Preface Notebook Computer X8100 Service Manual Preface I
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.
Preface About this 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 X8100 series notebook PC. The following information is included: Chapter 1, Introduction, provides general information about the location of system elements and their specifications.
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: Preface 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.
Preface Instructions 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.
Preface 4. 5. Avoid interference. Keep the computer away from high capacity transformers, electric motors, and other strong magnetic fields. These can hinder proper performance and damage your data. Take care when using peripheral devices. Use only approved brands of peripherals. Unplug the power cord before attaching peripheral devices.
Preface Battery Precautions • 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.
Preface Related Documents You may also need to consult the following manual for additional information: Preface 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.
Preface Contents Introduction ..............................................1-1 Overview .........................................................................................1-1 System 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 .....................................
Preface Preface CRT, DVI ..................................................................................... B-22 Panel, Inverter, TPM .................................................................... B-23 HDMI Repeater, Fan Control ....................................................... B-24 HDMI Switch ............................................................................... B-25 ODD, CCD, BT, USB2.0 ............................................................. B-26 Codec, Subwoofer, DMIC ....
Introduction Chapter 1: Introduction Overview This manual covers the information you need to service or upgrade the X8100 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.
Introduction 1.Introduction System Specifications Processor Video Adapter Options Keyboard & Pointing Device Intel® Core i7-720QM Processor: 1.6GHz 45nm (45 Nanometer) Process Technology, 6M L3 Cache & FSB 1333MHz - TDP 45W rPGA988A Package nVIDIA® GeForce GTX 280M SLI PCIe Video Card 1GB GDDR3 Video RAM On Board Supports PCIe * 8 (SLI - 2 * PCIe * 8) Supports Microsoft DirectX® 10.0 Supports HDCP Intel® Core i7-820QM Processor: 1.
Introduction Interface Security Four USB 2.
Introduction Figure 1 External Locator - Top View with LCD Panel Open 1.Introduction Top View 1 1. Optional Built-In PC Camera 2. LCD 3. LED Status Indicators 4. Touch Sensor Instant Keys 5. 8 * Gaming Keys 6. Keyboard 7. TouchPad and Buttons 8. Fingerprint Reader Module (optional) 9.
Introduction External Locator - Front & Right side Views Figure 2 Front Views 1 4 2 3 2 1. Color LEDs 2. Speakers 3. LED Power Indicators 4. Consumer Infrared Transceiver (enabled with optional TV Tuner only) 1 13 10 5 6 7 8 9 11 12 5. Headphone-In Jack 6. Microphone-In Jack 7. Line-In Jack 8. S/PDIF-Out Jack 9. Cable (CATV) Antenna Jack* 10. Combined eSATA/USB Port 11. USB 2.0 Port 12. Security Lock Slot 13. Power Button External Locator - Front & Right side Views 1 - 5 1.
Introduction External Locator - Left Side & Rear View Figure 4 Left Side View 1. 2. 3. 4. 5. 1.Introduction 6. 7. 8. 9. DVI-Out Port 2 * USB 2.0 Ports RJ-45 LAN Jack HDMI-Out Port 7-in-1 Card Reader ExpressCard Slot HDMI-In Port Mini-IEEE 1394 Port Optional Device Drive Bay 5 1 2 3 4 6 7 8 9 Figure 5 Rear View 10. Color LEDs 11. Speakers 12.
Introduction External Locator - Bottom View Figure 6 Bottom View 1 3 2 2 4 5 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.Introduction 2 1. Sub Woofer 2. Fan Outlet/Intake 3. Component Bay Cover 4. Battery (Secondary HDD Bay - HDD3) 5.
Introduction Figure 7 Mainboard Overview - Top (Key Parts) 1.Introduction Mainboard Top Key Parts 1. North Bridge 2. Memory Slots DDR3 So-DIMM 3. Mini-Card Connector (WLAN Module) 4.
Introduction Mainboard Overview - Bottom (Key Parts) Figure 8 Mainboard Bottom Key Parts 1. CPU Socket 2. VGA Socket 3. Memory Slots DDR3 So-DIMM 2 2 1 1.
Introduction Figure 9 Mainboard Overview - Top (Connectors) 1.Introduction Mainboard Top Connectors 1. CCD Cable Connector 2. LCD Cable Connector 3. Side L Cable Connector 4. Inverter Cable Connector 5. LED Cable Connector 6. Subwoofer Connector 7. Power Button Connector 8. Game-Key Cable Connector 9. Bluetooth Module Connector 10. LED Cable Connector 11. Touch Pad Connector 12. USB Cable Connector 13. Audio Cable Connector 14. SW Connector 15. Fingerprint Connector 16. Keyboard Cable Connector 17.
Introduction Mainboard Overview - Bottom (Connectors) Figure 10 Mainboard Bottom Connectors 1. Battery Connector 2. DC-In Jack 3. CRT Port 2 3 1.
1.
Disassembly Chapter 2: Disassembly Overview This chapter provides step-by-step instructions for disassembling the X8100 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. To make the disassembly process easier each section may have a box in the page margin.
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: 2.Disassembly • • • • • • M3 Philips-head screwdriver M2.
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: 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.
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 remove the Wireless LAN Module: page 2 - 5 To remove the Optical Device: 2.Disassembly 1. Remove the battery 2. Remove the Optical device page 2 - 5 page 2 - 6 To remove the HDD: 1. Remove the battery 2.
Disassembly Removing the Battery Figure 1 If you are confident in undertaking upgrade procedures yourself, for safety reasons it is best to remove the battery. a. Loosen screws. b. Release the battery. c. Lift the battery out of the bay as indicated. 1. Turn the computer off, and turn it over. 2. Loosen screws 1 - 3 and carefully lift the battery 4 up (Figure b) . 3. Remove the battery from the battery bay. a. Battery Removal c. 2.Disassembly 1 3 2 b. 4 4 4.
Disassembly Figure 2 Optical Device Removal 1. 2. 3. 4. 5. Turn off the computer, and turn it over and remove the battery (page 2 - 5). Locate the hard disk bay cover and remove screws 1 & 2 , and remove the bay cover 3 . Remove screw 4 . Use the screwdriver to push the optical device 6 out of the computer at point 5 . Reverse the process to install the new device. a. b. 2.Disassembly a. Remove the screws. b. Remove the cover. c.
Disassembly Removing the Hard Disk Drive Figure 3 The hard disk drive is mounted in a removable case and can be taken out to accommodate other 2.5" 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. Turn off the computer, and turn it over and remove the battery (page 2 - 5).
Disassembly Removing the Hard Disk(s) in the Secondary HDD Bay Figure 4 Secondary HDD Assembly Removal Turn off the computer, and turn it over and remove the battery. The secondary hard disk bay is located under the battery compartment. Remove screw 1 - 4 . Slide the hard disk assembly in the direction of the arrow 5 . Lift the hard disk assembly 6 out of the compartment. Remove the screws 7 - 10 to release the hard disk from the case 11 . 7. Reverse the process to install any new hard disk(s). a. 2.
Disassembly Removing the System Memory (RAM) -1 Figure 5 The computer has two memory sockets for 204 pin Small Outline Dual In-line Memory Modules (SO-DIMM) DDR III (DDR3) supporting 1066/1333 MHz. The main memory can be expanded up to 8GB. The total memory size is automatically detected by the POST routine once you turn on your computer. Memory Upgrade Process 1. 2. 3. 4. 5. 6. Turn off the computer, and turn it over and remove the battery (page 2 - 5).
Disassembly Figure 6 RAM-1 Module Removal (cont’d.) 7. Gently pull the two release latches 13 & 14 on the sides of the memory socket in the direction indicated by the arrows (Figure f). 8. The RAM module 15 will pop-up (Figure g), and you can then remove it. d. e. d. Pull the release latch. e. Remove the module. f Replace the heatsink and tighten the screws. Single Memory Module Installation 13 15 2.
Disassembly Removing the System Memory (RAM) - 2 Figure 7 The computer has two memory sockets for 204 pin Small Outline Dual In-line Memory Modules (SO-DIMM) DDR III (DDR3) supporting 1066/1333 MHz. The main memory can be expanded up to 4GB. The SO-DIMM modules supported are 1024MB and 2048MB DDR Modules. The total memory size is automatically detected by the POST routine once you turn on your computer. Memory Upgrade Process c. a. 1 2 a. Remove the screws from the bottom of the computer. b.
Disassembly Figure 8 2.Disassembly RAM-2 Module Removal (cont’d.) e. Disconnect the cable from the locking collar. f. Remove the keyboard. g. Remove screws and keyboard plate. g Pull the release latch(es). i. Remove the module(s). 6. 7. 8. 9. Carefully lift the keyboard up, being careful not to bend the keyboard ribbon cable. Disconnect the keyboard ribbon cable 11 from the locking collar socket 12 . Remove the keyboard 13 .
Disassembly 16. Replace the shielding plate, keyboard and screws (make sure to reconnect the keyboard cable). 17. Snap the LED cover module down at the top fo the module at point 22 & 23 . j. 22 Figure 9 RAM-2 Module Removal (cont’d.) j. Snap down the LED cover at point 22 & 23. k. Push the LED cover on the left side at point 24 and the slide toward the right to secure it in place. 23 k. 24 19. Replace the scews on the bottom of the computer (). 20.
Disassembly Figure 10 Processor Removal a. Remove the screws. b. Lift the cover and disconnect the fan cable. c. Loosen the screws and remove the heat sink.. Removing and Installing the Processor Processor Removal Procedure 1. 2. 3. 4. 5. 6. Turn off the computer, and turn it over, remove the battery (page 2 - 5). Locate the component bay cover and remove screws 1 - 5 . Carefully (a fan and cable are attached to the under side of the cover) lift up the bay cover.
Disassembly 7. 8. 9. 10. 11. Turn the release latch 13 towards the unlock symbol , to release the CPU (Figure 11a). Carefully (it may be hot) lift the CPU 14 up out of the socket (Figure 11b). See page 2 - 16 for information on inserting a new CPU. Reverse the process to install a new CPU. When re-inserting the CPU, pay careful attention to the pin alignment, it will fit only one way (DO NOT FORCE IT!). Figure 11 Processor Removal (cont’d) d. Turn the release latch to unlock the CPU. e.
Disassembly Figure 12 Processor Installation a. Insert the CPU. b. Turn the release latch towards the lock symbol. c. Remove the sticker from the heat sink and insert the heat sink. d. Tighten the screws. Processor Installation Procedure 1. Insert the CPU A , pay careful attention to the pin alignment, it will fit only one way (DO NOT FORCE IT!), and turn the release latch B towards the lock symbol (Figure 12b). 2. Remove the sticker C (Figure 12c) from the heat sink. 3.
Disassembly Removing the VGA Card Figure 13 1. 2. 3. 4. 5. Turn off the computer, and turn it over and remove the battery (page 2 - 5). Locate the component bay cover and remove screws 1 - 5 Carefully (a fan and cable are attached to the under side of the cover) lift up the bay cover. Carefully disconnect the fan cable 6 , and remove the bay cover 7 . Remove screws 8 - 10 (two video cards are pictured here) from the video card fan(s) and disconnect the fan cable(s) 11 (if two cards are present). 6.
Disassembly Figure 14 VGA Card Removal (cont’d.) d. Remove the screws. e. Remove the VGA heatsink. f. Remove the VGA module. 7. Remove screws 13 - 16 from the heatsink in the order indicated on the label (two video cards are pictured here). 8. Grip the handle 17 and carefully remove the heatsink 18 . 9. Remove screws 19 - 20 from the video card. 10. Carefully remove the VGA card module 21 from the mainboard. d. e. 14 16 14 16 18 2.Disassembly 15 13 15 17 18 13 17 f. 21 21 18.
Disassembly Installing the VGA Card Figure 15 VGA Card Installation a. Carefully Insert the VGA Card. 2.Disassembly 1. Prepare to fit the VGA card 22 into the slot by holding it at about a 30° angle. 2. The card needs to be fully into the slot, and the VGA card and socket have a guide-key and pin which align to allow the card to fit securely. 3. Fit the connectors firmly into the socket, straight and evenly. 4. DO NOT attempt to push one end of the card in ahead of the other. 5.
Disassembly Figure 16 Removing the Wireless LAN Module Wireless LAN Module Removal 1. Turn off the computer, and turn it over, remove the battery (page 2 - 5), keyboard and keyboard shielding plate (page 2 - 9). 2. The Wireless LAN Module will be visible at point 1 . a. Locate the WLAN mod3. Remove the screw 2 and carefully disconnect cables 3 - 4 . ule. b. Remove the screw and 4. The Wireless LAN Module 5 (Figure c) will pop-up, and you can remove it. disconnect the cables. c. Remove the WLAN module.
Disassembly Removing the Bluetooth Module Figure 17 1. Turn off the computer, and turn it over, remove the battery (page 2 - 5), keyboard and keyboard shielding plate (page 2 - 9). 2. The Bluetooth module is visible at point 1 . 3. Carefully disconnect cables 2 & 3 and remove the screw 4 . 4. Lift the Bluetooth module 5 off the computer. a. c. Bluetooth Module Removal a. Locate the module. b. Disconnect the cables and remove the screw. c. Remove the Bluetooth module. 1 b. 5 2 4 3 5.
Disassembly Figure 18 TV Tuner Card Removal a. Locate the module. b. Remove the screws and disconnect the cable. c. The TV tuner card will pop up and remove it. Removing the TV Tuner Card 1. Turn off the computer, and turn it over, remove the battery (page 2 - 5), keyboard and keyboard shielding plate (page 2 - 9). 2. The TV tuner card is visible at point 1 . 3. Remove the screw 2 from the TV tuner module and disconnect the cable 3 . 4. The TV tuner card 4 will pop-up and and you can remove it. . a. b.
Part Lists Appendix A: Part Lists This appendix breaks down the X8100 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 different system, so be sure to cross-check any relevant documentation. Note: Some assemblies may have parts in common (especially screws).
Part Lists Part List Illustration Location The following table indicates where to find the appropriate part list illustration. Table A- 1 Part List Illustration Location A.
Part Lists Top with Fingerprint Figure A - 1 無鉛 無鉛 無鉛 Top with Fingerprint 無鉛 無鉛 無鉛 無鉛 (非耐落) 無鉛 無鉛 無鉛 黑色 (無鉛) 無鉛 無鉛 無鉛 無鉛 (無鉛) 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 頭厚 無鉛 無鉛 無鉛 無鉛 Top with Fingerprint A - 3 A.
Part Lists A.
Part Lists Bottom Figure A - 3 無鉛 Ω 鴻立 無鉛 無鉛 (非耐落) 無鉛 無鉛 無鉛 無鉛 精乘 無鉛 無鉛 無鉛 無鉛 Ω 鴻立 無鉛 無鉛 無鉛 無鉛 精乘 無鉛 鐵網封精油 無鉛 鐵網封精油 無鉛 信越 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 Bottom A - 5 A.
Part Lists LCD - CCFL Panel A.
Part Lists LCD - LED Panel Figure A - 5 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 (非耐落) 無鉛 無鉛 無鉛 華力 醋酸布包覆 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 無鉛 定位柱加高 中性 無鉛 無鉛 無鉛 無鉛 LCD - LED Panel A - 7 A.
Part Lists Mainboard A.
Part Lists DVD Super Multi Figure A - 7 無鉛 無鉛 已內縮 無鉛 內縮 無鉛 無鉛 DVD Super Multi A - 9 A.
Part Lists DVD Super Multi - HLDS A.
Schematic Diagrams Appendix B: Schematic Diagrams This appendix has circuit diagrams of the X8100 notebook’s PCB’s. The following table indicates where to find the appropriate schematic diagram. Diagram - Page Diagram - Page Diagram - Page PCH 7/8 PWR - Page B - 19 Power VCore - Page B - 36 Processor 1/7 DMI, PEG - Page B - 3 PCH 8/8 PWR - Page B - 20 Power 1.1V_VTT, Screw Hole - Page B - 37 Processor 2/7 CLK, MISC - Page B - 4 CLK GEN, HDMI-In - Page B - 21 Power 1.5V/0.
Schematic Diagrams System Block Diagram SY ST EM P OW ER 14.318 MHz PO WE R VC OR E PO WE R 1. 1V S_ VT T DDR3 SDRAM SOCKET PO WE R 1. 5V /0 .7 5V MX M- II I VG A ma st er HDMI SW PO WE R 3. 3V /5 V HDMI B.
Schematic Diagrams Processor 1/7 DMI, PEG P E G _R X N [ 0 . . 7] P E G _R X N [ 0 . . 7 ] P E G _R X P [ 0 . . 7 ] PROCESSOR 1/7 ( DMI,PEG,FDI ) 10 P E G _R X P [ 0 . . 7 ] 1 0 P E G _T X N [ 0 . . 7 ] P E G _T X N [ 0 . . 7 ] 1 0 P E G _T X P [ 0 . . 7 ] P E G _T X P [ 0 . . 7 ] P E G _R X N [ 8 . . 15 ] 10 P E G _R X N [ 8 . . 1 5 ] 1 1 P E G _R X P [ 8 . . 1 5 ] P E G _R X P [ 8 . . 1 5 ] 1 1 P E G _T X N [ 8 . . 1 5] P E G _T X N [ 8 . . 1 5] P E G _T X P [ 8 . .
Schematic Diagrams Processor 2/7 CLK, MISC D DR 3 Co mp en sa ti on S ig na ls P ro ce ss or C om pe ns at io n Si gn al s H _ C O MP 1 2 0 _1 % _ 04 H _ C O MP 2 H _ C OM P 1 G1 6 R 37 2 2 0 _1 % _ 04 H _ C O MP 3 H _ C OM P 0 AT2 6 A H2 4 R5 0 9 1 7 H_ P E CI Zo= 50 O? 5% P ro ce ss or P ul lu ps AK1 4 H _ CA T E RR # R 38 7 35 H _P R OC H O T# 0_ 0 4 0 _ 04 A N2 6 H _ P R O C H O T #_ D I f P RO CH OT # is no t us ed, t he n it mu st b e ter mi na te d w ith a 5 0- O pul l- up r e
Schematic Diagrams Processor 3/7 DDR3I PROCESSOR 3/7 ( DDR3 ) U38C U38D 8 M_A_BS0 8 M_A_BS1 8 M_A_BS2 8 M_A_CAS# 8 M_A_RAS# 8 M _A_ WE# AC3 AB2 U7 AE1 AB3 AE9 SA_DQ [0] SA_DQ [1] SA_DQ [2] SA_DQ [3] SA_DQ [4] SA_DQ [5] SA_DQ [6] SA_DQ [7] SA_DQ [8] SA_DQ [9] SA_DQ [10] SA_DQ [11] SA_DQ [12] SA_DQ [13] SA_DQ [14] SA_DQ [15] SA_DQ [16] SA_DQ [17] SA_DQ [18] SA_DQ [19] SA_DQ [20] SA_DQ [21] SA_DQ [22] SA_DQ [23] SA_DQ [24] SA_DQ [25] SA_DQ [26] SA_DQ [27] SA_DQ [28] SA_DQ [29] SA_DQ [30] SA_DQ [31] SA
Schematic Diagrams Processor 4/7 Power PR OCESS OR CO RE PO WER PROCESSOR U38F 4/7 ( POWER ) 1. 1 VS_VTT M OLEX47989-0132 B - 6 Processor 4/7 Power 1.
Schematic Diagrams Processor 5/7 GFX PWR PROCESSOR 5/7 ( GRAPHICS POWER ) U38G 1. 1VS_VCC_FDI R355 0_06 C464 C469 22u_6.3V_X5R_08 22u_6.3V_X5R_08 J24 J23 VTT1_45 H25 VTT1_46 VTT1_47 FDI 1.1VS_VTT AM22 AP22 AN22 AP23 AM23 AP24 AN24 GFX_VR_EN GFX_DPRSLPVR GFX_IMON AR25 AT25 AM24 R373 R390 TP_GFX_I MON R389 *0_04 *0_04 S3 Pow e r Re du ct i on w hi te pa pe r 1K_04 1 FOR DISABLE 1.5VS_CPU - 1.
Schematic Diagrams Processor 6/7 GND, 7/7 RSVD PROCESSOR 6/7 PROCESSOR ( GND ) 7/7 ( RESERVED ) S 3 Po w e r Re d uc tio n w h it e p ap e r MOL E X 4 79 8 9 -01 3 2 R4 9 5 4 VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS 16 1 16 2 16 3 16 4 16 5 16 6 16
Schematic Diagrams DDR3 SO-DIMM_0 REV SO-DIMM 0 REVERSE TYPE H=4.
Schematic Diagrams DDR SO-DIMM_1 REV SO-DIMM 1 REVERSE TYPE H=4.0mm J D I MM 1B JD I MM 1 A 4 M _ B _ A [ 1 5: 0 ] M_ B _ A 0 M_ B _ A 1 M_ B _ A 2 M_ B _ A 3 M_ B _ A 4 M_ B _ A 5 M_ B _ A 6 M_ B _ A 7 M_ B _ A 8 M_ B _ A 9 M_ B _ A 1 0 M_ B _ A 1 1 M_ B _ A 1 2 M_ B _ A 1 3 M_ B _ A 1 4 M_ B _ A 1 5 pin 1 B.
Schematic Diagrams MXM 3.0 Master MXM 3.0 MASTER V I N _ M XM P E X_ S T D _ S W # 1 2 2 P NL _ P W R_ E N 2 2 P N L _ B L _E N 22 L V D S _D D C _D A T 22 L V D S _D D C _C L K 12 M XM _ H D A R S T # 1 2 H D A _S D I N 1 R1 0 2 2 _0 4 Max: 0.5inch 26 , 3 2 S P D I F _O U T P E G_ R X N 7 P E G_ R X P 7 C 43 7 C 43 6 0. 1u _ 1 0V _ X 7 R _ 0 4 0. 1u _ 1 0V _ X 7 R _ 0 4 Z 2 7 01 Z 2 7 02 P E G_ R X N 6 P E G_ R X P 6 C 43 5 C 43 4 0. 1u _ 1 0V _ X 7 R _ 0 4 0.
Schematic Diagrams MXM 3.0 Slave Unstuff High swing 15A Stuff RB R1 2 *1 0 mi l _ 04 PE X _ ST D_ SW # 2 Sheet 11 of 55 MXM 3.0 Slave P E G _R X N 1 5 P E G _R X P 15 C4 5 3 C4 5 2 0 . 1 u _1 0 V _ X 7R _0 4 0 . 1 u _1 0 V _ X 7R _0 4 P E G _R X N 1 4 P E G _R X P 14 C4 5 1 C4 5 0 0 . 1 u _1 0 V _ X 7R _0 4 0 . 1 u _1 0 V _ X 7R _0 4 P E G _R X N 1 3 P E G _R X P 13 C4 4 9 C4 4 8 0 . 1 u _1 0 V _ X 7R _0 4 0 . 1 u _1 0 V _ X 7R _0 4 P E G _R X N 1 2 P E G _R X P 12 C4 4 7 C4 4 6 0 .
Schematic Diagrams PCH 1/8 RTC, HDA, SATA IBEXPEAK - M (HDA,JTAG,SATA) RTCVCC 20 mils C204 C CM200 S32 7681220_32.768KHz C184 JOPEN1 *OPEN_10mil-1M M C211 RTC_X1 RTC_X2 1 R130 C183 1M _04 1 u_6.
Schematic Diagrams PCH 2/8 PCIE, SMBUS, CLK IBEXPEAK - M (PCI-E,SMBUS,CLK) 30 30 30 30 Sheet 13 of 55 PCH 2/8 PCIE, SMBUS, CLK P C IE _ R XN5 _ CR P C I E _ R X P 5 _C R P C IE _ T X N5 _ CR P C I E _ T X P 5 _C R A U3 0 AT3 0 A U3 2 AV3 2 C2 4 4 C2 4 1 0 . 1 u _ 10 V _X 7 R _ 04 0 . 1 u _ 10 V _X 7 R _ 04 P C I E _ TX N 4 _ C P C I E _ TX P 4_ C BA3 2 BB3 2 B D3 2 BE3 2 C2 4 2 C2 4 5 0 . 1 u _ 10 V _X 7 R _ 04 0 .
Schematic Diagrams PCH 3/8 DMI, PWRGD A ub ur nd al e Gr ap hi cs Di sa bl e Gu id el in e I n ad di ti on , FD I_ RX N_[ 7: 0] a nd F DI _R XP _[ 7: 0] c an b e le ft f lo at in g on t he P CH .
Schematic Diagrams PCH 4/8 LVDS, DDI, GND IBEXPEAK - M (GND) U 1 4I IBEXPEAK - M (LVDS,DDI) AB4 6 V4 8 Sheet 15 of 55 PCH 4/8 LVDS, DDI GND AP3 9 AP4 1 A T4 3 A T4 2 AV5 3 AV5 1 BB4 7 BA5 2 AY4 8 AV4 7 BB4 8 BA5 0 AY4 9 AV4 8 AP4 8 AP4 7 AY5 3 A T4 9 A U5 2 A T5 3 AY5 1 A T4 8 A U5 0 A T5 1 AA5 2 AB5 3 A D5 3 V5 1 V5 3 Y5 3 Y5 1 R 46 0 1 K _ 1 % _0 4 DA C_ IR E F _ R A D4 8 AB5 1 S D V O _T V C L K I N N S DV O _ T V CL K IN P L _ B K L T C TL S DV O _ S T A L L N S D V O_ S T A L L P L _
Schematic Diagrams PCH 5/8 PCI, USB, NVRAM IBEXPEAK - M (PCI,USB,NVRAM) DMI Termination Voltage Bo ot B IO S L oc at io n 0 1 0 L PC R es er ve d P CI 1 1 S PI *1 K _ 04 P C I _G N T # 0 R 4 62 *1 K _ 04 P C I _G N T # 1 Understand the RED FONT define R 2 11 *1 K _ 04 P C I _G N T # 3 J50 G4 2 H4 7 G3 4 3 . 3V S 4 R N 11 3 8. 2 K _ 8 P 4 R _ 0 4 2 1 1 RN 9 2 8. 2 K _ 8 P 4 R _ 0 4 3 4 1 R N 13 2 8. 2 K _ 8 P 4 R _ 0 4 3 4 5 6 7 8 8 7 6 5 8 7 6 5 1 RN 8 2 8.
Schematic Diagrams PCH 6/8 GPIO, CPU R1 3 9 3 .3 V S B MB U S Y # 1 0 K_ 0 4 IBEXPEAK - M (GPIO,VSS_NCTF,RSVD) BIOS RECOVERY DISABLE----NO STUFF (DEFAULT) ENABLE-----STUFF R4 0 9 3 .3 V S 1 0 K_ 0 4 B I OS _R E C U1 4 F R4 1 2 3 1 S C I# D 37 J32 H O S T _A LE R T # 2 CRB/SV DETECT NO STUFF [DETECT] Sheet 17 of 55 PCH 6/8 GPIO, CPU 3 .
Schematic Diagrams PCH 7/8 PWR IBEXPEAK - M (POWER) L26 AK2 4 40mA *HCB100 5KF-121T20_ 04 BJ2 4 This pin can be left as no connect in On-Die VR enabled mode C227 *10u _6.3V_X5R_06 1. 1VS_VTT 3.06 2A C234 C508 C528 C529 C5 30 10u_6 .3V_X5R_06 1u_6.3V_Y5V_04 1u_ 6.3V_Y5V_04 1u_6. 3V_Y5V_04 1u_6.
Schematic Diagrams PCH 8/8 PWR V olt ag e Rai l Vo lta ge V _CP U_ IO 1 .1/ 1. 05 V 5RE F 5 V 5RE F_ Su s 5 V cc3 _3 3 .3 V ccA DA C 3 .3 V ccA DP LL A 1 .05 V ccA DP LL B 1 .05 V ccC or e 1 .05 V ccD MI 1 .05 V ccD MI 1 .1 V ccI O 1 .05 V ccL AN 1 .05 V ccM E 1 .05 V ccM E3 _3 3 .3 V ccp NA ND 1 .8 V ccR TC 3 .3 V ccS us 3_ 3 3 .3 V ccS us HD A 3 .3 V ccV RM 1 .8/ 1. 5 V ccA LV DS 3 .3 V ccT X_ LV DS 1 .8 IBEXPEAK - M (POWER) This pi n ca n be l ef t as no connec t in O n- Die VR e nabl ed mode 1 .
Schematic Diagrams CLK GEN, HDMI-In CLOCK GENERATOR C L K _ 3 . 3V _ 1 . 5 V RSVD. for ICS9LVS3158 R 1 04 R 92 1 .
Schematic Diagrams CRT, DVI DVI PORT 5 V S _ D V I _P W R D 13 5 VS R 34 1 K_ 0 4 L 11 F C M1 0 0 5K F -1 21 T 0 3 C9 8 R B 5 5 1 V -3 0 S 2 0. 1 u _ 1 6V _Y 5 V _ 04 J _D V I Close to DVI connector R3 2 C 77 5 V S _D V I _ P W R *4 7 K _ 0 4 C C7 2 R 54 4 . 3 K _ 1% _ 0 4 R 44 4 . 3 K _ 1% _ 0 4 D V I_ D# 2 _ R D V I_ D2 _ R D V I _D # 4 D V I_ D4 D V I _D # 1 D V I_ D1 C1 1 4 C1 0 4 C1 4 0 C1 3 7 0 . 1u _ 1 0 V _ X7 R _0 4 0 . 1u _ 1 0 V _ X7 R _0 4 0 . 1u _ 1 0 V _ X7 R _0 4 0 .
Schematic Diagrams Panel, Inverter, TPM TPM 1.2 18.4" PANEL U3 1 12 , 3 1 12 , 3 1 12 , 3 1 12 , 3 1 P L VDD 26 23 20 17 L PC_ AD0 L PC_ AD1 L PC_ AD2 L PC_ AD3 P CL K _ T P M 1 6 P CL K _ T P M C8 5 C9 2 0. 1u _ 16 V _ Y 5 V _ 0 4 *1 0 u _1 0 V _ Y 5 V _ 08 R 24 R 26 J_ L C D 1 0 LV D S _ U 1 N 1 0 LV D S _ U 1 P 1 0 LV D S _ U 2 N 1 0 LV D S _ U 2 P 1 0 L V DS _ UC L K N 1 0 LV D S _ U C LK P 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 3 .
Schematic Diagrams HDMI Repeater, Fan Control NOTE: H/W S/W HDMI IN REPEATER PCSCL H H PCSDA L H PC SC L R 538 4 .7 K _ 0 4 PC SD A R 539 * 4. 7 K _0 4 R 540 4 7 _ 04 3 . 3 V S _ C A T 6 35 1 FAN CONTROL 5 VS U 39 1 2 3 4 3 . 3 V S _ C A T 6 35 1 3 1 C P U _F A N FO N VIN V O UT VSE T G G G G 8 7 6 5 ND ND ND ND G 9 90 P 1 1 U C 5 46 C 5 45 0 . 1 u _ 16 V _ Y 5 V _ 0 4 * 10 u _ 1 0 V _ Y 5 V _ 0 8 3 . 3 V S _ C A T 6 35 1 400mA C5 9 9 C6 0 1 C6 0 2 C6 0 3 10 u _ 6 .
Schematic Diagrams HDMI Switch HDMI SWITCH 3. 3 V S _ H D M I 0 . 1 u_ 1 6 V _Y 5 V _ 04 H D MI _ S 1 H D MI _ S 2 H D MI _ E Q 10 H D M I _S 1 32 33 34 17 18 H DM I_ CL K H D MI _ C LK # H DM I_ 1 H D M I _# 1 23 24 H DM I_ 2 H D M I _# 2 26 27 29 30 31 H DM I_ S CL H DM I_ S DA H D MI _ H P D 49 3. 3V S _H D M I 1 PORT1 S1 S2 EQ Y 4 (P ) Z 4 (N ) C4 7 R 43 0 . 1u _ 1 6 V _Y 5 V _ 04 4 .
Schematic Diagrams ODD, CCD, BT, USB2.0 SATA ODD CCD R8 *2 8 mi l _N P _0 6 J_ OD D C 56 5 C 56 7 0 . 0 1u _ 1 6V _ X 7R _ 04 0 . 0 1u _ 1 6V _ X 7R _ 04 S A T A _ RX N1 _ C S A T A _ R X P 1 _C C 56 8 C 57 2 0 . 0 1u _ 1 6V _ X 7R _ 04 0 . 0 1u _ 1 6V _ X 7R _ 04 R2 6 1 Q4 MT P 34 0 3 N 3 S D C 32 S A TA _ R X N 1 1 2 S A TA _ R X P 1 1 2 C 12 5 V _ C C D _1 C 7 C6 1 0 0 K _0 4 0 . 1 u_ 1 6 V _Y 5V _0 4 10 u _1 0 V _ Y 5 V _0 8 R 4 5 VS 1 0 0 K _0 4 1 .
Schematic Diagrams Codec, Subwoofer, DMIC Vo =V ref *( R2 +R1 )/ R2 Vr ef =1. 21 5V L32 3 .3 VS R 40 0 _ 04 3 .3 V S 3 .3 V S _ DM IC 3 . 3V S _ A U D L 33 DIGITAL MIC R4 1 C8 2 *1 5 . 8 K _ 1% _ 0 4 0 . 1u _ 1 6V _ Y 5V _ 0 4 H C B 10 0 5 K F -1 21 T 2 0 40mil C 33 1 C 3 35 C3 3 7 C 30 4 C3 1 3 C3 1 0 * 0 . 1u _ 1 6V _ Y 5V _ 0 4 1 0 u_ 1 0 V _Y 5 V _0 8 0 . 1 u _1 6 V _ Y 5 V _ 04 0. 1 u _ 16 V _ Y 5 V _ 0 4 0 . 1 u_ 1 6 V _Y 5 V _0 4 *0 .
Schematic Diagrams Audio AMP FRONT R/L 2W 4ohm 5 VS R ev _3 .0 ? ? ? ? ? R E A R _L L5 1 H C B 10 0 5 K F -1 21 T 2 0 5V S _ A M P R E A R _R C 56 3 C 5 64 C5 6 6 0 . 1 u_ 1 6 V _ Y 5 V _0 4 1 u _ 10 V _ 0 6 10 u _ 10 V _ Y 5 V _ 0 8 U 42 AUD G 2 6 F R O N T _R AUD G R 4 76 R 4 78 7. 5 K _ 1 % _0 4 7. 5 K _ 1 % _0 4 C 5 62 C 5 71 0 . 47 u _1 6 V _ Y 5 V _ 06 0 . 47 u _1 6 V _ Y 5 V _ 06 5 9 R 4 74 R 4 80 7. 5 K _ 1 % _0 4 7. 5 K _ 1 % _0 4 C 5 61 C 5 69 0 .
Schematic Diagrams New Card, Mini Card NEW CARD 3 .3 V 3. 3 V 5 C3 5 8 B U F _ P L T _R S T # *0 . 1 u _1 6 V _ Y 5 V _ 04 U2 9 7 4A H C 1 G 08 G W 1 4 N C _ R S T# 3 . 3V S 3. 3V 3 . 3V _ N E W A UX IN 2 12 J _N E W 3. 3 V O U T 1. 5 V I N 1. 5 V O U T 3 . 3V S _ N E W 3 R 50 3 1 6 US B _ O C5 # 6 20 1 *1 0 K _0 4 *0 _ 0 4 S Y S R S T# S HD N# S TB Y # 19 P E RS T # C PPE# CP US B # OC # R C LK E N 1 0 K _ 04 4 5 13 14 8 18 C 3 72 C3 6 9 0 .
Schematic Diagrams LAN-RTL8111DL, RJ45 RTL8111DL L21 3 . 3V 100MHz/100 S W F 2 52 0 C F -4 R 7 M-M >60mils 40 m il C 1 76 C 18 0 C 1 97 C1 8 2 0 . 1 u _ 16 V _ Y 5V _0 4 0 . 1 u _1 6 V _ Y 5 V _ 0 4 0 . 1 u _ 16 V _ Y 5V _ 0 4 0. 1 u _ 1 6V _ Y 5 V _0 4 ? ? ? INDUCTOR (600mA) 1A E VDD 1 2 40 mi l R1 3 1 3 . 6 K _ 1% _ 0 4 C1 7 1 C1 8 9 22 u _ 6 . 3V _X 5 R _ 0 8 0 .
Schematic Diagrams Card Reader, IEEE1394 7 in 1 SOCKET JMB380 Layout Note: Close to JMB380 Zdi ff = 1 10 O C 2 66 2 2 0 p_ 5 0 V _N P O_ 0 4 R 2 18 4 . 9 9 K _ 1% _ 0 4 R 2 19 5 6 _ 04 1 39 4 _ XI J _C A R D -N O R S D_ CD # S DW P # S D/M S _ D1 S D/M S _ D0 1 7 S D_ C D# C2 9 1 2 0 p _5 0 V _ N P O _ 04 R 22 8 X5 F S X- 8L _ 24 . 5 7 6 MH z V C C_ CA R D 2 1 M_ 0 4 1 39 4 _ XO R 2 15 5 6 _ 04 C2 9 2 2 0 p _5 0 V _ N P O _ 04 Z 2 6 14 S D/M S _ D2 3 .
Schematic Diagrams KBC ITE IT8512-J MODEL_ID VD D3 K B C _ A V DD L 35 H C B 1 00 5 K F -1 2 1T 2 0 EVT/DVT 3.3V PVT V D D3 0V C 3 60 C3 5 9 C 35 3 C3 6 8 C3 5 7 C3 5 2 C3 5 1 1 0 u _1 0 V _ Y 5 V _ 08 0 . 1u _ 1 6V _ Y 5V _ 0 4 0 . 1 u_ 1 6 V _ Y 5 V _ 04 0. 1 u _ 16 V _ Y 5 V _ 0 4 0 . 1u _ 1 6V _Y 5V _0 4 0 . 1u _ 1 6V _ Y 5V _ 0 4 0. 1u _ 16 V _ Y 5V _ 0 4 3 .3 V S K B C _ A GN D C 36 6 R2 7 5 *1 0 K _ 04 R2 8 1 1 0K _0 4 0.
Schematic Diagrams MB to Small B’d Connector A AUDIO B'd GAME KEY B'd Click B'd J_ A U D I O 16 U S B _P P 0 16 U S B _P N 0 V CC US B_ 0 1 2 6 H P -R 2 7 H P _ P LU G 2 6 LI N E -I N _R 2 6 L I N E -I N _ L 10 , 2 6 S P D I F _ O U T S A T A _ RX N3 1 2 S AT A _ RX P3 1 2 S A T A _ TX N 3 1 2 S A T A _ TX P 3 1 2 3 .3 V S H P -L 2 6 MI C 1 -R 2 6 MI C 1 -L 26 L INE _ S E N S E 2 6 MI C _ S E N S E 2 6 H P _S E N S E 2 6 A UD G H= 1. 8 3 .
Schematic Diagrams MB to Small B’d Connector B FRONT LED B'd J _ FL ED Front LED control J _ T LE D 1 2 3 4 5 6 7 8 9 10 11 12 5 VS_ FT 6 5 4 3 2 1 8 52 0 4 -06 0 0 1 F LE D _ R F LE D _ G F LE D _ B TOUCH SENSOR B'd TOUCH PAD LED B'd J _ S ENS O R 5 V S _ TL E D 5 V S _ J S E NS O R C L E D _R C L E D _G C L E D _B F8 * 5 6m i _l 0 8 5 VS_ 1 30 mils 5 VS C 38 8 H =1 .8 * 0.
Schematic Diagrams Power System POWER SW Q4 2 I R F 7 8 3 2Z TR P B F 8 7 3 6 2 5 1 7 0? S Y S 15 V V DD 5 1 0. 5 A 16 A ma x . 5 VS 1 0 .5 A R4 8 2 4 S Y S 15 V C 5 76 C5 7 4 R4 8 3 0 .
Schematic Diagrams Power VCore P C1 7 4 * 1n _5 0 V_ 0 4 V IN P R 1 95 39 . 2 K _1 %_ 0 4 S G ND2 Rev _3.0 4. 7 u_ 2 5V _ X 5R _0 8 P C 13 9 P C1 3 0 *15 u _2 5V _ 6 . 3* 4. 4 _C 4. 7 u _2 5V _ X 5R _0 8 4 . 7u _ 25 V _X 5 R _ 08 P C1 3 3 0. 1 u _5 0V _ Y 5 V_ 0 6 4 . 7u _ 25 V _X 5 R _ 08 P C 1 31 D S S C S _P H 1 A V IN G HDR 2 22 0 pF _ 50 V _ 06 DEL PC187 P R 19 2 1 0 _0 6 P L 13 0. 3 6 U H _ 10 *1 0 *3. 5 LX 2 26A 3 H _ P R O C H OT # S G ND2 10 _0 4 0.
Schematic Diagrams Power 1.1V_VTT, Screw Hole 5V CO NT ROL 1 .1 VS _V TT 5V 3 . 3V P R 94 3 .3 V H_VT TVID1 V IN A H_VTTVID1 = LOW, 1.1V H_VTTVID1 = HIGH, 1.05V 1 0 K _0 4 PD 2 5 . 1 _ 06 P Q2 6 I R F 7 8 3 2Z T R P B F P Q 27 I R F 78 3 2 Z TR P B F P C 1 13 P C 11 2 P C 10 7 0 . 1 u_ 1 6 V _Y 5 V _0 4 Sheet 36 of 55 Power 1.1V_VTT, Screw Hole D 28 . 7 K _ 1% _ 0 6 0. 1u _ 50 V _ Y 5 V _ 06 0 . 1 u _5 0 V _ Y 5V _0 6 P C1 1 1 A P C 1 10 R3B P R8 3 P C 1 08 0 .
Schematic Diagrams Power 1.5V/0.75VS 5V 3 .3 V A V IN Vout = 1.5V ( 1 + Ra / Rb ) PR 2 6 P R2 8 1 . 5 M_ 0 4 1 0_ 0 6 P R 27 * 10 0 p _ 50 V _ N P O _ 04 Ra P R2 3 P C 43 2 K _ 1 % _0 4 1 u _1 0 V _ 06 Z3 801 3 Z3 802 2 S C 4 8 6_ P I N 6 Z3 804 6 8 Z3 805 9 V D D QS P R2 1 F M 0 54 0 -N PG D 1 0 0 K _ 04 7 D D R 1 .
Schematic Diagrams Power 1.8VS/1.5VS 5V A VIN PD1 10K_04 EN1.8VS 10K_1%_04 FM0540-N PC96 15 PGD PR2 PC3 0_04 20p_50V_NPO_04 Ra PC1 GND RTN DL PAD PL2 2.5UH_6.5*6. 9*3 1 2 1.8VS VS1.8 + PC95 1.8VS PJ2 3A 1 PC4 2 *OPEN-2mm PCB Footprint = JUMP- 2MM 560u_2.5V_6.6*6.6*5.9 0.1u_16V_Y5V_04 PQ22B AO4932 3 4 17 5 6 N.C N.C VCC 3 7 8 FB 1 2 *15u_25V_6.3*4.4_C PC10 PR6 Sheet 38 of 55 Power 1.8VS/1.5VS 1u_6. 3V_Y5V_04 14K_1%_04 PR4 Rb 0.
Schematic Diagrams Power 3.3V/5V V IN1 P R3 7 P C5 4 2 . 2 u _ 6 . 3V _Y 5 V _ 0 6 10_06 A Z 3 50 4 P C1 6 2 1 00 0 p _ 50 V _ X 7 R _ 0 4 P C 75 0. 0 1 u _ 5 0V _X 7 R _0 4 Z 35 1 3 LG A T E 1 P R 16 5 C A P D6 A 1 0 _0 6 4 2 2K _1 % _ 0 6 S G ND 4 C S Y S 1 0V F M 05 4 0 -N P D 1 0 F M0 5 4 0- N C 6- 13 - 42 23 1- 28 B PR 1 6 7 SY S5 V F M0 5 4 0- N P D 17 INT V C C2 Z 3 50 5 P C9 0 22 0 0 p _5 0 V _ X 7 R _ 0 4 Z 3 50 6 P C 76 0.
Schematic Diagrams Power Charger, DC-In VA J _ AC VA+ + 1 2 3 4 P R8 5 B AT 0 _ 20 VB J _ BATT PC 1 8 2 MJ -3 4 3 2-0 0 6 P C1 6 0 . 1 u _5 0 V _ Y 5 V _ 0 6 P C1 7 0 . 1 u _ 50 V _ Y 5V _0 6 P C 10 3 0. 1 u _ 5 0V _Y 5 V _ 06 PC 9 9 4 . 7 u_ 2 5 V _ X5 R _0 8 1 2 3 4 5 6 7 8 P R 1 02 4 .
Schematic Diagrams Single HDD Board SINGAL SATA HDD IR10 IR12 IU1 W/ Re-drive W/O Re-drive IR11 IR13 IRN1 IRN2 0.01U V X IR1 IR7 X 0 ohm IC12 IC14 IR6 D1 0 CH 0 & CH 1 -> 0 d B 1 0 CH 0 -> 5 d B CH 1 -> 0 d B 0 1 CH 0 -> 0 d B CH 1 -> 5 d B 1 1 CH 0 -> 5 d B CH 1 -> 5 d B V V V Function D0 0 IC13 X X IJ _MB I 5VS ISATA_R XN 0 ISATA_R XP0 1 3 5 7 9 I3 .3 VS D02-1 I3 .
Schematic Diagrams Dual HDD Board DUAL SATA HDD HU2 H J _M B 1 3 5 7 9 11 13 15 17 19 X W/O Re-drive HRN2 HRN4 HR2 HR14 HR16 HRN1 HRN3 HR1 HR11 HR12 0.01U HR21 HR25 X V HC28 HC30 V H5 V S P O S A -2 0 R -B -02 4 H_ G ND V 0.01U X V V D0 0 1 0 D1 0 0 1 0 ohm V X X X 0 ohm V X X 1 1 CH0 -> 5 dB CH1 -> 0 dB CH0 -> 0 dB CH1 -> 5 dB CH0 -> 5 dB CH1 -> 5 dB H 3. 3V S RX _ 1 N R X_ 1 P 0 . 01 U _ 16 V _ X 7 R _ 0 4 21 8 9 H 3 . 3V S HR 1 4 HR 1 6 4 .7 K _ 0 4 4 .
Schematic Diagrams Audio Board AUDIO BOARD USB + eSATA A 3 .3 V S L ay ou t n ot e: 6 10 16 20 Closed TO AU1 AC 7 0 . 0 1 u_ 1 6 V _X 7 R _ 0 4 AZ 2 5 A e S A T A _ TX N _ C AC 5 0 . 0 1 u_ 1 6 V _X 7 R _ 0 4 AZ 2 7 2 R X _1 N RX _ 1 P A e S A T A _ RX N_ C A e SA T A _ RX P_ C AC 6 AC 8 0 . 0 1 u_ 1 6 V _X 7 R _ 0 4 AZ 2 9 0 . 0 1 u_ 1 6 V _X 7 R _ 0 4 AZ 3 1 2 A R9 A R1 0 4. 7K _ 0 4 4. 7K _ 0 4 A R1 4 A R1 5 *4 . 7 K _0 4 *4 .
Schematic Diagrams Power Button Board POWER BUTTON B'D Sheet 44 of 55 Power Button Board B R2 B 3. 3VS 22 0_0 4 BM_BTN # 1 3 2 4 BM_ BTN # 5 6 88266- 03 00 1 BGN D BS W 1 TJ G -53 3-S -T/ R B Z01 1 2 3 A B C1 0.1u_1 6V _Y 5V _04 BD 1 R Y -S P150DN B 84 BGN D C B J _MB BG N D BH _L1 2 3 4 5 1 TY PE -L B G ND Power Button Board B - 45 B.Schematic Diagrams B3.
Schematic Diagrams Click & FP Board CLICK BOARD CC 1 0 .
Schematic Diagrams Game Key Board GAME KEY BOARD GSW 2 TJ G- 53 3- S-T/R GG AME# 1 0. 1u _1 6V_ Y5 V_0 4 G R2 GR 5 GR 4 2 20 _0 4 2 20 _0 4 22 0_ 04 22 0_ 04 G _G ND A A A A H T- 15 0N B-D T H T- 15 0N B-D T HT-1 50 NB- DT HT-1 50 NB- DT 0. 1u _1 6V_ Y5 V_0 4 G _G ND GSW 4 TJ G- 53 3- S-T/R GG AME# 3 G _G ND 1 3 G _G ND G 3.
Schematic Diagrams Front R Side LED Board Sheet 47 of 55 Front R Side LED Board X5VS XJ _MB1 1 2 3 4 5 6 85204-06001 XR XG XB X5VS XD1 LTW - 008R GB- L 2 40mil XGND 4 6 G R B 1 XZ 02 XR2 68. 1_1%_06 XZ05 3 XZ 03 XR1 221_1%_06 XZ06 5 XZ 04 XR6 100_1%_06 XZ07 20mil 20 mil 20 mil XD2 LTW - 008R GB- L 68.
Schematic Diagrams Front L Side LED Board FRONT L SIDE LED B'd Sheet 48 of 55 Front L Side LED Board Y5 VS 1 2 3 4 5 6 YR YG YB YD 1 LTW-0 08 RG B-L 40mil 8 52 04 -06 00 1 2 G 1 Y Z02 YR 1 6 8. 1_1 %_0 6 Y Z08 20mil 4 R 3 Y Z03 YR 2 2 21 _1%_ 06 Y Z09 20mil B 5 Y Z04 YR 3 1 00 _1%_ 06 Y Z10 20mil Y GN D 6 YD 2 LTW-0 08 RG B-L Y Z05 YR 4 6 8.
Schematic Diagrams CIR Board B.Schematic Diagrams CIR BOARD Sheet 49 of 55 CIR Board KH _O1 KH _O2 KH _O3 KV DD 5 K J_MB 1 2 3 KC IR _R X KGN D KVD D 5 KGN D 88 266-030 01 KGN D KR 1 KU 1 IR M- V0 38/ TR 1-P KVD D 5_C I R 100 _04 V KC 1 0.1u_1 6V_ Y 5V_04 KC 2 *4.
Schematic Diagrams Finger Board FU 1 E XT_R I N G 2 CRID O RIN G M U XOU T AV D D P AD _VD D 1B MI S O DV D D GP IO 1 A GN D D A TA 0 D A TA 1 GP IO 0 M C LK U SB _D N U S B _D P MOS I P D _R E G N R ES E T D GN D D A TA 2 E XT_R I N G 1 PV D D XTA LI N P GN D XTA LOU T FE S D _R IN G B1 FG R I D 0/ S E N S E C1 D1 F GN D FM U XOU T E1 F1 F AV D D FM C S G1 H1 F TC _V D D FM I SO /M OD E 3 J1 A2 F DV DD1 FG PI O 1 B2 F J1 F GN D F GN D C2 FD AT A0 D2 FD AT A1 E2 FG PI O 0/ IN T F2 FM
Schematic Diagrams V1.0 Power on SEQ Diagram X8100 EVT POWER ON SEQUEN CE V1.0 M_BTN# DD_ON 5V 3.3V 1.744 ms 1.1 28ms rise=1.14 8ms 73 .6ms(t 02) 0 ~2 00 ms ,P AS S SUS_PWR_ACK B.Schematic Diagrams ; PC9 3=1500p rise=1.020ms 73.6ms(t0 3) > 10 ms ,P AS S RSMRST# 0ms( t05 ) 0~ 20 0m s, PA SS AC_PRESENT_R 7 2ms 212ms 140ms PWR_BTN# 98 ms Sheet 51 of 55 V1.0 Power on SEQ Diagram SUSC# 1.5V 1. 76 ms r is e= 24 8u s 3. 15 ms DDR1.5V_PWRGD 50 us (t 09 ) SUSB# 5VS 3.
Schematic Diagrams V1.0 Power_SEQ S3 X8100 V1.0 POWER SEQUENCE S3 AND WAKE-UP SUSB# MEPWROK 32us(Te) >0ms,PASS 118ms 3.3VS 1.520ms 1.1VS 4.144ms(Tj) >5us,PASS SYS_PWROK 2.016ms Sheet 52 of 55 V1.0 Power_SEQ S3 3.984ms(Ti) >40ns,PASS 114.8ms VCORE_ON 4.4ms(Th) <100ns,FAIL 6ms VCORE 590us(t17) <3ms,PASS 110ms(t16) >99ms,PASS ALL_SYS_PWRGD 116ms(t21) >5ms,PASS VCCPWRGOOD SUS_STATE# 400us 1.64ms(t28) >1ms,PASS PLTRST# 60us(Tn) >30us,PASS 400us(Tm) 0.
Schematic Diagrams V1.0 Power_SEQ S4 X8100 V1.0 POWER SEQUENCE S4 AND WAKE-UP B.Schematic Diagrams SUSB # 3.3V S 310us(Tc)>40ns,PASS 1.1V S 30us(Td)>40ns,PASS 1.49ms 4.02ms(Tj) >5us,PASS Sheet 53 of 55 V1.0 Power_SEQ S4 MEPWR OK 2.588ms 30us(Te) >0ms,PASS 379ms V core_ ON Vcore 760us 6.4ms S YS_PW ROK 30us(Ti) >40ns,PASS 880us(Th) <100ns,FAIL SUSC# D RAMPW ROK limit to 0 ms(Tk)>-100ns,PASS VC CPWRG OOD S US_ST ATE# 384us(Tm) >210us,PASS PLTRS T# 1.596ms 48us(Tn) >30us,PASS 1.
Schematic Diagrams Power Block Diagram 5V S V DD 5 3 .3 V DD _O N# SYST EM VR 5V V DD 3 DD _O N VD D 3 VD D 5 V IN S YS TE M V R VDD 3 2 1. 8V S VI N S LP _S 4 S WITC H ES D D_ ON BA TT ER Y PA C K 1 1. 5V S V IN 1. 1V S _V TT V IN VT T_ ME M 1 .5 V 1. 5V S _C P U S US C# DD _ ON SU SB PW R_SW # Sta rtup C ircuit S US B# PW R _BTN # ITE 85 12 R SMR ST# B utton 3 IB EX PE AK 17 A L L_ S Y S_ PW R G D 11 1 .
Schematic Diagrams V2.0 Power_SEQ S3 X8100 V1.0 POWER SEQUENCE S3 AND WAKE-UP B.Schematic Diagrams SUSB# MEPWROK 62 us( Te) > 0ms ,PA SS 219 ms 3.3VS Sheet 55 of 55 V2.0 Power_SEQ S3 3 6us (Tc ) >40 ns, PAS S 1 .41 0ms 1.1VS 2.5 58m s(T j) >5us ,PA SS SYS_PWROK 3. 092 ms 2. 758m s(T i) >4 0ns ,PA SS 216 .4m s VCORE_ON 7.0 96m s(T h) <10 0ns ,FA IL 7 ms VCORE 976 us( t17 ) <3m s,P ASS 216 ms( t21 ) >5m s,P ASS 20 9ms (t1 6) >9 9ms ,PA SS ALL_SYS_PWRGD VCCPWRGOOD SUS_STATE# 424 us 1 .
