Loc ator - Top View wit h LCD Panel Open 1
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Design II
Design I
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Design II
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1 - 4 External Locator - Top View with LCD Panel Open
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Introduction
External Locator - Front & Right side Views
Figure 2 Front Views 1. LED Power Indicators
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Figure 3 Right Side Views
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1. Microphone-In Jack 2. Headphone-Out Jack 3. USB 2.0 Port 4. Optical Device Drive Bay 5. Security Lock Slot 6. Security Lock Slot
External Locator - Front & Right side Views 1 - 5
1 .I n t r o d u c t i o n
Introduction
External Loc ator - Left Side & Rear View Figure 4 Left Side View 1. DC-In Jack 2. External Monitor Port 3. RJ-45 LAN Jack 4. HDMI-Out Port 5. 2 * USB 2.0 Ports 6. Vent 7. Multi-in-1 Card Reader
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Figure 5 Rear View 1. Battery
1 - 6 External Locator - Left Side & Rear View
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Introduction
External Loc ator - Bott om View Figure 6 Bottom View
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WITHOUT 3G
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1. Battery 2. Component Bay Cover 3. Vent/Fan Intake/ Outlet 4. Hard Disk Bay Cover 5. 3.75G/HSPA USIM Card Cover (optional)
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WITH 3G
Overheating To prevent your computer from overheating make sure nothing blocks the vent/fan intakes while the computer is in use.
External Locator - Bottom View 1 - 7
1 .I n t r o d u c t i o n
Introduction Figure 7 Mainboard Top Key Parts
Mainboard Overvi ew - Top (Key Parts)
1. JMC261 2. ITE T851E 3. AZALIA Codec
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4 2 1 3
1 - 8 Mainboard Overview - Top (Key Parts)
Introduction
Mainboard Overview - Botto m (Key Parts)
Figure 8 Mainboard Bottom Key Parts 1. Memory Slots DDR3 SO-DIMM 2. Accelerated Processing Unit 3. AMD Hudson M1 FCH 4. Mini-Card Connector (3G Module) 5. SIMLOCK 6. Mini-Card Connector (WLAN Module) 7. CMOS Battery 8. Card Reader Socket
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Mainboard Overview - Bottom (Key Parts) 1 - 9
1 .I n t r o d u c t i o n
Introduction Figure 9 Mainboard Top Connectors
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1. HDMI-Out Port 2. USB Port 2.0 3. Speaker Cable Connector 4. Microphone Cable Connector 5. Audio Board Connector 6. TouchPad Cable Connector 2 7. TouchPad Cable Connector 1 8. Keyboard Cable Connector 9. Switch Board Cable Connector
Mainboard Overview - Top (Connector s)
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1 - 10 Mainboard Overview - Top (Connectors)
Introduction
Mainboard Overview - Bottom (Connectors) 7
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Figure 10 Mainboard Bottom Connectors 1. Battery Connector 2. ODD Connector 3. HDD Connector 4. CPU Fan Cable Connector 5. RJ-45 LAN Jack 6. External Monitor Port 7. DC-In Jack 8. CCD Cable Connector 9. LCD Cable Connector
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Mainboard Overview - Bottom (Connectors) 1 - 11
1 .I n t r o d u c t i o n
Introduction
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1 - 12 Mainboard Overview - Bottom (Connectors)
Disassembly
Chapter 2: Disassembl y Overview This chapter provides step-by-step instructions for disassembling the W241BU/W241BUQ/W240BU/W245BUQ/ W248BUQ/W249BUQ series notebook’s parts and subsystems. When it comes to reassembly, reverse the procedures (unless otherwise indicated). We suggest you completely review any procedure before you take the computer apart. Procedures such as upgrading/replacing the RAM, optical device and hard disk are included in the User’s Manual but are repeated here for your convenience. To make the disassembly process easier each section may have a box in the page margin. Information contained under the figure # will give a synopsis of the sequence of procedures involved in the disassembly procedure. A box with a lists the relevant parts you will have after the disassembly process is complete. Note: The parts listed will be for the disassembly procedure listed ONLY, and not any previous disassembly step(s) required. Refer to the part list for the previous disassembly procedure. The amount of screws you should be left with will be listed here also. A box with a
will also provide any possible helpful information. A box with a
Information
contains warnings.
An example of these types of boxes are shown in the sidebar. Warning
Overview 2 - 1
2 .D i s a s s e m b l y
Disassembly NOTE: All disassembly procedures assume that the system is turned OFF, and disconnected from any power supply (the battery is removed too).
Maintenance Tools The following tools are recommended when working on the notebook PC: • • • • • •
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M3 Philips-head screwdriver M2.5 Philips-head screwdriver (magnetized) M2 Philips-head screwdriver Small flat-head screwdriver Pair of needle-nose pliers Anti-static wrist-strap
Connections Connections within the computer are one of four types:
2 - 2 Overview
Locking collar sockets for ribbon connectors
To release these connectors, use a small flat-head screwdriver to gently pry the locking collar away from its base. When replacing the connection, make sure the connector is oriented in the same way. The pin1 side is usually not indicated.
Pressure sockets for multi-wire connectors
To release this connector type, grasp it at its head and gently rock it from side to side as you pull it out. Do not pull on the wires themselves. When replacing the connection, do not try to force it. The socket only fits one way.
Pressure sockets for ribbon connectors
To release these connectors, use a small pair of needle-nose pliers to gently lift the connector away from its socket. When re placing the connection, make sure the connector is oriented in the same way. The pin1 side is usually not indicated.
Board-to-board or multi-pin sockets
To separate the boards, gently rock them from side to side as you pull them apart. If the connection is very tight, use a small flat-head screwdriver - use just enough force to st art.
Disassembly
Maintenance Precautions The following precautions are a reminder. To avoid personal injury or damage to the computer while performing a removal and/or replacement job, take the following precautions: Don't drop it. Perform your repairs and/or upgrades on a stable surface. If the computer falls, the case and other components could be damaged. 2. Don't overheat it. Note the proximity of any heating elements. Keep the computer out of direct sunlight. 3. Avo id i nt erfer enc e. Note the proximity of any high capacity transformers, electric motors, and other strong magnetic fields. These can hinder proper performance and damage components and/or data. You should also monitor the position of magnetized tools (i.e. screwdrivers). 4. Keep it dry. This is an electrical appliance. If water or any other liquid gets into it, the computer could be badly damaged. 5. Be careful with power . Avoid accidental shocks, discharges or explosions. •Before removing or servicing any part from the computer, turn the computer off and detach any power supplies. •When you want to unplug the power cord or any cable/wire, be sure to disconnect it by the plug head. Do not pull on the wire. 6. Peripherals – Turn off and detach any peripherals. 7. Beware of static discharge. ICs, such as the CPU and main support chips, are vulnerable to static electricity. Before handling any part in the computer, discharge any static electricity inside the computer. When handling a printed circuit board, do not use gloves or other materials which allow static electricity buildup. We suggest that you use an anti-static wrist strap instead. 8. Beware of corrosi on. As you perform your job, avoid touching any connector leads. Even the cleanest hands produce oils which can attract corrosive elements. 9. Keep your work environment cl ean. Tobacco smoke, dust or other air-born particulate matter is often attracted to charged surfaces, reducing performance. 10. Keep track of the components . When removing or replacing any part, be careful not to leave small parts, such as screws, loose inside the computer. 1.
Power Safety Warning Before you undertake any upgrade procedures, make sure that you have turned off the power, and disconnected all peripherals and cables (including telephone lines). It is advisable to also remove your battery in order to prevent accidentally turning the machine on.
Cleaning Do not apply cleaner directly to the computer, use a soft clean cloth. Do not use volatile (petroleum distillates) or abrasive cleaners on any part of the computer.
Overview 2 - 3
2 .D i s a s s e m b l y
Disassembly
Disassembly Steps The following table lists the disassembly steps, and on which page to find the related information. PLEASE PERFORM THE DISASSEMBLY STEPS IN THE ORDER INDICATED.
To remove the Battery: 1. Remove the battery
To remov e the 3.75G Module: page 2 - 5
1. Remove the battery 2. Remove the 3.75G
page 2 - 5 page 2 - 6
To remove the Keyboard:
To remove t he HDD: 1. Remove the battery 2. Remove the HDD y l b m e s s a s i D . 2
To remove the Optic al Device: 1. Remove the battery 2. Remove the Optical device
page 2 - 5 page 2 - 8
To remove the System Memory: 1. Remove the battery 2. Remove the system memory
page 2 - 5 page 2 - 9
To remove and install a Processor: 1. Remove the battery 2. Remove the processor 3. Install the processor
page 2 - 5 page 2 - 11 page 2 - 13
To remove the WLAN Module: 1. Remove the battery 2. Remove the wireless LAN
2 - 4 Di sas sem bl y St ep s
page 2 - 5 page 2 - 11
1. Remove the battery 2. Remove the keyboard
page 2 - 5 page 2 - 12
page 2 - 5 page 2 - 13
Disassembly
Removing the Battery 1. 2. 3. 4.
Turn the computer off , and turn it over. Slide the latch 1 in the direction of the arrow. Slide the latch 2 in the direction of the arrow, and hold it in place. Slide the battery 63 in the direction of the arrow 4 .
Figure 1 Battery Removal a. Slide the latch and hold in place. b. Slide the battery in the direction of the arrow.
a. 2
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2 .D i s a s s e m b l y
b. 3
3. Battery
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Rem ov in g t he B at ter y 2 - 5
Disassembly Figure 2 HDD Assembly Removal a. Locate the HDD bay cover and remove the screws.
Removing the Hard Disk Drive The hard disk drive can be taken out to accommodate other 2.5" serial (SATA) hard disk drives with a height of 9.5mm (h). Follow your operating system’s installation instructions, and install all necessary drivers and utilities (as outlined in Chapter 4 of the User’s Manual ) when setting up a new hard disk.
Hard Disk Upgrade Process 1. Turn off the computer, and remove the battery ( page 2 - 5). 2. Locate the hard disk bay cover and remove screws 1 & 2 . a.
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HDD System Warning New HDD’s are blank. Before you begin make sure: You have backed up any data you want to keep from your old HDD.
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2 Screws
2 - 6 Removing the Hard Disk Drive
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You have all the CD-ROMs and FDDs required to install your operating system and programs. If you have access to the internet, download the latest application and hardware driver updates for the operating system you plan to install. Copy these to a removable medium.
Disassembly 3. 4. 5. 6. 7.
Remove the hard disk bay cover 63 . Grip the tab and slide the hard disk in the direction of arrow 4 . Lift the hard disk out of the bay 5 . Remove the screws 6 - 9 and the mylar cover 10 from the hard disk 11 . Reverse the process to install a new hard disk (do not forget to replace all the screws and covers). d.
b.
5
Figure 3 HDD Assembly Removal (cont’d.) b. Remove the HDD bay cover. c. Grip the tab and slide the HDD in the direction of the arrow. d. Lift the HDD assembly out of the bay. e. Remove the screw and mylar cover.
2 .D i s a s s e m b l y
3
c.
e.
9 6
8 4
10
7
11
3. HDD Bay Cover 10. Mylar Cover 11.HDD
•
4 Screws
Removing the Hard Disk Drive 2 - 7
Disassembly Figure 4 Optical Device Removal a. Remove the screws. b. Remove the cover. c. Remove the screw and push the optical device out off the computer at point 8.
Removing the Optical (CD/DVD) Device Turn off the computer, and remove the battery ( page 2 - 5). Locate the RAM & CPU bay cover 1 , and remove screws 2 - 5 . Carefully (a fan and cable are attached to th e under sid e of the cover ) lift up the bay cover. Carefully disconnect the fan cable 6 , and remove the cover 1 . Remove the screw at point 7 , and use a screwdriver to carefully push out the optical device 9 at point 8 . Insert the new device and carefully slide it into the computer (the device only fits one way. DO NOT FORCE IT; The screw holes should line up). 7. Restart the computer to allow it to automatically detect the new device. 1. 2. 3. 4. 5. 6.
a.
2
y l b m e s s a s i D . 2
c.
3 1 4
7 5
b.
1. Component Bay Cover 9. Optical Device
•
5 Screws
9 6
2 - 8 Removing the Optical (CD/DVD) Device
8
Disassembly
Remov ing the System Memory (RAM) The computer has one memory socket for 200 pin Small Outline Dual In-line Memory Modules (SO-DIMM) supporting DDR3 1333/ 1066MHz. The main memory can be expanded up to 8GB. The SO-DIMM modules supported are 1GB, 2GB and 4GB and DDRIII Modules. The total memory size is automatically detected by the POST routine once you turn on your computer.
Memory Upgrade Process 1. 2. 3. 4.
Turn off the computer, remove the battery ( page 2 - 5) and the component bay cover ( page 2 - 8 ). The RAM modules will be visible at point 1 on the main board . Gently pull the two release latches on the sides of the memory socket. The RAM module 2 will pop-up (Figure 6b ), and you can then remove it. b.
a.
Figure 5 RAM Module Removal a. Locate the memory socket. b. Remove the module.
Contact Warning Be careful not to touch the metal pins on the module’s connecting edge. Even the cleanest hands have oils which can attract particles, and degrade the module’s performance.
1
2
2. RAM Module
5. 6. 7.
Insert a new module holding it at about a 30° angle and fit the connectors firmly into the memory slot. The module’s pin alignment will allow it to only fit one way. Make sure the module is seated as far into the slot as it will go. DO NOT FORCE the module; it should fit without much pressure. Press the module in and down towards the mainboard until the slot levers click into place to secure the module.
Removing the System Memory (RAM) 2 - 9
2 .D i s a s s e m b l y
Disassembly
Figure 6 RAM Module Removal (cont’d.) d. Properly re-insert bay cover pins.
8. Replace the bay cover and screws (make sure you reconnect the fan cable before screwing do wn the bay cover ). Note that there are four 5 - 8 cover pins which need to be aligned with slots in the case, to insure a proper cover fit, before screwing down the bay cover.
the
c. 5
6
y l b m e s s a s i D . 2
7 8
9.
Restart the computer to allow the BIOS to register the new memory configuration as it starts up.
2 - 10 Removing the System Memory (RAM)
Disassembly
Removing the Wireless LAN Module 1. 2. 3. 4.
Figure 7 Wireless LAN Module Removal
Turn off the computer, remove the battery ( page 2 - 5) and the component bay cover ( page 2 - 9 ). The Wireless LAN module will be visible at point 1 on the mainboard. Carefully disconnect cables 2 - 3 , then remove screw 4 from the module socket. Lift the Wireless LAN module 5 ( Figure 7c ) up and off the computer.
a. Remove the cover. b. Disconnect the cables and remove the screw. c. Lift the WLAN module out.
c.
a.
5
Note: Make sure you reconnect the antenna cable to ‘’1’’ + ‘’2’’socket ( Figure b).
1
b. 4 3
5. WLAN Module.
2 •
1 Screw
Removing the Wireless LAN Module 2 - 11
2 .D i s a s s e m b l y
Disassembly Figure 8 3.75G Modul e Removal a. Remove the cover. b. Disconnect the cable and remove the screw. c. The 3.75G module will pop up. d. Lift the 3.75G module out.
Remov ing the 3.75G Module Turn off the computer, remove the battery ( page 2 - 5) and the component bay cover ( page 2 - 9 ). The 3.75G module will be visible at point 1 on the mainboard. Carefully disconnect the cable 2 , then remove the screw 3 from the module socket. The 3.75G module 4 will pop-up. Lift the 3.75G module ( Figure 8d ) up and off the computer.
1. 2. 3. 4. 5. a.
y l b m e s s a s i D . 2
c.
d.
d.
4
1 4 b.
2 4. 3.75G Module.
•
1 Screw
3
2 - 12 Removing the 3.75G Module
Disassembly
Removing the Keyboard 1. Turn off the computer, and remove the battery ( page 2 - 5). 2. Press the four keyboard latches at the top of the keyboard ( Figure 9a) to elevate the keyboard from its normal position (you may need to use a small screwdriver to do this). 3. Carefully lift the keyboard up, being careful not to bend the keyboard ribbon cable ( Figure 9b ). 4. Disconnect the keyboard ribbon cable 5 from the locking collar socket 6 ( Figure 9b ). 5. Carefully lift up the keyboard 7 ( Figure 9c ) off the computer. a. 1
2
3
4
Figure 9 Keyboard Removal a. Press the four latches to release the keyboard. b. Lift the keyboard up and disconnect the cable from the locking collar. c. Remove the keyboard.
c.
Re-Inserting the Keyboard
b. 5
7
When re-inserting the keyboard firstly align the four keyboard tabs at the bottom of the keyboard with the slots in the case.
6 5
Keyboard Tabs
7. Keyboard
Removing the Keyboard 2 - 13
2 .D i s a s s e m b l y
Disassembly
y l b m e s s a s i D . 2
2 - 14
Part List s
Appendix A: Part Lists This appendix breaks down the W241BU/W241BUQ/W240BU/W245BUQ/W248BUQ/W249BUQ series notebook’s construction into a series of illustrations. The component part numbers are indicated in the tables opposite the drawings. Note: This section indicates the manufacturer’s part numbers. Your organization may use a d ifferent system, so be sure to cross-check any relevant documentation. Note: Some assemblies may have parts in common (especially screws). However, the part lists DO NOT indicate the total number of duplicated parts used. A .P a r t L i s t s
Note: Be sure to check any update notices. The parts shown in these illustrations are appropriate for the system at the time of publication. Over the product life, some parts may be improved or re-configured, resulting in new part numbers.
A - 1
Part Lis ts
Part Lis t Illustration Loc ation The following table indicates where to find the appropriate part list illustration. Table A- 1 Part List Illustration Location Parts
W248BUQ
Top
page A - 3
Top
s t s i L t r a P . A
W245BUQ
W240BUQ, W241BU-C
page A - 4
Top
page A - 5
Bottom W/O USIM
page A - 6
Bottom W/ USIM Bottom (W248BUQ, W249BU-C)
page A - 7 page A - 8
LCD
page A - 9
LCD LCD
page A - 10 page A - 11
DVD-Super Multi Drive DVD-Super Multi Drive HDD
A - 2 Part L is t Il lu st ratio n Loc ati on
page A - 12 page A - 13 page A - 14
Part List s
Top (W248BUQ)
Figure A - 1 Top (W248BUQ)
黑色
導電布 今皓 今皓 今皓
(灰色)
度
黑色
非耐落
Top (W248BUQ) A - 3
A .P a r t L i s t s
Part Part Lis ts
Top (W245BUQ)
s t s i L t r a P . A
Figure A - 2 Top (W245BUQ) (W245BUQ)
黑色
(非耐落)
( 灰色)
非耐落
頭徑
頭厚
度
A - 4 Top (W245B UQ)
號
黑色
Part Part List s
Top (W240BUQ, (W240BUQ, W241BU-C)
Figure A - 3 Top (W240BUQ, (W240BUQ, W241BU-C) 黑色
(非耐落) 設變
定位孔
(灰色) 非耐落
度
黑色
Top (W2 (W240 40BUQ BUQ,, W24 W241BU 1BU-C -C)) A - 5
A .P a r t L i s t s
Part Part Lis ts
Bottom (W240BU, W241BU) W/O USIM
s t s i L t r a P . A
Figure A - 4 Bottom (W240BU, W241BU) W/O USIM
A - 6 Bo tt om (W240BU, W241BU) W/O USIM
Part List s
Bottom (W240BU, W241BU) With USIM
Figure A - 5 Bottom (W240BU, W241BU) With USIM
Bottom (W240BU, W241BU) With USIM A - 7
A .P a r t L i s t s
Part Lis ts
Bottom (W248BUQ, W249BU-C)
s t s i L t r a P . A
Figure A - 6 Bottom (W248BUQ, W249BU-C)
A - 8 Bott om (W248BUQ, W249BU-C)
Part List s
LCD (W240BU, W241BU)
Figure A - 7 LCD (W240BU, W241BU)
銘板
今皓/泰林 玉鼎
中性 電鑄薄膜鍍亮鉻(字體連結)
必選 選配
FOR噴漆BACKCASE
LCD (W240BU, W241BU) A - 9
A .P a r t L i s t s
Part Lis ts
LCD (W245BUQ)
s t s i L t r a P . A
Figure A - 8 LCD (W245BUQ)
銘板
(華力) (銅箔接地)
今皓/泰林
中性 電鑄薄膜鍍亮鉻(字體連結)
A - 10 LCD (W245BUQ)
Part List s
LCD (W248BUQ - C)
Figure A - 9 LCD (W248BUQ C)
非耐落
無鉛
設變 (華力)
精乘
LCD (W248BUQ - C) A - 11
A .P a r t L i s t s
Part Lis ts
SATA-DVD SUPER MULTI (W245BUQ/ W240BUQ/ W241BU-C)
s t s i L t r a P . A
Figure A - 10 LCD (W245BUQ/ W240BUQ/ W241BU-C) *(非耐落)
A - 12 SATA -DVD SUPER MULTI (W245BUQ/ W240BUQ/ W241BU-C)
無鉛
Part List s
SATA-DVD SUPER MULTI (W248BUQ)
Figure A - 11 SATA-DVD SUPER MULTI (W248BUQ)
*(非耐落)
無鉛
SATA-DVD SUPER MULTI (W248BUQ) A - 13
A .P a r t L i s t s
Part Lis ts
HDD
A - 12 s D SUPER t s 248BUQ) i L t r a P . A
無鉛 (無鉛)
A - 14 HDD
Schematic Diagrams
Appendix B: Schematic Diagrams This appendix has circuit diagrams of the W241BU/W241BUQ/W240BU/W245BUQ/W248BUQ/W249BUQ note book’s PCB’s. The following table indicates where to find the appropriate schematic diagram. Diagram - Page
Diagram - Page
Diagram - Page
System Block Diagram - Page B - 2
HUDSON PCIE/ PCI/ CLOCK/ FCH - Page B - 16
USB/ FAN/ TP/ MULTI CON - Page B - 30
ONTARIO MEM & PCIE I/F, AP - Page B - 3
HUDSON GPIO/ USB/ STRAP - Page B - 17
5VS/ 3.3VS/ 1.8VS/ 1.5VS/ 1.1VS - Page B - 31
ONTATIO DISPLAY/ CLK/ MISC - Page B - 4
HUDSON SATA/ DEBUG IO/ SPI - Page B - 18
POWER VDD3/ VDD5 - Page B - 32
ONTARIO POWER & DECOUPLING - Page B - 5
HUDSON POWER DECOUPLING - Page B - 19
Power 1.5V/ 0.75 - Page B - 33
INAGUA DDR3 SO-DIMMS A - Page B - 6
POWERGOOD/ TPM - Page B - 20
Power 1.1V/ 1VS - Page B - 34
INAGUA DDR3 SO-DIMMS B - Page B - 7
LVDS, INVERTER - Page B - 21
Power 1.8VS - Page B - 35
Robson S3 PCIE/ LVDS 1/6 - Page B - 8
HDMI/ CRT - Page B - 22
APU CORE/ NB CORE - Page B - 36
Robson S3 MAIN 2/6 - Page B - 9
CCD/ 3G - Page B - 23
VGA POWER - Page B - 37
Robson S3 MEM Interface 3/6 - Page B - 10
Card Reader/ LAN JMC261C - Page B - 24
CHARGER/ DC IN - Page B - 38
Robson S3 Straps 4/6 - Page B - 11
MINI PCIE/ SATA HDD/ ODD - Page B - 25
Click Board - Page B - 39
Robson S3 Power 5/6 - Page B - 12
AUDIO CODEC ALC261C - Page B - 26
Audio Board/ USB - Page B - 40
Robson S3 Power 6/6 - Page B - 13
USB 3.0 VL800 - Page B - 27
Power Switch & LID Board - Page B - 41
Robson DDR3 MEM CH-A - Page B - 14
KBC- ITE IT8518 - Page B - 28
Robson DDR3 MEM CH-B - Page B - 15
LED/ MDC/ BT - Page B - 29
EXTERNAL ODD Board - Page B - 42
Table B - 1 Schematic Diagrams
Version Note The schematic diagrams in this chapter are based upon version 6-7P-W2405003. If your mainboard (or other boards) are a later version, please check with the Service Center for updated diagrams (if required).
B - 1
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
System Block Diagram W240BU/W250BUQ/W250BAQ Sys tem B lock Diagram
CLICK BOARD 6-71-W2402-D01
POWER SWITCH BOARD POWER SWITCH+HOTKEY X 3 6-71-E51QS-D02
AT I ROBSO N (S3 TYPE)
AUDIO BOARD
PCIE*4
512MB DDR3
EXTERNAL ODD BOARD EXT. ODD 6-71-E51QN-D01
GPU POWER, VDDC
AMD FUSION APU Ontario FT1
MVDDQ,1.8V_REG,1.0V_REG 5V,3V,5VS,3.3VS 1.5VS,1.1VS
41 3-BALL 19 mm X19mm BGA SINGLE CHANNEL DDR3 DISPLAYPORT X2 DX11 IGP 4 X1 PCIE GEN2 GPP 1 X4 UM I-L INK GEN1 VGA DAC
USB+EARPHONE+EXT.MIC 6-71-W2408-D02
LCD CONNECTOR
1066MHz DDR3 / 1.5V
APU_CORE,NB_CORE DDRIII SO-DIMM2 SHEET 6 1.5V,0.75VS(VTT_MEM) DDRIII SO-DIMM1
CRT Connector
SHEET 5
TOUCH PAD
Sheet 1 of 41 System Block Diagram
1.8VS
USB PORT (USB4)
AMD HUDSON-M1 CLICK BOARD
MIC IN
HP OUT
INT SPK R
CHARGER,DC IN SHEET 38
605-BALL
SPI
23mmX23mmBGA TPM
(Reserve)
32.768 KHz
EC ITE 8518 128pins LQFP
LPC
14*14*1.6mm
INT. K/B
PCIE GEN1 I/F (4 x1) USB2.0(12) + 1.1 (2) SAT AII(3 PORTS) I N T. C L K G E N AZALIA HD AUDIO GB M AC SPII/F LPC I/F HW M ONITOR
33 MHz BIOS SPI
EC SMBUS THERMAL SENSOR W83L771AWG
SMART BATTERY AC-IN
1.1V, 1VS
UMI*4
HDMI Connector
s m a r g a i D c i t a m e h c S . B
VDD3,VDD5
SMART FAN
INT SPKER
Azalia Codec REALTEK ALC269
INT MIC
24 MHz AZALIA LINK PCIE
100 MHz
32.768KHz
US B 3 .0
USB2.0
480 Mbps
(Reserve)
(USB3)
(USB9)
Mini PCIE SOCKET (USB2)
(Optional)
3 G CA RD
WLAN
JMICRO JMC261C
LAN
CARD READER 25 MHz
RJ-4 5
SATA HDD
SATA ODD
SATA I/II 3.0Gb/s
B - 2 System Block Diagram
USB PORT USB PORT (USB0) (USB1)
Bluetooth CCD (USB6) (USB5)
7 IN 1 SOCKET
Schematic Diagrams
ONTARIO MEM & PCIE I/F, AP ONTARIO MEM & PCIE I/F, AP
5 ,6
M E M_ A D DR [1 5 :0 ] MEM_ADDR0 M EM _A DD R1 M EM _A DD R2 M EM _A DD R3 M EM _A DD R4 M EM _A DD R5 M EM _A DD R6 M EM _A DD R7 M EM _A DD R8 M EM _A DD R9 M EM _A DD R1 0 M EM _A DD R1 1 M EM _A DD R1 2 M EM _A DD R1 3 M EM _A DD R1 4 M EM _A DD R1 5
7 1 R
H1 9 J17 H1 8 H1 7 G1 7 H1 5 G1 8 F19 E1 9 T19 F17 E1 8 W17 E1 6 G1 5
M E M _D A T A[6 3 :0 ] 5 ,6
U1 E M_ADD0 M_ADD1 M_ADD2
M_DATA0
ONTARIO 2 ( .0)
M_DATA1 M_DATA2
PAR T1OF 5
M_ADD3
M_DATA3
M_ADD4
M_DATA4
M_ADD5
M_DATA5
M_ADD6
M_DATA6
M_ADD7
M_DATA7
5 ,6 M EM _B ANK 0 5 ,6 M EM _B ANK 1 5 ,6 M EM _B ANK 2 M E M_ D M[7 :0 ]
5 ,6 5 ,6 5 ,6 5 ,6 5 ,6 5 ,6 5 ,6 5 ,6 5 ,6 5 ,6 5 ,6 5 ,6 5 ,6 5 ,6 5 ,6 5 ,6
MEM _ DQ S_ H0 MEM _ DQ S_ L 0 MEM _ DQ S_ H1 MEM _ DQ S_ L 1 MEM _ DQ S_ H2 MEM _ DQ S_ L 2 MEM _ DQ S_ H3 MEM _ DQ S_ L 3 MEM _ DQ S_ H4 MEM _ DQ S_ L 4 MEM _ DQ S_ H5 MEM _ DQ S_ L 5 MEM _ DQ S_ H6 MEM _ DQ S_ L 6 MEM _ DQ S_ H7 MEM _ DQ S_ L 7
5 5 5 5 6 6 6 6
M EM_ C LK _H 0 M EM_ C LK _L 0 M EM_ C LK _H 1 M EM_ C LK _L 1 M EM_ C LK _H 2 M EM_ C LK _L 2 M EM_ C LK _H 3 M EM_ C LK _L 3
5 ,6 M EM_ R ESE T # 5 ,6 M EM_ EV E NT # 5, 6 5, 6
ME M _ CK E 0 ME M _ CK E 1
R1 8 T18 F16 M M M M M M M M
EM EM EM EM EM EM EM EM
_D _D _D _D _D _D _D _D
M0 M1 M2 M3 M4 M5 M6 M7
D1 5 B1 9 D2 1 H2 2 P2 3 V2 3 AB2 0 AA1 6 A1 6 B1 6 B2 0 A2 0 E2 3 E2 2 J22 J23 R2 2 P2 2 W22 V2 2 AC2 0 AC2 1 AB1 6 AC1 6
M_ADD9
M_DATA8
M_ADD10 M_ADD11
M_DATA9 M_DATA10
M_ADD12 M_ADD13
M_DATA11 M_DATA12
M_ADD14
M_DATA13
M_ADD15
M_DATA14
M_BANK0 M_BANK1 M_BANK2
M_DATA16 M_DATA17
M_DM0
M_DATA18 M_DATA19
M_DM1
M_DATA20
M_DM2 M_DM3
M_DATA21 M_DATA22
M_DM4
M_DATA23
M_DM5 M_DM6
M_DATA24
M_DM7
M_DATA25 M_DATA26
M_DQS_H0
M_DATA27
M_DQS_L0
M_DATA28
M_DQS_H1
M_DATA29
M_DQS_L1
M_DATA30
M_DQS_H2 M_DQS_L2
M_DATA31
M_DQS_H3 M_DQS_L3 M_DQS_H4 M_DQS_L4 M_DQS_H5 M_DQS_L5
F / I Y R O M E M
M_DATA32 M_DATA33 M_DATA34 M_DATA35 M_DATA36 M_DATA37
M_DQS_H6 M_DQS_L6
M_DATA38 M_DATA39
M_DQS_H7 M_DQS_L7
M_DATA40 M_DATA41
M1 7 M1 6 M1 9 M1 8 N1 8 N1 9 L18 L17
M_CLK_H0 M_CLK_L0
M_DATA42 M_DATA43
M_CLK_H1
M_DATA44
M_CLK_L1 M_CLK_H2
M_DATA45 M_DATA46
M_CLK_L2
M_DATA47
M_CLK_H3 M_CLK_L3
M_DATA48 M_DATA49
L23 N1 7
M_RESET_L
M_DATA50
M_EVENT_L
M_DATA51
F15 E1 5
M_CKE0
M_DATA54
M_CKE1
M_DATA55
M_DATA52 M_DATA53
M_DATA56
5 D IMM 0 _O DT 0 5 D IMM 0 _O DT 1 6 D IMM 1 _O DT 0 6 D IMM 1 _O DT 1 5 D IMM 0 _C S # 0 5 D IMM 0 _C S # 1 6 D IMM 1 _C S # 0 6 D IMM 1 _C S # 1 5, 6 5, 6 5, 6
ME M _ RA S # ME M _ CA S # ME M _ W E #
W19 V1 5 U1 9 W15 T17 W16 U1 7 V1 6 U1 8 V1 9 V1 7
MEM _ DA T A0 MEM _ DA T A1 MEM _ DA T A2 MEM _ DA T A3 MEM _ DA T A4 MEM _ DA T A5 MEM _ DA T A6 MEM _ DA T A7
C18 A 19 B 21 D20 A 18 B 18 A 21 C20
MEM _ DA T A8 MEM _ DA T A9 MEM _ DA T A1 0 MEM _ DA T A1 1 MEM _ DA T A1 2 MEM _ DA T A1 3 MEM _ DA T A1 4 MEM _ DA T A1 5
C23 D23 F 23 F 22 C22 D22 F 20 F 21
MEM _ DA T A1 6 MEM _ DA T A1 7 MEM _ DA T A1 8 MEM _ DA T A1 9 MEM _ DA T A2 0 MEM _ DA T A2 1 MEM _ DA T A2 2 MEM _ DA T A2 3
H21 H23 K 22 K 21 G23 H20 K 20 K 23
MEM _ DA T A2 4 MEM _ DA T A2 5 MEM _ DA T A2 6 MEM _ DA T A2 7 MEM _ DA T A2 8 MEM _ DA T A2 9 MEM _ DA T A3 0 MEM _ DA T A3 1
N23 P 21 T20 T23 M20 P 20 R23 T22
MEM _ DA T A3 2 MEM _ DA T A3 3 MEM _ DA T A3 4 MEM _ DA T A3 5 MEM _ DA T A3 6 MEM _ DA T A3 7 MEM _ DA T A3 8 MEM _ DA T A3 9
M_ADD8
M_DATA15
5 ,6
B 14 A 15 A 17 D18 A 14 C14 C16 D16
M0_ODT0
M_DATA57 M_DATA58
M0_ODT1
M_DATA59
M1_ODT0
M_DATA60
M1_ODT1
M_DATA61 M_DATA62
M0_CS_L0
M_DATA63
V 20 V 21 Y23 Y22 T21 U23 W 23 Y21
MEM _ DA T A4 0 MEM _ DA T A4 1 MEM _ DA T A4 2 MEM _ DA T A4 3 MEM _ DA T A4 4 MEM _ DA T A4 5 MEM _ DA T A4 6 MEM _ DA T A4 7
Y20 A B2 2 A C1 9 A A1 8 A A2 3 A A2 0 A B1 9 Y18
MEM _ DA T A4 8 MEM _ DA T A4 9 MEM _ DA T A5 0 MEM _ DA T A5 1 MEM _ DA T A5 2 MEM _ DA T A5 3 MEM _ DA T A5 4 MEM _ DA T A5 5
A C1 7 Y16 A B1 4 A C1 4 A C1 8 A B1 8 A B1 5 A C1 5
MEM _ DA T A5 6 MEM _ DA T A5 7 MEM _ DA T A5 8 MEM _ DA T A5 9 MEM _ DA T A6 0 MEM _ DA T A6 1 MEM _ DA T A6 2 MEM _ DA T A6 3
M0_CS_L1 M1_CS_L0 M1_CS_L1
M_VREF
For W250BAQ U1 A VGA _ R XP0 VGA _ R XN0
7 7
VGA _ R XP1 VGA _ R XN1
7 7
VG A_ RXP2 VG A_ RXN 2
7 7
VG A_ RXP3 VG A_ RXN 3 ON _Z V DD
1 VS R2
1 5 C _U MI_ P _ R X 2 1 5 C _U MI_ N _ RX 2
M_ZVDDIO_MEM_S
P_GPP_RXP3
P_GPP_TXP1 P_GPP_TXN1 P_GPP_TXP2
F / I E I C P
P_GPP_RXN2
P_GPP_RXN3 P_ZVDD_10
P_GPP_TXN2 P_GPP_TXP3 P_GPP_TXN3 P_ZVSS
P_UMI_RXP0
AB 6 AC6
C1 C2
* 0. u1 _1 0V_ X7R _ 40 * 0. u1 _1 0V_ X7R _ 40
V G A_ TXP0 7 V G A_ TXN 0 7
AB 3 AC3
C3 C4
* 0. u1 _1 0V_ X7R _ 40 * 0. u1 _1 0V_ X7R _ 40
V G A_ TXP1 7 V G A_ TXN 1 7
Y1 Y2
C5 C6
* 0. u1 _1 0V_ X7R _ 40 * 0. u1 _1 0V_ X7R _ 40
V G A_ T XP2 7 V G A_ T XN2 7
V3 V4
C7 C8
* 0. u1 _1 0V_ X7R _ 40 * 0. u1 _1 0V_ X7R _ 40
V G A_ T XP3 7 V G A_ T XN3 7
AA 1 4
ON _ Z V SS
R 1
Sheet 2 of 41 ONTARIO MEM & PCIE I/F, AP
1 .2 7K _ 1 % _ 0 4
P_UMI_RXP1 P_UMI_RXN1
P_UMI_RXP2
P_UMI_RXP3
P_UMI_TXN0
AB 1 2 AC1 2
C9 C1 0
0 .1 u_ 10V _ X7 R_ 04 0 .1 u _ 10 V _ X7 R_ 0 4
C_ U MI_ P _ T X0 1 5 C_ U MI_ N _ TX0 1 5
P_UMI_TXP1 P_UMI_TXN1
AC1 1 AB 1 1
C1 1 C1 2
0 .1 u _ 10 V _ X7 R_ 0 4 0 .1 u _ 10 V _ X7 R_ 0 4
C_ U MI_ P _ T X1 1 5 C_ U MI_ N _ TX1 1 5
AA 8 Y8
C1 3 C1 4
0 .1 u _ 10 V _ X7 R_ 0 4 0 .1 u _ 10 V _ X7 R_ 0 4
C_ U MI_ P _ T X2 1 5 C_ U MI_ N _ TX2 1 5
AB 8 AC8
C1 5 C1 6
0 .1 u _ 10 V _ X7 R_ 0 4 0 .1 u _ 10V _ X 7 R_ 0 4
C_ U MI_ P _ T X3 1 5 C_ U MI_ N _ TX3 1 5
P_UMI_TXP0
P_UMI_RXN0
A C7 AB 7
F / I I
M U
P_UMI_RXN2
P_UMI_TXP2 P_UMI_TXN2 P_UMI_TXP3
P_UMI_RXN3
P_UMI_TXN3
O NT AR IO_ AP U
ROUTE A-LINKDIFF PAIR@ 85 OHM +/- 10% C8 4 2
C 84 3
C844
1 0 u_ 6 .3 V _ X 5 R_ 0 6 0 .1u _ 1 0 V_ X7R _ 04 1 0 0 0 p_ 5 0 V _ X 7R _ 0 4
1 .5 V
VT T _M EM
R 67 8 1 K_ 1 % _0 4
Analog Thermal Sensor 3. 3V
* 0 _ 04 0 _ 04
3 9 . 2 _1 % _ 0 4
2
R 68 1 1 K_ 1 % _0 4
3
C 3 65 0 .1 u _ 10 V_ X5 R_ 0 4
O N TA R IO _A PU
Note: Openthe sodlermaskfor Vias on Mem interface
Y4 Y3
PART 2OF5
P_GPP_RXN1
A B1 0 A C1 0
1 5 C _U MI_ P _ R X 3 1 5 C _U MI_ N _ RX 3
M_CAS_L M_WE_L
P_GPP_RXP2
A A1 0 Y1 0
1 .5 V R 6
P_GPP_RXP1
AA 1 AA 2
Y1 4
P_GPP_TXP0 P_GPP_TXN0 ONTARIO(2.0)
AB 4 A C4
A A1 2 Y1 2
1 5 C _U MI_ P _ R X 1 1 5 C _U MI_ N _ RX 1
M_RAS_L
M 2 2 M E M _Z VDD IO
P_GPP_RXP0 P_GPP_RXN0
2 K _ 1% _ 0 4
1 5 C _U MI_ P _ R X 0 1 5 C _U MI_ N _ RX 0
R 6 79 R 68 0
M23
AA 6 Y6
7 7
Q1 5 VC C
OU T
G ND G 7 11 ST 9 U
1
1:2 (4mils:8mils)
0 .1u _ 1 0 V_ X 5R _ 0 4
R6 connectionto VDDIO_SUSshould bedirectly to theplanewith outalongtrace
T HE RM _ VOL T 2 7
C3 6 4
PLACE NEAR U1
1
3
2
ONTARIO MEM & PCIE I/F, AP B - 3
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
ONTATIO DISPLAY/ CLK/ MISC ONTARIO DISPLAY/CLK/MISC
1 .8 V S R 11 R 12
1K_04 1K_04
C P U_ S V C C P U_ S V D
R 14
3 0 0_ 1 % _ 0 4
A PU _ P W R G D
U1B 8 A
3 .3 V
3 .3 V S
R1 5 R2 2 R1 7 R1 9 R2 4 R2 0
*1 K _0 4 1K _ 04 1K _ 04 1K _ 04 1K _ 04 1K _ 04
A P U _ TH E R MT R IP # A P U _ TA L ERT # P RO C HO T # A P U _ S IC A P U _ S ID
HDMI 17
s m a r g a i D c i t a m e h c S . B
R2 5
S B_ P RO C HO T #
H DM IB_ D 2B P H DM IB_ D 2B N
21 21
H DM IB_ D 1B P H DM IB_ D 1B N
21 21
H DM IB_ D 0B P H DM IB_ D 0B N
21 21
P R OC H OT #
0_ 0 4
21 21
B9 A9
H D MI B _ C L K B P H D MI B _ C L K B N
20 20
L VDS -L 2P L VDS -L 2N
20 20
L VDS -L 1P L VDS -L 1N
20 20
L VDS -L 0P L VDS -L 0N
LVDS
R 13 3 0 0_ 1 % _ 0 4 L DT _ R S T #
Sheet 3 of 41 ONTATIO DISPLAY/ CLK/ MISC
C 84 0 0 .1 u _1 6 V _ Y 5 V _ 0 4
20 20
L V D S -L CL K P L V D S -L CL K N
15 15
A P U _C L KP A P U _C L KN
15 15
DIS P _ CL K P DIS P _ CL K N
35 35
CP U_ S VC C PU _ S VD
16 16 L D T RS T_ R L D T P W R GD _ R
C21
15 1 5, 35
A1 0 B1 0
TDP 1_ TX P 3
D6 C6
15
C22
D8 C8 V2 V1 D2 D1
A PU _S IC A PU _S ID
R 35 R 36
P3 P4 T3 T4
0_ 04 0_04
L DT R ST _ R L DT PW RG D_ R
0_04
PR OC HO T # AP U _ TH E R MT R IP#
U1 U2 T2
R38
N2 N1 P1 P2 M4 M3 M1
AP U _ TD I AP U _ TD O AP U _ TC K AP U _ TM S AP U _ TR S T # DB RD Y DB RE Q # 35
CP U _ VD DN B _ RU N _ F B_ H 3 5 C PU _V DD 0 _ RU N_ F B _ H
R 4 5 R 4 6
F4 * 1 0 m i l _ s h or t _ 04 VD DC R _ N B_ S EN S E * 1 0 m i l _ s h or t _ 04 VD DC R_ C PU _S EN S E G 1 V D DIO _ S U S _ S E N SE F 3
35 35
R 4 8 R 4 9
* 1 0 m i l _ s h or t _ 04 VS S _ S E NS E * 1 0 m i l _ s h or t _ 04
C PU _V DD 0 _ RU N_ F B _ L C PU _V DD N B _ RU N_ F B _ L
1 T R O P Y A L P S I D
TDP 1_ TX N2
U44 1
5
DP_BLON
H1
TDP1_AUXP
B2 C2
TDP 1_ HP D
LTDP0_TX P0
LTDP0_AUXP
LTDP0_TX N0
LTDP0_AUXN
LTDP0_TX P1
LTDP 0 _HP D
0 T R O P Y A L P S I D
LTDP0_TX N1
LTDP0_TX P2 LTDP0_TX N2
LTDP0_TX P3
DAC_RED DAC_REDB DA C_ GRE E N DAC_GREENB DAC_BLUE
LTDP0_TX N3
DAC_BLUEB
C A D A G V
C L KN I _H C L KN I _L
K L C
DISP _CLKIN_H DISP _CLKIN_L
2 G 2 H
DP _ DIGON DP_VARY_BL
TDP1_AUXN
TDP 1_ TX N3
DAC_HSYNC DAC_VSYNC
DA C_ S CL DAC_SDA
F1 B4 W11 V5
SVC
DA C_ ZV S S
SVD
R E S
SI C SID
TEST4 TEST5 TEST6 TE S T1 4
RESET_L
TE S T1 5
P WRO K
TE S T1 6 TE S T1 7
L R T C
P RO CHO T_ L THE RMTRIP_L
TE S T1 8 TE S T1 9
ALERT_L
T S E T
TDI TDO TCK
TEST25_H TES T25_L TEST28_H TES T28_L TE S T3 1
G A T J
TMS TRS T_L
TEST33_H TES T33_L
DBRDY
TEST34_H
DB RE Q_L
TES T34_L TE S T3 5
VDDCR_NB_SENSE
TE S T3 6
VDDCR_CPU_SENSE
ON D P_ CA LR
R 21
1 5 0 _ 1% _ 0 4
ON _ B L O N ON _ D IGO N ON _ V A R Y
R 16 R 5 98
0_04 0 _04
HD MI_ D D C_ C LK HD MI_ D D C_ D A T A
D3 C1 2 D1 3 A1 2 B1 2 A1 3 B1 3
P O R T C_ H P D LV DS _ D D C _ C LK LV DS _ D D C _ D A T A R 60 * 10 0 K _ 0 4 R 62 * 10 0 K _ 0 4
R 27
1 5 0 _1 % _ 0 4
R 28
1 5 0 _1 % _ 0 4
R 29
TE S T3 7
D A C _R E D
D A C_ B LU E 2 1
1 5 0 _1 % _ 0 4 DA C_ H SY NC 2 1 DA C_ VS Y N C 21
F2 D4 D1 2
DA C _ RS E T
R1 R2 R6 T5 E4 K4 L1 L2 M2 K1 K2 L5 M5 M2 1 J1 8 J1 9 U1 5 T1 5 H4 N5 R5
DA C_ D DC A C L K 2 1 DAC _ DD C A DA T A 2 1
A P U _T H ER MD A A P U _T H ER MD C
R3 1 R3 2
A P U _B P 1 _ T ST UPD _ US CL K 1
*0 _ 0 4 *0 _ 0 4
R 58
A P U _T E ST 1 8_ PL L T ES T 1 A P U _T E ST 1 9_ PL L T ES T 0 A P U _T E ST 2 5_ H _ B Y P A SS C L K A P U _T E ST 2 5_ L _ B Y P AS S CL K
A P U _T E ST 3 3_ H _ M_ C L KT S T _ H A P U _T E ST 3 3_ L _ M _C L K T ST _ L
1 K _0 4 1 K _0 4 5 1 0 _ 1 % _ 04 5 1 0 _ 1 % _ 04
* 1K_04
C 23 C 24
0 . 1u _1 6V _ Y 5V _ 04 0 . 1u _1 6V _ Y 5V _ 04
A P U _T E ST 3 5 A P U _T E ST 3 6
R 44
TE S T3 8 RSVD_1 RSVD_2 RSVD_3
4
A PU _ P W R G D_ B U F R 5 4
* 1K_04
DMA A CTIVE_L
K3 T1
ON _ D MA A CT IV E #
R 50
0_04
1. 8V S
1 .8 VS
R59 1K_04 A PU _ T RS T # R 6 5 R 66 R 67 R68
* * * *
0 _0 4 H DT _ T RS T # 1 0K _ 04 1 0K _ 04 1 0K _ 04
H DT + H EA D E R / P L AC E O N T O P
1 3 5 7 9 11 13 15 17 19
J1 CPU_VDDIO
CP U_ TCK
GND
CP U_T MS
GND GND
CP U_ TDI CPU_TDO
CP U_ TRS T_L
CPU_PWROK_BUF
CPU_DBRDY3 CPU_DBRDY2
CP U_ RS T_L_B UF CPU_DBRDY0
CPU_DBRDY1
CPU_DBREQ_L
GND
CPU_PLLTEST0
CPU_VDDIO
CPU_PLLTEST1
* HD R 10 X2 - B LU E - VE R T ICAL P L UG
B - 4 ONTATIO DISPLAY/ CLK/ MISC
5 1 _ 04 5 1 _ 04
A L LO W _ L D T ST P 1 5
R5 1
Reserve 3
R 42 R 43
* 1K 0_ 4
ON TA RIO (2 .0)
* 74 A H C 1 G 0 8 G W
2
1 6 ,17 ,2 7 1 6 ,17 ,2 7
VSS_SENSE
1. 8V S 5
AP U _ SIC AP U _ SID
1. 8V S
R5 6
R5 2
1 .8 V S R 53
0_04 0_04
S MD _ CP U_ T HE RM S MC _ CP U_ T HE RM
1 K _0 4
R 37 R 39 R 40 R 41
3
U45 1
R 33 R 34
4 9 9 _1 % _ 0 4
1K_04 1K_04 1K_04 L DT _ R ST # _ BUF
2 1
D A C_ G R E E N 2 1
E1 E2
ON T A R IO_ A P U
4
1 0 0 K _0 4 1 0 0 K _0 4 1 0 0 K _0 4
2 1
P A RT3 OF 5
* 74 A H C 1 G 0 8 G W
R 5 91 R 5 92 R 5 93
LV DS _D D C_ C LK 2 0 LV DS _ D D C_ D A T A 2 0 5V S
2
A P U_ P W R GD
O N_ BL O N O N_ D IGO N O N_ VA R Y
HD MI_ D D C_ C LK 2 1 HD MI_ D D C _ D A T A 2 1
C1 A3 B3
BLO N 20 N B _ EN A V D D 2 0
V DDI O_MEM_S _S E NS E
1. 8V S
L DT _ R S T #
C S I M P D
R30 J1 J2
PRO C HO T #
1 6 CP U _ T HE RM T RIP # 1 7 ,2 7 AP U_ T A L E R T #
* 1 50 p F _ N P O _ 50 V_ 0 4 0 2* 1 5 0p F _ N P O _ 50 V _0 4 0 2
A6 B6
A P U_ S IC A P U_ S ID
L D T_ R S T # A P U_ P W RG D
L D T _R S T # A P U _P W R GD
TDP 1_ TX P 1 TDP 1_ TX N1
TDP 1_ TX P 2
1 .8 V S
DP_ZVSS
TDP 1_ TX N0
D1 0 C1 0
B5 A5
3 H
ANALOG/DISPLAY /MISC TDP 1_ TX P 0
B8
1 .8 V S
2 4 6 8 10 12 14 16 18 20
A PU _ T CK R6 1 A PU _ T MS R6 3 A PU _ T DI R6 4 A PU _ T DO A PU _ P W R G D_ B U F L DT _ R ST # _B UF D B RD Y D B RE Q# R 69 J 1 08 _ P L L T ST 0 R 7 0 J 1 08 _ P L L T S T 1 R7 1
1 K_ 0 4 1 K_ 0 4 1 K_ 0 4
3 0 0_ 1 % _ 0 4 *0 _ 0 4 *0 _ 0 4
AP U _ T E S T 1 9 _P L LT E S T 0 A PU _ T E S T 1 8 _P L LT E S T 1
1 .8 V S
Schematic Diagrams
ONTARIO POWER & DECOUPLING ONTARIO POWER & DECOUPLING 1 .8 V S
VD DC R _C P U U 1C E5 E6 F5 F7 G6 G8 H5 H7 J6 J8 L7 M6 M8 N7 R8
VD DC R _N B
E8 E11 E13 F9 F12 G1 1 G1 3 H9 H1 2 K11 K13 L10 L12 L14 M1 1 M1 2 M1 3 N1 0 N1 2 N1 4 P11 P13
1 .5 V
C30
VDDCR_CPU_1
VDD_18_1
VDDCR_CPU_2
VDD_18_2
VDDCR_CPU_3
VDD_18_3
VDDCR_CPU_4
VDD_18_4
VDDCR_CPU_5
VDD_18_5
VDDCR_CPU_6
VDD_18_6
VDDCR_CPU_7
VDD_18_7
C 26
C27
C 28
C3 1
U1D A7 B7 B1 1 B1 7 B2 2 C4 D5 D7 D9 D1 1 D1 4 B1 5 D1 7 D1 9 E7 E9 E1 2 E2 0 F8 F11 F13 G4 G5 G7 G9 G1 2 G2 0 G2 2 H6 H1 1 H1 3 J4 J5 J7 J20 K1 0 K1 4 L4 L6 L8 L11 L13 L20 L22 M7 N4 N6 N8 N1 1
10 u _ 6 .3 V _ X5 R_ 0 6 1 u _ 6 .3 V _ X 5 R_ 0 4 1 u_ 6 .3 V _ X 5 R _ 04 1 u_ 6 .3 V_ X 5 R _ 04 * 1 u _6 .3 V _X 5 R _ 0 4 0. 1u _ 1 0 V_ X 5 R_ 0 4
C869
C 87 1
C870
VDDCR_CPU_8
*1 0 u _ 6 .3 V _ X5R _ 0 6 *1 0 u _ 6 .3 V _ X 5R _ 0 6 * 1 0u _ 6 .3 V _ X 5 R _0 6
VDDCR_CPU_9 VDDCR_CPU_10 VDDCR_CPU_11 VDDCR_CPU_12 VDDCR_CPU_13 VDDCR_CPU_14 VDDCR_CPU_15
V D DA N _ 1 8 _ DA C
VDDCR_NB_1
VDD_18_DAC
W 9
1 .8 VS
R 73
0 _0 4
VDDCR_NB_2 VDDCR_NB_3 VDDCR_NB_4 VDDCR_NB_5
C872
ONTARIO (2.0) PART4OF5
C 32
C33
1 0 u _ 6 .3 V_ X 5R _ 0 6 *1 0 u _ 6 .3 V _ X5R _ 0 6 1 u _ 6 .3 V _ X 5 R_ 0 4
VDDCR_NB_6 VDDCR_NB_7 VDDCR_NB_8 VDDCR_NB_9 VDDCR_NB_11 VDDCR_NB_12 VDDCR_NB_13 VDDCR_NB_14 VDDCR_NB_15
1V S
V DD P L _ 1 0
VDDCR_NB_10
R E W O P
V DDP L_10
U11
L63
C34
C35
.
HC B 1 6 0 8 K F -1 2 1 T 2 5 C 36
VDDCR_NB_16
1 0u _ 6 .3 V _ X 5 R _0 6 0 .1 u _ 1 0 V_ X 5 R_ 0 4 1 u _ 6. 3V _ X5 R _ 0 4
VDDCR_NB_17 VDDCR_NB_18 VDDCR_NB_19 VDDCR_NB_20
1VS
VDDCR_NB_21 VDDCR_NB_22
VDD_10_1 VDD_10_2
G1 6 G1 9 E17 J16 L16 L19 N1 6 R1 6 R1 9 W18 U1 6
U8 W 8 U6 U9 W 6 T7 V7
C29
VDD_10_3 V DDI O_ME M_S _1
VDD_10_4
U13 W 13 V 12 T12 C37
V DDI O_ME M_S _2
C38
C 39
C4 0
C41
C42
V DDI O_ME M_S _3
1 0u _ 6 .3 V_ X 5 R _0 6 1 u _ 6 .3 V _ X5 R_ 0 4 0 .1 u _1 0 V _ X 5 R _ 04 1 0 u _ 6 .3 V _ X5 R _ 0 6 1 u _ 6 .3 V _ X 5 R_ 0 4 0 .1 u _ 1 0 V_ X 5 R_ 0 4
V DDI O_ME M_S _4 V DDI O_ME M_S _5 V DDI O_ME M_S _6 V DDI O_ME M_S _7 V DDI O_ME M_S _8
3 .3 V S
V DDI O_ME M_S _9
C8 7 3
C874
V S S _1 V S S _2
ON TA RIO 2 ( . 0) P A RT 5 O F 5
VSS_50 VSS_51
V S S _3
VSS_52
V S S _4
VSS_53
V S S _5
VSS_54
V S S _6
VSS_55
V S S _7
VSS_56
V S S _8
VSS_57
V S S _9
VSS_58
V S S _10
VSS_59
V S S _11
VSS_60
V S S _12
VSS_61
V S S _13
VSS_62
V S S _14 V S S _15
VSS_63 VSS_64
V S S _16
VSS_65
V S S _17
VSS_66
V S S _18
VSS_67
V S S _19
VSS_68
V S S _20
VSS_69
V S S _21
VSS_70
V S S _22
VSS_71
V S S _23
VSS_72
V S S _24
VSS_73
V S S _25
VSS_74
D N U O R G
V S S _26 V S S _27 V S S _28 V S S _29
VSS_75 VSS_76 VSS_77 VSS_78
V S S _30
VSS_79
V S S _31
VSS_80
V S S _32
VSS_81
V S S _33
VSS_82
V S S _34
VSS_83
V S S _35
VSS_84
V S S _36
VSS_85
V S S _37
VSS_86
V S S _38
VSS_87
V S S _39
VSS_88
V S S _40
VSS_89
V S S _41
VSS_90
V S S _42
VSS_91
V S S _43
VSS_92
V S S _44
VSS_93
V S S _45
VSS_94
V S S _46 V S S _47
VSS_95 VSS_96
V S S _48
VSS_97
V S S _49
V S S B G _DA C
N1 3 N2 0 N2 2 P1 0 P1 4 R4 R7 R2 0 T6 T9 T11 T13 U4 U5 U7 U1 2 U2 0 U2 2 V8 V9 V1 1 V1 3 W1 W2 W4 W5 W7 W12 W20 Y5 Y7 Y9 Y1 1 Y1 3 Y1 5 Y1 7 Y1 9 AA 4 AA 2 2 AB 2 AB 5 AB 9 AB 1 3 AB 1 7 AB 2 1 AC 5 AC 9 AC 1 3 A1 1
Sheet 4 of 41 ONTARIO POWER & DECOUPLING
C875
V DDI O_ME M_S _10 V DDI O_ME M_S _11
VDD_33
A4
O NT A RI O _ A P U
*1 0 u _ 6 .3 V _ X5 R_ 0 6 * 1 0 u _6 .3 V _X 5 R _ 0 6 *1 0 u _ 6 .3 V _ X 5R _ 0 6
O N TA RIO _ AP U
C43
V D D CR _ CP U
1 u _ 6 .3 V _ X5 R_ 0 4 1 .5 V
C44
C 45
C4 6
C47
C48
C 49
C5 0
1 0 u _ 6 .3 V _ X 5 R_ 0 6 1 0 u _6 .3 V _X 5 R _ 0 6 1 0 u _ 6 .3 V _ X5 R_ 0 6 1 0 u _6 .3 V _X 5 R _ 0 6 1 0 u _ 6 .3 V _ X 5R _ 0 6 1 0u _ 6 .3 V_ X 5 R _0 6 1 0 u _ 6 .3 V _ X 5R _ 0 6
C5 1
C52
C5 3
C54
10 u _ 6 .3 V _ X 5 R_ 0 6 *2 2 u _ 6 .3 V _ X 5 R_ 0 8 1 0 u _ 6 .3 V _ X 5 R_ 0 6 *2 2 u _ 6 .3 V _ X5R _ 0 8
C55
C 56
C5 7
C58
C59
C 60
C6 1
C62
C63
1 u _ 6 .3 V _ X5 R _ 0 4 1 u _ 6. 3V _ X5 R _ 0 4 0 .1 u _ 10 V _X 5 R _ 0 4 0. 1u _ 1 0 V _ X5 R_ 0 4 0. 1u _ 1 0 V_ X 5 R_ 0 4 1 u _ 6 .3 V_ X 5 R_ 0 4 1 u _ 6 .3 V_ X 5 R_ 0 4 0 .1 u _ 1 0 V _ X 5R _ 0 4 0 .1 u_ 1 0 V _ X5 R _0 4
C6 4
EMC CAPS 1 .5 V
V D DC R _ CP U
V D D CR _ NB
C65
C6 6
0 .1 u _ 1 0 V _ X 5 R_ 0 4 * 0 .1 u _1 0 V _ X 7 R _ 04 0 .1 u _ 1 0 V _ X 5 R_ 0 4
1. 5V
V DD C R_ N B C67
C75
C 76
C7 7
C78
C68
1 0 u _ 6 .3 V _ X 5 R_ 0 6 1 0 u _6 .3 V _X 5 R _ 0 6 1 0 u _ 6 .3 V _ X5 R_ 0 6 1 0 u _ 6 .3 V _ X 5 R_ 0 6 1 0u _ 6 .3 V_ X 5 R _0 6
V D DA N_ 1 8 _ DA C
C84
C 90
C9 1
C92
C93
C 94
C70
C 71
1 8 0 P _ 5 0V _ NP O _ 0 4 1 80 P _5 0 V _ N P O _ 0 4
C7 2
C73
1 8 0 P _ 5 0 V _ NP O _ 0 4 1 8 0P _ 50 V _N P O _ 0 4
C7 4
0 .1 u _ 1 0 V _ X 5 R_ 0 4 * 0. 1u _ 1 0 V _ X 7 R_ 0 4
3. 3V S 1 .8 VS
1 8 0 P _ 5 0 V _ N P O _0 4 C89
C6 9
1 80 P _5 0 V _ N P O _ 0 4 1 8 0 P _ 5 0 V _ N P O _0 4
C79
C9 5
C96
C97
C8 5 1 8 0 P _ 5 0V _ NP O _ 0 4
C8 0
C81
C8 2
C83
1 u _ 6. 3V _ X5 R _ 0 4 1 u _ 6. 3V _ X5 R _ 0 4 1 u _6 .3 V _X5 R _ 0 4 *1 u _ 6 .3 V _ X 5 R_ 0 4
V D D P L _ 10
1 VS
C8 6 1 8 0 P_ 5 0V _ NPO _ 0 4
C8 7 1 8 0 P _ 5 0 V _ NP O _ 0 4
C88 0 .1 u _ 1 0 V _ X5 R_ 0 4
1 u _ 6 .3 V _ X5 R _ 0 4 1 u _ 6. 3V _ X5 R _ 0 4 1 u _ 6 .3 V _ X 5 R_ 0 4 0 .1 u _ 10 V _X 5 R _ 0 4 0. 1u _ 1 0 V_ X 5 R_ 0 4 1 u _ 6 .3 V _ X 5 R_ 0 4 1 u _ 6 .3 V_ X 5 R_ 0 4 0 .1 u _ 1 0 V _ X 5R _ 0 4 0 .1 u_ 1 0 V _ X5 R _0 4
ONTARIO POWER & DECOUPLING B - 5
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
INAGUA DDR3 SO-DIMMS A SO-DIMM A
INAGUA DDR3 SO-DIMMS A
2,6 MEM _ADDR[15:0] MEM_ ADDR 0 MEM_ ADDR 1 MEM_ ADDR 2 MEM_ ADDR 3 MEM_ ADDR 4 MEM_ ADDR 5 MEM_ ADDR 6 MEM_ ADDR 7 MEM_ ADDR 8 MEM_ ADDR 9 MEM_ ADDR 10 MEM_ ADDR 11 MEM_ ADDR 12 MEM_ ADDR 13 MEM_ ADDR 14 MEM_ ADDR 15
s m a r g a i D c i t a m e h c S . B
MEM _DAT A[63:0 ] 2,6
JDIMM1A A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10/AP A11 A12/BC# A13 A14 A15
DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 DQ32 DQ33 DQ34 DQ35 DQ36 DQ37 DQ38 DQ39 DQ40 DQ41 DQ42 DQ43 DQ44 DQ45 DQ46 DQ47 DQ48 DQ49 DQ50 DQ51 DQ52 DQ53 DQ54 DQ55 DQ56 DQ57 DQ58 DQ59 DQ60 DQ61 DQ62 DQ63
109 108 BA0 79 BA1 114 BA2 121 S0# 101 S1# 103 CK0 102 CK0# 104 CK1 73 CK1# 74 CKE0 115 CKE1 110 CAS# 113 RAS# # 197 WE 201 SA0 202 SA1 200 SCL SDA
2,6 MEM_BANK0 2,6 MEM_BANK1 2,6 MEM_BANK2 2 DIMM0_CS#0 2 DIMM0_CS#1 2 MEM _CLK_H 0 2 MEM _CLK_L 0 2 MEM _CLK_H 1 2 MEM _CLK_L 1 2,6 MEM_CKE0 2,6 MEM_CKE1 2,6 M EM_CAS# 2,6 M EM_RAS# 2,6 MEM_WE#
Sheet 5 of 41 INAGUA DDR3 SODIMMS A
98 97 96 95 92 91 90 86 89 85 107 84 83 119 80 78
6,10,16 SCLK0 6,10,16 SDATA0
116 120
2 DIMM0_ODT0 2 DIMM0_ODT1 2,6 M EM_DM[7: 0]
MEM_DM0 MEM_DM1 MEM_DM2 MEM_DM3 MEM_DM4 MEM_DM5 MEM_DM6 MEM_DM7
ODT0 ODT1
11 28 46 63 136 153 170 187
DM0 DM1 DM2 DM3 DM4 DM5 DM6 DM7
12 29 47 64 137 154 171 188
2,6 MEM_DQS_H0 2,6 MEM_DQS_H1 2,6 MEM_DQS_H2 2,6 MEM_DQS_H3 2,6 MEM_DQS_H4 2,6 MEM_DQS_H5 2,6 MEM_DQS_H6 2,6 MEM_DQS_H7
DQS0 DQS1 DQS2 DQS3 DQS4 DQS5 DQS6 DQS7
10 27 45 62 135 152 169 186
2,6 MEM_DQS_L0 2,6 MEM_DQS_L1 2,6 MEM_DQS_L2 2,6 MEM_DQS_L3 2,6 MEM_DQS_L4 2,6 MEM_DQS_L5 2,6 MEM_DQS_L6 2,6 MEM_DQS_L7
DQS0# DQS1# DQS2# DQS3# DQS4# DQS5# DQS6# DQS7#
5 7 15 17 4 6 16 18 21 23 33 35 22 24 34 36 39 41 51 53 40 42 50 52 57 59 67 69 56 58 68 70 12 9 13 1 14 1 14 3 13 0 13 2 14 0 14 2 14 7 14 9 15 7 15 9 14 6 14 8 15 8 16 0 16 3 16 5 17 5 17 7 16 4 16 6 17 4 17 6 18 1 18 3 19 1 19 3 18 0 18 2 19 2 19 4
MEM_DATA0 MEM_DATA1 MEM_DATA2 MEM_DATA3 MEM_DATA4 MEM_DATA5 MEM_DATA6 MEM_DATA7 MEM_DATA8 MEM_DATA9 MEM_DATA10 MEM_DATA11 MEM_DATA12 MEM_DATA13 MEM_DATA14 MEM_DATA15 MEM_DATA16 MEM_DATA17 MEM_DATA18 MEM_DATA19 MEM_DATA20 MEM_DATA21 MEM_DATA22 MEM_DATA23 MEM_DATA24 MEM_DATA25 MEM_DATA26 MEM_DATA27 MEM_DATA28 MEM_DATA29 MEM_DATA30 MEM_DATA31 MEM_DATA32 MEM_DATA33 MEM_DATA34 MEM_DATA35 MEM_DATA36 MEM_DATA37 MEM_DATA38 MEM_DATA39 MEM_DATA40 MEM_DATA41 MEM_DATA42 MEM_DATA43 MEM_DATA44 MEM_DATA45 MEM_DATA46 MEM_DATA47 MEM_DATA48 MEM_DATA49 MEM_DATA50 MEM_DATA51 MEM_DATA52 MEM_DATA53 MEM_DATA54 MEM_DATA55 MEM_DATA56 MEM_DATA57 MEM_DATA58 MEM_DATA59 MEM_DATA60 MEM_DATA61 MEM_DATA62 MEM_DATA63
JDIMM1B
1.5V 75 76 81 82 87 88 93 94 99 100 105 106 111 112 117 118 123 124
3.3VS
20mils C9 8
C99
1u_6.3V_X5R_04 0.1u_16V_Y5V_04
199 1.5V R75
VDDSPD
77 122 NC1 125 NC2 NC TEST
1K _0 4
198 30 EVENT# RESET#
2,6 MEM_EVENT# 2,6 MEM_RESET# MVREF_DIMM0
C100
VDD1 VDD2 VDD3 VDD4 VDD5 VDD6 VDD7 VDD8 VDD9 VDD10 VDD11 VDD12 VDD13 VDD14 VDD15 VDD16 VDD17 VDD18
1 126 VREF_DQ VREF_CA
C101
C102
1u_6.3V_X5R_04 1000p_50V_X7R_04 0.1u_10V_X7R_04
2 3 8 9 13 14 19 20 25 26 31 32 37 38 43
VSS1 VSS2 VSS3 VSS4 VSS5 VSS6 VSS7 VSS8 VSS9 VSS10 VSS11 VSS12 VSS13 VSS14 VSS15
44 48 49 54 55 60 61 65 66 71 72 12 7 12 8 13 3 13 4 13 8 13 9 14 4 14 5 15 0 15 1 15 5 15 6 16 1 16 2 16 7 16 8 17 2 17 3 17 8 17 9 18 4 18 5 18 9 19 0 19 5 19 6
VSS16 VSS17 VSS18 VSS19 VSS20 VSS21 VSS22 VSS23 VSS24 VSS25 VSS26 VSS27 VSS28 VSS29 VSS30 VSS31 VSS32 VSS33 VSS34 VSS35 VSS36 VSS37 VSS38 VSS39 VSS40 VSS41 VSS42 VSS43 VSS44 VSS45 VSS46 VSS47 VSS48 VSS49 VSS50 VSS51 VSS52
VTT_MEM 20 3 20 4
VTT1 VTT2
GND1 GND2
G1 G2
DDRRK-20401-TR4B
DDRRK-20401-TR4B
(REV)4.0mm
CLOSE TO SO-DIMM A
1.5V
1.5V
+C104
+
C105
C106
C107
C108
C109
C110
C111
C112
C113
*150u_4V_B_A *220u_4V_V_A 10u_10V_Y5V_ 08 10u_10V_Y5V_08 1u_6.3V_X5R _04 1u_6.3V_X5R_04 10u_10V_Y5V_08 1u_6.3V_X5 R _04 1u_6.3V_X5R _04 1u_6.3V_X5R _04
1.5V
C114
VTT_MEM
C115
C116
C117
C118
C119
C120
C121
C122
C123
0.1u_16V_Y5V_04 0.1u_16V_Y5V_04 0.1u_16V_Y5V_04 0.1u_16V_Y5V_04 0.1u_16V_Y5V_04 0.1u_16V_Y5V_04 0.1u_16V_Y5V_04 0.1u_16V_Y5V_04 0.1u_16V_Y5V_04 0.1u_16V_Y5V_04
B - 6 INAGUA DDR3 SO-DIMMS A
C124
C125
C126
C127
C128
10u_10V_Y5V_08 1u_6.3V_X5R_04 1u_6.3V_X5R_04 1u_6.3V_X5R_04 1u_6.3V_X5R_04
R7 6
1K _1 % _ 04
MVREF_DI MM 0
R77
C103
1K_1%_04
0.1u_10V_X5R_04
Schematic Diagrams
INAGUA DDR3 SO-DIMMS B SO-DIMM B
INAGUA DDR3 SO-DIMMS B
2,5 MEM_ADDR[15:0 ] MEM_ADDR0 MEM_ADDR1 MEM_ADDR2 MEM_ADDR3 MEM_ADDR4 MEM_ADDR5 MEM_ADDR6 MEM_ADDR7 MEM_ADDR8 MEM_ADDR9 MEM_ADDR10 MEM_ADDR11 MEM_ADDR12 MEM_ADDR13 MEM_ADDR14 MEM_ADDR15 2,5 MEM_BANK0 2,5 MEM_BANK1 2,5 MEM_BANK2 2 DIMM1_CS#0 2 DIMM1_CS#1 2 M EM_CLK_H2 2 M EM_CLK_L2 2 M EM_CLK_H3 2 M EM_CLK_L3 2,5 MEM_CKE0 2,5 MEM_CKE1 2,5 M EM_CAS# 2,5 M EM_RAS# 2,5 MEM_WE#
98 97 96 95 92 91 90 86 89 85 107 84 83 119 80 78
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A1 0/A P A1 1 A1 2/B C# A1 3 A1 4 A1 5
109 108 79 114 121 101 103 102 104 73 74 115 110 113 4.7K _04 197 201 202 200
R7 8
3.3VS 5,10,16 SCLK0 5,10,16 SDATA0
MEM_DM0 MEM_DM1 MEM_DM2 MEM_DM3 MEM_DM4 MEM_DM5 MEM_DM6 MEM_DM7
ODT0 ODT1
11 28 46 63 136 153 170 187
DM0 DM1 DM2 DM3 DM4 DM5 DM6 DM7
12 29 47 64 137 154 171 188
2,5 MEM_DQS _H0 2,5 MEM_DQS _H1 2,5 MEM_DQS _H2 2,5 MEM_DQS _H3 2,5 MEM_DQS _H4 2,5 MEM_DQS _H5 2,5 MEM_DQS _H6 2,5 MEM_DQS _H7
DQS0 DQS1 DQS2 DQS3 DQS4 DQS5 DQS6 DQS7
10 27 45 62 135 152 169 186
2,5 MEM_DQS _L0 2,5 MEM_DQS _L1 2,5 MEM_DQS _L2 2,5 MEM_DQS _L3 2,5 MEM_DQS _L4 2,5 MEM_DQS _L5 2,5 MEM_DQS _L6 2,5 MEM_DQS _L7
DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 DQ32 DQ33 DQ34 DQ35 DQ36 DQ37 DQ38 DQ39 DQ40 DQ41 DQ42 DQ43 DQ44 DQ45 DQ46 DQ47 DQ48 DQ49 DQ50 DQ51 DQ52 DQ53 DQ54 DQ55 DQ56 DQ57 DQ58 DQ59 DQ60 DQ61 DQ62 DQ63
BA 0 BA 1 BA 2 S0 # S1 # CK0 CK0# CK1 CK1# CKE0 CKE1 CAS# RAS# WE# SA 0 SA 1 SCL SDA
116 120
2 DIMM1_ODT0 2 DIMM1_ODT1 2,5 MEM_ DM[7: 0]
M EM_DA TA[63:0] 2,5
JDIMM2A
DQS0# DQS1# DQS2# DQS3# DQS4# DQS5# DQS6# DQS7#
5 7 15 17 4 6 16 18 21 23 33 35 22 24 34 36 39 41 51 53 40 42 50 52 57 59 67 69 56 58 68 70 129 131 141 143 130 132 140 142 147 149 157 159 146 148 158 160 163 165 175 177 164 166 174 176 181 183 191 193 180 182 192 194
MEM _DATA0 MEM _DATA1 MEM _DATA2 MEM _DATA3 MEM _DATA4 MEM _DATA5 MEM _DATA6 MEM _DATA7 MEM _DATA8 MEM _DATA9 MEM _DATA10 MEM _DATA11 MEM _DATA12 MEM _DATA13 MEM _DATA14 MEM _DATA15 MEM _DATA16 MEM _DATA17 MEM _DATA18 MEM _DATA19 MEM _DATA20 MEM _DATA21 MEM _DATA22 MEM _DATA23 MEM _DATA24 MEM _DATA25 MEM _DATA26 MEM _DATA27 MEM _DATA28 MEM _DATA29 MEM _DATA30 MEM _DATA31 MEM _DATA32 MEM _DATA33 MEM _DATA34 MEM _DATA35 MEM _DATA36 MEM _DATA37 MEM _DATA38 MEM _DATA39 MEM _DATA40 MEM _DATA41 MEM _DATA42 MEM _DATA43 MEM _DATA44 MEM _DATA45 MEM _DATA46 MEM _DATA47 MEM _DATA48 MEM _DATA49 MEM _DATA50 MEM _DATA51 MEM _DATA52 MEM _DATA53 MEM _DATA54 MEM _DATA55 MEM _DATA56 MEM _DATA57 MEM _DATA58 MEM _DATA59 MEM _DATA60 MEM _DATA61 MEM _DATA62 MEM _DATA63
JDIMM2B
1.5V 75 76 81 82 87 88 93 94 99 100 105 106 111 112 117 118 123 124
3.3VS
20mils C129
C130
1u_6.3V_X5R_04
0.1u_16V_Y5V_04
199
VDD1 VDD2 VDD3 VDD4 VDD5 VDD6 VDD7 VDD8 VDD9 VDD10 VDD11 VDD12 VDD13 VDD14 VDD15 VDD16 VDD17 VDD18 VDDSPD
77 122 NC1 125 NC2 NCTEST 198 30 EVENT# RESET#
2,5 MEM_EVENT# 2,5 MEM_RESET#
1 126
MVREF_DIMM1
C131
C132
C133
1u_6.3V_X5R_04 1000p_50V_ X7R_04 0.1u_10V_X7R_04
2 3 8 9 13 14 19 20 25 26 31 32 37 38 43
VREF_DQ VREF_CA
VSS1 VSS2 VSS3 VSS4 VSS5 VSS6 VSS7 VSS8 VSS9 VSS10 VSS11 VSS12 VSS13 VSS14 VSS15
44 48 49 54 55 60 61 65 66 71 72 127 128 133 134 138 139 144 145 150 151 155 156 161 162 167 168 172 173 178 179 184 185 189 190 195 196
VSS16 VSS17 VSS18 VSS19 VSS20 VSS21 VSS22 VSS23 VSS24 VSS25 VSS26 VSS27 VSS28 VSS29 VSS30 VSS31 VSS32 VSS33 VSS34 VSS35 VSS36 VSS37 VSS38 VSS39 VSS40 VSS41 VSS42 VSS43 VSS44 VSS45 VSS46 VSS47 VSS48 VSS49 VSS50 VSS51 VSS52
Sheet 6 of 41 INAGUA DDR3 SODIMMS B
VTT_MEM 203 204
VTT1 VTT2
GND1 G1 GND2 G2
DDRRK-20401- TP8D
DDRRK-204 01-TP8D
(REV)8.0mm SN:6-86-24204-XXX
CLOSE TOSO-DIMM B
1.5V
R79
1 K_1 %_04
MVREF_DIMM1
1.5V
C135
+
+
C136
C137
C138
C139
C140
C141
C142
C143
C144
R80
C134
1K_1%_04
0.1u_10V_X 5R_04
*220u_4V_V_A 10u_10V_Y5V_08 10u_10V _Y5V_08 1u_6.3V_X5R_04 1u_6.3V_X5R_04 560u_2.5V_6.6*6.6*5. 9 10u_10V_Y5V _08 1u_6.3V_X5R_0 4 1u_6.3V_X 5R_04 1u_6.3V_X5R _04
VTT_MEM
1.5V
C145
C146
C147
C148
C149
C150
C151
C152
C153
C154
0.1u_16V_Y5V_04 0.1u_16V_Y5V_04 0.1u_16V_Y5V_04 0.1u_16V_Y5V_04 0.1u_16V_Y5V_04 0.1u_16V _Y5V_04 0.1u_16V_Y5V_04 0.1u_16V_Y5V_04 0.1u_16V_Y5V_04 0.1u_16V_Y5V_04
C155
C156
C157
C158
C159
10u_10V_Y5V_ 08 1u_6.3V_X5R_04 1u_6. 3V_X5R_04 1u_6. 3V_X5R_ 04 1u_6.3V_X5R_ 04
INAGUA DDR3 SO-DIMMS B B - 7
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
Robson S3 PCIE/ LVDS 1/6
s m a r g a i D c i t a m e h c S . B
Sheet 7 of 41 Robso n S3 PCIE/ LVDS 1/6
B - 8 Robson S3 PCIE/ LVDS 1/6
Schematic Diagrams
Robs on S3 MEM Interface 3/6 COMPONENTS SHOWN ARE EXAMPLES ONLY AND NOT NECESSARILY QUALIFIED
DDR3 Memor y Interface
U4C 13
s m a r g a i D c i t a m e h c S . B
Sheet 9 of 41 Robso n S3 MEM InTERFACE 3/6
14
DQA0_[31..0]
GDDR5/DDR3 DQA0_0 DQA0_1 DQA0_2 DQA0_3 DQA0_4 DQA0_5 DQA0_6 DQA0_7 DQA0_8 DQA0_9 DQA0_10 DQA0_11 DQA0_12 DQA0_13 DQA0_14 DQA0_15 DQA0_16 DQA0_17 DQA0_18 DQA0_19 DQA0_20 DQA0_21 DQA0_22 DQA0_23 DQA0_24 DQA0_25 DQA0_26 DQA0_27 DQA0_28 DQA0_29 DQA0_30 DQA0_31 DQA1_0 DQA1_1 DQA1_2 DQA1_3 DQA1_4 DQA1_5 DQA1_6 DQA1_7 DQA1_8 DQA1_9 DQA1_10 DQA1_11 DQA1_12 DQA1_13 DQA1_14 DQA1_15 DQA1_16 DQA1_17 DQA1_18 DQA1_19 DQA1_20 DQA1_21 DQA1_22 DQA1_23 DQA1_24 DQA1_25 DQA1_26 DQA1_27 DQA1_28 DQA1_29 DQA1_30 DQA1_31
DQA1_[31..0]
PLACEMVREF DIVIDERS AND CAPS CLOSE TO ASIC MVDDQ
Ra
R122 *40.2_1%_04
K27 J29 H30 H32 G29 F28 F32 F30 C30 F27 A28 C28 E27 G26 D26 F25 A25 C25 E25 D24 E23 F23 D22 F21 E21 D20 F19 A19 D18 F17 A17 C17 E17 D16 F15 A15 D14 F13 A13 C13 E11 A11 C11 F11 A9 C9 F9 D8 E7 A7 C7 F7 A5 E5 C3 E1 G7 G6 G1 G3 J6 J1 J3 J5 K26 J26
MVDDQ
Ra
Rb
R123
C204
*100_04
*0.1u_10V_X5R_04
MVDDQ R124
*243_1%_04
R125
*243_1%_04
J25 K25
MAA0_0/MAA_0 MAA0_1/MAA_1 MAA0_2/MAA_2 MAA0_3/MAA_3 MAA0_4/MAA_4 MAA0_5/MAA_5 MAA0_6/MAA0_6 MAA0_7/MAA0_7 MAA1_0/MAA_8 MAA1_1/MAA_9 MAA1_2/MAA_10 MAA1_3/MAA_11 MAA1_4/MAA_12 MAA1_5/MAA_13/BA 2 MAA1_6/MAA_14/BA 0 MAA1_7/MAA_15/BA 1
E C A F R E T N I
WCKA0_0/DQMA_0 WCKA0B_0/DQMA_1 WCKA0_1/DQMA_2 WCKA0B_1/DQMA_3 WCKA1_0/DQMA_4 WCKA1B_0/DQMA_5 WCKA1_1/DQMA_6 WCKA1B_1/DQMA_7
Y R O M E M
DMEM_RST
E32 E30 A21 C21 E13 D12 E3 F4
H27 QSA_0 A27 QSA_1 C23 QSA_2 C19 QSA_3 C15 QSA_4 E9 QSA_5 C5 QSA_6 H4 QSA_7
DDBIA0_0/WD DDBIA0_1/WD DDBIA0_2/WD DDBIA0_3/WD DDBIA1_0/WD DDBIA1_1/WD DDBIA1_2/WD DDBIA1_3/WD
ADBIA0/ODTA0 ADBIA1/ODTA1 CLKA0 CLKA0B CLKA1 CLKA1B RASA0B RASA1B CASA0B CASA1B CSA0B_0 CSA0B_1 CSA1B_0 CSA1B_1
MVREFDA MVREFSA
CKEA0 CKEA1
MEM_CALRN0 MEM_CALRP0
WEA0B WEA1B
CLKA0 CLKA0#
G9 H9
CLKA1 CLKA1#
G22 G17
RASA0# RASA1#
G19 G16
CASA0# CASA1#
H22 J22
CSA0b_0
G13 K13
CSA1b_0
K20 J17
CKEA0 CKEA1
G25 H10
WEA0# WEA1#
G20 G14
MAA0_8/MAA_13 MAA1_8_RSVD
MAA13 MAA1_8
L10
m o r F
*0.1u_ 10V_X5R_04
Debug only,
B - 10 Robson S3 MEM Interface 3/6
1.5V
1.5V/1.8V
40.2R
40.2R
Rb
100R
100R
13
QSA1_[3..0]
QSA0_0B QSA0_1B QSA0_2B QSA0_3B QSA1_0B QSA1_1B QSA1_2B QSA1_3B
14
13 13 13 13 14 14 14 14
O DT A0 O DT A1
13 14
C L KA0 CLKA 0#
13 13
C L KA1 CLKA 1#
14 14
R A SA 0# R A SA 1#
13 14
C A SA 0# C A SA 1#
13 14
CSA0b_0
13
CSA1b_0
14
C KE A0 C KE A1
13 14
W EA 0# W EA 1#
13 14
MA A 13
1 3 ,1 4
25mm (max) DMEM_RST
5mm (max)
25mm (max)
RSER1 *10 _04 1 0 . 0
RSER2 *49.9_1%_04
MEM_RST
13,14
CSHUNT1 *0402_120pF_50V_5%
for cloc k obser vati on, if not needed, DNI
CLKTESTB CLKTESTA
Ra
DQMA1_[3..0] 1 4
QSA0_[3.. 0]
RPD1 *4.99K_1%_04
route 50ohms singl e-ended/100ohms di ff andkeepshort
MVDDQ
A_BA2 13,14 A_BA0 13,14 A_BA1 13,14 DQMA0_[3..0] 13
T97
U P G
CLKTESTA CLKTESTB
C205
DDR3
QSA0_0B QSA0_1B QSA0_2B QSA0_3B QSA1_0B QSA1_1B QSA1_2B QSA1_3B ODTA0 ODTA1
*100_04
GDDR5
QSA0_0 QSA0_1 QSA0_2 QSA0_3 QSA1_0 QSA1_1 QSA1_2 QSA1_3
H26 H25
DRAM_RST
DDR3/GDDR3 Memory Stuff Optio n
DQMA0_0 DQMA0_1 DQMA0_2 DQMA0_3 DQMA1_0 DQMA1_1 DQMA1_2 DQMA1_3
L18 K16
*ROBSONXTS3
Rb
13,14
MAA0 MAA1 MAA2 MAA3 MAA4 MAA5 MAA6 MAA7 MAA8 MAA9 MAA10 MAA11 MAA12
GDDR5 /DDR3
K8 L7 R127
K17 J20 H23 G23 G24 H24 J19 K19 J14 K14 J11 J13 H11 G11 J16 L15
H28 EDCA0_0/RDQSA_0 C27 EDCA0_1/RDQSA_1 A23 EDCA0_2/RDQSA_2 E19 EDCA0_3/RDQSA_3 E15 EDCA1_0/RDQSA_4 D10 EDCA1_1/RDQSA_5 D6 EDCA1_2/RDQSA_6 G5 EDCA1_3/RDQSA_7
R126 *40.2_1%_04
MAA[12..0]
GDDR5/DDR3
DQA0_0/DQA_0 DQA0_1/DQA_1 DQA0_2/DQA_2 DQA0_3/DQA_3 DQA0_4/DQA_4 DQA0_5/DQA_5 DQA0_6/DQA_6 DQA0_7/DQA_7 DQA0_8/DQA_8 DQA0_9/DQA_9 DQA0_10/DQA_10 DQA0_11/DQA_11 DQA0_12/DQA_12 DQA0_13/DQA_13 DQA0_14/DQA_14 DQA0_15/DQA_15 DQA0_16/DQA_16 DQA0_17/DQA_17 DQA0_18/DQA_18 DQA0_19/DQA_19 DQA0_20/DQA_20 DQA0_21/DQA_21 DQA0_22/DQA_22 DQA0_23/DQA_23 DQA0_24/DQA_24 DQA0_25/DQA_25 DQA0_26/DQA_26 DQA0_27/DQA_27 DQA0_28/DQA_28 DQA0_29/DQA_29 DQA0_30/DQA_30 DQA0_31/DQA_31 DQA1_0/DQA_32 DQA1_1/DQA_33 DQA1_2/DQA_34 DQA1_3/DQA_35 DQA1_4/DQA_36 DQA1_5/DQA_37 DQA1_6/DQA_38 DQA1_7/DQA_39 DQA1_8/DQA_40 DQA1_9/DQA_41 DQA1_10/DQA_42 DQA1_11/DQA_43 DQA1_12/DQA_44 DQA1_13/DQA_45 DQA1_14/DQA_46 DQA1_15/DQA_47 DQA1_16/DQA_48 DQA1_17/DQA_49 DQA1_18/DQA_50 DQA1_19/DQA_51 DQA1_20/DQA_52 DQA1_21/DQA_53 DQA1_22/DQA_54 DQA1_23/DQA_55 DQA1_24/DQA_56 DQA1_25/DQA_57 DQA1_26/DQA_58 DQA1_27/DQA_59 DQA1_28/DQA_60 DQA1_29/DQA_61 DQA1_30/DQA_62 DQA1_31/DQA_63
C206
*0.1u_10V_X5R_04 R128
*51.1_1%_04
C207 R129 *0.1u_10V_X5R_04 *51.1_1%_04
Place all these components very close to GPU( Wi thi n 25mm) and keep al l component cl ose to each Ot her (wit hin 5mm) except Rser 2 This basi c topo l ogy s hould be use d for DRAM_RST f or DDR3/ GDDR5.Thes e Capac itor s a nd Resis t or valu es ar e an example o nly. The Seri es R an d || Cap val ues wil l d ep en d on the DRAMl oa d an d wil l h ave to be calc ulate d f or dif fe rent Mem ory ,DRAM Load and board t o pass Reset Sig nal S pec.
Schematic Diagrams
Robson S3 Straps 4/6 GPIO21 MUST BE L OW DURING PERSTB WHEN BEING USED TO CONTROL MVDDQ 3.3VS_GPU
PIN STRAPS
W250BAQ
GPIO0
R130
*10K_04
GPIO0
1
8
GPIO1
R131
*10K_04
8
GPIO2
R132
*10K_04
GPIO1 GPIO2
1 0
8
GPIO8
R133
*10K_04
8
GPIO9
R134
*10K_04
GPIO8 GPIO9
0 0
8
GPIO11
R135
*10K_04
R136
*10K_04
GPIO11 GPIO12
1 0
R137
*10K_04
GPIO13
0
8
8
GPIO12
8
GPIO13
8,21 VSYNC_DA C1 8,21 HSYNC_D AC1 8
GENERICC
8 VSYNC_DAC2 8 HSYNC_DAC2 8
GPIO21
8
GPIO22
8
GPIO5
R138
*10K_04
R139
*10K_04
RECOMMENDED SETTINGS CONFIGURATION STRAPS-- SEE EACH DATAB OOK FOR STRAP DE TAILS
ALLOW FOR PULLUP PADS FOR THESE STRAPS ANDIF THESE GPIOS ARE USED, THEY MUST NOT CONFLICT DURING RESET STRAPS
*10K_04
R141
*10K_04
R142
*10K_04
HSYNC_DAC2 0
R143
*10K_04
R144
*10K_04
GPIO21 GPIO22
0 0
R145
*10K_04
GPIO5
1
GENERICC 1 VSY NC_DAC2 0
R146
R147
PC E I FULL TX OUTP U T SWI NG
GPIO1
PCIE TRANSMITTER DE-EMPHASIS ENABLE D
RSVD RSVD
GPIO2 GPIO8
RESERVED RESERVED
0 0
BIF_VGADIS
G PI O 9
VGAENABLED
0
RSVD
GP I O21
RESERVED
0
GPIO_22_ROMCSB
ROM IDCFG (2:0)
G PIO [13:1 1]
X
E N A B LE E XT E R N A L B I O S R O M
S E R I AL
X
R O M T YP E O R M EM O R Y A P E R T U R E S I Z E S E L EC T
Sheet 10 of 41 Robson S3 Straps 4/6
X XX
VIP_DEVICE_ST RAP_ENA
V2SYNC
IGNOREVIP DEVICESTRAPS(Removed onSeymour/W histler)
X
RSVD
H2S YNC
RESERVED
0
HS YNC VSYNC
S E E D A T A BO O K F O R S E E D A T A BO O K F O R
GE NERI CC
RESERVED
AUD[1] AUD[0]
*2.2K_04
*2.2K_04
*0_04
8
*0_04
7 6
R153
*0_04
5
*2200p_50V_X7R_04
2 D+
ALE RT G ND
DTHERM
GPU_ DPLUS 3 4
8
GPU_ DMINUS 8 R154
*0_04
*W83L771AWG
ALLOW FOR PULLUP PADS FOR THESE STRAPS BUT DO NOT INSTALL RESISTOR. IF THESE GPIOS ARE USED, THEY MUST KEEP "LOW " AND NOT CONFLICT DURING RESET.
VGA_ALERT# 27 R157
0
NOTE1: AMD RESERVED CONFIGURATION STRAPS
VD D
SDATA
*0_04
RSVD
C209
1 SCLK
R152
X X
D E TA I L D E TA I L
C208
U6 R150
MXM_SDATA R151
27 SMD_VGA_THERM
GPIO0
TX_DEEMPH_EN
BI OS_ROM_ EN
3.3VS _GPU *1000p_50V _X7R_04
27 SMC_VGA_THERM
TX_PW R S _ENB
3.3VS_GPU
GPUThermal Sensor
MXM_SCLK
X =DESIGNDEPENDANT NA =NOTAP PLICAB LE
DESCRIP TIONO F DEFA ULTS ETT ING S
X
VSY NC_DAC1 1 HSYNC_DAC1 1
R140
PIN
0=DO NOTINSTALLRESISTO R 1= I NS TALL 3KRESIST OR
GPI O 21
H2SYNC
G EN ER I CC
GPIO8
GPIO2
*2.2K_04 3.3VS_GPU
R155 R156
*0_04
GPU_TALERT# 8,17
3.3VS_GPU
SMBus gating circuit
*2.2K_04 3.3VS_GPU
7 MXM_RST# R159 *6. 8K_1%_04 R160 *6.8 K_1%_04 8
MXM_SDATA
R1 58
*0_04
G
MXM_SDATA
S
G 8
MX M_SCLK
MXM_SCLK
S
Q4 D *MTN7002Z HS3
SDA TA 0
5 ,6,16
SCLK0
5 ,6,16
Q 5 D *MTN7002ZHS3
Robson S3 Straps 4/6 B - 11
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
Robson S3 Power 5/6 U4E
s m a r g a i D c i t a m e h c S . B
Sheet 11 of 41 Robson S3 Power 5/6
AA 27 AB 24 AB 32 AC24 AC26 AC27 AD25 AD32 AE 27 AF 32 AG 27 AH32 K28 K32 L27 M3 2 N25 N27 P25 P32 R27 T2 5 T3 2 U25 U27 V32 W 25 W 26 W 27 Y25 Y32
M6 N11 N12 N13 N16 N18 N21 P6 P9 R12 R15 R17 R20 T1 3 T1 6 T1 8 T2 1 T6 U15 U17 U20 U9 V13 V16 V18 Y10 Y15 Y17 Y20 R11 T1 1
PCIE _VSS#1 PCIE _VSS#2 PCIE _VSS#3 PCIE _VSS#4 PCIE _VSS#5 PCIE _VSS#6 PCIE _VSS#7 PCIE _VSS#8 PCIE _VSS#9 PCIE _VSS#10 PCIE _VSS#11 PCIE _VSS#12 PCIE _VSS#13 PCIE _VSS#14 PCIE _VSS#15 PCIE _VSS#16 PCIE _VSS#17 PCIE _VSS#18 PCIE _VSS#19 PCIE _VSS#20 PCIE _VSS#21 PCIE _VSS#22 PCIE _VSS#23 PCIE _VSS#24 PCIE _VSS#25 PCIE _VSS#26 PCIE _VSS#27 PCIE _VSS#28 PCIE _VSS#29 PCIE _VSS#30 PCIE _VSS#31
GND#56 GND#57 GND#58 GND#59 GND#60 GND#61 GND#62 GND#63 GND#64 GND#65 GND#66 GND#67 GND#68 GND#69 GND#70 GND#71 GND#72 GND#73 GND#74 GND#75 GND#76 GND#77 GND#78 GND#79 GND#80 GND#81 GND#82 GND#83 GND#84 GND#85 GND#86
GND
GND#1 GND#2 GND#3 GND#4 GND#5 GND#6 GND#7 GND#8 GND#9 GND#10 GND#11 GND#12 GND#13 GND#14 GND#15 GND#16 GND#17 GND#18 GND#19 GND#20 GND#21 GND#22 GND#23 GND#24 GND#25 GND#26 GND#27 GND#28 GND#29 GND#30 GND#31 GND#32 GND#33 GND#34 GND#35 GND#36 GND#37 GND#38 GND#39 GND#40 GND#41 GND#42 GND#43 GND#44 GND#45 GND#46 GND#47 GND#48 GND#49 GND#50 GND#51 GND#52 GND#53 GND#54 GND#55
A3 A3 0 AA1 3 AA1 6 AB1 0 AB1 5 AB6 AC9 AD6 AD8 AE7 AG 12 AH10 AH28 B1 0 B1 2 B1 4 B1 6 B1 8 B2 0 B2 2 B2 4 B2 6 B6 B8 C1 C32 E2 8 F10 F12 F14 F16 F18 F2 F20 F22 F24 F26 F6 F8 G10 G27 G31 G8 H14 H17 H2 H20 H6 J27 J31 K1 1 K2 K2 2 K6
PARK/ROBSON- S3 (DP Power) (1.8V@300mA DPAB_VDD18) DPAB_VDD18 U4 G
DPEF_VDD18 *1u_6 .3V_X5 R_04
*HCB1608KF -121T25 C212
A DPEF_ VDD18) LVDS mode (1. 8V@440m 18) DP mode ( 1.8V@300mADPEF_ VDD
C215
*10u_6.3V_08_H125
AG1 5 AG1 6
C213
AG2 0 AG2 1
DPEF_VDD10
L77
AG1 4 AH1 4 AM1 4 AM1 6 AM1 8
*HCB1608KF -121T25 C219
C220 C221
240m A DPEF_VDD10) *10u_6.3V_08_H125 LVDS mode (1. 0V@ A DPEF_ VD D10) DP mode (1. 0V@220m
B - 12 Robson S3 Power 5/6
C210
AE1 1 DPA_VDD18#1 AF1 1 DPA_VDD18#2
DPE_VDD10#1 DPE_VDD10#2
AF6 DPA_VDD10#1 AF7 DPA_VDD10#2
*0.1u_10V_X5R _04
*1u_6. 3V_X 5R_04
DPE_VSSR#1 DPE_VSSR#2 DPE_VSSR#3 DPE_VSSR#4 DPE_VSSR#5
AE1 DPA_VSSR#1 AE3 DPA_VSSR#2 AG 1 DPA_VSSR#3 AG 6 DPA_VSSR#4 AH5 DPA_VSSR#5
DPF_VDD18#1 DPF_VDD18#2
AE1 3 DPB_VDD18#1 AF1 3 DPB_VDD18#2
DPF_VDD10#1 DPF_VDD10#2
AF8 DPB_VDD10#1 AF9 DPB_VDD10#2
AF2 3 AG2 3 AM2 0 AM2 2 AM2 4
R162
C216
C217
*0. 1u_ 10V_X5R_04
*150_1%_ A 04 F1 7
DPAB_VDD10
DPF_VSSR#1 DPF_VSSR#2 DPF_VSSR#3 DPF_VSSR#4 DPF_VSSR#5
DPEF_CALR
DPAB_CALR
AE1 0 R163
*150_1%_04 DPAB_VDD18
DP PLL POW ER DPE_PVDD DPE_PVSS
AG 8 DPA_PVDD AG 7 DPA_PVSS
DPF_PVDD DPF_PVSS
AG 10 DPB_PVDD AG 11 DPB_PVSS
DPEF_VDD18
DPAB_VDD18 AG1 9 AF2 0
L74
C211
*HCB1608KF-121T25
*10u_6.3V_08_H125
A DPAB_VDD10)L76 C218
1.0V_REG
*H CB 1608KF-121T25
*10u_6.3V_08_H125
*1u_6.3V_X5R_04
AF1 0 DPB_VSSR#1 AG 9 DPB_VSSR#2 AH8 DPB_VSSR#3 AM 6 DPB_VSSR#4 AM 8 DPB_VSSR#5
DPEF_VDD18 AG1 8 AF1 9
A3 2 VSS_ME CH# 1 AM 1 VSS_ME CH# 2 AM 32 VSS_ME CH# 3
DPAB_VDD10 (1.0V@220m
DPEF_VDD10 AF2 2 AG2 2
C214
*0.1 u_10V_X 5R_04
DPAB_VDD18 AF1 6 AG1 7
DPEF_VDD18
*ROBS ON XTS3
*R O BSO N XTS3
DP A/B PO WER
DPE_VDD18#1 DPE_VDD18#2
*0. 1u_10V _X5R_04
1.0V_REG
1.8V _RE G
*1u_6.3V_X5R_ 04
DPE/ F POW ER 1.8V_REG L75
Schematic Diagrams
Robson S3 Power 6/6 MVDDQ 2.8A 21 0mi l
MV DDQ C22 2
C2 23
* 0.1 u_ 1 0V_ X5 R_ 04
*0 .1u _ 10 V_X5R_ 0 4
C22 4
C 22 5
C2 26
* 0.1 u_ 10 V_X5 R_0 4 * 0.1 u_ 1 0V_ X5 R_ 04
C23 2
C 23 3
*1 u_ 6 .3V_ X5 R_ 04
C24 8
C2 3 4
C24 9
* 10 u_ 6.3 V_0 8 _H1 2 5
C2 28
* 1u _6 .3 V_ X5R_ 0 4 C2 2 9
C23 0
* 0.1 u _ 1 0V_ X5 R_ 04
C 23 1
U4D
C2 35
H1 3 H1 6 H1 9 J1 0 J2 3 J2 4 J9 K1 0 K2 3 K2 4 K9 L1 1 L1 2 L1 3 L2 0 L2 1 L2 2
C2 38 *1 u_ 6 .3 V_ X5 R_0 4
* 1u _6 .3V_ X5 R_ 04
C25 1
C25 2
*10 u _6 .3V_ 08 _ H 12 5
PCI E _V DDR
M EMI /O
*1 u_ 6 .3V_ X5 R_ 04
*0.1 u _1 0V_ X5 R_ 04
*1 u_ 6.3 V_X5 R_0 4 * 1u _6 .3 V_ X 5R_ 0 4
*0 .1 u_ 10 V_X5 R_0 4 C22 7
*0 .1 u_ 10 V_X 5 R_0 4
*1 0u _6 .3V_ 0 8_ H 12 5
*10 u _6 .3V_ 08 _H 12 5
PCIE_ PCIE_ PCIE_ PCIE_ PCIE_ PCIE_ PCIE_ PCIE_
V DDC _CT *1 u_ 6.3 V_X 5R _0 4
* HCB 1 60 8KF -1 21 T2 5 C2 61
C 26 2
* 0.1 u_ 10 V_X 5 R_0 4 C26 3
C 26 4
* 10 u_ 6.3 V_0 8 _H 1 2 5
A A2 0 A A2 1 A B2 0 A B2 1
C2 65 *1 u _6 .3V_ X5 R_ 04
3.3 VS_GPU VDDC_CT+VDDR 4
* 1u _6 .3V_ X5R_ 04
187mA 1 0mi l
C27 6
C27 7
*1 0u _ 6.3 V _0 8_ H 1 25
C 27 8
A A1 7 A A1 8 A B1 7 A B1 8
C2 79
*1 u_ 6.3 V _X5 R_0 4
3.3VS_GPU 60mA 4mil
VDD R4 V1 2 Y1 2 U1 2
* 1u _6 .3V_ X 5R_ 04 VDDR4 L8 0
A A1 1 A A1 2
* HCB 1 60 8KF -1 21 T25 C29 0
C2 91
V1 1 U1 1
*0 .1 u _1 0V_ X5 R_ 04
*1 u _6 .3V_ X5 R_ 04
LEVEL TRA NSLATION V DD_ CT #1 V DD_ CT #2 V DD_ CT #3 V DD_ CT #4
CORE
I/O
*1 u _6 .3V_ X5 R_ 04
V DDR 3# 1 V DDR 3# 2 V DDR 3# 3 V DDR 3# 4 V DDR 4# 1 V DDR 4# 2 V DDR 4# 3
P O W E R
NC #1 NC #2 NC #3 NC #4
M EM CLK L1 7 L1 6 P CIE_ VD DR_ VG A
A M3 0
SPV1 8
L23 L24 L25 L26 M 22 N 22 N 23 N 24 R 22 T22 U 22 V22
C2 4 1
1 .8V_ REG
400mA20mil
L78
C2 43
C2 42
C2 44
C24 5
*1 u_ 6. 3 V_X5R _0 4 * 1u _6 .3V_ X5 R_ 04
* 0.1 u_ 1 0V_ X5 R_ 04
*HC B1 6 08 KF-1 2 1T 25
*1 0u _ 6.3 V _0 8_ H1 25 *1u _ 6.3 V_X 5R _0 4
VD DC
1.0V_REG 2A 80mil
1 .0V_ REG C8 37
C2 53
C 25 4
* 1u _6 .3 V_ X5R_ 0 4
C2 55
C2 56
*1 u_ 6. 3 V_X5R _0 4
*1 u_ 6.3 V _X5 R_0 4
C 25 7
C2 5 8
*1 u_ 6.3 V _X5R _0 4
*1 u_ 6.3 V_X 5 R_0 4
C2 5 9
BIF _ VDDC# 1 BIF _ VDDC# 2
* 1u _6 .3 V_ X5R_ 0 4
* 1u _6 .3 V_ X 5R_ 0 4 C2 66
C 26 7
C2 6 8
*1 u_ 6.3 V_X5R _0 4 C2 69
C2 70
C2 80
C 28 1
* 1u _6 .3V _ X5 R_ 04 C2 8 2
C2 83
*1 u _6 . 3V_ X5 R_ 04
*1 u_ 6 .3V_ X5 R_ 04
*1 u _6 .3V _ X5 R_ 04
C2 98
VDDC
* 1u _6 .3 V_ X5R_ 0 4 C 27 3
C2 74
C27 5
*1 u_ 6.3 V _X5R _0 4
C2 84
C2 8 7
*1 u_ 6. 3 V_X5R _0 4
C3 00
C28 9
* 1u _6 .3V_ X5R_ 04
C3 01
*1 0 u_ 6.3 V _0 8 _H1 25
*1 0u _ 6.3 V _0 8_ H1 25
C2 88
*1 u _6 .3V_ X5 R_ 04 *1 u_ 6.3 V_X 5R _0 4
*1u _ 6.3 V _X5R _0 4
C2 99
*1 0u _ 6.3 V _0 8_ H1 25
*1u _6 .3 V_ X5R_ 0 4
C3 02 *1 0u _ 6. 3 V _0 8_ H1 25
C3 0 3
Sheet 12 of 41 Robson S3 Power 6/6
*1 0 u_ 6.3 V _0 8_ H1 25
* 10 u_ 6.3 V _0 8 _H1 25
R 21 U 21
See Note 1
ISOLATED COR E I/O VDDCI# 1
S PV10
VDDCI# VDDCI# VDDCI# VDDCI# VDDCI# VDDCI# VDDCI#
J7 S PVSS
SPVS S
2 3 4 5 6 7 8
*1 u _6 .3V_ X5 R_ 04 M 13 M 15 M 16 M 17 M 18 M 20 M 21 N 20
C3 0 5 *1 u _6 .3V_ X5 R_ 04 VDDCI VDDCI 2A80mil
VDDC
*1 u _6 .3V_ X5 R_ 04 C3 09
C3 10
L 82 C31 1
C3 12
C3 1 3
*1 u_ 6 . 3V_ X5 R_ 04 *1 u_ 6.3 V_X5 R_0 4
*1 u_ 6.3 V_X5R _0 4
C3 14
*HC B1 6 08 KF - 12 1T 25
*1 u_ 6 .3 V_ X5 R_0 4
0.9- 1.12V@2A( D DR3)
??( G DD R5)
W arning:Select thecorrect Bead to support exp ected VDDCI curr ent. See databoo k for detail s.
MPV18
( P a r k : 18 . V @ 7 5m A M P V 1 8) L8 3 C 31 7 C3 20 C3 21 *HCB1 60 8 K F-1 2 1T 25
C3 15
*1 u _6 .3V_ X5 R_ 04 * 0.1 u_ 1 0V_ X5 R_0 4
SPV1 8
*1 0u _ 6.3 V _0 8_ H1 25
Note 1 B FI _ VDDC
C 32 3
C27 2
*1 u_ 6.3 V_X 5R _0 4
*1u _ 6.3 V_ X5R_ 0 4
* 1u _6 .3 V_ X 5R_ 0 4
*1 0u _6 .3 V_ 0 8_ H1 25
*1 u_ 6.3 V_X5 R_0 4 C27 1
*1 u_ 6 .3V_ X5 R_ 04
*ROBSON XT S3
(1.8V@75mA SPV18) L84 *HCB 1 60 8K F -1 21 T2 5 C32 2
* 22 0u _ 4V_ V_ A
*1 0u _6 .3 V_ 0 8_ H1 25
*1 u_ 6. 3 V_X5R _0 4
VDDC 12.9A 520 mi l
C 30 4
* 1u _6 .3V_ X5R_ 04
*1 0u _6 .3 V_ 0 8_ H1 25
+
C2 6 0
BIF _ VDDC
PLL
NC _MPV 1 8 S PV18
H8
C 24 0
*0 .1u _ 10 V_X5R _0 4
A A1 5 N 15 N 17 R 13 R 16 R 18 Y 21 T12 T15 T17 T20 U 13 U 16 U 18 V21 V15 V17 V20 Y 13 Y 16 Y 18 M 11 M 12
H7
1.0 V _R EG *10 u _6 .3V_ 08 _H 12 5 L8 1 * HCB 16 0 8KF -12 1 T2 5 C 30 6 C3 07 C30 8 N C1 *0 .1 u_ 10 V_X5R _0 4
S H ORT
VDDC# 1 VDDC# 2 VDDC# 3 VDDC# 4 VDDC# 5 VDDC# 6 VDDC# 7 VDDC# 8 VDDC# 9 VDD C#1 0 VDD C#1 1 VDD C#1 2 VDD C#1 3 VDD C#1 4 VDD C#1 5 VDD C#1 6 VDD C#1 7 VDD C#1 8 VDD C#1 9 VDD C#2 0 VDD C#2 1 VDD C#2 2 VDD C#2 3
A B2 3 A C2 3 A D2 4 A E2 4 A E2 5 A E2 6 AF25 A G2 6
NC _VSS RHA
MPV18 L8
1 2 3 4 5 6 7 8
NC _VDDR HA
P CIE_ PVD D
ForSeymour,PCIE_PVDDisPCIE_VDDR
VDDR# VDDR# VDDR# VDDR# VDDR# VDDR# VDDR# VDDR#
PCIE_ VDDC# 1 PCIE_ VDDC# 2 PCIE_ VDDC# 3 PCIE_ VDDC# 4 PCIE_ VDDC# 5 PCIE_ VDDC# 6 PCIE_ VDDC# 7 PCIE_ VDDC# 8 PCIE_ VDDC# 9 PCIE _VDD C#1 0 PCIE _VDD C#1 1 PCIE _VDD C#1 2
1 .8V _ REG
L7 9
PC IE _ VDDR_ VGA
PCIE
V DDR 1# 1 V DDR 1# 2 V DDR 1# 3 V DDR 1# 4 V DDR 1# 5 V DDR 1# 6 V DDR 1# 7 V DDR 1# 8 V DDR 1# 9 V DDR 1# 10 V DDR 1# 11 V DDR 1# 12 V DDR 1# 13 V DDR 1# 14 V DDR 1# 15 V DDR 1# 16 V DDR 1# 17
R 1 64
* 1 0m i _l s ho rt
1. No BA CO S upport:
* 0.1 u_ 10 V_X5 R_0 4
BIF_VDDC shorts with VDDC if BACO is not suppor ted 2. BACO Support :
S PVSS
*1 0u _ 6.3 V _0 8_ H1 25
VDDC
C3 24
*1u _ 6.3 V_X5R_ 0 4
C3 16
VDDCI and VDDC share one commo n regulator
Referto theBACOr eference schematics/Application notefordeta il about BIF_VDDC Rail if BACO is Supported
Robson S3 Power 6/6 B - 13
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
Robson DDR3 MEM CH-A COMPONENTS SHOWN ARE EXAMPLES ONLY ANDN OT NECESSARILY QUALIFIED
CHANNEL A: 64 M X 16 bit X8 DDR3 (RANK0)
U7
U8 MV DDQ
s m a r g a i D c i t a m e h c S . B
9,1 4 MAA [1 3..0 ] MAA 0 MAA 1 MAA 2 MAA 3 MAA 4 MAA 5 MAA 6 MAA 7 MAA 8 MAA 9 M AA1 0 M AA1 1 M AA1 2 MAA 13
Sheet 13 of 41 Robso n DDR3 MEM CH-A 9
9 ,1 4 9 ,1 4 9 ,1 4
M8 H1
MAA 0 MAA 1 MAA 2 MAA 3 MAA 4 MAA 5 MAA 6 MAA 7 MAA 8 MAA 9 MAA1 0 MAA1 1 MAA1 2 MAA 1 3
N3 P7 P3 N2 P8 P2 R8 R2 T8 R3 L7 R7 N7 T3 T7 M7
A_ BA0 A_ BA1 A_ BA2
9 9 9
CLK A0 CLK A0 # CKE A0
9 9 9 9
CSA 0b _0 RAS A0 # CAS A0 # W EA 0 #
DQMA 0_ [3..0 ]
ODT A0 DQMA0 _0 DQMA0 _1 DQMA0 _2 DQMA0 _3
9
VREF C_U 7 VREF D_U 7
QS A0 _1 QS A0 _2
QSA 0_ [3..0 ] Q SA0 _0 Q SA0 _1 Q SA0 _2 Q SA0 _3
9 9 9 9
QS A0_ 0 B QS A0_ 1 B QS A0_ 2 B QS A0_ 3 B
QS A0 _ 0B QS A0 _ 1B QS A0 _ 2B QS A0 _ 3B
M2 N8 M3
J7 K7 K9 K1 L2 J3 K3 L3 F3 C7
DQ MA 0_ 1 DQ MA 0_ 2
E7 D3
QS A0 _1 B QS A0 _2 B
G3 B7
T2
9,1 4 MEM_ RS T
L8
V REF CA V REF DQ
DQL0 DQL1 DQL2 DQL3 DQL4 DQL5 DQL6 DQL7
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A 10 /A P A 11 A 12 /B C A 13 A 14 A 15 B A0 B A1 B A2
CK CK CKE ODT CS RAS CAS WE DQSL DQSU DML DMU DQSL DQSU
RESE T ZQ
DQU0 DQU1 DQU2 DQU3 DQU4 DQU5 DQU6 DQU7
VDD# B2 VD D#D9 VD D#G7 VDD# K2 VDD# K8 VD D#N1 VD D#N9 VD D#R1 VD D#R9 V DDQ# A1 V DDQ# A8 V DD Q#C1 V DD Q#C9 V DD Q#D2 V DDQ# E9 V DDQ# F1 V DD Q#H2 V DD Q#H9 VSS # A9 VSS # B3 VSS # E1 VSS #G8 VSS # J2 VSS # J8 VSS #M1 VSS #M9 VSS # P1 VSS # P9 VSS # T1 VSS # T9
E3 F7 F2 F8 H3 H8 G2 H7 D7 C3 C8 C2 A7 A2 B8 A3
B2 D9 G7 K2 K8 N1 N9 R1 R9
DQA0_ 11 D QA0_ 9 DQA0_ 8 D QA0_ 10 D QA0_ 15 D QA0_ 12 D Q A 0 _ 14 D QA0_ 13 D QA 0_ 23 D QA 0_ 22 D QA 0_ 18 D QA 0_ 21 D QA 0_ 16 D QA 0 _ 19 D QA 0_ 17 D QA 0_ 20
A9 B3 E1 G8 J2 J8 M1 M9 P1 P9 T1 T9
9
DQA0 _[2 3..1 6] 9
V REFC _U8 V REFD _U8
M8 H1
MA A0 MA A1 MA A2 MA A3 MA A4 MA A5 MA A6 MA A7 MA A8 MA A9 MAA 1 0 MAA 1 1 MAA 1 2 MA A13
N3 P7 P3 N2 P8 P2 R8 R2 T8 R3 L7 R7 N7 T3 T7 M7
MVDD Q
MV DD Q A1 A8 C1 C9 D2 E9 F1 H2 H9
DQA 0 _[1 5..8 ]
9,1 4 9,1 4 9,1 4
A_ BA0 A_ BA1 A_ BA2
9 9 9
C LKA0 C LKA0# C KEA0 ODT A 0
9 9 9 9
CSA0 b_ 0 R ASA0 # C ASA0 # W E A0#
M2 N8 M3
J7 K7 K9 K1 L2 J3 K3 L3
QS A 0_ 3 QS A0_ 0
F3 C7
DQ MA 0 _3 DQMA0 _0
E7 D3
QSA 0 _3 B QS A0_ 0B
G3 B7
T2
9,1 4 ME M_R ST
L8
V REF CA V REF DQ
D D D D D D D D
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A 10 /A P A 11 A 12 /B C A 13 A 14 A 15 B A0 B A1 B A2
CK CK CKE ODT CS RAS CAS WE DQSL DQSU DML DMU DQSL DQSU
RESE T ZQ
QL0 QL1 QL2 QL3 QL4 QL5 QL6 QL7
DQU0 DQU1 DQU2 DQU3 DQU4 DQU5 DQU6 DQU7
E3 F7 F2 F8 H3 H8 G2 H7
DQ A0 _ 27 DQ A0 _ 28 DQ A0 _ 25 DQ A0 _ 31 DQ A0 _ 29 DQ A0 _ 30 DQ A0 _ 24 DQ A0 _ 26
DQA0_ [31..24 ] 9
D7 C3 C8 C2 A7 A2 B8 A3
DQ A0 _ 3 DQ A0 _ 2 DQ A0 _ 5 DQ A0 _ 0 DQ A0 _ 7 DQ A0 _ 4 DQ A0 _ 6 DQ A0 _ 1
DQA0 _[7 ..0 ]
C33 3 4 0 _ R 5 X _ V 3 . 6 _ u 1 *
9
VDD Q#A1 VDD Q#A8 VDDQ #C1 VDDQ #C9 VDDQ #D2 VDD Q#E9 VDD Q#F 1 VDDQ #H2 VDDQ #H9 VSS #A9 VSS #B3 VSS #E1 VSS #G8 VSS # J2 VSS # J8 VSS #M1 VSS #M9 VSS #P1 VSS #P9 VSS # T1 VSS # T9
C35 4 4 0 _ R 5 X _ V 3 . 6 _ u 1 *
B2 D9 G7 K2 K8 N1 N9 R1 R9
C33 5 4 0 _ R 5 X _ V 3 . 6 _ u 1 *
C3 36 4 0 _ R 5 X _ V 3 . 6 _ u 1 *
C33 7 4 0 _ R 5 X _ V 3 . 6 _ u 1 *
C3 38 4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
C33 9 4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
C3 40 4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
C3 55 4 0 _ R 5 X _ V 3 . 6 _ u 1 *
C35 6 4 0 _ R 5 X _ V 3 . 6 _ u 1 *
C3 57 4 0 _ R 5 X _ V 3 . 6 _ u 1 *
C35 8 4 0 _ R 5 X _ V 3 . 6 _ u 1 *
C3 59 4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
C36 0 4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
C3 61 4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
C37 5 6 0 _ R 5 X _ V 3 . 6 _ u 0 1 *
M VD D Q
C3 76 6 0 _ R 5 X _ V 3 . 6 _ u 0 1 *
C37 7 6 0 _ R 5 X _ V 3 . 6 _ u 0 1 *
9
ODT A0
*24 3_ 1 %_ 04
ODT A0 J1 L1 J9 L9
V SSQ# B1 V SSQ# B9 V SSQ#D1 V SSQ#D8 V SSQ# E2 V SSQ# E8 V SSQ# F9 V SSQ#G1 V SSQ#G9
NC# J1 NC# L1 NC# J9 NC# L9 10 0-BA LL SD RA M DDR3
* K 4W 1G 16 46 G-BC 11
B1 B9 D1 D8 E2 E8 F9 G1 G9
R1 66
* 24 3_ 1% _0 4
J1 L1 J9 L9
V SSQ#B1 V SSQ#B9 V SSQ #D1 V SSQ #D8 V SSQ#E2 V SSQ#E8 V SSQ#F 9 V SSQ #G1 V SSQ #G9
NC# J1 NC# L1 NC# J9 NC# L9 1 0 0-BA LL SDR AM DDR3
B1 B9 D1 D8 E2 E8 F9 G1 G9
C3 42 4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
C36 2
C3 63
4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
C3 78 6 0 _ R 5 X _ V 3 . 6 _ u 0 1 *
M VD DQ MVDDQ
R1 69 *4 .99 K_1 %_ 04
R1 7 0 * 4.9 9K_ 1% _0 4 VREF C_ U8
VREF C_U 7 R1 65
C34 1
MV DDQ
A1 A8 C1 C9 D2 E9 F1 H2 H9
A9 B3 E1 G8 J2 J8 M1 M9 P1 P9 T1 T9
4 0 _ R 5 X _ V 3 . 6 _ u 1 *
MV DDQ
M VD DQ VD D#B2 V DD #D9 V DD #G7 VD D#K2 VD D#K8 V DD #N1 V DD #N9 V DD #R1 V DD #R9
C3 34
R1 7 4 R1 73
C 32 5 * 0.1 u_ 10 V_X5R _0 4 *4 .99 K_1 %_ 04
* 4.9 9K_ 1% _0 4
C3 26 *0 .1u _1 0V _ X5 R_ 04
M VD DQ
MVDDQ
* K4 W 1G1 6 46 G-BC11 R1 77 *4 .99 K_1 %_ 04
R1 7 8 * 4.9 9K_ 1% _0 4 VREF D_ U8
VREF D_U 7 R1 8 2 R1 81
C 32 9 * 0.1 u_ 10 V_X5R _0 4 *4 .99 K_1 %_ 04 9
CL KA 0 R18 5 *5 6_ 04 R18 6 *5 6_ 04
9
CL KA 0 #
B - 14 Robson DDR3 MEM CH-A
*0 .0 1u _1 6V _ X7 R_ 04 C3 5 3
* 4.9 9K_ 1% _0 4
C3 30 *0 .1u _1 0V _ X5 R_ 04
Schematic Diagrams
Robson DDR3 MEM CH-B COMPONENTS SHOWN ARE EXAMPLES ONL Y AND NOT NECESSARILY QUAL IFIED
U1 1 VREF C_U 11 VREF D_U 11 MAA0 MAA1 MAA2 MAA3 MAA4 MAA5 MAA6 MAA7 MAA8 MAA9 MAA1 0 MAA1 1 MAA1 2 MAA1 3
9 ,1 3 MAA[1 3..0] MAA0 MAA1 MAA2 MAA3 MAA4 MAA5 MAA6 MAA7 MAA8 MAA9 MAA1 0 MAA1 1 MAA1 2 MAA13
9 DQ MA1 _ [3 ..0]
9
QSA1 _ [3 ..0]
9 9 9 9
QSA1_ 0B QSA1_ 1B QSA1_ 2B QSA1_ 3B
9
O DTA1
9 ,13 9 ,13 9 ,13
DQMA1 _0 DQMA1 _1 DQMA1 _2 DQMA1 _3
QSA1_ 0 Q S A 1 _ 1 QSA1_ 2 QSA1_ 3
A_BA0 A_BA1 A_BA2
9 9 9
CLKA1 CLKA1 # CKEA1
9 9 9 9
CSA 1b _0 RASA1 # CASA1 # W EA1 #
ODT A1
QSA 1_ 0B QSA 1_ 1B Q S A 1 _ 2B QSA 1_ 3B
N3 P7 P3 N2 P8 P2 R8 R2 T8 R3 L7 R7 N7 T3 T7 M7 M2 N8 M3
J7 K7 K9 K1 L2 J3 K3 L3
QSA1 _0 QSA1 _1
F3 C7
DQ MA1_ 0 DQ MA1 _ 1
E7 D3
QSA1 _0 B QSA1 _1 B
G3 B7
T2
9 ,13 MEM_ RST
ODTA1
M8 H1
L8
U1 2
VREF CA VREF DQ A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A1 0/AP A1 1 A1 2/BC A1 3 A1 4 A1 5 BA0 BA1 BA2
CK CK C KE O DT CS R AS C AS WE D QSL D QSU D ML D MU D QSL D QSU
R ESET ZQ
R20 5 *24 3_ 1% _0 4 9
C LKA1 R23 6 *56 _0 4 R23 7 *56 _0 4
9
C LKA1#
C41 1 *0 .0 1u _ 16 V_ X7 R_ 04
J1 L1 J9 L9
CHANNEL A: 64M X 16 b it X8 DDR3 (RANK1)
N C#J 1 N C#L 1 N C#J 9 N C#L 9
DQL0 DQL1 DQL2 DQL3 DQL4 DQL5 DQL6 DQL7 DQU0 DQU1 DQU2 DQU3 DQU4 DQU5 DQU6 DQU7
E3 F7 F2 F8 H3 H8 G2 H7
DQA1 _0 DQA1 _2 DQA1 _7 D QA1 _ 3 DQA1 _6 DQA1 _4 DQA1 _5 D QA1 _ 1
D7 C3 C8 C2 A7 A2 B8 A3
D QA1 _ 11 D QA1 _ 12 D QA1 _ 9 D QA1 _ 8 D QA 1 _ 14 D QA1 _ 15 D QA1 _ 10 D QA1 _ 13
DQA1 _[1 5..8]
DQA1 _[7 ..0 ]
9
VREF C_U 12 M8 VREF D_U 12 H1 MAA0 MAA1 MAA2 MAA3 MAA4 MAA5 MAA6 MAA7 MAA8 MAA9 MAA1 0 MAA1 1 MAA1 2 MAA13
9
MVDDQ VDD# B2 VD D#D9 VD D#G7 VDD# K2 VDD# K8 VD D#N1 VD D#N9 VD D#R1 VD D#R9 VDDQ# A1 VDDQ# A8 VDD Q#C1 VDD Q#C9 VDD Q#D2 VDDQ# E9 VDDQ# F1 VDD Q#H2 VDD Q#H9 VSS# A9 VSS# B3 VSS# E1 VSS#G8 VSS# J2 VSS# J8 VSS#M1 VSS#M9 VSS# P1 VSS# P9 VSS# T1 VSS# T9 VSSQ# B1 VSSQ# B9 VSSQ#D1 VSSQ#D8 VSSQ# E2 VSSQ# E8 VSSQ# F9 VSSQ#G1 VSSQ#G9
1 00 -BAL L SDRAM DDR3 *K4 W1 G16 4 6G-BC1 1
B2 D9 G7 K2 K8 N1 N9 R1 R9 MVDDQ A1 A8 C1 C9 D2 E9 F1 H2 H9 A9 B3 E1 G8 J2 J8 M1 M9 P1 P9 T1 T9 B1 B9 D1 D8 E2 E8 F9 G1 G9
9 ,13 9 ,13 9 ,13
A_BA0 A_BA1 A_BA2
9 9 9
CLKA1 CLKA1 # CKEA1
9 9 9 9
CSA1 b_ 0 RASA1 # CASA1 # WEA1 #
ODT A1
N3 P7 P3 N2 P8 P2 R8 R2 T8 R3 L7 R7 N7 T3 T7 M7 M2 N8 M3
J7 K7 K9 K1 L2 J3 K3 L3
QSA1_ 2 QSA1_ 3
F3 C7
DQMA1 _2 DQMA1 _3
E7 D3
QSA1_ 2B QSA1_ 3B
G3 B7
T2
9 ,13 MEM_ RST
L8
VREF CA VREF DQ A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A1 0/AP A1 1 A1 2/BC A1 3 A1 4 A1 5 BA0 BA1 BA2
CK CK C KE O DT CS R AS C AS WE D QSL D QSU D ML D MU D QSL D QSU
R ESET ZQ
R20 6 *24 3_ 1% _0 4
J1 L1 J9 L9
N C#J 1 N C#L 1 N C#J 9 N C#L 9
D D D D D D D D
QL0 QL1 QL2 QL3 QL4 QL5 QL6 QL7
DQU0 DQU1 DQU2 DQU3 DQU4 DQU5 DQU6 DQU7
E3 F7 F2 F8 H3 H8 G2 H7
DQA1 _2 1 DQA1 _2 2 DQA1 _1 6 DQA1 _2 3 DQA1 _1 8 DQA1 _2 0 DQA1 _1 9 D Q A 1 _1 7
D7 C3 C8 C2 A7 A2 B8 A3
DQA1 _2 8 DQA1 _2 6 D Q A 1 _3 1 D Q A 1 _2 4 DQA1 _2 9 DQA1 _2 5 DQA1 _3 0 DQA1 _2 7
MVDDQ
MVDDQ VDD#B2 VDD #D9 VDD #G7 VDD#K2 VDD#K8 VDD #N1 VDD #N9 VDD #R1 VDD #R9 VDDQ#A1 VDDQ#A8 VDDQ #C1 VDDQ #C9 VDDQ #D2 VDDQ#E9 VDDQ#F 1 VDDQ #H2 VDDQ #H9 VSS#A9 VSS#B3 VSS#E1 VSS#G8 VSS# J2 VSS# J8 VSS#M1 VSS#M9 VSS#P1 VSS#P9 VSS# T1 VSS# T9 VSSQ#B1 VSSQ#B9 VSSQ #D1 VSSQ #D8 VSSQ#E2 VSSQ#E8 VSSQ#F 9 VSSQ #G1 VSSQ #G9
DQA1 _[2 3..16 ] 9
B1 B9 D1 D8 E2 E8 F9 G1 G9
4 0 _ R 5 X _ V 3 . 6 _ u 1 *
C4 1 2
MVDDQ
A9 B3 E1 G8 J2 J8 M1 M9 P1 P9 T1 T9
C3 9 1
C39 2
C39 3
4 0 _ R 5 X _ V 3 . 6 _ u 1 *
C3 94
C3 95
4 0 _ R 5 X _ V 3 . 6 _ u 1 *
4 0 _ R 5 X _ V 3 . 6 _ u 1 *
4 0 _ R 5 X _ V 3 . 6 _ u 1 *
C3 96
C39 7
4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
C39 8
4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
C3 99 4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
C4 00 4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
MVDDQ
B2 D9 G7 K2 K8 N1 N9 R1 R9 A1 A8 C1 C9 D2 E9 F1 H2 H9
DQA1 _[3 1..24 ] 9
4 0 _ R 5 X _ V 3 . 6 _ u 1 *
C41 3
C41 4
4 0 _ R 5 X _ V 3 . 6 _ u 1 *
C4 15
C4 16
4 0 _ R 5 X _ V 3 . 6 _ u 1 *
4 0 _ R 5 X _ V 3 . 6 _ u 1 *
4 0 _ R 5 X _ V 3 . 6 _ u 1 *
MVDDQ C4 3 4 6 0 _ R 5 X _ V 3 . 6 _ u 0 1 *
C4 17
C41 8
4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
C41 9
4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
C4 20 4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
Sheet 14 of 41 Robso n DDR3 MEM CH-B
C4 21 4 0 _ R 5 X _ V 0 1 _ u 1 . 0 *
MVDDQ C43 5
C43 6
6 0 _ R 5 X _ V 3 . 6 _ u 0 1 *
C4 37
6 0 _ R 5 X _ V 3 . 6 _ u 0 1 *
6 0 _ R 5 X _ V 3 . 6 _ u 0 1 *
+C83 8
* 22 0u _4 V_V_A
MVDDQ
MVDDQ
R22 4 *4.9 9K_ 1% _0 4
R2 25 * 4.99 K _1 %_ 04
VREF C_ U11 R23 2
C3 87 *0 .1u _1 0V_ X5 R_0 4 *4.9 9K_ 1% _0 4
VREF D_U1 1 R2 33
C38 8 *0.1 u_ 10 V_X5R_ 04 * 4.99 K _1 %_ 04
10 0 -B AL L SDRAM DDR3 *K4W 1 G16 46 G-BC11
MVDDQ
MVDDQ
R22 6 *4 .9 9 K_ 1% _0 4
R2 2 7 * 4.9 9K_1 %_ 04
VR EF C_ U12 R23 4 *4 .9 9 K_ 1% _0 4
VREF D_U1 2
C3 89 R2 3 5 C39 0 *0 .1u _1 0V_ X5 R_0 4 *0.1 u_ 10 V_X5R_ 04 * 4.9 9K_1 %_ 04
Robson DDR3 MEM CH-B B - 15
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
HUDSON SATA/ DEBUG IO/ SPI HUDSON SATA/DEBUG IO/SPI DEBUGONLY DNI R652andR653 forcustomer board U19B
HUDSON-1 24 24
SATATXP0 SATATXN0
24 24
SATARXN0 SATARXP0
24 24
SATATXP1 SATATXN1
24 24
AH9 AJ9
S A TA _TX 0N
AJ8 AH8
S A TA _RX 0 N S A TA _RX 0 P
AH10 AJ10 AG10 AF10
SATARXN1 SATARXP1
S A TA _TX 1P S A TA _TX 1N
S A TA _RX 1 N S A TA _RX 1 P
AG12 AF12 AJ12 AH12
s m a r g a i D c i t a m e h c S . B
P A RT 2OF 5
S A TA _TX 0P
AH14 AJ14
FC_N I T 2 / G POD I 147 GPIOD
S A TA _TX 2P
FC_A D Q0/G P IOD 128
S A TA _TX 2N
FC_A D Q1/G P IOD 129 FC_A D Q2/G P IOD 130
S A TA _RX 2 N
FC_A D Q3/G P IOD 131
S A TA _RX 2 P
FC_A D Q4/G P IOD 132 FC_A D Q5/G P IOD 133
S A TA _TX 3P
FC_A D Q6/G P IOD 134
S A TA _TX 3N
AG14 AF14
SA TAtrac e shoulduseonly 1viaon the custom trace. ers canuse 2vias withGNDvia within150mi ls of signal via as lo ngas they ca nensure that the ir platfor m
AG17 AF17
me ets SA TAlogorequirements. Returnloss is expected
Sheet 17 of 41 HUDSON SATA/ DEBUG IO/ SPI
toget affectedwith2vi as.AMDplatform sarevali d ated withonevi aonly
AJ17 AH17
8 2 8 H 2 A 6 G 2 FC_CLK A FC_FB CL K OUT F 8 A FC_FB CL K IN 2 9 F 2 A 6 G 2 FC_O E #/G P IO D 145 A 7 G 2 FC_A V D#/G P IOD 146 A 9 2 FC_WE #/G P IOD 148 F 9 A E 2 FC_CE 1# / G P IO D 149 A 7 F 2 FC_CE 2# / G P IO D 150 A H FC_N I T 1 / G POD I 144 A
FC_A D Q7/G P IOD 135 FC_A D Q8/G P IOD 136
S A TA _RX 3 N
FC_A D Q9/G P IOD 137
S A TA _RX 3 P
FC_A D Q10/G P O I D 138 FC_A D Q11/G P O I D 139
S A TA _TX 4P
FC_A D Q12/G P O I D 140
S A TA _TX 4N
FC_A D Q13/G P O I D 141 FC_A D Q14/G P O I D 142
S A TA _RX 4 N
FC_A D Q15/G P O I D 143
AJ2 7 AJ2 6 AH25 AH24 AG 23 AH23 AJ2 2 AG 21 AF21 AH22 AJ2 3 AF23 AJ2 4 AJ2 5 AG 25 AH26
Debug port
NOTE:ROUT ETEMP_COMM AS A10 MI L TRAC E PLACEQ600UNDERDI MM
S A TA _RX 4 P
AJ18 AH18 AH19 AJ19
S E R I A L AT A S A TA _TX 5P S A TA _TX 5N
FA NO UT0/G P IO 52 FA NO UT1/G P IO 53
S A TA _RX 5 N
F A N N0/G I P IO 56
AVDD_SATA R331 R332
1K _1%_04 931 _1 %_04
SATA_CALP SATA_CALN
AB14 AA14
F A N N1/G I P IO 57 S A TA _CA L RP
F A N N2/G I P IO 58
S A TA _CA L RN T E M PN I 0/G P IO 171
28
T E M PN I 1/G P IO 172
AD11
SATA_LED#
W5 W6 Y9
HUDS ON_FANOUT0 ODD_PWR SB_PROCH OT#_C
W7 V9 W8
HUDSON_FANTA CH0 HDD0_PWR GPI O 58
FA NO UT2/G P IO 54
S A TA _RX 5 P
S A TA _A CT#/G P I O 6 7
T E M PN I 2/G P IO 173 TE MP IN3/TA LE RT#/GP IO1 74
B6 A6 A5 B5 C7
ODD_PW R 24 R 33 0
3.3VS
*1 0K_ 04
TEMPIN0 MB_THRMDA_SB
R 79 8
R3 3 3
* 0_ 0 4
R3 3 5
* 0_ 0 4
SMD_CPU_T HERM 3,16,27
1 0K _ 04
C
SB_TALERT# C486
B
C487
Q9 *2N3904
TE MP _CO MM
3.3VS
HW MO NITOR
AD16 R5 76
*10 K _0 4
VIN0/G P IO 175 SATA_X1
VIN1/G P IO 176 VIN2/G P IO 177 VIN3/G P IO 178 VIN4/G P IO 179 VIN5/G P IO 180
AC16
SPI_DATAIN J5 SPI_ DATAOUT E2 SPI_CLK K4 SPI_CS#_SEL K9 HUDSON_ROM_R ST# G2
7 B 8 B 8 A
VIN6/G B E _ S TA T3/G P IO 181 SATA_X2
V IN7 /GB E _LED3/G P IO 182
A3 B4 A4 C5 A7
VIN_VD DCR VIN_VD DNB VIN_VDDIO_SUS R 79 9 10 K _0 4 R 80 0 10 K _0 4 R 80 1 10 K _0 4 R 80 2 10 K _0 4 R 80 3 10 K _0 4
NC
S P I_DO/ GP IO 163
NC
R3 3 7
* 0_ 0 4
E MB_THRMDC_SB
SMC_CPU_T HERM 3,16,27
3.3VS
U2 0
R697
10K_04
7 2 2 G Y
S P I_CLK /G P IO 162 S P I_CS 1#/G P IO1 65
* 0_ 0 4
3.3VS
S P I ROM S P I_DI/G P IO 164
330p_50V_X 7R_04 330p_50V_X 7R_04 R3 3 6
5
4
*74AHC1G08GW 1
AP U_T ALERT# 3,27
2 GPU_T ALERT#8, 10
3
RO M_RS T#/GP IO 161
HUDSON M1A13 Co nnectC7 andD8,thengot oGNDdirectly.
1.8VS
VIN_VDDCR
R34 0
*11K_ 1% _04
R 34 1
*1 0K _ 04
VDDCR_CPU
3.3V C488 R 73 2
R342 10K_04 *0. 1u_16V_Y5V_04
*0 _ 04
R346 R350
D 22 A
R347
RB 75 1 V C
3 SB_PROCHOT#
*1K_04 *10K_04
SB_PROCHOT#_C
U2 1
VIN_VDDNB
8 VDD
5
SPI_DATA OUT R57 3
0_ 04
2
SPI_DATAIN
R38 6
0_ 04
1
SPI_CS#_SEL R57 1
0_ 04
6
SPI_CLK
0_ 04
SI SO
C491 3 W P#
*0.1u_16V_Y5V _04
CE# SCK
7
R57 2
VS S
C490
*4.99K_ 1%_04 VDDCR_NB
R345
*4.99K_ 1%_04
R349 10K_04 *0. 1u_16V_Y5V_04
HSPI_MSO 27 HSPI_CE# 27 HSPI_SCLK 27 1.5V VIN_VDDIO_SUS
R 35 1
*25VF032B C492
R352 10K_04 *0. 1u_16V_Y5V_04
B - 18 HUDSON SATA/ DEBUG IO/ SPI
R344
HSPI_MSI 27
4 HOLD#
1V S
NEAR U19
*10K_04
*1 0K_ 04
Schematic Diagrams
HUDSON POWER DECOUPLING HUDSON POWER DECOUPLING U 19 C
HUDSON-1
3 .3V S
P ART3 O F 5
1 .1 V S
P O WE R
1 3 1 mA C4 9 4
C4 9 5
C4 96
C 49 3
0. 1u _ 1 0V_ X 5 R_ 0 4 2 2u _ 6 .3V _X 5 R_ 0 8 0 .1 u _1 0 V _ X5R _ 04 0 .1u _ 1 0V _X5 R_ 0 4
1.8 V S R 35 5
0 _ 04
A H1 V6 Y19 A E5 AC2 1 A A2 A B4 A C8 A A7 A A9 AF7 AA 1 9
VDD IO_ 1 8_ F C
VDDIO_33_PCIGP
VDDCR_11
VDDIO_33_PCIGP VDDIO_33_PCIGP
VDDCR_11 VDDCR_11
VDDIO_33_PCIGP
VDDCR_11
VDDIO_33_PCIGP
VDDCR_11
VDDIO_33_PCIGP
VDDCR_11
VDDIO_33_PCIGP
VDDCR_11
VDDIO_33_PCIGP VDDIO_33_PCIGP
CORES0
VDDCR_11 VDDCR_11
C5 0 4
C 5 06
VDDIO_33_PCIGP
0 .1 u _ 10 V_ X5R _ 04 4 .7 u _6 .3 V_ X5R _ 06 0 .1u _ 1 0V _X5 R_ 0 4 * 0 .1u _ 1 0V _X7 R _ 0 4
VDDAN_11_C LK VDDAN_11_C LK
3 .3VS L 86
.
H CB1 0 05KF -121 T20
VDD PL _3 .3 V _ PCIE C 5 11
C 51 2
12/6DelR827
C 51 9
C5 2 0
L8 8
.
C5 2 1
C 5 27
P ART5 OF 5
C5 0 2
C 5 03
VDDIO_18_FC
VDDAN_11_C LK
K 28 K 29 J28 K 26 J21 J20 K 21 J22
.
1.1 V S
T BDm A
L85 C5 0 5
C5 0 7
C 50 8
C5 1 0
.
C 49 8
0 .1 u _1 0 V_ X5R _ 04 1 u_ 6 .3 V_ X5 R _0 4 2 2u _ 6 .3V_ X5 R_ 0 8 0.1 u _ 10 V_ X 5 R_ 0 4 1 u _6 .3 V_ X5R _ 04
VDDIO_18_FC
VDDIO_33_GBE_S
V1
R 35 6
M10
0 _0 4
C 5 33
C 5 34
C5 3 5
C5 3 6
A V DD _U S B
.
HC B1 0 50 KF -12 1T20
6 5 8m A C5 4 2 C 54 3 C 54 4 C5 4 5 C 5 46 0 .1u _ 1 0V_ X5 R_ 0 4 1 u _ 6 .3V_ X 5 R_ 0 4 10 u _ 6 .3V_ X5 R_ 0 8 1u _ 6 .3 V_X5 R_ 0 4 1 0u _ 6 .3 V _X 5 R_ 0 8
VDDAN_11 _PCIE
VDDCR_1 1_GBE_S
VDDAN_11 _PCIE
VDDCR_1 1_GBE_S
L7 L9
R 77 2
* 10 m i _ l s h ort
VDDAN_11 _PCIE VDDAN_11 _PCIE VDDAN_11 _PCIE
V DDIO _ GB E _S
VDDAN_11 _PCIE
V DDIO _ GB E _S
M6 P8
R 77 3
* 10 m i _ l s h ort
VDDAN_11 _PCIE
S E RIA LA TA
3 .3V
3.3V_S5I/O
VDDPL_33_S ATA
VDDIO_33_S VDDAN_11 _SATA VDDAN_11 _SATA
VDDIO_33_S VDDIO_33_S
VDDAN_11 _SATA
VDDIO_33_S
VDDAN_11 _SATA
VDDIO_33_S
VDDAN_11 _SATA VDDAN_11 _SATA
VDDIO_33_S VDDIO_33_S
VDDAN_11 _SATA
VDDIO_33_S
A 21 D21 B 21 K 10 L10 J9 T6 T8
32mA
C5 2 9
C 5 30
C5 3 1
1u _ 1 0V_ Y 5V _0 6 * 0. 1u _ 1 0V_ X7 R_ 0 4 1u _ 1 0V _Y 5 V_0 6
CORES5
A18 A19 A20 B18 B19 B20 C1 8 C2 0 D1 8 D1 9 D2 0 E19
F 26 G26
VDDCR_11_S
VDDAN_33 _USB_S
VDD CR _ 1.1 V
VDDCR_11_S
VDDAN_33 _USB_S
M8
VDDAN_33 _USB_S VDDAN_33 _USB_S
VDDIO_AZ_S
VDDAN_33 _USB_S VDDAN_33 _USB_S
VDDCR_1 1_USB_S VDDCR_1 1_USB_S
A 11 B 11
VDDAN_33 _USB_S VDDAN_33 _USB_S VDDAN_33 _USB_S
M21
VDDPL_33_S YS PLL
VDDAN_33 _USB_S VDDAN_33 _USB_S
VDDPL_11_SYS _S
VDDAN_11 _USB_S
VDDAN_33 _HWM_S
VDDAN_11 _USB_S VDDXL_33_S
R 36 1
VDD IO_ AZ
C 53 7
T BDm A 1 9 7m A
1 .1 V
4 7m A
L22
62 m A
F 19
17 m A
D6
5mA
L20
TB D m A
VD DPL _ 3 .3V
L90
VDD PL _1 .1 V
C 53 9
A VD D_ U SB
C5 4 0
D8 M 19
.
H CB 1 0 0 5K F -12 1 T 20
P 21 P 20 M 22 M 24 M 26 P 22 P 24 P 26 T 20 T 22 T 24 V 20 J 23
C 5 41
10 u _ 6.3 V_ X5 R_ 0 8 0 .1u _ 1 0V_ X5 R_ 0 4 0 .1 u_ 1 0 V _ X5 R _0 4
VD DA N _ 3.3 V _ H W M
3 .3 V
VDD XL_ 3 .3 V
L92 C5 4 7
.
H CB 1 0 0 5K F -12 1 T 20
C 54 8
0.1 u _ 10 V_ X5 R_ 0 4 1 u_ 1 0 V_ Y5 V_ 06
V D DAN _ 1.1 V_ U SB
H CB 10 05KF -121 T20
Y4
C5 3 8
1u _ 6 .3V _ X5 R_ 0 4 1 u _6 .3 V_ X5R _ 04
VDD CR _ 1.1 _ USB
T BDm A
.
0 _0 4
1 .1 V
VDDAN_33 _USB_S
VDDPL_33_USB _S
C1 1 D1 1
1 1 3m A
HU DS O N M 1 A1 3
L 93
A9 B 10 K 11 B9 D 10 D 12 D 14 D 17 E9 F9 F 12 F 14 F 16 C9 G 11 F 18 D9 H 12 H 14 H 16 H 18 J 11 J 19 K 12 K 14 K 16 K 18 H 19
R7 7 1 * 10 m il _ s h ort
VDDPL_33_P CIE
US B I/O
5 6 7m A
1 u_ 6 .3 V_ X5 R _0 4 0.1 u _ 10 V_ X 5 R_ 0 4 2 2u _ 6 .3V _X5 R_ 0 8 1 u_ 6 .3 V _ X5 R _0 4 0 .1 u _1 0 V_ X5 R _0 4
3 .3 V
H CB 1 0 0 5K F - 12 1 T 2 0
1 .1V
HC B1 0 50 KF -12 1T20 C 5 32
Y 14 Y 16 A B 16 A C 14 A E 12 A E 14 AF 9 A F 11 A F 13 A F 16 AG8 AH7 A H 11 A H 13 A H 16 A J7 AJ 11 AJ 13 AJ 16
1u _ 6 .3 V_X5 R_ 0 4 10 u _ 6.3 V_ X5 R_ 0 8 0 .1u _ 1 0V_ X5 R_ 0 4 1 u _ 6.3 V_ X5 R_ 0 4 0 .1 u_ 1 0 V_ X5 R _0 4
A VDD _SA TA
1 .1V S
L 91
AD1 4 AJ2 0 AF 1 8 AH2 0 AG1 9 AE 1 8 AD1 8 AE 1 6
C 52 8
* 0 .1u _ 1 0 V_X7 R _ 0 4 1u _ 1 0V _ Y 5V _0 6
L 89
C 50 1
VDDAN_11 _PCIE
93mA VDD PL _3 .3 V _ SA T A
HC B 10 05 KF -12 1T 2 0
C5 0 0
GB ELAN
U2 6 V22 V26 V27 V28 V29 W22 W26
* 1 u_ 6 .3 V_ X5 R _0 4 0.1 u _ 10 V _ X5 R_ 0 4 2 2u _ 6 .3V _X5 R_ 0 8 1 u _ 6. 3V_ X 5 R_ 0 4 0 .1 u _1 0 V _ X5R _ 04
3. 3VS
VDDAN_11_C LK VDDAN_11_C LK
VDDRF_GBE_S
AE 2 8
60 0 m A C5 1 8
VDDAN_11_C LK
VDDIO_18_FC VDDIO_18_FC
PCI EXPRESS
1 .1 VS
C 51 7
VDDAN_11_C LK
43mA
1 u _1 0 V _ Y5 V _ 0 6 0 .1u _ 1 0V _X 5 R_ 0 4
12/9
VDDAN_11_C LK
FLASHI/O
AF 2 2 AE 2 5 AF 2 4 AC2 2
HUDSON-1 C4 9 9
+1 .1 V_ CKV DD
CLKGENI/O
VDDIO_33_PCIGP
C 4 97 71mA
U 19 D 51 0 m A
VDDIO_33_PCIGP
PCI/ G P IO I/O
C 50 9
N13 R15 N17 U13 U17 V 12 V 18 W 12 W 18
VSSIO_SATA
VSS
VSSIO_SATA
VSS
VSSIO_SATA
VSS
VSSIO_SATA
VSS
VSSIO_SATA VSSIO_SATA
VSS VSS
VSSIO_SATA
VSS
VSSIO_SATA
VSS
VSSIO_SATA
VSS
VSSIO_SATA
VSS
VSSIO_SATA
VSS
VSSIO_SATA
VSS
VSSIO_SATA
VSS
VSSIO_SATA VSSIO_SATA
VSS VSS
VSSIO_SATA
VSS
VSSIO_SATA
VSS
VSSIO_SATA VSSIO_SATA
VSS VSS
VSSIO_USB
VSS VSS
VSSIO_USB VSSIO_USB
VSS VSS
VSSIO_USB VSSIO_USB
VSS VSS
VSSIO_USB
VSS
VSSIO_USB
VSS
VSSIO_USB
VSS
VSSIO_USB VSSIO_USB
VSS VSS
VSSIO_USB
VSS
VSSIO_USB
VSS
VSSIO_USB VSSIO_USB VSSIO_USB
VSS VSS GROUND
VSS
VSSIO_USB
VSS
VSSIO_USB
VSS
VSSIO_USB
VSS
VSSIO_USB VSSIO_USB
VSS VSS
VSSIO_USB
VSS
VSSIO_USB
VSS
VSSIO_USB VSSIO_USB
VSS VSS
VSSIO_USB
VSS
VSSIO_USB
VSS
VSSIO_USB
VSS
VSSIO_USB
VSS VSS VSS
E FUS E
VSS
A J2 A 28 A2 E5 D23 E 25 E6 F 24 N15 R13 R17 T10 P 10 V 11 U15 M18 V 19 M11 L12 L18 J7 P3 V4 A D6 A D4 AB 7 A C9 V8 W 9 W 10 A J2 8 B 29 U4 Y18 Y10 Y12 Y11 A A11 A A12 G4 J4 G8 G9 M12 A F 25 H7 A H2 9 V 10 P6 N4 L4 L8
Sheet 18 of 41 HUDSON POWER DECOUPLING
VSS VSSAN_HWM VSSXL
VSSPL_SYS
VSSIO_PCIECLK VSSIO_PCIECLK
VSSIO_PCIECLK VSSIO_PCIECLK
VSSIO_PCIECLK VSSIO_PCIECLK
VSSIO_PCIECLK VSSIO_PCIECLK
VSSIO_PCIECLK VSSIO_PCIECLK
VSSIO_PCIECLK VSSIO_PCIECLK
VSSIO_PCIECLK
VSSIO_PCIECLK
VSSIO_PCIECLK
VSSIO_PCIECLK
VSSIO_PCIECLK
VSSIO_PCIECLK
VSSIO_PCIECLK VSSIO_PCIECLK
VSSIO_PCIECLK VSSIO_PCIECLK
VSSIO_PCIECLK
VSSIO_PCIECLK
VSSIO_PCIECLK
VSSIO_PCIECLK VSSIO_PCIECLK
M20
H23 H26 A A21 A A23 A B23 A D2 3 A A26 A C2 6 Y20 W 21 W 20 A E26 L21 K 20
H U D SON M1 A1 3 C 54 9
C5 5 0
0 .1 u_ 1 0 V_ X5 R _0 4 1 u _ 10 V_ Y 5V_ 0 6
3. 3 V
3 .3 V S 3 .3V
VD DPL _ 3. 3V
VD DIO _ AZ
1 .5 V
L 95 R 36 2
0 _0 4
.
H CB1 0 05KF -12 1T 20
VDD PL_ 1 .1 V
C 55 4
V DDA N _ 3 . 3V _H W M
L94
.
H CB1 0 05K F - 12 1 T20 C 5 51
L 96 C 5 53
R 36 3
1.1 V
.
H CB1 0 05 KF -121T 20
C 55 2
1 u _ 10 V _ Y 5V _ 0 6 0.1 u _ 1 0V_ X5 R_ 0 4 C5 5 5
C 5 56
* 0_ 0 4 C5 5 7
1 u _ 1 0V_ Y 5V_ 0 6 *0 .1 u _ 10 V_ X7R _ 04
1u _ 1 0V _Y 5 V_0 6 *0 .1 u _1 0 V_ X 7R _ 04
1 u _ 10 V_ Y 5 V_ 0 6
HUDSON POWER DECOUPLING B - 19
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
POWERGOOD/ TPM 3 .3 V
4 1
4
33 1 .1 V_ P W RG D 16
U2 2 B 7 4 LVC 0 8P W 6
5
SY S_ RS T#
7
3 .3 V
3 5 P W RG D_ VC ORE
3 .3 V
3 .3 V
R7 74
3 .3 V R 77 5
34 1 .8 V_ P W RG D
4 1
4 1
R 77 6
3 2 ,35 D DR 1.5 V_ P W R GD 1 6 ,2 6, 27 ,3 0
U2 2 A 7 4 LVC 0 8P W
0_ 0 4
12
1
* 0_ 0 4
3
2
SUS B#
4 1
U 22 D 7 4 LVC 0 8PW
9
11
U2 2 C 74 L VC0 8 P W
10 K_ 0 4
8
10 7
7
s m a r g a i D c i t a m e h c S . B
7
TPM 1.2 1 5 ,2 7 1 5 ,2 7 1 5 ,2 7 1 5 ,2 7 15
L P C_ A D0 L P C_ A D1 L P C_ A D2 L P C_ A D3
16
R 814 R 816 R 817 R 815
R 818 R 819 R 820
* 0_ 0 4 2 2 * 0_ 0 4 1 6 * 0_ 0 4 2 7 15
21
28
S4 _ ST ATE # T PM _ BAD D
9
T PM _ PP
7
U50 L A D0 L A D1 L A D2 L A D3 L CL K
V DD 1 V DD 2 V DD 3
8
C8 7 6
10 19 24
SY S _PW R OK
1 u_ 6 .3 V_Y 5 V _0 4
*1 0 K_ 04
L P CPD #
PP
T E ST I
C8 7 8
3 .3 VS VS B
5 C8 8 0
G PIO GP IO 2
6 2
GN D_ 1 GN D_ 2 GN D_ 3 GN D_ 4
*0 .1 u _1 6 V_ Y5 V _ 04
T P M3 0 04 T P M3 0 05
13
XTALI
14
XTALO
X T A LI XT AL O
N C_ 1 N C_ 2 N C_ 3
C 8 77
4 11 18 25
* SL B 96 3 5 TT
X12 4 3
* 3 2.7 6 8KHz 1 2
X13 4 3
* 3 2.7 6 8KHz 1 2
C8 81
C8 8 2
*1 8p _ 5 0V_ N PO_ 0 4
*1 8 p_ 5 0 V _N P O_ 0 4
Asserted beforeentering S3 LPCreset t iming: LPCPD# inactive to LRST# inactive32~96us
TPM_PP
HI:ACCESS LOW: NORMAL( Internal PD)
TPM_BADD
HI:4E/4FH LOW: 2E/ 2FH
C 87 9
*0 .1 u _1 6 V_ Y5 V _ 04 *0 .1 u_ 1 6 V_Y 5 V _0 4 *0 .1 u _1 6 V _ Y 5 V_ 04 * 1u _ 1 6V_ X5 R_ 06
TPM
L F RAM E # L RESE T# SE R IRQ C LKR UN #
T E ST B I/B AD D
T P M3 0 0 1 1 T P M3 0 0 2 3 T P M3 0 0 3 1 2
B - 20 POWERGOOD/ TPM
SB _ P W RO K
0 _0 4
R3 6 7
3 .3 VS
* 0_ 0 4 2 6 * 0_ 0 4 2 3 * 0_ 0 4 2 0 * 0_ 0 4 1 7
PC L K_T PM
15 ,2 7 LP C_ F RAM E # 1 5 ,23 ,2 4 ,26 ,2 7 BUF _ PL T _R ST # 15 ,2 7 S E R I R Q 1 5 PCI_ C LK R UN #
0 _0 4
R 36 5 C 84 1
ON
Sheet 19 of 41 POWERGOOD/ TPM
R 36 4
13
PCL K_ TP M
R 82 1
* 33 _ 04
C 8 83
3 .3 VS T PM_ PP
R 82 2
* 10 K _ 04
T PM_ BAD D
R 82 3
* 10 K _ 04
R 82 4
* 10 K _ 04
*1 0 _p 50 V_0 4
SB _ PW R GD
16
AL L _ SYS _ PW R GD 2 0 ,2 7
Schematic Diagrams
LVDS, INVERTER 3 .3 VS
PANEL CONNECTOR
R577, R578W250BAQ Delete R57 7 R57 8
J_LCD1 For sin gle channel J_LCD2 For du al channel
2 .2 K _ 0 4 2 .2 K _ 0 4
EDID Mode
VIN_ L CD
12/7
J _ LC D1
80mils
1 3 5 7 9 11 13 R L V DS L- C LK N15 R L V DS L- C LK P17 19 21 R L VDS-L 1 N R L VDS-L 1 P 23 25 R L VDS-L 0 N 27 29 R L VDS-L 0 P
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29
V IN_ L CD
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30
LVD S_ DAT A LVD S_ CL K BRIG HT NE S S
BR IGH TN ES S 2 7
INV_ BL ON
3 .3 V
RL V DS -L2 N RL V DS -L2 P
D2 3 BRIG HT N ESS 3.3 VS
AC
C RL V D S -LC L KN RL V D S -LC L KP
C 5 66 * 0 .1u _ 1 6V_ Y 5V _ 0 4
A
*B AV99 R E CT IF IER
RL V D S -L1 N RL V D S -L1 P RL V D S -L0 N RL V D S -L0 P
C5 6 1
87 2 1 6-3 0 0 6
0 .1u _ 1 6V _ Y 5V _0 4 P LV D D C5 6 2
C5 63
4.7 u _ 6.3 V_ X5 R _ 06
0.1 u _ 16 V_ Y5 V_ 0 4
2 1 G G
J_ L CD 2
12/7
7 7 7 7
T XCL K_ UN TXC LK _ U P T X OU T_ U 1N TX O UT _U 1 P
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39
LVD S_ DAT A LVD S_ CL K
1 2 2 d d n n 4 G G 6
BRIG HT NESS
8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40
INV_ B L ON RL VDS-L 2 N RL VDS-L 2 P
3 .3 VS PL V D D
2A
T XO UT _ U2 N 7 T XO UT _ U2P 7 T XO UT _ U0 N 7 T XO UT _ U0P 7
* 87 2 1 6-4 0 0 6
Sheet 20 of 41 LVDS, INVERTER
12/7
PANEL POWER
3.3 V S VIN
VI N
.
3 2 1
Q46 R5 8 6
VIN_ L CD
L1 *0 _ 0 6
P 20 0 3 EV G
2A 8 7 6 5
3.3 V
3A
C 56 5 9 5 5 C
R2 3 8
1 M_ 0 4
4
R2 28 *1 0 K_0 4
C1 8
1108
D
*0 .1 u _5 0 V_ Y5 V _ 0 6
G
Q49 M T N7 0 02 Z H S3
EN AVDD
6
2G
Q 45 A 1 *M TD N7 0 02 Z H S 6 R
S
*2 00 _ 1 %_ 0 4 3
D
D
5G S Q4 5 B 4 *MT D N7 0 02 Z H S6R
S
6 0 _ V 5 Y _ V 0 5 _ u 1 . 0
0 6 5 C
C 56 4
0 .1u _ 1 6V_ Y 5V_ 0 4
P L VDD
*0 .0 1u _ 1 6V_ X7 R_ 0 4
U2 4 4 5
4 0 _ R 7 X _ V 0 5 _ u 1 0 . 0
3 NB_ E N A VDD
R 69 8
0 _0 4
7 VGA _D IGO N
R 69 9
* 0_ 0 4
EN AV DD
3
R3 8 7 1 00 K_ 0 4
VIN VIN
EN
VOU T
G ND
1
Default UMA
2A R LV DS-L 0 N
2 R LV DS-L 0 P
AP L 3 5 12 A R LV DS-L 1 N
W250BAQR698 Off, R699On
G5243A 6-02-05243-9C0 APL3512A 6-02-03512-9C0
R LV DS-L 1 P
R LV DS-L 2 N
R LV DS-L 2 P
27
R 38 8
BKL_ EN
* 1 0 mil _ sh or t _ 0 4
INVERTER CONNECTOR
BKL _ EN_ R
R 38 9
C5 6 7
* 10 0 K_ 04
*0 .4 7u _ 10 V _ Y 5V_ 0 4
3 .3V 4 1
1 3 8
B L ON GP IO 7_ BL O N
R 7 00
0_04
R 7 01
* 0_ 0 4
3 .3 V U 2 5A 7 4 L VC0 8 PW 3
2
4 1
Z 12 0 1
4
3.3 V
R LV DS-L CL KP
U2 5 B 74 L VC0 8 PW 6
*0 .1 u _1 6 V _ Y5 V _ 04
5
L VD S _D AT A
7
R 39 0
7
L VD S _C L K 4 1
16
SB_ BLO N
Z 1 20 2
3 .3 V R 3 91
16 ,2 7 ,29 L ID _SW #
L VDS -L 0 N
R 6 03
* 0 _0 4
T XOUT _ L 0N
R 6 04
0_04
L VDS -L 0 P
R 6 05
* 0 _0 4
T XOUT _ L 0P
R 6 06
0_04
L VDS -L 1 N
R 6 07
* 0 _0 4
T XOUT _ L 1N
R 6 08
0_04
L VDS -L 1 P
R 6 09
* 0 _0 4
T XOUT _ L 1P
R 6 10
0_04
L VDS -L 2 N
R 6 11
* 0 _0 4
T XOUT _ L 2N
R 6 12
0_04
L VDS -L 2 P
R 6 13
* 0 _0 4
T XOUT _ L 2P
R 6 14
0_04
LV D S-L CL KN
R 6 15
* 0 _0 4
TX CL K_ L N
R 6 16
0_04
LV D S-L CL KP
R 6 17
* 0 _0 4
TX CL K_ L P
R 6 18
0_04
LV D S_ DD C_ DAT A
R 6 19
* 0 _0 4
SDA
R 6 20
0_04
LV D S_ DD C_ CL K
R 6 21
* 0 _0 4
SCL
L VDS-L 0 N 3 T XO UT _L 0N 7 L VDS-L 0P 3 T XO UT _ L 0P 7 L VDS-L 1 N 3 T XO UT _L 1N 7 L VDS-L 1P 3 T XO UT _ L 1P 7 L VDS-L 2 N 3 T XO UT _L 2N 7 L VDS-L 2P 3 T XO UT _ L 2P 7 L VDS-L C LKN 3 T XC L K_LN
7
L VDS-L C LKP
3
T XC L K_LP 7
9
U2 5 C 7 4 LVC 0 8PW 8
L V DS_ DD C_D ATA SDA
3
8
L V DS_ DD C_ C LK 3 SCL
8
IN V_B LO N
Z 1 20 3 10
* 10 0K _ 04 4 1
1 9 ,27 A L L _ S YS_ P W R G D
0_04
C5 6 8
1 0 0K _0 4
W250BAQ R700 Off, R701 On
R LV DS-L CL KN
R 6 02
12
U2 5 D 74 L VC0 8 PW 11
13
7
R 3 92
C5 6 9
* 1 M_ 0 4
0 .1u _ 1 6V _ Y 5V _ 0 4
7
LVDS, INVERTER B - 21
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
CCD/ 3G MINI CARD 3G(Port 6) Layout Show "3.5G(HSDPA)" Note
Layout? 1. SIM? ? ? ? ? ? ? ? (10mil) 2. ? ? ? ? ? ? ? ? GND 3. SIM hold ? ? ? ? ? GND? ? 4. SIM CONN ? ? MINI CARD CONN
3 G_ 3 .3 V J _3 G 1 1 3 5
W AKE# CO EX1 CO EX2
7 11 13 9 15
CL KRE Q # REF C LKREF C LK+ GN D0 GN D1
60mils
2 6 8 10 12 14 16
3 .3 V AUX_ 0 1.5 V_ 0 U IM_ PW R UIM _D AT A UIM _C L K UIM _R ESE T UIM _VP P
U IM_ PW R U IM_ DA T A U IM_ CL K U IM_ RS T U IM_ VP P
C5 9 2
C5 9 4 0. 1u _ 16 V _ Y5 V _ 0 4
+C5 9 3
0 .1u _ 1 6V_ Y 5V_ 0 4
2 20 u _ 4V_ V _ B
4 GND 5
KEY 21 27 29 27
GN D2 GN D3 GN D4
35 23 25 31 33
3G _ DET #
3 G_ 3 .3 V
C5 9 8
C5 9 9
0 .1u _ 1 6V_ Y 5V_ 0 4
1 0u _ 1 0V_ Y 5V _ 0 8
GND GND GND GND GN D1
GN D1 1 P ET n0 P ET p0 P ERn 0 P ERp 0
17 19 37 39 41 43 45 47 49 51
18 26 34 40 50
6 7 8 9 0
Re s erv e d 0 Re s erv e d 1 GN D1 2 3.3 VAU X_ 3 3.3 VAU X_ 4 GN D1 3 Re s erv e d 2 Re s erv e d 3 Re s erv e d 4 Re s erv e d 5
SIM CONN
20 22 30 32 36 38
W _D IS ABL E # P E RSET # SM B_C L K SM B _D AT A USB_ D U SB_D +
3 G _E N
L106 2
*W C M2 0 12 F 2 S-1 61 T 0 3-s h o rt 1 USB_ P N 9 1 6
3
24 28 48 52 42 44 46
3 .3 V AUX_ 1 1.5 V_ 1 1.5 V_ 2 3 .3 V AUX_ 2 L E D_ W W AN # LED _ W LAN # L ED_ W PAN #
R 42 0
27
R 41 9
4
* 15 m il_ sh o rt_ 06
U S B _ PP 9
1 6
3 G_ 3 .3 V
UI M _C LK
R4 2 1 *1 0 mil_s h o rt_0 4
C 86 8
60mils
3G _ 3.3 V
0 .1 u_ 1 6 V_Y 5 V_0 4
LOCK (TOP VIEW)
C3 C2 C1
UIM _ RST UIM _ P W R
U IM_ CLK U IM_ RST U IM_ P W R
C6 0 5
C6 0 0
8 89 1 0 -52 0 4 M-0 1
U IM_ DAT A U IM_ VP P U IM_ GN D
David 8/25 C7 C6 C5
OPEN
*2 2 p _5 0 V _ NPO_ 0 4
*0 .1 u _1 6 V_ Y5 V_ 04
* 4 . 7 K _ 04
J _ SIM1
+ C6 01
C 1 77 0 6 61 -1 S IML OC K
R4 22 *1 0m il_s h or t_0 4
UI M _ DA T A UIM _ VPP
C6 02
C6 0 3
C 60 4
*2 2p _ 5 0V_ N P O_ 0 4
*2 2 p_ 5 0V _N P O_ 0 4
* 22 p _ 50 V_ NPO _0 4
Sheet 22 of 41 CCD/ 3G
22 0 u _4 V_ V_ B
AO3409? ? ?
CCD
3G POWER
5V
Q10 MT P3 4 03 N 3 S D
3 .3 V_ 3G 3 .3 VS 3 .3 V
R78 9
* 0_ 0 6
R79 0
0_ 06
5V_ C CD
48 mil
3G _3 .3 V Q32 A O3 41 5 S
3A 120mils
MJ_CCD1
C 6 10
3A 120mils
D
1 u _ 6.3 V_ Y5 V_ 0 4
C6 1 1
1 u_ 6 .3 V_Y 5 V_0 4 C5 9 6
C 8 57
1 u_ 6. 3 V _Y 5 V _ 0 G 4
2 0K_ 1 % _0 4
27
D
D
2 G
5 G Q3 3A
S RT 3 K4 4M
C 61 2
C 6 13
C6 14
10 0 K_ 04
* 1u _ 6 .3V_ Y 5V_ 0 4
0 .1 u _1 6 V_ Y 5 V _ 04
1u _ 6.3 V _ Y5 V _ 0 4
1
5
R4 2 4
J _ CCD 1
3 3 0 K _0 4 D
1 0 _ 06 3
6
3G _ POW ER
R 42 6
R 7 92
1 0 0 K_ 0 4
R4 23
1 00 K_ 0 4
0.1 u _1 6 V_ Y 5 V_ 04 R7 9 1
27
0 .1 u _1 6 V_ Y5 V_ 04
C5 95
1 0u _ 10 V _ Y5 V _ 0 8
R 79 3
G
C8 4 6
C CD _EN
Q1 1 MT N7 0 0 2Z H S3
G
C CD_ EN
S
From H8 default HI
16 US B_ PN5 16 US B _PP 5 2 7 C CD _D ET #
CC D_ DET #
1 2 3 4 5 8 5 20 5 -0 50 0 1
Q 3 3B
S R T 3K 4 4 M
4
1
From SB GPIOPin default HI P o w e r P l a n e : S u sp e n d S3: Defined
ADDR128,Q2 SolutionFor PDA BUG-Wh en Batte ry discharge to shutdown, the CMOS sometimes loss.
1A U4 7 4 5 C CD _E N 3
V IN V IN
EN
VO UT
GN D
1
1A 2
*G 52 4 3 A
CCD/ 3G B - 23
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
MINI PCIE/ SATA HDD/ ODD MINI CARD (WLAN,Port 5) 20 mil
3 .3 V C 84 7
Layout Show "WLAN(Wimax, 802.11N)" Note
0 .1 u _1 6 V_ Y5 V _ 04 J_ M INI1 P CIE _ WAK E #
1 6,2 3 ,2 6 P CIE _ W AK E# R 451
3 .3 VS
R 50 9
* 0_ 0 4
1 0 K _0 4 W LAN _ CL KREQ #
1 6 W L A N_ CL KR EQ# 15 C LK _ P C IE _ W LA N# 15 C LK _PC IE_ W L AN
1 3 5 7 11 13 9 15
W AK E# C OE X1 C OE X2
3 .3 V AU X_ 0 1.5 V_ 0 U IM_ P W R UIM _D AT A UIM _ CL K UIM _R E SE T UIM _ VP P
C L K RE Q # R EF C LKR EF C LK+ G ND 0 G ND 1
GN D5
2 6 8 10 12 14 16
20 mil R 45 2
* 0_ 04 R 49 6 R 72 2 R 50 8
VD D3 B T _O N 8 0 CLK
0 _0 4 1 00 K _ 0 4 0 _0 4
1 5, 2 8 27
3 IN 1
4
KEY 21 27 29
15 15 15 15
27 ,2 8 27
27 W LA N _ DET # P C IE _ RX N3 _ W L A N P C IE _R XP 3_ W L A N P C IE _ T XN 3_ W L A N P C IE _T XP 3 _ W LA N
BT _EN 3 IN1
3IN 1
R 45 4
* 0_0 4
R 73 8
* 0_0 4
VD D3 3 .3 V 1 5,2 8 2 7,2 8
B T_ ON BT _E N
S1 S2 S3 S4 S5 S6 S7
R455
* 10 K _ 0 4
3.3 V
R49 4 R45 6 R45 7 R 45 8
* 10 K_ 04 * 10 K_ 04 * 0_ 04 0 _0 4
17 19 37 39 41 43 45 47 49 51
GN D6 GN D7 GN D8 GN D9 GN D1 0
G ND 1 1 P ETn 0 P ETp 0 P ERn 0 P ERp 0
W _D IS AB L E # P E RS ET # SM B_ CL K S M B _D AT A USB _D U SB _ D+
R e se rv e d 0 R e se rv e d 1 G ND 1 2 3 .3 V AU X_ 3 3 .3 V AU X_ 4 G ND 1 3 R e se rv e d 2 R e se rv e d 3 R e se rv e d 4 R e se rv e d 5
3 .3 V AU X_ 1 1.5 V_ 1 1.5 V_ 2 3 .3 V AU X_ 2 L ED_ W W AN# LED _ W L AN# L E D _W P AN#
18 26 34 40 50
R4 5 3 *1 0 K_0 4
20 22 30 32 36 38 24 28 48 52 42 44 46
3 .3 V S
W L AN_ E N 2 7 ,2 8 BUF _ P L T _R ST # 1 5 ,1 9, 23 ,2 6 ,27
BUF _PL T _ RST #
R 7 25 R 7 26 3.3 V AU X_1
20 mil
BT _D E T# 2 7 ,2 8 US B_ P N 2 1 6 US B_ P P2 1 6
* 10 m i _l s ho rt * 10 m i _l s ho rt
20 mil
R72 7
0_04
Port 2
3.3 V
3 .3 V W LAN _ LED # 27,2 8
R 73 9
* 0_0 4
8 0 CLK
27
Sheet 24 of 41 MINI PCIE/ SATA HDD/ ODD
SATA ODD J _ OD D1
SA TA _ T XP0 SA TA _ T XN0
C6 5 3 C6 5 4
0 .0 1u_ 16 V_ X7 R_ 04 0 .0 1u_ 16 V_ X7 R_ 04
SA TA _ R XN 0 SA TA _ R XP0
C6 5 5 C6 5 8
0 .0 1u_ 16 V_ X7 R_ 04 0 .0 1u_ 16 V_ X7 R_ 04
S ATA T XP0 1 7 S ATA T XN0 1 7 S A T AR X N 0 S ATA R XP0
1 7 17
3 .3V S P1 P2 P3 P4 P5 P6 P7 P8 P9 P1 0 P1 1 P1 2 P1 3 P1 4 P1 5
* 1 0 m il_ sh o rt * 1 0 m il_ sh o rt
G ND 2 G ND 3 G ND 4
BE L LW E TH E R 8 0 0 03 -1 0 21
SATA HDD J _ HD D1
R723 R724
35 23 25 31 33
C6 6 1 C6 6 2 *0 .0 1 u_ 1 6 V _ X7 R_ 0 4 *1 0 u _1 0 V _ Y5 V _ 08
H DD _N C0 H DD _N C1 H DD _N C2 H DD _N C3
A L L T OP -C 16 6 N5 -1 2 20 5 -L A L L T O P -C1 6 6 N 5 -1 2 2 0 5 -L
W240BU6- 20-43730- 122 W250BUQ 6- 20-43750- 022
4 0 _ V 5 Y _ V 6 1 _ u 1 . 0
4 0 _ V 5 Y _ V 6 1 _ u 1 . 0
4 0 _ V 5 Y _ V 6 1 _ u 1 . 0
4 0 _ V 5
1 7 6 C
2 7 6 C
3 7 6 C
4 7 6 C
Y _ V 3 . 6 _ u 1
5V S
8 0 _ R 5 X _ V 3 . 6 _ u 2 2
8 0 _ R 5 X _ V 3 . 6 _ u 2 2
5 7 6 C
6 7 6 C
7 . 5 * 6 . 6 _ V 3 . 6 _ u 0 2 2
S1 S2 S3 S4 S5 S6 S7
P1 P2 P3 P4 P5 P6
SA T A _ TX P1 SA T A _ TX N 1
C 65 6 C 65 7
0.0 1u _1 6V_ X7 R _0 4 0.0 1u _1 6V_ X7 R _0 4
SA T A _ RX N1 C 65 9 SA T A _ RX P1 C 66 0
0.0 1u _1 6V_ X7 R _0 4 0.0 1u _1 6V_ X7 R _0 4
R 70 5
0_ 0 4
S A T A R X N1 1 7 S AT ARXP1 17
OD D_DE T EC T#
O DD_ D ETE CT # 16
3 .3 VS
OD D_ 5 V R 70 6
S AT ATXP1 1 7 S AT ATX N 1 1 7
* 1 0 K _ 04 5VS
C 1 8 5 53 -1 1 30 5 -L PIN G ND 1 ~ 2= G ND
G
*M TN 70 0 2 Z HS3
Q7
S
OD D_ 5 V R 70 2
D
0 _ 06 Q3 0
O DD _D A # _FC H 1 6
S
D * AO3 4 0 9
R 70 3 * 1M _ 04
+
C8 4 5
G
*1 00 0 p _5 0 V _ X7 R _0 4
0 7 6 C D
17
OD D_ P W R
R70 7
R 70 4 *1 0 K_0 4 Q 31 * MT N7 0 02 Z H S3
* K 1 _0 4 G S
5 VS
OD D_ 5 V C6 77
C 6 78
C 67 9
0.0 1 u _1 6 V_ X7 R _0 4
0 .0 1 u_ 1 6 V _X7 R_ 0 4
0 .0 1u _ 1 6V _X 7 R_ 0 4
12/6Reserve C6 6 3 *0 .1 u _1 6 V_ Y5 V _ 04
C 66 4 0 .1 u _1 6 V _ Y5 V _ 04
C6 6 5 0.1 u _ 16 V_ Y5 V_ 0 4
C6 6 6 1 u_ 6 .3 V _ Y5 V_ 04
C 66 7
C 66 8
1 0 u _1 0 V_ Y5 V_ 08
+
C6 6 9 * 22 0 u _6 .3 V_ 6.6 * 5.7 *0 .1 u _1 6 V _ Y 5 V_ 04
MINI PCIE/ SATA HDD/ ODD B - 25
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
AUDIO CODEC AL C261C AUDIO CODEC
ALC269 VB VT1802P
PVD D1 _ 2
R 46 0
1. 5VS
* 0_ 04
R46 1
3 .3VS
PD#Control AZ_RST# For 3 .3V HDA Link De-pop
5 VS
C 6 80 1 0 u _1 0 V_ Y5 V _ 0 8
DVD D_ IO
For 3.3V HDA Lin k. 3 .3 VS_ AUD
s m a r g a i D c i t a m e h c S . B
5 VS R 4 59
For 1 .5V HDA Link.
Layout note: GND and AUDG space is 60mils ~ 100mils
0 _ 06
C 68 1 0 .1 u_ 1 6 V_ Y 5 V_ 04
* 1 0 m il_ s ho rt
VT1802P L75,C718 ? ? ? C6 8 2 1 0 u_ 1 0 V_Y 5 V _ 08
C6 8 3 0 .1 u _1 6 V_ Y 5 V_ 04
C 68 4 * 1 0u _ 1 0V_ Y 5V_ 0 8
C6 8 5 *0 .1 u _1 6 V_ Y5 V_ 0 4
ANAL OG
L 1 0 91
DIGITAL
5 VS_A UD
L 11 0 3.3 VS_ AU D H CB 1 0 0 5K F -12 1 T 2 0 1 2
EMI Requ ire
L 11 1 H CB 1 0 0 5KF -12 1 T 20 1 2
5 VS
C6 8 8
C6 8 9
C 69 0
C 6 91
C6 9 2
C6 9 3
C 69 4
C6 9 5
0 .1u _ 1 6V _Y 5 V_0 4
10 u _ 10 V_ Y5 V_ 0 8
0 .1 u _1 6 V_ Y 5 V_ 04
0 .1 u _ 16 V_ Y5 V_ 0 4
1 0 u_ 1 0 V_Y 5 V _ 08
0.1 u _ 16 V_ Y 5V_ 0 4
1 0 u _1 0 V_ Y5 V _ 08
1 u_ 6 .3 V_ Y 5 V_ 04
2
* H CB 1 0 0 5K F - 1 2 1 T 20
A UDG
J P1
* 10 m il _ s ho r t
J P2
* 10 m il _ s ho r t
C 68 6
0 . 1 u_ 1 6 V _Y 5V _ 0 4
C 68 7
0 . 1 u_ 1 6 V _Y 5V _ 0 4
A UDG
R 4 62 D3 3 BAT 54 AW G H 1 A
H DA_ R ST#
Sheet 25 of 41 AUDIO CODEC ALC261C
5VS
1 0 K_ 04
R 46 6
PD#
A
D
S
S
40 41
SPKO UT L + SPKO UT L -
Please Let LC Filter t o g e t he r a n d c l o s e t o Codec.IF Speaker wire length is less than 8000mils It don't need the LC Filter.
Q12 *BSS1 3 8 _N L
HD A_ RST #G
AZ_RST# Fo r 1.5V HDA L ink De-pop
PD # Q 13 * MT N7 0 0 2Z HS3
G
9
1 D D V D
4
D
* 10 0 K _ 0 4
1
U 32
C 3
2
2 7 KBC _M UT E#
9 6 3 4
O I D D V D
5 8 2 3
2 1 D D D D V V P P
2 1 D D D D V V A A
L INE2 -L L INE2 -R M IC2 -L MIC2 -R
SPKO UT RSPKO UT R+
44 4 5 SPK-R SPK-R + 47 SPD IF C2 /EAPD 48 SPD IF O C O D E C _ G P I O 02 GP IO0 -DM IC-D AT C O D E C _ G P I O 13 GP IO1 -DM IC-C L K
S en s e -B
EAPD SPDI F O
J DR EF M ON O-O UT
ANALOG
DIGITAL 5
2 2p _ 05 V _ N P O _ 0 4
SD ATA- OUT
M IC1 -L MIC1 -R L INE1 -L L INE1 -R
6 1 6 H DA_ BIT CL K 16
HDA _SD IN0
16
H DA_ SY NC
16
BIT -CL K R 4 71
2 2 _0 4
10 H DA_ R ST#
HD A_R ST #
D 28 BAT 5 4 CW G H
16
KBC_ BEEP HDA _SP KR
11
BE EP_R
PC BEEP 27
8
AZ _SD I N0 _ R
1
A
2
A
C 3
12
C7 0 6 BEEP
R 4 77
4 7 K _0 4
FOR VOLUMN ADJUST
1u _ 6 .3V _Y 5 V_0 4
BEE P_C
C7 0 9
4.7 K_ 0 4
10 0 p _5 0 V_ NPO _ 04
LD O_ C AP M IC1 -VR EF O-R MIC 2- VREF O
SY NC RE SET#
L O F E R V 1 C I M
PC BEEP 1 2 S S S S V V P P 2 3 4 4
R4 7 8
13
SENS E_A
R 46 3
2 0 K _ 1 %_ 0 4
14 15
LI NE2 _ L LI NE2 _ R
R 46 4
3 9 . 2 K _1 % _ 0 4 HP _SE NSE
16 17
MIC 2 _ L MIC 2_ R
C6 96 C6 97
18
SENS E_B
19 20
JD RE F MO NO _O UT
R 46 8 C6 99
2 0 K _ 1 %_ 0 4 * 100 p_50 V_ NPO _ 04
21 22
MIC 1_ L _ C MIC 1_ R _C
C7 00 C7 01
4 .7 u_6 .3V_ X5R _0 6 4 .7 u_6 .3V_ X5R _0 6
23 24
LI NE1 _ L LI NE1 _ R
C7 03
0 .1u _1 6V_ Y5 V_04
27
CO DEC _V REF
C7 04
2 .2 u_6 .3V_ X5R _0 6
28 30 29
LD O_ C AP MIC 1- VREF O -R MIC 2- VREF O
32 33
HEAD PHO NE- L HEAD PHO NE- R
35
CO DEC _C BN
36 34
CO DEC _C BP
VR EF
SD ATA- IN
2 S S V D 7
1 2 S S S S V V A A
D N G
7 6 2 3
9 4
AUD G
1 3
HP-O UT -L HP -OUT -R CBN CB P OPV EE
VT1802P
M IC_ SEN SE 2 9
C7 05
12/6
INT _ MIC
R 46 7
VT1802P
NC PIN
HEA DPH ONE -L 29 HEA DPH ONE -R 2 9
1 K_04
AUD G
1 2 8 8 2 66 -0 2 00 1 PCB F oo tp rint =8 8 2 66 -2 L
75_1%_04 R 47 2
1K _ 0 4
M IC1 -L _ M
MIC 1-R
R 47 4
1K _ 0 4
M IC1 -R _M
M IC1 -VRE F O-R R 47 5
2. 2 K _0 4
M IC1 -VRE F O-L R 47 6
2. 2 K _0 4
4.7K_1%_04
C 7 08 2 .2 u _6 .3 V _ X5 R _0 6 SPKOU T R+
SPKO UT R+ 2 9
AU DG SPKOU T R-
AU DG
6 8 0p _ 5 0V _X7 R_ 0 4
MIC 1-L
VT1802P
J _ INT M IC1
INT _ MIC _ OU T C 69 8
A UDG
10u
SPKO UT R- 2 9
M IC1 -VRE F O-L
T h e rm a l P a d p l a c e 9 Via hole. 3.3VS_AUD SPKO UT L +
5VS 20ms
AZ_RST# PD#
B - 26 AUDIO CODEC ALC261C
C 7 10
C7 1 1
* 1u _ 1 0V _Y 5 V_0 6
*1 8 0 p_ 5 0 V_N P O_ 0 4
C2 3 6 C2 4 6
*1 8 0p_ 50 V_ NPO _0 4 *1 8 0p_ 50 V_ NPO _0 4
AUD G J _ SPK1
S PKOU TL -
J_SPK1 2
Speaker wire length less than 8000mils , It don't need LC Filter. SPKOUTR+,R-,L+,L - Trace width Speaker 4 ohm------> 40mils Speaker 8 ohm------> 20mils
Reserve 9/8
L 1 12 * F CM 16 0 8 K-1 21 T 0 6_ s h ort SPKO UT L + _L
SP KOU TL -_L * F CM 16 0 8 K-1 21 T 0 6_ s h ort L 1 13
1
EMI Require
C7 1 2 *1 8 0 p_ 5 0 V_N PO _ 0 4
J_ SPKL 1 1 2
SPKO UT R+ SPKO UT R-
L136 L135
SPKOU T L+ _ L SPKOU T L-_ L * F CM 1 60 8 K-1 21T 0 6 _s h ort * F CM 1 60 8 K-1 21T 0 6 _s h ort
SPK OUT R +_ R SPK OUT R -_R
4 3 2 1 * 85 2 0 4-0 4 0 01
8 5 20 4 -0 20 0 1 PCB F o o tp rin t = 8 5 20 4 -0 2R
PN: 6-20-43130-104
AUD G
C2 3 7 C2 3 9
1
4 .7 K_ 04
VT1802P 330P
1 0u_1 0V_ Y5 V_08
VT1802P
2.2 u _ 6.3 V_ X5 R_ 0 6
2
R 46 5
VT1802P 2.2K_04
HP_ SEN SE 2 9
5.1K_1%_04
VT1802P
C7 0 7 A LC 2 69 Q -VB6 -GR
4 .7 u_6 .3V_ X5R _0 6 4 .7 u_6 .3V_ X5R _0 6
J_INTMIC1
MIC 2- VREF O
MI C_ SENSE
S en s e A
SPK-L + SPK-L -
1 6 H DA_ SDO UT C 70 2
AU DG
*1 8 0p_ 50 V_ NPO _0 4 *1 8 0p_ 50 V_ NPO _0 4
MIC 1 -LM 2 9 MIC 1-R M 2 9
Schematic Diagrams
USB 3.0 VL800
Sheet 26 of 41 USB 3.0 VL800
USB 3.0 VL800 B - 27
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
KBC- ITE IT8518 R 50 1
V DD3
K B C _ A V DD
* 15 m il _ sh o rt_ 06
C7 4 1
C7 4 2
0.1 u _ 16 V_ Y 5 V _ 0 4
C7 4 3
1 0u _ 10 V_ Y 5 V _ 0 8
C 74 4
0 .1u _ 1 6V _ Y 5V _ 0 4
0 .1 u_ 1 6V _Y 5V_ 0 4
V D D3
L 1 17 H CB 1 0 05 KF -1 2 1T 2 0
.
C 74 7
8
U 37
V DD 3
VDD
C8 5 6
C7 4 5
C 7 46
0.1 u _ 16 V _ Y 5 V_ 0 4
*0 .1 u_ 1 6 V _Y 5 V_0 4
* 0 . 1u _ 1 6V _ Y5 V _ 0 4
SI SO CE # SCK
0 .1 u_ 1 6 V_Y 5 V _0 4 KB C _ F LAS H
3
KB C _ HOL D #
7
5 2 1 6
VD D3
K BC _SP I _S I_ R K BC _SP I _S O _ R K BC _SP I _C E # _R K BC _SP I _S C L K _R
R 50 2
WP#
C 74 8 L 11 8 HC B 1 00 5 KF -1 21 T 2 0
.
3 .3 VS
1 0 0K _0 4
0 .1 u_ 1 6 V _Y 5 V _0 4 EC_ VCC
1 5 ,19 ,2 3 ,24 ,2 6
BUF _ P L T_ R ST# 15
E C_ RST #
R 78 5
* 0_0 4
R 78 6
0_ 0 4
s m a r g a i D c i t a m e h c S . B
2 4 ,28 25
Sheet 27 of 41 KBC- ITE IT8518
29
R 7 97
0 _ 04
( S MI# ) ( S CI# )
E C_ S MI# E C_ S CI#
W L A N _E N K B C _ MUT E #
2 9 W EB _E MA IL # C8 5 5 0 .1u _ 1 6V_ Y 5V _ 0 4
BA T _ DE T BA T _ V OL T ( A P KEY # )
37 B A T _ DET 37 B A T _ V OL T 29 AP _KE Y # 2 TH ERM _V OL T 23
22 22
R 70 8 R 70 9 R 52 3
H _P EC I
25
Pin873IN1multi functionpin 2 4,2 8
3 G_ DET # CCD _ DET #
37 S MC _BA T 37 S MD _BA T 1 0 S MC _ V GA_ T HE R M 1 0 S MD _ V GA_ T HE R M
3,1 6 ,1 7 S M C_ CP U_ TH E RM 3,1 6 ,1 7 S M D_ CP U_ TH E RM
24
L A N_ P C IE _W AK E # 3 G_ DE T# C CD_ D ET# M ODE L_ ID
L AN_ P CIE_ W A KE #
B T_ DET #
3 IN1
S MC _ B AT S MD _ B AT S MC _ V GA _ T HE RM S MD _ V GA _ T HE RM 0_ 04 0_ 04 * 0 _0 4
L CD_ BR IGH TN E S S K BC_ BE E P ( B EEP ) K B C_ B EE P 28 L ED_ SC ROL L # 28 L E D _N UM # 28 L ED _C AP # 2 8 LED _ B AT _C HG 2 8 L ED_ BA T _ F UL L 28 L E D_ P W R
24 R 787
8 0 CL K
80 CL K 1 K _0 4
2 9 W E B _W W W # 29 T P _ CL K 29 T P_ DAT A 22
8 0 DE T # ( 80 PO RT _D ET #) ( W E B 2#)
3G _E N
R 83 0 R 82 9
1 0 VG A _ AL E RT # 2 4,2 8 W L AN_ L E D# 24 W L A N_ DET #
AD AD AD AD AD AD AD AD
WEB1#---WEB_EMAIL# WEB2#---WEB_WWW#
C0 C1 C2 C3 C4 C5 C6 C7
/GPI /GPI /GPI /GPI /GPI /GPI /GPI /GPI
R 5 33
W/0 CIR)
C 753
F L F RA M E# /GP G 2 F L AD0 /S C E # F L A D1 /S I F L A D2 /SO F LA D 3 /GPG 6 F LC L K /S CK ( PD )F L R S T# /W U I7/G P G0 /T M
GPIO ( P D )K S O16 /GP C 3 ( P D )K S O17 /GP C 5 ( ( ( ( ( ( ( (
PWM
24 25 28 29 30 31 32 34
PW PW PW PW PW PW PW PW
M M M M M M M M
0 1 2 3 4 5 6 7
/GP /GP /GP /GP /GP /GP /GP /GP
A0( A1( A2( A3( A4( A5( A6( A7(
PU PU PU PU PU PU PU PU
) ) ) ) ) ) ) )
PS 2 C LK 0 /G PF 0( PS 2 D AT0 /G PF 1( PS 2 C LK 1 /G PF 2( PS 2 D AT1 /G PF 3( PS 2 C LK 2 /G PF 4( PS 2 D AT2 /G PF 5(
C 7 56
( P D )T MR I0/W U I2 /GP C 4 ( P D )T MR I1/W U I3 /GP C 6
CIR ( P D )CR X /GP C 0 ( P D )C TX/GP B2
GP I NTERRUPT
4 5 6 8 11 12 14 15
K K K K K K K K
36 37 38 39 40 41 42 43 44 45 46 51 52 53 54 55
KB -S O0 KB -S O1 KB -S O2 KB -S O3 KB -S O4 KB -S O5 KB -S O6 KB -S O7 KB -S O8 KB -S O9 KB -S O1 0 KB -S O1 1 KB -S O1 2 KB -S O1 3 KB -S O1 4 KB -S O1 5
1 2 3 7 9 10 13 16 17 18 19 20 21 22 23 24
K B -S O0 K B -S O1 K B -S O2 K B -S O3 K B -S O4 K B -S O5 K B -S O6 K B -S O7 K B -S O8 K B -S O9 K B -S O1 0 K B -S O1 1 K B -S O1 2 K B -S O1 3 K B -S O1 4 K B -S O1 5
( P D )L 80 HLAT /GP E 0
S S S S S S S S S S S S S S V V V V V V V 1 2 7 9 1 3 2 1 2 4 9 1 2 1 1
S S V A
100 101 102 103 104 105 106
( 3 G_ P W R_ EN ) K B C _ S P I_C E # K B C _ S P I_S I K B C _ S P I_S O ( V CH G-S E L) KB C_ S P I_ SCL K
-S -S -S -S -S -S -S -S
4 5 6 8 11 12 14 15
I0 I1 I2 I3 I4 I5 I6 I7
1
1 u _6 .3 V_ X5 R _0 4
24
J_KB1
EC MODULE CHOOSE ( FOR DIFFERENCE K/B TYPE)
1 2 3 7 9 10 13 16 17 18 19 20 21 22 23 24
VER .
RX
V1. 0
R503 10K/ R504 X
3.3V
V2. 0
R503 X/ R504 10K
VOLT AGE
0V
V2. 0
R503 10K/ R504 10K
1.65V
MO DE L _ ID
R 50 3
MOD EL_ID
W240BU W250BU W250BAQ
1 0 K _ 04
R5 0 4
VD D3
* 1 0K _ 04
RX V DD3
3 G_ POW ER
2 2
SM D_ BA T R 8 0 8 SM C_ BA T R 8 0 9
C C D _ EN
S U S B# S USC #
93 94 95 96 97 98 99 107
O C P P E# I C PP E#
CLOCK
EC_ VS S
C K 32 KE C K3 2K
VD D3
5 4 3 2 1
2 128
SW I #
16
C H G _ EN
37
1 0 K _0 4
CK 3 2 K E CK 3 2 K R 5 31
* 1 0 m i l _ sh o r t
For 8512E
1 2
4 3
37
R5 2 8 1 K _0 4
VDD
? ?? 3
R5 3 2 4 .7 K _ 04 K B C_ HO LD #
7
C K 3 2K
* 12 p _ 50 V _ NP O _ 04
S HO R T * MC -14 6 _3 2 .7 68 KH z
6-22-32R76-0B4 R534F or IT8518BX&
4 3
5
KB C _S P I_SI _R
R 52 6
47_04
2
K BC _S P I _S O _ R
R52 7
1 5 _1 %_ 04 K BC _S P I _S O
1
KB C _S P I_C E# _R
R52 9
1 5 _1 %_ 04KB C _S P I_ C E#
6
KB C _S P I_SC L K _R
R 53 0
47_04
CE# SCK
H OL D#
V SS
4
P C T 25 VF 0 1 6B -75 -4 I-S 2 A F
Co-l ayout X2, X3 1 2
SI SO
K B C_ F LA S H
C K 3 2K E C 7 55
KBC_SPI_*_R = 0.1"~0.5"
U39 8
0 _0 4
* 10 M _0 4
C7 5 4
80 D E T#
12/6 Reverse
1 9 ,20
C7 5 2 0 .1 u _1 6 V _ Y5 V _ 04
U37 U39Co-l ayout
* 12 p _5 0 V _ NP O _0 4
K BC_ AG ND
AL L _S Y S_ P W RG D VDD 3
3 5
CE L L C _ ON TR OL
( K BC_ PME# ) P ME#
29
C7 5 1 1 u _6 .3 V _ X5 R _0 4
80PORT
3 IN 1 8 0 CL K R 15 4
X1 0 R5 3 4
0 . 1u _1 6V _ Y 5V 0_ 4
V CO RE _ON
R 71 0
5 7
* 10 K _ 0 4
J_ 8 0D E BUG 1
2 6 2 6
CP U _F AN S EN
( P M_ PW RO K )
112
R 5 07
W L A N_ L ED#
2 9,3 0,31
RS M RS T _ GA T E # 16 K B C_RST # 1 6
VGA _ F A NS E N
19
1 0 K_ 0 4 3 .3 VS
22
EGA D
35 17
119 123
1 0 K_ 0 4
R 50 6
B A T _VO L T
DD _O N
120 124
R 50 5
CCD _ DE T #
1 6 , 19 , 26 , 3 0 1 6, 3 0,3 2
B T_ E N 2 4 , 28 B KL _E N 2 0 H S PI_ CE # 1 7 HS PI_ S C LK 1 7 HS PI_ MS O 1 7 HS PI_ MS I 17
47 48
3G _D E T #
V CHG _ S E L 37
56 57
82 83 84
2. 2 K _ 0 4 2. 2 K _ 0 4
Pin100,104&106EXT ? ? Pull hi & Pull Low.
IT8519BX Only.
B - 28 KBC- ITE IT8518
B B B B B B B B
WP#
LPC/WAKE UP
( P D )R ING #/P W RF A IL # /L PCRS T# /GP B7
* 1 0m _ li s h ort_ 0 4L C D_ B RIG HT NE SS
* 0 . 1 u_ 16 V _Y 5 V_ 04
0 1 2 3 4 5 6 7
( P D )T ACH 0 /GP D 6 ( P D )T ACH 1 /GP D 7
NC 2 R53 5
KB -S I0 KB -S I1 KB -S I2 KB -S I3 KB -S I4 KB -S I5 KB -S I6 KB -S I7
*8 52 0 5 -05 0 0 1
EC Cost Down
2 0 B R IGH TN E SS
/ID /ID /ID /ID /ID /ID /ID /ID
PWM/COUNTER
G INT /GP D 5 ( P U )
* 0_0 4
H0 H1 H2 H3 H4 H5 H6 G1
( P D ) W U I 5 / G P E5 ( P D )L P CP D # /W U I6 /GP E 6
PU) PU) PU) PU) PU) PU)
R I1# /W U I0 /GP D 0( P U ) R I2# /W U I1 /GP D 1( P U )
UART
P P P P P P P P
( P D )EGA D/GP E1 ( P D )E G C S # /GP E 2 ( P D )E G CL K /GP E 3
PW R S W /G P E 4( P U )
R XD /GPB0 ( PU ) T X D/G P B1 ( PU )
)G )G )G )G )G )G )G )G
WAKE UP
WAKE UP
1 08 1 09
PD PD PD PD PD PD PD PD
EXT GPIO
PS/2
85 86 87 88 89 90
* 8 52 0 1- 24 0 51
58 59 60 61 62 63 64 65
C 74 9
For 8502E U9 U28 Co-l ayout
V D D3
FLASH
SM CL K0 /GP B3 SM DA T 0 /GP B4 SM CL K1 /GP C 1 SM DA T 1 /GP C 2 SM CL K2 /GP F 6 ( PU ) SM DA T 2 /GP F7 ( PU )
IT8 5 1 8E
0_04 FOR IT8512CX/EX 0 . 1 U _ 0 4 F O R I T E8 5 1 2 - J ( I T E 8 5 0 2 - J
IT8518
0 1 2 3 4 5 6 7
SMBUS
33
* 0 _0 4 * 0 _0 4
PJ 0 PJ 1 AC2 /GPJ 2 AC3 /GPJ 3 AC4 /GPJ 4 AC5 /GPJ 5
ADC
18 21
P W R_ B T N#
K SO0 /P D 0 K SO1 /P D 1 K SO2 /P D 2 K SO3 /P D 3 K SO4 /P D 4 K SO5 /P D 5 K SO6 /P D 6 K SO7 /P D 7 K SO8 /A C K # K SO 9/B U SY K SO 10 /PE K S O1 1 /E RR # K S O 1 2/S L C T KS O 1 3 KS O 1 4 KS O 1 5
DAC G G D D D D
1 10 1 11 1 15 1 16 1 17 1 18
1 25
30 P W R_ S W # 16 ,2 0 ,29 L ID_ S W # 16
66 67 68 69 70 71 72 73
K SI0 /ST B # K S I1 /A F D # K S I2/IN IT # K S I3/S L IN # KS I4 KS I5 MATRIX KS I6 KS I7
KB C _W R E S ET #
VS S
* A T 25 F 5 1 2A N
FOR W250BUQ J _K B 2
8 52 0 1 -24 0 5 1
T C A C B V V A
EC S CI# /G P D3( PU ) EC S MI# /G P D4 ( PU )
76 77 78 79 80 81
M E_W E # C PU_ F A N ( W E B 1#) VG A _F A N
CP U _F A N
FOR J W240BU _KB1
G A2 0/G PB 5 KB R S T #/G P B6 ( PU ) PW U RE Q # /GP C 7( P U ) L 8 0L L AT /GP E7 ( PU )
23 15
W L A N _E N
Y Y Y Y Y Y B B B B B B
4 HO L D#
4 7
W R ST #
1 26 4 16 20
G A20
16 GA2 0 1 6,2 9 ,3 7 AC_ IN # 28 LE D _ A CIN 3 ,1 7 AP U_ T A L E RT # 1 6,2 6 16
C C
3
LAD0 T T T T T T V S S S S S S LAD1 V V V V V V LAD2 LAD3 L P C CL K L F R A ME # LPC K/B SE R IRQ L P C RST #/ W UI4 /GPD 2 ( PU )
14
KB C _W RE S ET #
4 7 6 0 2 1 1 2 2 2 5 9 1 1 1
1 1
U3 8 10 9 8 7 13 6 5 22
1 5,1 9 L P C _A D 0 1 5,1 9 L P C _A D 1 1 5,1 9 L P C _A D 2 1 5,1 9 L P C _A D 3 15 ,1 6 LP C _ CL K0 1 5 ,19 L P C_ F R AME # 1 5,1 9 S E RIR Q
K BC _ A GND
X11 * 1T J S 1 25 D J4 A 4 2 0P _ 3 2 .76 8 K Hz
6-22-32R76- 0B2 6-22-32R76- 0BG
KB C _S P I_ SI
KB C _S P I_ SC LK
Schematic Diagrams
LED/ MDC/ BT 3V _B T
Bluetooth
J _ BT 1
3 .3 V
16 US B_ P N 6 16 US B_ P P6 2 4,2 7 BT _ DE T #
R5 3 6 47 K_ 0 4
3 .3 V
*8 7 21 2 -0 6G 0 1 5,2 4
BT _ DE T # C7 5 7
R 53 7
BT _ ON
3 .3V
*1 0K _0 4
3 V_ BT R5 39
50 mi l
B T _ E N# D
C 75 8
3 .3 VS 3 .3 VS
3 .3 VS
3 .3 V S
R5 4 6
R5 4 7
R5 48
22 0 _ 04
2 20 _ 0 4
2 20 _ 0 4
22 0 _0 4
HDD/ODD D2
C
A
C
S AT A _L E D # 1 7
6- 52- 52 001 -0 27
A
NUM D3
LED
M 5 4 3 G Y 0 7 1 P S Y R
M 5 4 3 G Y 0 7 1 P S Y R
CAPS D4
LOCK LED
M 5 4 3 G Y 0 7 1 P S Y R
C
L ED_ N UM# 2 7
6- 52- 52 00 1- 027
3 .3VS
A
BT LED
M 5 4 3 G Y 0 7 1 P S Y R
C
1
3
2
4
2 2 0 _0 4
LED _A CIN 2 7
D1
2
W LAN _L ED # 2 4 ,2 7
M2 M-M ARK 1
H3 4 h t6 _ 0b 7 _0 d 3 _7
H3 5 HC 6_ 0 d 3_ 7
3 4 5
1
9 8 7 6
E
H1 C1 10 D 11 0 NP
M6 M-MA RK1
M3 M-M A RK1
M4 M-M ARK 1
H5
H1 4
3 4 5
H 18 H 6_ 0 D3 _ 7
S1 SMD 80 X8 0 1 1
S2 SMD8 0 X80
H 17 H 15 * H4 _7 B6 _ 0D 3 _7 H 4_ 7 B6 _0 D3 _ 7
H 29 H 30 H31 H 4_ 7 B6 _0 D3 _ 7 H 4_ 7 B6 _0 D 3_ 7 H 4 _7 B6 _0 D 3_ 7
1
H6 C6 7 D6 7
1
H1 9 H2 1 H 20 H4 _ 0B7 _ 0 D3 _7 C1 10 D1 1 0 NP C 11 0 D1 1 0N P
3 4 5
MT H 31 5 D1 1 1
3 4 5
H3 6 h t6 _ 0b 7 _0 d 3 _7
H3 2 H4 _ 7B 6_ 0 D 3 _ 7
H33 H T 6_ 0 BS 1 D 3 _7
H9 3 4 5
1
H7
1
1 MT H 31 5 D1 1 1
9 8 7 6
6
9 8 7 6
3 4 5
1 1
* 10 m il _ s ho rt_ 0 4 B W L AN _EN 2 4,2 7
2
Q1 6 * DT C1 1 4 E UA
3
R5 4 5
2 2 0_ 0 4
LED
1
2 20 _ 04
Y
G S
2
4
BAT LED
3
D1 3
D 14 Y
KP B-3 02 5 YS G C 2
G S
K PB- 30 2 5Y SGC
4
H1 3
1
For W240BU
9 8 7 6
1 MT H3 1 5 D1 1 1
9 8 7 6
H2 4 3 4 5
H2 6
MT H 31 5 D1 1 1
1 M TH 3 15 D1 1 1
H4 3 4 5
1
GN D
J_ T P 4 1 2 3 4 5 6
MT H3 1 5 D1 1 1
3 4 5
C 76 0 *0 .1 u_ 1 6V _Y 5V _ 0 4
VD D3 9 8 7 6
1
9 8 7 6
2 4, 2 7
Q1 7 DT C1 1 4E U A
3 4 5
MT H 31 5 D1 1 1
mt h3 1 5d 1 1 1_ 3
H 23 C 67 D6 7
H3
H1 1
1
1 MT H 31 5 D1 1 1
9 8 7 6
R 54 4
B
3 4 5
MT H 31 5 D1 1 1 H2 C 11 0 D1 1 0N P
2 2 0_ 0 4
C
6- 52- 520 01 -027
H2 5 M8 M-M A RK1
R 54 3
2 2 0 _0 4
Sheet 28 of 41 LED/ MDC/ BT
POWER ON
B T _E N
M7 M-MA RK1
R 5 42
R5 5 0
L E D _S CR O LL # 27
L E D_ B AT _F U L L 2 7
KP B-3 02 5 YSG C
4
C
L E D_ BA T _ CH G 2 7
27
WLAN LED
3
Y G S
LOCK LED
L E D _C AP # 2 7
6-5 2- 52001- 02 7
R 54 1
22 0 _0 4
1
SCROLL D5
LOCK LED
R5 40
L ED_ PW R
E
M1 M5 M -MA R K 1 M -MA R K 1
*1 0 u_ 1 0 V _Y 5V _0 8
3 . 3V S
R5 49
A
C7 5 9
4 0 _ O P N _ V 0 5 _ p 0 8 1 *
S
LED
5 0mi l
*1 5 m il _ sh o rt_ 06 Q1 4 *MT N 70 0 2Z H S3
G
BT _ EN
* 0_ 0 4
R5 38
* 18 0 p_ 5 0 V _N PO _ 0 4
2 4 ,27
1 2 3 4 5 6
BT _ EN#
9 8 7 6
L ED_ PW R L ED_ ACI N L ED_ BA T _ F UL L L ED_ BA T _ CHG
* 85 2 01 -0 6 05 1 GN D
12/9
For W250BUQ
9 8 7 6
MT H3 1 5 D1 1 1
LED/ MDC/ BT B - 29
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
USB/ FAN/ TP/ MULTI CON USB PORT*2(Port 0,Port1)
USB VCC1
USB VCC0
Reserve 9/8
* 0_ 0 6
U SB _VC C2
60 mil +
USB VC C0
100 mil
1
U SB_P N0
2
U SB_P P 0
3
7 1
U10 IN
D M_ O
D A P P
D P_O
12
O UT
VD D5 27 ,3 0 ,31
R 7 47
* 1 0 K _ 04
5
R 75 0
* 1 0 K _ 04
6
V DD5
R 74 8
* 1 0 K _ 04
7
A C_ IN
R 75 1
* 1 0 K _ 04
8
DD_ ON
* 10 K _ 0 4
R 74 9
100 mil
DP _IN
0 .1 u _1 6 V _ Y 5 V _ 04
FAN CONTROL
Port 0
5V S_ F A N
J _ USB 1 R 71 1
U S B_ PN0 _R
10
U S B_ PP 0_ R
U S B_P N0 _R
4
U S B_P P 0_ R
1
14 IL IM_ SE L
G ND
EN /DSC
IL IM0
C TL 1
IL IM1
3 *W CM2 0 1 2F 2 S-1 6 1T 0 3 2
15
R 7 37
* 17 . 8K _1 % _ 04
R7 4 5
* 01 K_ 04
5VS
F A U LT #
R 74 6
* 10 K _0 4
R 57 4 Q7 6 *M TN 70 0 2 Z H S 3
V+
* 0_ 04
G G G G
5VS
CTL2 CTL2 CTL2
CTL3: 0 CTL3: 1 CTL3: X
X 1 1
J _ F A N1
N N N N G G G G
C7 65
1 0u _ 1 0V_ Y 5V_ 0 8
US B_ O CP 0 _1 #
U S B_O CP0 _ 1 #
3 .3V
R 5 54
USB V CC1
16
US B_ PN0
16
US B _PP 0
+ C 7 72
U S B_F L G #
* 0_ 0 4
U SB _ V CC3
L 13 0 *1 5 mi l_ sh o rt _ 06
R5 53 *1 0K_ 0 4
U S B_P N 0
R 168
0_ 0 4
US B_ PN0 _ R
U S B_P P 0
R 171
0_ 0 4
US B_ PP 0 _R
JFAN
2 7 C P U_ F A N S EN
3 R 5 51
US B_ F L G#
* 10 0 u _6 .3 V _ B _A
6 VIN1
VO UT 2
VIN2
VO UT 3
3
C 76 1 1 0u _ 10 V _ Y 5 V _ 0 8
4 EN#
R71 3
U SB VCC 1
F L G# V O U T 1 2
CLICK CONN
0 .1 u _1 6 V_ Y5 V_0 4
Port 1
1
100 MIL
7
16
8
C 7 62
C7 63
C7 64 1 6
1
0 .1 u _1 6 V _ Y5 V _ 04
0.1 u _1 6 V _ Y 5 V _ 04
*1 0u _ 6 .3V_ X5 R_ 06
3 * W C M 20 1 2 F 2S-1 6 1 T0 3 2
1
US B_ PP 1
1
0 _ 04
4
U S B_P N1
L1 2 1 R71 4
R T9 7 1 5BG S
U S 0 40 3 6 B CA 0 81
W240BU 6- 21-B49C0-104 3 0,3 2 ,3 3 D D_ ON #
* 15 m il_ s ho rt_ 0 6 C 77 0 R5 56
R5 57
10 K_ 0 4
10 K_ 0 4
C7 7 1
* 10 u _ 10 V_ Y5 V_ 08
DA T A _ H GN D
0 _ 04
R 5 55
DA T A _ L
4
G ND
5V S
V+
2 3
FOR CLICK BOARD 5 V S_ T P
J _ USB 2
5
4. 7 K _ 0 4
80 mil
C 7 73
U 40 5V
8 52 0 5-0 3 7 01
1-----> Dedicated Chargi ng Port, Auto-detect 1-----> Charg ing Down dtream Por t, BC Spec 1.1 0-----> Standard Downstr eam Por t, USB 2.0 Mode.
R 5 52 1 0 K_ 04 US B_ O CP0 _ 1#
1 2 3
C7 6 6
0.1 u _1 6 V _ Y 5 V_ 04
*T P S2 5 40 N/A
3 .3V
1 6,2 6
5 V S_ F A N
1 2 3 4 D D D D
3 .3 V S
CTL1 CTL1 CTL1
8 7 6 5
G 9 9 0P 1 1 U 6 - 0 2 - 9 9 0 1 1 - B2 0 P2793A 6-02- 02793- B20
1 2 3 4 D D D D N N N N
GN D
0_ 0 4
GN D GN D GN D GN D
A X9 9 5S A
DA TA _ L
W250BUQ 6-21 - B4410-00 4
V DD3
FON VIN VO UT VS ET
3
W240BU6 - 21-B49C0-104
13
S
Sheet 29 of 41 USB/ FAN/ TP/ MULTI CON
U41 1 2 3 4
CPU _F A N
2
US0 40 3 6 B CA 0 8 1
9
27
DA TA _ H
R 7 12
NC
C TL 3
0 _0 4
4
16
C TL 2
1
L 1 20
D
G
AC _IN #
C7 6 8
*1 0 0u _ 6 .3V _ B _ A
12/7
11 DM _IN
4
V DD 5
+ C7 6 9
2 2 0u _ 6. 3V _ 6 .6 *4 . 5
F ON #
USB PORT Charge
1 6 ,27 ,3 7
0 _ 06
R 74 1
C 7 40 VDD 5
s m a r g a i D c i t a m e h c S . B
R 74 0
J_ T P 1 1 2 3 4 D D D D N N N N G G G G
1 2 3 4 8 52 0 1-0 4 0 51
1 2 3 4 D D D N N N D N G G G G
1 u_ 6 .3V _Y 5V_ 0 4
T P_D A T A 2 7 T P _C LK 2 7 C7 74
C7 75
47 p _ 50 V _ NPO _0 4
47 p _ 50V_ NP O _0 4
W250BUQ 6- 21-B4410 -004
VDD 3
Audio/B
POWER SWITCH CONN.
CONN.(Port 2)
A P_ KEY #
FOR P OWER SWITCH BOARD US B V CC1
5V
R 73 3
3 .3V S
* 0_ 0 6
C7 7 8
0 .0 1 u_1 6 V_X7 R_ 0 4
3.3 V
C7 7 6
C 7 77
J _ AUDIO 1
12/10 DeleteR559 2 5 M IC1 -R M 2 5 M IC1 -L M
2 5 H E ADP H ON E-R 2 5 H E ADP H ON E-L
2 5 M IC_ SE N S E 2 5 H P _ S ENSE
2 5 SP KOUT R + 2 5 SP KOUT R 16
USB _ PN4
R 56 1
* 1 0 m l_i sh o rt_ 04
U SB N4 _ R
16
USB _ PP 4
R 56 2
* 1 0 m l_i sh o rt_ 04
U SB P4 _R
M IC1 -R M MIC1-L M HE AD P HO NE -R HE AD P HO NE -L M IC_ SENS E SP K _H P # H P _ S ENSE U S BN4 _ R U S BP 4 _R SP K OUT R+ SP KO UT R-
1 2 3 4 5 6 7 8 9 10 11 12 13 14 8 5 20 1 -14 0 5 1-0 1
Change connector
0 .01 u _ 16 V _ X 7R _0 4
1 2 3 4 5 6 7 8
Q18 S
0.0 1 u_ 1 6 V_X7 R_ 0 4
3 .3 VS
* MT N7 0 02 Z HS3
3 .3 V
10 K_04 * 10 K_ 0 4 * 10 K_ 0 4 J_ SW 2
2 7
D
G
FOR AUDIO BOARD
B - 30 USB/ FAN/ TP/ MULTI CON
A P _KEY #
R83 1 R83 2 R83 3
0 _ 06
1.1A 60mils R 73 4
AP _ K EY # W E B _W W W # W E B _EM AIL #
CLOSE TO J_SW1
20mil MB T N R55 8 W E B_ W W W # W E B_ EMAIL # LID _ S W #
* 10 m l_i sh o rt_ 04 M_ BT N#
AP _ K EY #
88 4 8 6-0 8 01 J _ SW 1 1 2 3 4 5 6 7 8 9 10
M_ BT N#
20mil M _B TN #_ R W E B_ W W W # W E B_ EM AI L# L ID_ S W #
30
R5 6 0 *1 0m il_s h or t_0 4 M _B TN #
M_ BT N#
1
P C2 3 0 W E B _W W W # 2 7 W E B _EM AIL # 2 7 L ID_ S W # 1 6,2 0,2 7
AP_ON
30
P R 21 5 * 47 K_ 0 4 *0 .1u _ 5 0V_ Y 5V_ 0 6 2
AP _ ON
PV 2 *V1 5 AV L C0 40 2
VIN 2
* 5 05 0 0- 01 0 41 -0 0 1L
I f syst emhas APON fu ncti on, uses J_ SW 1 I f sy st emhas no APON f unct i on, uses J_ SW2
12/8
12/8 PV1 *V1 5 A V L C0 4 02
1
Schematic Diagrams
5VS/ 3.3VS/ 1.8VS/ 1.5VS/ 1.1VS VI N VA
VIN
VIN 1
3 .3 V
VIN 1 R8 1 0 VA
*1 2 K_ 06
VI N 29
P R 2 10
M_ BT N # 29
AP_ ON
1K _0 4
PU 1
8
VA 2 3
1 K _0 4
P R 2 11
1
4
12/6
VIN1
VIN
DD _ ON _L AT CH
M _BT N #
PW R_ SW #
IN STA NT -ON
GND
7
R 56 3
1 K _ 04
6
D D_ O N
P R1 8
ON
2 7 , 92 , 3 1
1 K _0 4
PW R_ SW # 2 7
PC 6
PC 7
PC 8
C 7 79
0 .1 u_ 5 0 V_Y 5 V_ 06
0 .1 u _5 0 V_ Y5 V_ 0 6
0 .1 u_ 5 0 V_ Y5 V_ 0 6
0 .0 1 u _1 6 V_ X7 R _0 4
DD_ON"L" T O "H" FROM EC
5 PR 3
10 0 K _ 0 4
VDD 3
P2 8 0 8B 0 SYS 5V
5V
SY S5V
PR 4
PR 5
1 0 K_ 0 4
1 0 K_ 0 4
SY S5 V
PR6 10 K_ 0 4
ON
ON C 78 0
C7 8 1
C7 8 2
0 .0 1 u_ 1 6 V_X7 R _0 4
0.0 1 u _1 6 V_ X7R _ 04
0 .01 u _ 1 6V_ X7 R _ 0 4
D D_ ON #
PQ1 A 6 M TD N7 0 0 2Z HS6 R
C 78 4
0. 01 u _ 16 V_ X7 R _ 0 4
0 .0 1u _ 1 6V _X7 R _ 0 4
PQ1 B 3 M TD N7 0 0 2Z HS6 R
ON PC 9
1
C7 8 3
SU SB
2 9,3 2 ,33
D
2G
27 ,2 9 ,3 1 D D_ ON
3.3 VS
D D_ O N#
1 6,1 9 ,2 6 ,27
S
PR 8
1 0 0K _0 4
1 0 0 K_0 4
5VS SY S1 5V
PR1 0
3A
8 7
PQ3 A MT NN 20 N 03 Q 8 2 1
8 7
Power Plane
4
5VS
S Y S 15 V
PR1 1
PC 22 6
PC 2 27
PR2 0 7
0 .1 u_ 1 6 V_Y 5 V_ 04
1 0 u _1 0 V_ Y5 V _ 0 8
10 0 _ 1% _ 0 4
PQ3 B M T NN 20 N 03 Q 8
D
5
47 0 p _ 50 V_ X7 R_ 0 4
DD _O N#
G
1 6
1.5V
Sheet 30 of 41 5VS/ 3.3VS/ 1.8VS/ 1.5VS/ 1.1VS
3
PC1 2
PC2 2 5
0.1 u _ 16 V_ Y 5V_ 0 4
1 0u _ 1 0V _Y 5 V _0 8
PR 2 06
NMOS PQ 5A *M T NN 20 N 03 Q 8 2 1
8 7
PR1 2
4
PQ4 B M TN N2 0 N0 3 Q8
PC1 8
PQ6 1 MT N7 0 0 2Z H S3
1 .5V S
*1 M_ 0 4
S USB
G
1 6
1 0 0 _1 % _ 04 D
5
4 70 p _ 50 V_ X7 R_ 0 4
PQ 6 0 M TN 7 00 2 Z H S3
S
10/20
PJ 2
S
PJ1 2
* 0 .1u _ 1 6 V_Y 5 V_ 04
10 0 K_ 04
1.5VS
PQ 4 A M TN N2 0 N0 3 Q8 2 1
1 M_ 0 4
3
P C1 7
P C1 1 S
PR9
3
1M _ 04
G
SUSC #
* 0.1 u _ 16 V_ Y 5V_ 0 4
NMOS
VDD 5
5V
3A
1 6 ,27 ,3 2
S
ON
5V VDD 5
3 3 ,3 5
PQ2 MT N7 0 0 2 Z HS3
ON ON
SYS 15 V
D
PC 1 0 4
* 0.1 u _ 16 V_ Y 5V_ 0 4
PR 7
SUS C
3 2, 3 3, 3 4, 3 6
D
5G
SU SB#
SUSC
SUSB
2
4
PC1 3
PC1 4
*0 .1 u _1 6 V_ Y5 V_ 0 4
*1 0 u_ 1 0 V_ Y5 V _ 08
P R1 4
PQ 5B *M TN N2 0 N0 3 Q8
PC1 9
5
*0 .1 u_ 1 0 V_ X7 R _0 4
* 1 00 _ 1 % _0 4
D
P Q1 3 * MT N 70 0 2 Z HS 3
G
SUS B
S 6
4 0 m li SU SB
4 0m il
3 ,23 3, 3 4, 3 6
ON
ON
1.1VS
VDD 3
3A
SY S1 5 V
NMOS SY S1 5V
S Y S 1 5V
NMOS
3.3VS
3.3V 8 7
PQ8 A MT NN 20 N 03 Q 8 2 1
3 .3 V
3A
8 7
Power Plane
PQ9 A MT NN 2 0N 0 3Q 8 2 1
4
PC2 5 22 0 0 p _5 0 V_ X7R _ 04
PC 22 8
PC 2 29
PR2 0 8
0 .1 u_ 1 6 V_Y 5 V_ 04
1 0 u _1 0 V_ Y5 V _ 0 8
10 0 _ 1% _ 0 4
PQ8 B M T NN 20 N 03 Q 8 5
D
D D_ ON #
1 .1V
P Q6 A 8 7
1 M_ 0 4 3
G
3
4
PC 26 PQ6 2 MT N7 0 0 2Z H S3
1 .1 VS
M T NN 20 N 03 Q 8 2 1
4
1 M_ 0 4 3
PR 1 3
PR 17
PR1 6 1M _ 04
VD D3
3.3 VS
PC2 1
P C2 2
PR 1 9
0.1 u _ 1 6V_ Y 5V _0 4
1 0 u _1 0 V_ Y 5 V_ 0 8
1 0 0 _1 % _ 04
5
PC 1 6
0 .1 u _ 16 V_ Y5 V_ 0 4
1 0 u_ 1 0 V_ Y5 V _ 0 8
D
SU SB
G S
PQ 1 0 M TN 7 00 2 Z H S3
PR 15
5
D
SU S B
G
0 .0 1 u_ 1 6 V_ X7 R _0 4
PQ9 B MT NN 2 0N 0 3Q 8
2 20 0 p _ 50 V_ X7 R_ 0 4
PC 2 0
P C1 5
P Q6 B M T NN 20 N 03 Q 8
1 0 0_ 1 % _0 4
PQ 7 MT N 70 0 2 Z HS3
S 6
ON
6 S
12/8
6
ON
5VS/ 3.3VS/ 1.8VS/ 1.5VS/ 1.1VS B - 31
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
POWER VDD3/ VDD5 VR E F
P R2 1
* 0 _0 4
P R 22
0_ 04 P C2 8
1u _ 1 0 V _ Y5 V_ 0 6
PR2 3
PR2 4 E N _3 V
PC2 9
E N _5 V
1 00 K_ 0 4
10 0 K _ 0 4 6
10 0 0 p _5 0 V _ X7 R_ 0 4
2 N E
7
PC 3 2
PC3 1
4 .7 u _2 5 V_ X5 R_ 0 8
8 7 6 5
P Q 14 P 1 2 0 3B V
P C3 4 1u _ 1 0 V_ Y5 V _ 0 6
s m a r g a i D c i t a m e h c S . B
P J3
1
* 5 mm
7 . 5 * 6 . _ + 6 V 3 . 0 6 4 _ C u P 0 2 2
P C3 9
Sheet 31 of 41 POWER VDD3/ VDD5
PL 1 T M PC0 6 0 3H -4 R7 M -Z 0 1 2 1
5A
0 .1 u_ 1 6 V _ Y 5 V_ 0 4
3 2
PC 4 2
1 3 K _ 1 % _0 6
4 0 _ O P N _ V 0 5 _ p 0 0 1
P R2 9 20 K_ 1 % _ 04
2
F E R V
1
1 B F V
VI N VO 1
L D O3 PC 35
24 P R 25
* 1 0K _ 04 PC3 7
PC3 6
22 B OO T2
PC 33
SY S5 V
POK
9
5 6 7 8
B O OT 1
uP6182
1 u_ 1 0 V_ Y 5 V _ 0 6
21
U GA TE 2
UG AT E1
P HAS E 2
PH AS E1
PR1 5 2 5. 1_ 0 6
P Q 16 P 1 2 0 3B V
12 L G AT E2
4 0 N E
L E S P I K S
S YS 5 V
1
5 6
5 O D L
PQ17 P1 2 0 3BV
4
K L C V
PD4
A
3 1
C
4 1
5 5 2 1
6 1
7 1
8 1
C
A
PR 3 0 * RB 0 5 4 0 S 2
EN _ A L L
VREF
P R 34
0 _ 04
P R 35
* 0_ 0 4
3 0 K_ 1 % _0 6
V REG 5
P C 46 0 .01 u _ 5 0V _X 7 R _0 4
PD 5 B AT 54 SW GH A 1
3 C
A 2
V IN
PC 4 8
A
4 .7 u _ 25 V_ X 5 R _ 0 8 R B0 54 0 S2
68 0 K_ 1 % _ 06
1 9 .1 K _ 1 % _0 6
12/7 SY S5 V
1 u _1 0 V _ Y 5V _0 6
P C 50 0 .01 u _ 5 0V _X 7 R _0 4
PD 6 B AT 54 SW GH A 1
SY S1 0 V
A 2
2 20 0 p _ 50 V_ X 7 R_ 0 4
SY S1 5 V P C 51 2 20 0 p _ 50 V_ X 7 R_ 0 4
8 1 4 2 Z
P R 37
1 0K _0 4
D
P C
1
G
PJ5 *6 m i l
D D_ ON P Q 19 M T N7 0 0 2 Z HS3
S 2
D
AC IN P Q2 2 *M T N7 0 0 2Z HS3
B - 32 POWER VDD3/ VDD5
0 . 1 u _ 1 0 V _ X 7 R _ 0 4
G 37
5 5
S
*0 _ 0 4
E N_ 3 V
P R 38
0 _ 04
E N_ 5 V
PQ1 8
G
2 7 ,2 9 ,30
P R 36
D
P R 3 9
1 0 0 K _ 0 4
S
MT N 70 0 2 Z HS 3
+
P R2 8
PC 4 9
3 C
VR E G 5
Rb
P R2 1 6
P C 47
PD7
2 *5 m m
P R2 6
V RE G 5 C
1
P C 41
PR 32 *0 _ 0 4
P R3 3 2 .2_ 0 6
VIN 1
PJ 4
5A
* RB0 5 4 0 S2 P R3 1 0_04
* 68 0 K _ 1 % _0 4
VR EG 5
P R 1 46 5 .1 _ 06
1 0 00 p _ 5 0 V_X7 R _0 4 P C 1 74 2 2 00 p _ 5 0V _X 7 R _0 4
1 2 3
PD3 VR EG 5 PC2 3 8 22 0 0 p _ 50 V _ X7 R_ 0 4
7 8
LG AT E1 N I V
VD D5
P L2 T MPC 0 60 3 H -4 R7 M-Z 01 2
Ra 19
D A P D D N N G G
4 .7 u_ 2 5 V_ X5R _ 0 8 4 .7 u _ 25 V_ X5 R_ 0 8
PQ 1 5 P1 2 0 3 B V
4
20
1
PC 3 8
0 .1u _ 5 0 V_ Y5 V_ 0 6
1 2 3
11
3 2
PC 3 0 1 0 0 0p _ 5 0 V_ X7 R _ 04
PU 2
1 N E
1
8 7 6 5
P R2 7
3
L E S N O T
23
0 .1 u _1 0 V_ X7 R_ 0 4 10
4 S YS 3 V 2
4
8
4 .7 u _2 5 V_ X5 R_ 0 8
V D D3
2 B F V
VO 2
VRE G 3
VIN
5
5 . 4 * 6 . 6 _ V 3 . 5 6 4 _ C u P 0 2 2
P C4 4 0 .1 u _ 1 6V _Y 5 V_ 04
Schematic Diagrams
Power 1.5V/ 0.75 PD 1 2 A
5V
C R B0 5 40 S2
PU 4
VD DQ
6 0 _ V 5 Y _ V 0 5 _ u 1 . 0 *
8 0 _ R 5 X _ V 5 2 _ u 7 . 4 *
8 0 _ R 5 X _ V 5 2 _ u 7 . 4 *
6 6 C P
7 6 C P
8 6 C P
VIN
12/6 Disable
u P6 1 63 5 6 7 8
PC 6 9 10 u _ 1 0V _ Y5 V _ 0 8 PC 7 0 23
VL DO IN
VBST
4
0 . 1u _1 0V _ X 7 R _ 04
22
PQ 2 3 MD S2 6 5 9
2 3 1
2
1
24
* OP EN_ 2 A PC 7 1
PC 7 2
5V
P R 49
11/5
0 _ 06
P R 53
*0 _ 0 4
P R 55
*0 _ 0 4
VT T SNS
DR VL
GN D
0 .1 u_ 10V_ X7 R_ 04
5
P R 47
PL 4 1 .0 U H_ 1 0 *1 0 *4 .5 1 2
0_0 6
LL
3
4
21
10A 1 9 . 5 * 6 . 6 * 6 . 6 _ + V 5 . 2 _ u 9 0 7 6 C 5 P
20 VT T GN D
2
11/5
PC8 0
D RVH
1
PC 7 3
PR 4 8 1 0 u _ 10 V _Y 5 V_ 0 8 0_06 1 0 u _ 10 V_ Y 5 V_ 08 * 10 u _ 1 0 V_ Y5 V_ 0 8 VD DQ
VT T
PG ND CS _G ND
MO DE
CS PVC C5 VC C5
VT T REF
19
5 6 7 8
18 17
4 PR 52
16
PR 54
0_06
PQ 2 4 MD S2 6 5 5
A
1 0K _ 1% _0 6
PR 56
Z 26 2 1 PD 1 3 * SK3 4 SA
2 3 1
5V
15 14
C
2 P 2 C 0 7 0 4 p _ 5 0 V _ X 7 R _ 0 6
P R5 0 5 .1 _ 0 6
2 .2 _0 4
PR 5 7 P R5 8
5V
0_06
6
8 P R 5 9
9
CO MP
7 R _ 0 4
S3
C N
P C * 1 8 0 4 0 0 p _ 5 0 V _ X 7 R _ 0 4
_ X
S5
VD DQ SET
* 1 0 _ 0 4
* P 1 C 0 0 8 0 3 p _ 5 0 V
PGO OD
VD DQ SNS
7
C N
2 1
13
PC8 1
PC 8 2
1 u _ 1 0 V _ Y 5 V _ 0 6
11
10
D N G
3 .3 V
1 u _ 1 0 V _ Y 5 V _ 0 6
1.5V
VD DQ
PJ 7 V TT _ M EM
0_06
9 . 5
* 6 . 6 * 6 . 6 _ + V 5 . 2 _ u 6 0 7 6 C 5 P *
PJ 8
2 1 .5 V
* OPEN _ 8 A P C
P C
7 5
7 7
0 . 1 u _ 1 6 V _ Y 5 V _ 0 4
0 . 0 1 u _ 1 6 V _ X 7 R _ 0 4
Sheet 32 of 41 Power 1.5V/0.75V
PR6 0 1 0 0 K_ 0 4 DD R1 .5 V_ PW RG D
5 2
DD R1 .5 V_ PW RG D 1 9 ,3 5
P R6 2 5V *1 0 K_ 1 % _ 04
PR 6 3
PR 6 4
1 0K _1 % _ 0 6
1 0 K_ 1 %_ 0 6
5V
P R 65
1 .5 VEN
4 7K _0 4 D
P R 66
G
1 0 0 K _ 04 D
2
PQ 27
G
1 6 ,2 7 ,3 0 S U S C #
S
* 2 2 _0 4
PQ2 6 S
*M T N7 0 0 2 Z HS 3
1
D D _O N#
+1 .5 S_ C PU_ PW RG D
P R6 7
1 0 0K _0 4
PR69
* 10 0 K _ 0 4
D
3 0 ,3 3 ,3 4,3 6 S U S B
SU SB
S
V TT EN
D
PQ 2 8
G
0 .1 u_ 1 6 V_ Y5 V_ 0 4
M TN 7 0 02 Z H S3
5V P R 68
PC 85
G
S
PJ 9 *6 m il 2 9 ,3 0, 33
VT T _ ME M
D
PQ2 5 MT N 70 0 2 Z H S3
* MT N 7 00 2 Z H S3
S USB
PC8 6 PQ 2 9
G S
0. 1u _ 1 6 V_ Y5 V_ 0 4
M TN 7 0 0 Z2 HS 3
Power 1.5V/ 0.75 B - 33
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
Power 1.1V/ 1VS 5V V IN 5V PR70 D
1 0 0 K_ 1 % _0 4
3 0 ,35
SU SC
SU SC
P R 72
G
* 6 K2 _ 1% _ 0 4
S
P R 1 79
29 ,3 0 ,3 2 D D_ O N#
6 2 K_ 1 %_ 04
A
OCP=10uA X RILI M/ Rdson
EN _ 1 .1 V
PQ30
P C 89
M TN 7 0 0 2Z HS 3
0 .1 u_ 1 0 V_ X7 R_ 0 4
PD14 R B0 5 40 S2
P R 71
1 0K _1 % _ 0 4
C 5 6 7 8
PQ31 M D S2 65 8 4
PC 9 1 0 .1 u _1 0 V _ X5 R_ 0 4
2 3 1
PC92
1
PJ 2 3 O P EN -1 mm 3 .3 V
3 1
5 1
PU5 uP 6 12 7
6 1
PC 8 7
PC 90
6 0 _ V 5 Y _ V 0 5 _ u 1 . 0
8 0 _ R 5
8 0 _ R 5 X _ V 5 2 _ u 7 . 4 *
X _ V 5 2 _ u 7 . 4
P R7 3
11
2 2 0 K _ 1 % _ 04
10
EN
C . N
H D
PL 5 TM P C 0 60 3 H -4 R 7 M -Z 0 1 1 2
1
LX
V O UT
4
DL
P C9 5 PR 74
8
C . N 7
N T R
6
5 6 7 8
3
VCC
FB
V 1 .1
D N PAD G
2 3 1
. + 6
P Q3 2 MD S2 6 5 8
_ V 5 . 3 2 _ 9 u C 0 6 P 5
PC 78
5
P C9 6 2 2 00 p _ 5 0 V_ X7 R _ 0 4
1 .1 V
1
4 0 _ V 5 Y _ V 6 1 _ u 1 . 0
9 . 5 * 6 . 6 * 6
PR 51 5 .1 _0 6
4
17
P J1 0
5A
2
B ST
C . N
* 0 .1 u_ 1 0 V_ X 7 R_ 0 4
C . N
PGD
9
19 1.1V _PWR GD
M I L I
1.1V
0 .1 u _ 10 V_ X 7 R_ 0 4
2
12
s m a r g a i D c i t a m e h c S . B
4 1
P C8 8
2 5mm
4 9 C P
1 u_ 1 0 V _ Y 5 V _0 6 * 1 0 m il _ s h ort
Sheet 33 of 41 Power 1.1V/ 1VS
P C 97
PR 7 5
PC98
0 .0 1u _ 1 6 V _ X 7R _ 0 4
1 0 K _ 1 % _ 04
* 2 0p _ 5 0 V_ NP O_ 0 4
5V PC99
1. 1VS_VTT=0. 75 X (1+PR101 / PR102)
PR 7 6
P C 2 13
* 2 0p _ 5 0 V_ NP O_ 0 4
1 u _1 0 V _ Y 5 V _ 06
2 1 K _ 1 % _ 04 1. 5V P C 2 15
P U1 1
3A
0 .1u _ 1 6 V _ Y5 V_ 0 4 P C2 1 8
5 9 7
1V S_ P W R GD
1 0 u_ 6 .3 V _ X 5 R_ 0 6
VI N VI N P OK
8
E N_ 1 VS
EN
1
GN D
VC NT L V O UT V O UT
VFB
V1 S _ R EG
6
3A
4
Ra
3 .2 4 K_ 1% _ 0 4
PC 2 14
P C2 1 6
8 2 p _5 0 V _ N P O_ 0 4
1 0 u _ 6 .3 V _ X5 R _ 06 1 0 u _6 .3 V_ X 5 R _0 6
PC219
A X66 1 0 P R 1 95 5V
Rb
1 0 .2 K_ 1% _ 0 4
VIN
Vout = 0.8V ( 1 + Ra / Rb )
5V
10/22 1.0V=>1.054V
P R7 7 10 0 K _ 1 % _ 0 4
3 0 ,3 2 ,3 4, 36 S US B
SU SB
P R 78
P D1 6
D
PQ 3 3 M TN 7 0 0 2Z HS3
G
6 2K _ 1% _0 4
A
OCP=10uA X RILI M / Rdson
E N_ 1 V S
S
P C 10 0
PR 79
C
0 .1 u_ 1 0 V _ X 7 R_ 0 4
5 6 7 8
P Q3 4 *M DS 26 5 9 4
P C1 0 4 0 .1 u _ 1 0V _ X5 R _ 04
2 3 1
P C1 0 5
3 1
3 .3 V 12
35 1VS_ PWRGD
P R8 0
11
2 20 K _ 1 % _ 0 4
10
4 1
M C I . L N I
EN
5 1 C . N
PU 6 *u P 6 1 2 7
6 1 H D
PG D
LX
BS T
VO UT
VCC
9
1 VS _P W R GD
C . N
P C1 0 8
8
PR 8 1
*0 .1 u _ 10 V_ X7 R _0 4
7
N T R 6
D N PAD G
PC1 1 1
* 0. 01 u _ 1 6 V_ X7 R _ 0 4
*1 .2 K _ 1 % _0 4
*2 0 p _5 0 V _ N P O_ 0 4
P R8 3
PC1 1 2 *2 0 p _5 0 V _ N P O_ 0 4
*3 K_ 1 % _0 4
B - 34 Power 1.1V/ 1VS
Y _ V 0 5 _ u 1 . 0 *
1VS V1 .0 S
6.5A
2 5 mm
9 . 5 * 6 . 6 * 6 .
5 6 7 8
3
PQ 35 *M DS 26 5 5
4
C
PD 1 7 * CSO D 14 0 S H
2 3 1
17
5
A
+ 6
_ V 5 . 2 6 _ 0 u 1 6 0 C 5 P *
7 0 1 C P
4 0 _ V 5 Y _ V 6 1 _ u 1 . 0 *
1VS
PJ 1 1 1
2
*1 u _ 1 0 V_ Y5 V_ 0 6
P R8 2
8 0 _ R 5 X _ V 5 2 _ u 7 . 4 *
1
PC 1 09
*1 0 m i _ l s h o rt PC 1 1 0
PC102
8 0 _ R 5 X _ V 5 2 _ u 7 . 4 *
PL6 *2 .5 U H_ 6 .8 *7 .3 * 3 1 2
DL C . N
P C1 0 3
6 0 _ V 5
* 0 .1 u_ 1 0 V _ X 7 R_ 0 4
4 FB
P C 10 1 * RB 05 4 0 S 2
* 6 . 8 K_ 1% _0 4
2 3mm
P R 1 96 2
1 VS
PJ18 1
3
Schematic Diagrams
Power 1.8VS 5V
PR40
EN_1.8V
100K_1%_04 30,32,33,36 SUSB
SUSB
VIN
OCP=10uA X RILI M / Rdson
5V
PR42
10K_1%_04
PR41
A
*15K_1%_04
PD10
D
PQ20
G
PC56
S MTN7002ZHS3 *0.1u_10V_X7R_04
0.01u_16V_X7R_04
PU3 3 4 5 6 1 1 1 1 *uP6127
3.3V
12
H M C I . C . L N N D LX 1 EN I
11
2
10 9
PR43
PGD
BST
VOUT
VCC
FB
220K_1%_04 1.8V_PWRGD
DL
N D C . C . T N PAD N N R G
*0. 1u_10V_X7R_04
PC54 8 0 _ R 5 X _ V 5 2 _ u 7 . 4 *
PL3 *TMPC0603H-4R7M-Z01 1 2
5 6
4
3
17
PQ21B *AP6901GSM
4
PC61
PC62
V1.8S
4A 9 . 5 * 6 . 6 * 6 . + 6 _ V 5 . 2 9 _ 5 u C 0 6 P 5 *
3
8 7 6 5
PR44
7
PC58
PC53
8 0 _ R 5 X _ V 5 2 _ u 7 . 4 *
6 0 _ V 5 Y _ V 0 5 _ u 1 . *
1 2
PQ21A *AP6901GSM 8
PC57
19 1.8V_PWRGD
PC52
*RB0540S2 C
2 5mm
4 0 _ V 5 Y _ V 6 0 1 _ 6 u C 1 . P 0 *
1.8VS
PJ6 1
1.8VS
*1u_10V_Y5V_06 *10mil_short
*0. 1u_10V_X7R_04
PR45 PC64
Sheet 34 of 41 Power 1.8VS
PC63
*14K_1%_04 *20p_50V_NPO_04
*0.01u_16V_X7R_04
PR46
PC65
*10K_1%_04 *20p_50V_NPO_04
3.3V PC217
5V
0.1u_16V_Y5V_04
PC224 PC221 1u_10V_Y5V_06
10u_6.3V_X5R_06
3A 1.8V_PWRGD EN_1.8V
PU12 5 9 VIN 7 VIN POK 8 1
EN GND
VCNTL VOUT VOUT VFB
6
V1.8S_REG
3A
4
PJ22 1
3
3mm PR204
2
1.8VS 2
Ra
PC222
PC223
PC220
12.7K_1%_1/1 6W_04 10u_6.3V_X5R_06 82p_50V_NPO_04 10u_6.3V _X5R_06
AX6610 PR205
Rb
10K_1%_04
Vout = 0.8V ( 1 + Ra / Rb )
Power 1.8VS B - 35
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
APU CORE/ NB CORE Offset & Droop O
OFS/VFIXEN GND +3.3V +5V
SVI
VFIX
O
X
X O
O X
X X
VDDCR_ CPU
EMI
PR10 9 10 _0 4 NB_VDDCR
C78 9 0 .1u _10 V_X5R_0 4
C79 0 * 0.01 u_ 16V_ X7 R_04
CPU_ VDDNB_ RUN_F B_H 3
Meta l VID C odes SVC 0
SVD 0
Output 1.1
0
1
1.0
1
0
0.9
1
1
0.8
CPU_ VDDNB_ RUN_F B_L 3
5VS PR11 0 10 _0 6
SGND5
SVC
SVD
Output
0
0
1.4
0 1
1 0
1.2 1.0
1
1
0.8
4 0 _ % 1 _ K 2 2
1 u_1 0V_Y 5V_0 6
SGND5 VIN 6 0 _ 6 V 5 4 Y 1 _ C V P 0 5 _ u 1 . 0
PR11 4 10 _0 6
3.3V S
P R 11 9
5 VS 3 .3VS PR12 1 1 0K_0 4 PR124
1 9 PWRGD_ VCOR E
SGND5
0 0_ 6
9 4
P R 1 22
* 0_ 0 6
P R 1 23
* 10 K _0 6
SGND5
*1 0mil_sh m il_short
2
APU_ PW RGD_R 3
CPU_ SVD
3
CPU_ SVC EN_ VCORE
P R 1 26
* 10 m il_s l_s ho rt * 10 m il_s l_s ho rt
4
* 10 m il_s l_s ho rt
5 6 7
PR1 34
PC16 5
2 55 _1 %_0 4
4 70 0p_ 50 V_ X7 R_0 4
P R 1 35
SGND5
PR1 33 62 K_ 1%_ 04
PR1 32 54 9. K_1% _0 4
8 9
1 K _1 %_ 04 10
PR1 36
PC16 6
5 4.9 K_ 1%_ 04
11
1 00 0p _5 0V_X7R_0 4
P R 137
PC1 67 18 0p_ 50 V_ NPO_0 4
PC168
7 4 C C V
N I V
6 4 B N _ B F
OF S/VF IXEN
5 4
3 1 1 1 4 1 R C t P P r o h s _ l i m 0 1 *
UGAT E_ NB
M O C
L GATE_NB
PR1 16 8 .2K_1 %_0 4
B N _ T E S F
B N _ N E S V
B N _ N T R
6 .8 K_1% _0 4
PD2 0
B N _ T E S C O
H S 0 4 1 D O S C *
PQ43 MDS26 A 55
4
VIN
8 0 _ R 5 X _ V 9 5 3 2 1 _ C u P 7 . 4
1
+ 2
C79 1 0 .1u _10 V_X5R_0 4
PC1 40 *3 30 U_2 5V
NB_VDDCR PL8
1
5 6 7 8
t r o h s l_ i m 0 1 *
2 3 1
T MPC06 03H-R6 H-R6 8M-Z 01 2 9 . 5 * 6 . 6 * + 6 . 6 _ V 5 . 2 _ u 3 0 4 1 6 5 C P
PR21 7 5 .1_0 6
PC23 4 2 20 0p_ 50 V_ X7 R_0 4
10A
PJ1 9 VDDCR _NB 1
2 *8 mm
A _ V + _ V 5 . 2 _ u 0 3 4 3 4 * 1 C P
PC1 45 1 0u _6 .3 .3 V_X5R_0 8
PC1 48 0.22 u_ 16V_ 06 9 3
0 4 B N _ D N G P
B N _ E T A G L
8 3
7 3
B N _ E S A H P
PU9
B N _ E T A G UBOOT
PGOOD
35
2 3 1
PR 125 1_ 1% _0 6
34
SVD
33
PHASE_0
SVC
UGAT E_0
LGATE_1
VDI FF _0
PGND_1
F B_ 0
PHASE_1
COMP_0
UGATE_1
PC157
0.1 u_ 50V_ Y5V_0 6
*0.1 u_ 50V_ Y5V_0 6 0 5 X
PR21 8 5 .1_0 6
C
PD21 *CSOD1 40SH
PR12 8 *1 0m il_s l_s ho r t
PC15 8
2 3 1 A
2 20 0p_ 50 V_ X7 R_0 4
LGATE_0
PR14 1 10 _0 4 CPU_VDDCR
VW_ 0 0 _ N S I
0 _ P S I
4 1
0 _ N E S V 5 1
0 _ N T R 6 1
1 _ N T R 7 1
1 _ N E S V 8 1
1 _ F
F I D V 9 1
1 _ B F 0 2
8 0 _ R 5 X _ V 3 . 6 _ u 0 1
9 5 1 C P
4 0 _ V 5 Y _ V 0 1 _ u 2 2 . 0
4 0 _ R 7 X _ V 0 5 _ u 1 0 . 0
0 6 1 C
2 6 1 C
P
VDDCR_ CPU PJ 20
1
2 *8mm
P
28 27
ISN_ 0
26
1 _ P
M O C 1 2
BOOT_1 1 _ W V 2 2
1 _ P S I 3 2
1 _ N S I 4 2
PR139
5V
PC1 69 0 .1u _5 0V _Y5 V_ 06
ISN_ 0
t t r r o o h h s s 2 l_ 3 l_ 4 i 4 i 1 1 m R m R 0 0 P 1 * P 1 *
VCORE_ON
3 0,3 3
SUSC
5 10 K _0 4
EN_ VCORE
* 0 _ 04
P R 1 47
* 0 _ 04
U4 6
0 _ 04
Z 33 01
PQ4 7 MTN7 00 2Z HS3 2
G
PR14 9 10 _0 4
33 1 VS_ PW RGD 19 ,32 DDR1 .5V_PW RGD
1 0K_1 K _1 %_ 04
3.3 VS
PC17 1 *0 .1u _10 V_X7 R_0 4
1
4
2 3
1 .8VS
MTN7 00 2Z HS3 3,1 5 APU_ PW RGD
S
G
3.3VS
Q29 D
R6 82 1 0K_0 4 APU_PWRGD_R
*74 AHC1 G08 GW
PQ46 MT N700 2Z HS3
G 1
D
5
PC17 2
D
10 0K_0 4
S
3 CPU_VDD0 _RUN_ FB_ L
P R14 8
P R 1 44
P R 2 09
3 CPU_VDD0_ RUN_F B_H
B - 36 APU CORE CORE// NB CORE CORE
CPU_VDDCR
11A
ISP _0
ISN_1
1 .5V
*1 5u _2 5V_6 .3*4 .4 . 4 _C
PR1 45
7.5 K_1% _04 PR1 40 4 .02 K_ 1%_ 04
A _ V _ V 5 . 2 _ u 0 3 3 * 4 6 1 C P
PC163 2.2 u_6 .3V_Y5 V _06
29
27
Close to CPU socket
+
1 6 1 C P
30
ISP_1 PR138
9 . 5 * 6 . 6 * 6 . 6 _ V 5 . 2 _ u 0 5 + 6
+
25
3 1
ISP_0
PR12 9 *1 0m il_s l_s ho r t
5 VS
PVCC
OCSET
PC14 9
*0 .1 u_ 50 V_ Y5V_0 6
PL9 T MPC0 60 3H-R6 8M-Z 01 1 2
PQ45 MDS26 55
4
8 8 8 0 0 0 _ _ _ R R R 5 5 5 X X _ 2 X 1 _ 5 3 _ 5 _ 5 V 5 V 1 5 V 1 5 1 5 1 5 V C 2 C 2 C 2 C _ P P 2 _ P _ P u _ u u u 7 7 7 . . 7 . . 4 4 4 4 * *
PC15 4
8 0 _ R
P C15 6
PQ44 MDS26 59
5 6 7 8
PHASE_ 0
31
LGATE_0
RBIAS
PC15 5 0 .2 2u _1 6V_0 6
32
PGND_0
ISL6265C
4
36
_NB
UGATE_0
Pin 49 is GND Pin
VIN
5 6 7 8
PR1 20 1_1 %_ 06
BOOT_0
ENABL E
PQ42 MDS26 59
C
12
1 00 0p_ 50V_ X7 R_0 4
4 2 3 1
7 8 1 1 1 1 R R P P 2 3 1 4 4 4
4 4
B N _ P
PWROK
P R 1 30
0 _ 06
5 6 7 8
3
P R 1 27
P R 13 1
PR11 1 10 _0 4
PR115 44 .2K_1 %_0 4
8 4
D N G
1
4 0 _ R 7 SGND5 X _ V 0 5 _ p 0 0 0 1
PHASE_ NB
7 2 4 1 4 1 C C P P
SGND5
Sheet 35 of 41 APU CORE/ NB CORE
4 0 _ R 7 X _ V 0 5 _ p 0 0 0 1
4 0 _ O P N _ V 0 5 _ p 3 3
P R11 2 *1 0mil_s hort
VFIX EN VID Codes
s m a r g a i D c i t a m e h c S . B
PC13 7
8 0 _ R 5 X _ V 5 8 3 2 _ 1 u C 7 P . 4
S
PJ1 6 OPEN-1 mm
0.1 u_ 10 V_ X7 R_0 4
Schematic Diagrams
Click Board CLICK BOARD
CC1 0.1u_16V_Y5V_04
CC2 *0.1u_16V_Y5V_04
C5VS CGND 1 2 3 4
CTP_DATA CTP _CLK
85201-04051 CGND
6- 20-9 4A50-104 6- 20-94AA0- 104 6- 20-9 4A70-104
CGND
1 1
1 CTP_CLK 2 CTP _DATA 3 CTPBUTTON_L 4 CTPBUTTON_R 5 6 85201-06051
2
CGND
CJ_TP3
CR2
CR3
CR4 *220_04 *220_04
CD27 Y G S
2
CGND
BAT LED
3
CD26
G Y S
*KPB-3025Y SGC
4
CGND
6-21-91A00-106 6-21-91A20-106
1
LED
*KPB-3025YSGC
4
Sheet 38 of 41 Click Board
CGND CGND
6-52-55002-042 6-52-55002-04E
CGND
6- 21-9 1A00-106 6- 21-9 1A20-106
CLED_BAT_FULL
3
2
1 CLED_PWR 2 CLED_ACIN 3 CLE D_BAT_FULL 4 CLED_BAT_CHG 5 6 *85201-06051
CGND
CLED_BAT_CHG
CLED_PWR
*220_04 *220_04 POWER ON
CVDD3
CJ_TP2
CJ_TP1
CR1
CC3 *0.1u_16V_Y5V_04
C5VS
CLED_ACIN
6-52-55002-0 42 6-52-55002-0 4E
For W250BUQ
CSW1~4 2 1
4 3
LIFT KEY
1 3
RIGHT KEY
CSW1 TJG-533-S-T/R
2 4
1 3
CTPBUTTON_L
CSW2 TJG-533-S-T/R
5 6
1
9 8 7 6
2 3 4 5
MTH237D91 CGND
CSW3 *TJG-533-S-T/R 2 4
CH1
1
9 8 7 6
2 3 4 5
CGND
CH4
1
9 8 7 6
CGND
1 3
CTPBUTTON_L
CGND
2 3 4 5
MTH237D91 CGND
RIGHT KEY
5 6
6-53- 3050B- 041
MTH237D91 CGND
1 3
CTPBUTTON_R
CGND
6-53- 3050B- 041
CH3
2 4
5 6
CGND
2 3 4 5
LIFT KEY
CH2
1
CTPBUTTON_R
5 6
CGND
6-5 3-3050B-041
9 8 7 6
CSW4 *TJG-533-S-T/R 2 4
CH5 C95D95
6-5 3-3050B-041
CH6 HO-165X94_5NP
MTH237D91 CGND
CGND
CGND
Cl ic k B oar d B - 39
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
Au di o B oar d/ USB USB PORT A R7 3 5
0 _0 6 A_ USB VCC AL 1 H CB 1 60 8 KF -1 2 1T 25
A_ USBVC C2
60 mil
A_U SBVCC A_ 5 V
5
AU 1
50mils
6
2 3
1 0u _ 1 0V_ Y5 V_ 0 8
4
V I N 1 VO UT 2 V I N 2 VO UT 3 EN#
G ND
7 AC3
s m a r g a i D c i t a m e h c S . B
AG ND
AJ _ U S B 1 A R1
*0 .1 u_ 1 6V _Y 5V_ 0 4
0.1 u _ 16 V_ Y5 V _ 0 4
A GN D A G N D
* 1 0 mil _ sh o r t _ 0 4
AGND
1
AL 1 2 2
1
6-02-09715-920
0 .1u _ 1 6V_ Y 5V_ 0 4
AC4
8
* RT 9 71 5 BGS A GND
AC2
* 10 0 u_ 6 .3 V_ B _A 2 2 u _6 .3 V_ X5 R _0 8
F L G# VO UT 1
50mils AC5
+AC 1
AC1 0
A USB_ PN2
4
A USB_ PP2
1 2 *W C M2 0 12 F 2 S -1 6 1T 0 3
A G ND
3
AUSB_ PN2 _ R
2
AUSB_ PP2 _ R
3 4
A R2
* 1 0 mil _ sh o r t _ 0 4
V+ D ATA_ L D ATA_ H 1 2 3 4 D D D D N N N N G G G G
G ND
US0 4 03 6 BCA0 8 1
1 2 3 4 D D D D N N N N G G G G
6-21- B49C0-104
AG ND
Sheet 39 of 41 Aud io Boar d/ USB
TO M/B
AUDIO JACK
EMI Requir e
AM IC1 -R
A L1 213
2
F C M 1 0 0 5K F -1 2 1 T0 3
AM IC1 -L
A L1 214
2
F C M 1 0 0 5K F -1 2 1 T0 3
AC 7 92 A_ 5 V
5 AJ _ MIC1 4 3 R
AM IC_ SEN SE M IC1 _ OUT _ R M IC1 _ OUT _ L NC _M IC1
2 6 L 1 2SJ -T 3 51 -S2 3
AC7 9 3
AJ _ AUD IO1 * 1 00 p _5 0 V_ NPO _0 4 *1 00 p _ 50 V_ NPO _ 04 1 2 3 4 5 6 7 8 9 10 11 12 13 14
AM IC1 -R AM IC1 -L AH EADPH ON E-R AH EADPH ON E-L AM IC_ SEN SE ASP K_H P# AH P_ SENSE AU SB_ PN2 AU S B _ P P 2 ASP KOUT R + ASP KOUT R -
Resisto r 3 2or 33_04 meet WLK Test 10/28Modifyvalue
A_ AUD G
VT1802P 33_1%_04 AR5 6 9
1 8 _0 1 %_04
PHO NE-R
A L 121 5
2
F C M1 0 5K F - 12 1T 03
AHEAD PHO NE-L
AR5 7 0
1 8 _0 1 %_04
PHO NE-L
A L 121 6
2
F C M1 0 5K F - 12 1T 03 AC 7 94
Layout note: H e ad p h on e ? ? ? ? > 1 0m i l s ? ? ph o n e ja ck ? ? ? ? ? ? ? ? ? R/L ? ? ? ? GND ? ? ? ? 3* ? ?
Reverse
6- 20- B2800- 106
BLACK
AHEAD PHO NE-R
8 52 0 1 -14 0 5 1-0 1 A_ AU DG AG ND
MIC IN
*1 0 0 p_ 5 0V _N P O_ 0 4
5 AJ _ HP1 4 3 R
AHP_ SEN SE PHO NE_ OU T_ R
2 L 6 1 2SJ -T 3 51 -S2 3
P H O N E_ OU T_ L ASPK_ HP# AC7 9 5 *1 00 p _ 50 V_ NPO _ 04
HEADPHONE
BLACK
EMI Requir e
A_ AUD G
2 1
AC6
0 . 1u _1 6V _ Y V 5 _ 04
HP-L
AC7
0 . 1u _1 6V _ Y V 5 _ 04
HP-R
AC8
0 . 1u _1 6V _ Y V 5 _ 04
AC9
0 . 1u _1 6V _ Y V 5 _ 04
6-20- B2800- 106 3 4
GND
6
3 * R/ L ? ?
5
GND
AL 12 7 *F CM1 6 0 8K-1 2 1 T0 6 _ sh o rt ASPKO U TR + AGND
A_ AUDG AC7 9 6
AC7 9 7
*1 u _1 0 V_ 06
*1 8 0p _ 5 0V_ N P O_ 0 4 A _AU DG
ASPKO U TR *F CM1 6 0 8K-1 2 1 T0 6 _ sh o rt AL 12 8 J_SPK1
AH 1 C 59 D 59
AH3 C5 9 D5 9
2 3 4 5
AH2
1
9 8 7 6
2 3 4 5
M TH 2 76 D1 1 1 A GND
B - 40 Audio Board/ USB
AH4
1
9 8 7 6
MT H2 7 6 D1 11 AGN D A G N D
AG ND
2
AC7 9 8
ASPKO UT R+ _ R ASPKO UT R-_ R
AJ _ S P K R 1 1 2
J_SPK1 2 1
85 2 0 4-0 2 0 01 PC B F o otp rin t =8 5 2 04 -0 2 R
*1 8 0 p_ 5 0V _N P O_ 0 4
1
A_AU DG
6- 20-43150- 102 6- 20-43110- 102
Schematic Diagrams
Power Switch & L ID Board POWER SW & LED & HOT KEY S_ 3.3 VS
S_ 3.3 VS
S_ 3.3 VS SJ _ S W 1 1 2 3 4 5 6 7 8 9 10
S_3 .3 V
POWER SWITCH LED
S_ 3 .3V SR2
S_ 3 .3V
LID SWITCH IC
SJ _ S W 2 SM _B T N # SW E B_ W W W # SW E B_ EM AIL # SL ID_ SW # SA P_ ON
S M GN D
S_ VIN
* 50 5 0 0-0 1 0 41 -0 01 L
20mil
20mil
1 2 3 4 5 6 7 8
S M GN D
SM _B T N# SW E B_ W W W # SW E B_ EM AI L# SL ID_ S W #
co-lay
SR1
Z4301
1
S D3 * HT -1 50 N B-DT
S MGN D
SAP_ ON
A
6- 52-56001- 023 6- 52-56001- 028 6- 52-56000- 020 6- 52-56001- 022
6- 20- 94K10- 108
*0 .1 u_ 1 0 V _X7 R_ 0 4
SU1
2
C
A
S C1
M H2 4 8-A LF A -E SO
SM GN D
*1 00 p _ 50 V_ NPO _ 04 S M GND
SM GN D
C
6-526-526-526-52-
SLID _ SW #
OU T
3
0 .1 u_ 1 6 V_Y 5 V_0 4 S MGN D HT -1 5 0N B-DT
S MG ND
56001-023 56001-028 56000-020 56001-022
S MGN D
6- 02-00248- LC2 6- 02-00268- LC1
SU1, SU2 3 1
FOR E5128Q
6- 53- 3150B-245 6- 53- 3050B-241 6- 53- 3050B-240
HOT KEY
6- 53- 3150B-245 6- 53- 3050B-241 6- 53- 3050B-240
POWER BUTTON SPW R _ SW 1 T J G-5 33 -S-T /R 1 3
2 4
S M_ B T N#
1 3
5 6
FOR E4120Q/ E5120Q
6- 53-3150B- 245 6- 53-3050B- 241 6- 53-3050B- 240
WEB_WWW# SW W W _S W 1 *T J G-5 3 3 -S-T/ R 2 4
1 3
SC4
5 6
2 4
SA P _SW 1 * T JG -53 3 -S-T /R
SW EB_EM AIL #
1 3
SC3
5 6
* 0.1 u _ 16 V_ Y 5 V _ 04
1 2
S M GN D
SM GN D
*0 .1u _ 1 6V_ Y 5V_ 0 4
S M GN D
S MG ND
2 4
S A P _O N
SC 5
5 6
SR4 *0 _ 0 4
PSW1~8 3 4
Sheet 40 of 41 Power Switch & L ID Board
AP_KEY#
SR 3 * 10 0 K_ 1% _ 0 4
S MAIL _ S W 1 * T JG -5 33 -S-T /R SW EB_W W W #
2
6-53- 3150B-245 6-53- 3050B-241 6-53- 3050B-240
S_ V IN
WEB_EMAIL#
*BA V 99 RE CT IF IER
AC
D N G
SC 2
SD 1
SMG ND
1 0 0 K _0 4
VC C
SC6
8 8 48 6 -0 80 1
10 pin & 8 pin
20mil
A
SD2 C
S _ 3 .3 V
22 0 _0 4
20mil
SR5 * 4 7K_ 0 4
* 0 .1u _ 1 6V_ Y 5V_ 0 4
S MG ND
S MGN D
S MGN D
SM GND
FOR E5120Q
SMG ND
POWER BUTTON
1 3
SPW R _ SW 2 *T J G-5 3 3 -S -T/ R
SMH2 H7 _0 D 2_ 3 2 4
SMH 5 H7 _ 0D 2 _3
SMH6 T1 5 8B 11 8 X8 7 D1 1 8 X8 7
S MH 7 T1 5 8 B91 D 91
SM H1 2 3 4 5
S M_ BT N#
1
S MH3 9 8 7 6
2 3 4 5
1
SMH 4 9 8 7 6
2 3 4 5
9 8 7 6
1
5 6
PSW1~8 3 4
SM GN D
1 2
M TH 2 37 D8 7 S MG ND S MG ND
M T H2 37 D 87 SMG ND
MT H2 3 7D 1 18 SM GND
SM GN D
S MG ND
6- 53- 3150B-245 6- 53- 3050B-240 6- 53- 3050B-241
FOR E5128Q
Power Switch & LID Board B - 41
B . S c h e m a t i c D i a g r a m s
Schematic Diagrams
EXTERNAL ODD Board QJ_ODD2 S1 S2 S3 S4 S5 S6 S7
QJ_ODD1 S1 S2 S3 S4 S5 S6 S7
QJ_SATA_TXP1 QJ_SATA_TXN1 QJ_SATA_RXN1 QJ_SATA_RXP1
QGND P1 P2 P3 P4 P5 P6
s m a r g a i D c i t a m e h c S . B
QGN D QJ_ODD_DETECT# Q_5VS
P1 P2 P3 P4 P5 P6
Q_5VS QJ_SATA_ODD_D A#
1-162-100562
242001-1 PIN GND1~3=QG ND
PIN GND1~2=WGND
Sheet 41 of 41 EXTERNAL ODD Board
QGND
QGND
6-21-14010-013 6-21-14020-013 6-21-14030-013
6- 21-13A00- 013
Q_5VS
QC1
QC2
0.1u_16V_Y5V_04
*0.1u_16V_Y5V_04
QGND
B - 42
QH1 C237D91
QH4 C237D91
QGND
QGND
QH3 C67D67
QH2 C67D67
BIOS Update
Appendix C:Updating the FLA SH ROM BIOS To upd ate the FLASH ROM BIOS you mus t: • • • • • • •
Download the BIOS update from the web site. Unzip the files onto a bootable CD/DVD/USB Flash Drive. Reboot your computer from an external CD/DVD/USB Flash Drive. Use the flash tools to update the flash BIOS using the commands indicated below. Restart the computer booting from the HDD and press F2 at startup enter the BIOS. Load setup defaults from the BIOS and save the default settings and exit the BIOS to restart the computer. After rebooting the computer you may restart the computer again and make any required changes to the default BIOS settings.
Download the BIOS 1. Go to www.clevo.com.tw and point to E-Services and click E-Channel. 2. Use your user ID and password to access the appropriate download area (BIOS), and download the latest BIOS files (the BIOS file will be contained in a batch file that may be run directly once unzipped) for your computer model (see sidebar for important information on BIOS versions ).
Unzip the downloaded files to a bootable CD/DVD/ or USB Flash drive 1.
Insert a bootable CD/DVD/USB flash drive into the CD/DVD drive/USB port of the computer containing the downloaded files. 2. Use a tool such as Winzip or Winrar to unzip all the BIOS files and refresh tools to your bootable CD/DVD/USB flash drive (you may need to create a bootable CD/DVD with the files using a 3rd party software).
BIOS Versio n Make sure you download the latest correct version of the BIOS appropriate for the computer model you are working on. You should only download BIOS versions that are V1.01.XX or higher as appropriate for your computer model. Note that BIOS versions are not backward compatible and therefore you may not downgrade your BIOS to an older version after upgrading to a later version (e.g if you upgrade a BIOS to ver 1.01.05, you MAY NOT then go back and flash the BIOS to ver 1.01.04).
Set the comput er to boot f rom th e external drive 1. 2. 3. 4. 5.
With the bootable CD/DVD/USB flash drive containing the BIOS files in your CD/DVD drive/USB port, restart the computer and press F2 (in most cases) to enter the BIOS. Use the arrow keys to highlight the Boot menu. Use the “+” and “-” keys to move boot devices up and down the priority order. Make sure that the CD/DVD drive/USB flash drive is set first in the boot priority of the BIOS. Press F4 to save any changes you have made and exit the BIOS to restart the computer.
C - 1
C : B I O S U p d a t e