Download EUROCOM Notebook V12.2.00 Service manual
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Model 5100S/5500S Service Manual Mainboard D/D board Inverter board Hard transfer board Specifications are subject to change without notice. October, 2000 Contents System specifications ........................................................................................... 1 Chipsets ................................................................................................................ 3 SiS630S ................................................................................................................. 3 PC Card Chipset ..................................................................................................... 8 CPU and Memory .................................................................................................. 9 CPU ........................................................................................................................ 9 Adding or replacing the processor. ........................................................................ 10 A: Remove the heat sink ................................................................................................ 10 B: Remove the processor .............................................................................................. 11 C: Insert a new processor .............................................................................................. 12 D: Reinstall the heat sink ................................................................................................ 13 E: Changing the SW1 DIP Switch settings .................................................................... 13 Memory ................................................................................................................. 15 Expansion Memory Socket .................................................................................... 16 Installing a Memory Module ............................................................................................ 17 Changing the S3 DIP Switch settings ............................................................................ 18 Removing a Memory Module .......................................................................................... 19 Drive information and Pin assignments ............................................................. 20 Storage Devices.................................................................................................... 20 HDD (BUILT-IN) ................................................................................................................. 20 HDD PIN ASSIGNMENT ................................................................................................. 20 Removing the HDD from the notebook .......................................................................... 21 Removing the HDD from its tray .................................................................................... 21 Inserting the HDD ........................................................................................................... 21 FDD .................................................................................................................................. 22 FDD PIN ASSIGNMENT ................................................................................................. 22 Removing the Floppy Disk Drive .................................................................................... 22 Inserting the Floppy Disk Drive ....................................................................................... 23 DVD-ROM ......................................................................................................................... 24 DVD-ROM PIN ASSIGNMENT ....................................................................................... 24 Removing the DVD-ROM Module ................................................................................... 25 Inserting the DVD-ROM module ..................................................................................... 25 CD-ROM (OPTIONAL) ...................................................................................................... 26 CD-ROM PIN ASSIGNMENT .......................................................................................... 26 Interface Pin Assignments ..................................................................................... 27 RS-232 Serial Interface .................................................................................................. 27 Parallel Interface ............................................................................................................. 27 USB Interface ................................................................................................................. 27 Internal trackpad Interface .............................................................................................. 28 External Monitor Interface ............................................................................................... 28 External Keyboard/PS2 Mouse Interface ........................................................................ 28 PCMCIA CardBus Interface ............................................................................................ 29 Internal PCI Interface ...................................................................................................... 30 LCD Interface ................................................................................................................. 31 Power .................................................................................................................. 32 Application: ........................................................................................................... 32 Charge board ........................................................................................................ 35 Inverter board ........................................................................................................ 38 Adaptor ................................................................................................................. 39 Battery Pack .......................................................................................................... 41 Battery diagram ..................................................................................................... 44 Component diagrams and part numbers ........................................................... 45 Schematic Drawings ........................................................................................... 51 System specifications The 5100S/5500S uses the SiS630S core logic and InSyde BIOS code. This product also features three bays for user-installed modules (a HDD, a CD-ROM or DVD-ROM or a FDD), and has an optional Fax/Modem MDC module. The main unit of the Model 5100S/5500S Notebook PC has the following components: – Intel Mobile Pentium III with AGP technology-based mainboard, using the SiS630S chipset solution supporting SDRAM with 0 MB on-board DRAM, expandable to 32MB, 64MB, 96MB, 128MB, 192MB, 256MB, or 512MB using one or two expansion S.O. DIMMs – user-installed modules: CD-ROM, DVD-ROM and an FDD – main storage (HDD) bay: principal HDD, 2.5” up to 12GB(Ultra DMA33/66) – User interfaces: · · one internal keyboard, 84 keys (depending on the language) one built-in trackpad · one 800x600 SVGA TFT 12.1” LCD display panel with CCFT backlight – Power Solutions · · power bay: battery pack AC/DC adapter CPU ( µPGA2) Intel Celeron-450 (1.6V) Intel Celeron-500 Intel Celeron-550 (1.6V) (1.6V) Intel Celeron-700 Intel Pentium III-600 * (1.6V) (1.6V) Intel Pentium III-650 * Intel Pentium III-700 * (1.6V) (1.6V) Intel Pentium III-750 * Intel Pentium III-850 * (1.6V) (1.6V) FDD removable 3.5" 1.44MB Memory L2 Cache (on die) Celeron(.18) series 128KB Pentium III series 256KB On board RAM Upgradable to 0MB 512MB (MAX.) * with Intel SpeedStep Technology BIOS CD-ROM able module CD type Height Data transfer rate InSyde (MKE CR175) 24X remov12.8cm 256KB HDD Removable module Drive size 12.7mm 3600KB/s (max) up to 12GB 2.5" Random access time <100ms Compliance Multimedia PC-2 Spec. Height maximum Average access time Transport Interface Interface: PCI local bus master IDE with Ultra DMA33/66 I/F drawer type load/eject PCI local bus master IDE 1 12.7mm <13ms Keyboard Power Saving Management Keys Fn key support 84 YES Doze mode Sleep mode YES YES Integrated numeric keypad Inverted "T" layout cursor keys YES YES Suspend/Resume mode Suspend to HDD mode YES YES Hot key control suspend APM ver 1.2 support YES YES ACPI Ver 1.0 support YES TouchPad built-in Interface x1 PS/2 Power Supply AC adapter AC-in Capacity LCD TFT/DSTN 100-240V 47-63Hz 65W Battery pack Li-Ion Physical Dimension Weight 316mm(W) 256mm(D) Backlite Size CCFT 12.1" Resolution Color (CRT) 800x600 16,77M Monitor Support 1280x1024 non-interlaced 38.5mm(H) 3KG (with Lithium-lon battery) Display LCD/CRT (simultaneous) VGA/EGA/CGA/Hercules compatible YES Packaging (standard) AC/DC adaptor & power cord YES x1 AGP 3D graphics accelerator Adjustable brightness (TFT) YES YES Ports Serial port x1 IrDA/SIR/ASK/FIR Parallel port x1 x1 User™s manual (printed format) x 1 (Optional) Car adapter Smart Li-Ion battery pack x1 x1 S.O. DIMM 32MB/64MB/128MB/256MB Fax/modem module(56K, MDC) x1 DVD-ROM (X8) CD-RW Audio 3D, Sound Blaster compatible YES Built-in speakers Built-in microphone 2 1 External Audio Jacks Speaker-out Jack YES Microphone-in Jack 15 pin external video port x1 External 101/102 keyboard port/ PS/2 mouse x1 x1 YES 2 PC Card Standard Type I x1 x1 Modem (RJ-11) port for MDC USB connector x1 x1 speaker-out jack microphone-in jack x1 x1 LAN (RJ-45) port x1 Chipsets SiS630S – provides a high performance/low cost Desktop solution for the Intel mobile CPU – based system integrates a high performance North Bridge – has an advanced hardware 2D/3D GUI engine, Super-South bridge or an external AGP4X Slot The SiS630S is a system-on-chip solution that complies with – – Easy PC Initiative which supports Instantly Available/OnNow PC technology USB – – Legacy Removal Slotless Design and FlexATX form factor The SiS630S: – – integrates UltraAGPTM technology and advanced 128-bit graphic display interface. delivers AGP 4x performance and memory bandwidth up to 1 GB/s. – – supports an extra AGP Slot that supports 4X and Fast Write transactions. provides powerful hardware decoding DVD accelerator to improve the DVD – playback performance. Provides the standard interface for CRT monitors – provides the Digital Flat Panel Port (DFP) for a standard interface between a personal computer and a digital flat panel monitor. – adopts Share System Memory Architecture which can flexibly utilize the frame buffer size up to 64MB. Key Features: “Super-South Bridge” in SiS630S - integrates all peripheral controllers/accelerators /interfaces. provides a total communication solution including 10/100Mb Fast Ethernet for Office requirement and 1Mb HomePNA for Home Networking. - offers AC’97 compliant interface that comprises digital audio engine with 3Dhardware accelerator, on-chip sample rate converter, and professional wavetable along with separate modem DMA controller. - provides interface to Low Pin Count (LPC) operating at 33 MHz clock which is the same as PCI clock on the host, and dual USB host controllers with six USB ports that deliver better connectivity and 2 x 12Mb bandwidth. - The built-in fast PCI IDE controller supports the ATA PIO/DMA, and the Ultra DMA33/66 function that supports the data transfer rate up to 100 MB/s. It provides the separate data path for two IDE channels that can eminently improve the performance under the multi-tasking environment. 3 Host Interface Controller - Supports Intel mobile Pentium II/!!! CPUs Synchronous Host/DRAM Clock Scheme - Asynchronous Host/DRAM Clock Scheme Integrated DRAM Controller - 3-DIMM/6-Bank of 3.3V SDRAM Supports Memory Bus up to 133 MHz - System Memory Size up to 3 GB Up to 512MB per Row - Supports 16Mb, 64Mb, 128Mb, 256Mb, 512Mb SDRAM Technology Suspend-to-RAM (STR) - Relocatable System Management Memory Region Programmable Buffer Strength for CS#, DQM[7:0], WE#, RAS#, CAS#, CKE, - MA[14:0] and MD[63:0] Shadow RAM Size from 640KB to 1MB in 16KB increments - Two Programmable PCI Hole Areas Integrated A.G.P. Compliant Target/66Mhz Host-to-PCI Bridge - AGP v2.0 Compliant Supports Graphic Window Size from 4MBytes to 256MBytes - Supports Pipelined Process in CPU-to-Integrated 3D A.G.P. VGA Access Supports 8 Way, 16 Entries Page Table Cache for GART to Enhance Integrated - A.G.P. VGA Controller Read/Write Performance - Supports PCI-to-PCI Bridge Function for Memory Write from 33Mhz PCI Bus to Integrated A.G.P. VGA - Supports Additional AGP slot with 4X and Fast Write Transaction Meet PC99 Requirements PCI 2.2 Specification Compliant High Performance PCI Arbiter - Supports up to 4 PCI Masters Rotating Priority Arbitration Scheme - Advanced Arbitration Scheme Minimizing Arbitration Overhead. Guaranteed Minimum Access Time for CPU And PCI Masters Integrated Host-To-PCI Bridge - Zero Wait State Burst Cycles - CPU-to-PCI Pipeline Access 256B to 4KB PCI Burst Length for PCI Masters - PCI Master Initiated Graphical Texture Write Cycles Re-mapping Reassembles PCI Burst Data Size into Optimized Block Size 4 Fast PCI IDE Master/Slave Controller - Supports PCI Bus Mastering Native Mode and Compatibility Mode - PIO Mode 0, 1, 2 , 3, 4 Multiword DMA Mode 0, 1, 2 - Ultra DMA 33/66/100 Two Independent IDE Channels Each with 16 DW FIFO Virtual PCI-to-PCI Bridge Integrated Ultra AGP VGA for Hardware 2D/3D Video/Graphics Accelerators - Supports Tightly Coupled 64 Bits Host Interface to VGA to Speed Up GUI Performance and Video Playback Frame Rate - AGP v. 2.0 Compliant Zero-Wait-State 128x4 Post-Write Buffer with Write Combine Capability - Zero-Wait-State 128x4 2-Way Read Ahead Cache Capability Re-locatable Memory-Mapped and I/O Address Decoding - Flexible Design Shared Frame Buffer Architecture for Display Memory Shared System Memory Area up to 64MB - Built-in 8K Bytes Texture Cache Supports High Quality Dithering - Supports Bump Mapping Supports 8/16/24/32 BPP RGB/ARGB Texture Format - Supports Video YUV Texture in All Supported Texture Formats 128-Bit 2D Engine with a Full Instruction Set - Maximum 64 MB Frame Buffer with Linear Addressing Supports Hardware DVD Accelerator - Supports Single Frame Buffer Architecture Supports Two Independent Video Windows with Overlay Function and Scaling - Factors Supports YUV-To-RGB Color Space Conversion - Supports Graphic and Video Overlay Function Supports CD/DVD to TV Playback Mode - Simultaneous Graphic and TV Video Playback Overlay Supports RGB555, RGB565, YUV422 and YUV420 Video Playback Format - Supports Filtered Horizontal Up and Down Scaling Playback Supports DVD Sub-Picture Playback Overlay - Supports DVD Playback Auto-Flipping Built-in Two Video Playback Line Buffers - Built-in Programmable 24-bit True-Color RAMDAC up to 270 MHz Pixel Clock RAMDAC Snoop Function - Built-in Dual-Clock Generator Supports Multiple Adapters and Multiple Monitors - Built-in PCI Multimedia Interface Supports Digital Flat Panel Port for Digital Monitor (LCD Panel) 5 - Built-in VESA Plug and Display for CH7003, PanelLinkTM and LVDS Digital - Interface Built-in Secondary CRT Controller for Independent Secondary CRT, LCD or TV - digital output Supports VESA Standard Super High Resolution Graphic Modes 640x480 800x600 16/256/32K/64K/16M colors 120 Hz NI 16/256/32K/64K/16M colors 120 Hz NI 1024x768 1280x1024 256/32K/64K/16M colors 120 Hz NI 256/32K/64K/16M colors 85 Hz NI 1600x1200 1920x1440 256/32K/64K/16M colors 85 Hz NI 8bbp/16bbp 60NI - Low Resolution Modes Supports Virtual Screen up to 4096x4096 - Fully Directx 7.0 Compliant Efficient and Flexible Power Management with ACPI Compliance Low Pin Count Interface - Forwards PCI I/O and Memory Cycles into LPC Bus - Translates 8-/16-bit DMA Cycles into PCI Bus Cycles Advanced PCI H/W Audio & Modem Advanced Power Management - Meets ACPI 1.0b Requirements - Meets APM 1.2 Requirements ACPI Sleep States Include S1, S4, S5 - CPU Power States Include C0, C1, C2 C3 Power Button with Override - RTC Day-of-Month, Month-of-Year Alarm 24-bit Power Management Timer - LED Blinking in S1 State System Power-Up Events Include: Power Button, Hot-Key, Keyboard Password/ - HotKey, RTC Alarm, Modem Ring-In, LAN, PME#, AC’97 Wake-Up and USB - Wake-Up Software Watchdog Timer - Power Supply’98 Support PCI Bus Power Management Interface Spec. 1.0 Integrated DMA Controller - Two 8237A Compatible DMA Controllers - 8/16- bit DMA Data Transfer Distributed DMA Support Integrated Interrupt Controller - Two 8237A Compatible DMA Controllers - Two 8259A Compatible Interrupt Controllers Level- or Edge-Triggered Programmable 6 - Serial IRQ - Interrupt Sources Re-routable to Any IRQ Channel Three 8254 Compatible Programmable 16-bit Counters - System Timer Interrupt Generate Refresh Request - Speaker Tone Output Integrated Keyboard Controller - Hardwired Logic Provides Instant Response Supports PS/2 Mouse Interface - Password Security and Password Power-Up System Sleep and Power-Up by Hot-Key - KBC and PS2 Mouse Can Be Individually Disabled Integrated Real Time Clock (RTC) with 256B CMOS SRAM - Supports ACPI Day-of-Month and Month-of-Year Alarm 256 Bytes of CMOS SRAM - Provides RTC H/W Year 2000 Solution Universal Serial Bus Host Controller - OpenHCI Host Controller with Root Hub Two USB Host Controllers - Six USB Ports Supports Legacy Devices - Over Current Detection 2 I C Bus/SMBUS Series Interface Integrated Fast Ethernet Controller and MAC Interface - Plug and Play Compatible - High-Performance 32-Bit PCI Bus Master Architecture with Integrated Direct Memory - Supports Big Endian and Little Endian Byte Alignments Implements Optional PCI 3.3v Auxiliary Power Source 3.3Vaux Pin And Optional - PCI Supports Software, Enhanced Software, and Automatic Polling Schemes to Internal - PHY Status Monitor and Interrupt Supports 10base-T, 100base-Tx NAND Tree for Ball Connectivity Testing 672-Balls BGA Package 1.8V Core with Mixed 3.3V and 5V I/O CMOS Technology 7 PC Card Chipset The PCI1410 supports the following features: - Ability to wake from D3 hot and D3 cold Fully compatible with the IntelE 430TX (Mobile Triton II) chipset A 144-Pin Low-Profile QFP (PGE), 144-ball MicroStar Ball Grid Array (GGU) package, or 209-ball MicroStar Ball Grid Array (GHK) package - 3.3-V core logic with universal PCI interfaces compatible with 3.3-V and 5-V PCI signaling environments - Mix-and-match 5-V/3.3-V 16-bit PC Cards and 3.3-V CardBus Cards Single PC Card or CardBus slot with hot insertion and removal Burst transfers to maximize data throughput on the PCI bus and the CardBus bus Parallel PCI interrupts, parallel ISA IRQ and parallel PCI interrupts, serial ISA IRQ with parallel PCI interrupts, and serial ISA IRQ and PCI interrupts - Serial EEPROM interface for loading subsystem ID and subsystem vendor ID - Pipelined architecture allows greater than 130M bps sustained throughput from CardBus-to-PCI and from PCI-to-CardBus - Interface to parallel single-slot PC Card power interface switches like the TI TPS2211 - Up to five general-purpose I/Os Programmable output select for CLKRUN Five PCI memory windows and two I/O windows available to the 16-bit PC Card socket - Two I/O windows and two memory windows available to the CardBus socket Exchangeable Card Architecture (ExCA) compatible registers are mapped in memory and I/O space - Intel 82365SL-DF and 82365SL register compatible Distributed DMA (DDMA) and PC/PCI DMA 16-Bit DMA on the PC Card socket Ring indicate, SUSPEND, PCI CLKRUN, and CardBus CCLKRUN Socket activity LED pins PCI Bus Lock (LOCK) Advanced Submicron, Low-Power CMOS Technology Internal Ring Oscillator 8 CPU and Memory CPU The 5100S/5500S Notebook PC uses the Intel Mobile Pentium III/Celeron (.18) processor in a µPGA2 package. The Intel Mobile Pentium III/Celeron (.18) processor features an integrated L2 cache(256KB for Pentium III and 128KB for Celeron (.18)) and a 64-bit high performance system bus. The Mobile Pentium III/Celeron (.18) processor’s 64-bit wide Low Power Gunning Transceiver Logic system bus is compatible with the SIS630S AGPSet and provides a glue-less, point-to-point interface for an I/O bridge/memory controller. The Intel Mobile Pentium III and Celerons (.18) processors are fully compatible with all software written for the Pentium processor with MMX technology, Pentium processor, Intel486 microprocessor, and Intel386 microprocessor. In addition, they provide improved multimedia & communications performance. They feature: Performance improved over existing mobile processors - Supports the Intel Architecture with Dynamic Execution - Supports the Intel Architecture MMX technology Integrated primary (L1) instructions and data caches - 4-way set associative, 32-byte line size, 1 line per sector - 16-Kbyte instruction cache and 16-Kbyte writeback data cache - Cacheable range programmable by processor programmable registers Integrated second level (L2) cache - 4-way set associative, 32-byte line size, 1 line per sector - Operated at full core speed - 128/256-Kbyte, ECC protected cache data array Low Power GTL+ system bus interface - 64-bit data bus, 100-MHz operation - Uniprocessor, two loads only (processor and I/O bridge/memory controller) - Short trace length and low capacitance allows for single ended termination Voltage reduction technology Pentium III processor clock control - Quick Start for low power, low exit latency clock ‘throttling’ - Deep Sleep mode for extremely low power dissipation Thermal diode for measuring processor temperature 9 Adding or replacing the processor. Note: If you plan on removing the heat sink, which is necessary to add or replace the processor, you will need to have a replacement heat sink pad available. Before proceeding, please contact your dealer to get a replacement pad which you will need when you reinstall the heat sink. In order to add or replace the processor you must: A: Remove the heat sink B: Remove the processor C: Insert a new processor D: Reinstall the heat sink E: Changing the SW DIP Switch settings A: Remove the heat sink 1) Turn off the computer 2) Turn over the computer 3) Remove the Heat Sink and CPU Cover heat sink screws Heat sink O L heat sink cable 4) Remove the 4 screws which hold the heat sink in place. 5) Gently remove the heat sink cable. 6) Lift the heat sink out of the computer Figure 4-3 10 B: Remove the processor The processor is secured on the mainboard with a lock which is easily opened using a small regular screwdriver. With the heat sink already removed you will need to set the lock to the open position before removing the processor: processor mounted on the socket O L Processor socket Lock OPEN 1) Turn the screw on the processor lock to the open position. (O) O L 11 O 2) Lift the processor from the socket. L C: Insert a new processor 1) With the processor lock in the open position, align the pins of the processor with the holes in the socket. O 2) Press the processor into the socket. L LOCK 3) Turn the screw to the locked position (L) O L 12 D: Reinstall the heat sink Note: When reinstalling the heat sink, you will also have to replace the heat sink pad. A heat sink pad can be obtained from your dealer. 1) Peel off the old heat sink pad and stick on a new one. 2) Insert the heat sink cable in the slot. (Figure 4-3) 3) Align the 4 screw holes on the heat sink with those on the mainboard and screw them in about half way. Once all the screws are in about half way and the heat sink is seated probably tighten the screws. Heat sink pad E: Changing the SW1 DIP Switch settings If you have installed the processor with Intel Speedstep you will have to change the SW1 DIP Switch settings. Follow these steps to get to change the SW1 DIP Switch setings: 1) Turn off the computer. 2) Press the two keyboard latches to elevate the keyboard from its normal position. 3) Carefully lift the keyboard assembly out to expose the mainboard. 13 4) Remove the metal protective shield 5) Locate the SW DIP Switch on the right side. 6) Change the settings to the following: SW settings for Intel Speedstep processor SW1-1 SW1-2 SW1-3 SW1-4 ON ON ON OFF 7) Put the metal shield back into place 8) Put the keyboard back into place. SW1 DIP Switch Metal shield ON position OFF position 14 Memory The computer has two memory sockets for PC-100/PC-133 compliant, 144 pin SODIMM (Small Outline Dual In-line Memory Module) modules. The memory can be expanded to 512 MB with the following combinations: Bank 0 (64-bit) Bank 1 (64-bit) 32 MB 32 MB 64 MB 64 MB 64 MB 128 MB 128 MB 128 MB 128 MB 256 MB 256 MB 256 MB 256 MB 256 MB Empty 32 MB Empty 32 MB 64 MB Empty 32 MB 64 MB 128 MB Empty 32 MB 64 MB 128 MB 256 MB Power 3.3V Total Size 32 MB 64 MB 64 MB 96 MB 128 MB 128 MB 160 MB 192 MB 256 MB 256 MB 288 MB 320 MB 384 MB 512 MB Once a new module is installed the memory size is automatically detected by the POST routines when you turn on your computer. 15 Expansion Memory Socket The Model 5100S/5500S Notebook PC has two 144-pin SODIMM type memory sockets with the following configuration: Pin SDRAM Pin SDRAM Pin SDRAM Pin SDRAM 1 Vss 2 Vss 73 Reserved 74 CLK1 3 DQ0 4 DQ32 75 Vss 76 Vss 5 DQ1 6 DQ33 77 Reserved 78 Reserved 7 DQ2 8 DQ34 79 Reserved 80 Reserved 9 DQ3 10 DQ35 81 Vdd 82 Vdd 11 Vdd 12 Vdd 83 DQ16 84 DQ48 13 DQ4 14 DQ36 85 DQ17 86 DQ49 15 DQ5 16 DQ37 87 DQ18 88 DQ50 17 DQ6 18 DQ38 89 DQ19 90 DQ51 19 DQ7 20 DQ39 91 Vss 92 Vss 21 Vss 22 Vss 93 DQ20 94 DQ52 23 DQMB0 24 DQMB4 95 DQ21 96 DQ53 25 DQMB1 26 DQMB5 97 DQ22 98 DQ54 27 Vdd 28 Vdd 99 DQ23 100 DQ55 29 A0 30 A3 101 Vdd 102 Vdd 31 A1 32 A4 103 A6 104 A7 33 A2 34 A5 105 A8 106 BA0 35 Vss 36 Vss 107 Vss 108 Vss 37 DQ8 38 DQ40 109 A9 110 BA1 39 DQ9 40 DQ41 111 A10 112 A11 41 DQ10 42 DQ42 113 Vdd 114 Vdd 43 DQ11 44 DQ43 115 DQMB2 116 CAS6# 45 Vdd 46 Vdd 117 DQMB3 118 DQMB7 47 DQ12 48 DQ44 119 Vss 120 Vss 49 DQ13 50 DQ45 121 DQ24 122 DQ56 51 DQ14 52 DQ46 123 DQ25 124 DQ57 53 DQ15 54 DQ47 125 DQ26 126 DQ58 55 Vss 56 Vss 127 DQ27 128 DQ59 57 Reserved 58 Reserved 129 Vdd 130 Vdd 59 Reserved 60 Reserved 131 DQ28 132 DQ60 61 CLK0 62 CKE0 133 DQ29 134 DQ61 63 Vdd 64 Vdd 135 DQ30 136 DQ62 65 RAS# 66 CAS# 137 DQ31 138 DQ63 67 WE# 68 CKE1# 139 Vss 140 Vss 69 S0# 70 A12 141 SDA 142 SCL 71 S1# 72 A13 143 Vdd 144 Vdd 16 Installing a Memory Module 1) Turn off the computer. 2) Press the two keyboard latches at the top of the keyboard to elevate the keyboard from its normal position. 3) Carefully lift the keyboard assembly out to expose the mainboard. Figure 4-1 Bank 1 Bank 0 4) Locate the memory banks, Bank 0 is on the right and Bank 1 is on the left. Figure 4-2 Note: Only use Bank 0 if you have one memory module. If you are using two memory modules always use the larger module in Bank 0. 5) Insert the memory module at an angle (about 45°) . and fit its connectors firmly into the bank 6) Press down the edge of the memory module and lock it into place . 7) Put the keyboard back into place. 17 Note: Make sure the connectors go into the bank. You must use a RAM module that complies with Intel unbuffered SODIMM (67.6 mm x 29.0 mm). Please consult your dealer for the details. 67.6 mm 29.0 mm connectors Changing the S3 DIP Switch settings Once you have installed the new memory you will have to change the DIP Switch settings depending on the type of memory you have installed. Please refer to the chart below for the correct settings for the S3 DIP Switches SDRAM TYPE PC100 PC133 S3-1 S3-2 S3-3 S3-4 ON ON OFF OFF OFF ON OFF OFF S3 DIP Switch ON position OFF position 18 Removing a Memory Module 1) Turn off the computer. 2) Press the two keyboard latches to elevate the keyboard from its normal position (refer to Figure 4-1) 3) Carefully lift the keyboard assembly out to expose the mainboard. 4) Locate the memory sockets. Bank 0 is on the left and Bank 1 is on the right. (refer to Figure 4-2) 5) Gently pull the two latches outward on both ends of the module 6) The module will pop up . . 7) Remove the memory module . 8) Install a new memory module if desired (refer to Installing a Memory Module). 9) Put the keyboard back into place. 19 Drive information and Pin assignments Storage Devices HDD (BUILT-IN) - 2.5", 12.7mm max. height and removable HDD Average access time: below 13ms - PCI local bus IDE interface Supports: 12GB or higher HDD (Ultra DMA 33/66/100) - MTBF 300,000 hours ULTRA DMA/SMART HDD PIN ASSIGNMENT Pin Description Pin Description A-D DRIVE ID SELECT E, F KEY 1 RESET- 2 GROUND 3 +DD7 4 +DD8 5 +DD6 6 +DD9 7 +DD5 8 +DD10 9 +DD4 10 +DD11 11 +DD3 12 +DD12 13 +DD2 14 +DD13 15 +DD1 16 +DD14 17 +DD0 18 +DD15 19 GROUND 20 KEY 21 DMARQ 22 GROUND 23 DIOW- 24 GROUND 25 DIOR- 26 GROUND 27 IORDY 28 CSEL 29 DMACK- 30 GROUND 31 INTRQ 32 IOCS16- 33 DA1 34 PDIAG- 35 DA0 36 DA2 37 CS0- 38 CS1- 39 DASP- 40 GROUND 41 +5 VOLTS SUPPLY 42 +5 VOLTS SUPPLY 43 GROUND 44 RESERVED 20 Removing the HDD from the notebook 1) Turn the computer off. 2) Turn the computer over. 3) Locate the HDD latch . 4) Slide and hold the latch forward then slide the HDD out of the computer. 5) Lift the hard disk drive out of the computer. Removing the HDD from its tray 1) Remove the HDD case from the computer (refer to Removing the HDD in Chapter 2 for details). 2) Remove the two sets of screws on the side of the case. 3) Slowly remove the HDD from the case until you see the connecting cable. 4) Gently disconnect the cable from the HDD being careful not to bend any pins or crimp the cable. 5) Connect a new HDD to the cable being careful not to bend any pins or crimp the cable. 6) Slowly place the HDD back into the case. 7) Hold the HDD firmly in place with two screws on each side. fastening screws 8) Insert the HDD into the computer (refer to Inserting the HDD in Chapter 2 for fastening screws details) Inserting the HDD 1) Turn off the computer. 2) Turn the computer over. 3) Place the HDD case into the computer. 4) Slide the HDD in until you hear a click. 21 FDD - 3.5", 1.44MB floppy disk drive 3-Mode support for Japanese market FDD PIN ASSIGNMENT Pin Description Pin Description 1 +5 V 2 INDEX 3 +5 V 4 DRIVE SELECT0 5 +5 V 6 DISK CHANGE 7 N.C. 8 Ready 9 HD(High : HD) 10 MOTOR ON 11 N.C. 12 DIRECTION 13 Mode Select 14 STEP 15 GND 16 WRITE DATA 17 GND 18 WRITE GATE 19 GND 20 TRACK 00 21 GND 22 WRITE PROTECT 23 GND 24 READ DATA 25 GND 26 Side One Select Removing the FDD Removing the Floppy Disk Drive 1) Turn off the computer. 2) Turn the computer over. 3) Locate the DVD / FDD cover . 4) Unscrew and remove the cover . 5) Lift the white plastic piece which holds the FDD cable in place 6) Pull out the FDD cable . . 7) Grasp the FDD tab and gently PULL the FDD out of the computer . 22 8) Remove the two screws on each side of the FDD tray. 9) Remove the FDD from its tray. (see picture) fastening screws fastening screws The FDD floppy disk drive out of its bay Inserting the Floppy Disk Drive Follow the instructions for removing the FDD in reverse order. 23 DVD-ROM - Model Matsushita SR8173 Dimensions 128mm(W)x12.7mm(H)x127mm(D) Random access time 130ms-CD / 170ms-DVD Data transfer rate 4X speed (5400KB/s)-DVD Mechanism tray-loading Interface ATAPI MTBF 60,000POH DVD-ROM PIN ASSIGNMENT Signal Name I/O AUDIO L-CH AUDIO GROUND /RESET DD7 DD6 DD5 DD4 DD3 DD2 DD1 DD0 GROUND /DIOW IORDY INTRQ DA1 DA0 /CS1FX /DASP +5 V +5 V GROUND GROUND CSEL RESERVED O I I/O I/O I/O I/O I/O I/O I/O I/O I O O I I I I/O I I I Connector Contact 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 24 I/O Signal Name O AUDIO R-CH N.C. DD8 DD9 DD10 DD11 DD12 DD13 DD14 DD15 DMARQ /DIOR GROUND /DMACK /IOCS16 /PDIAG DA2 /CS3FX +5 V +5 V +5 V GROUND GROUND GROUND RESERVED I/O I/O I/O I/O I/O I/O I/O I/O O I I O I/O I I I I I Removing the DVD-ROM Module Removing the DVD-ROM Module 1) Turn off the computer. 2) Turn the computer over. 3) Locate the DVD/FDD cover . 4) Unscrew and remove the cover. 5) Remove the single screw which holds the DVD-ROM in the computer . 6) Locate the cable tab and gently pull the cable tab upward to disconnect the DVD-ROM from the computer mainboard . 7) Grasp the DVD-ROM tab and gently PULL the DVD-ROM out of the computer Inserting the DVD-ROM module Refer to removing the DVD-ROM and follow the instructions in reverse order. 25 . CD-ROM (OPTIONAL) - Model Dimensions Matsushita CR175 128mm(W)x12.7mm(H)x127mm(D) - Random access time Data transfer rate 120ms 24X speed (3600KB/s) - Mechanism Interface tray-loading ATAPI - MTBF 60,000POH CD-ROM PIN ASSIGNMENT Signal Name I/O AUDIO L-CH AUDIO GROUND /RESET DD7 DD6 DD5 DD4 DD3 DD2 DD1 DD0 GROUND /DIOW IORDY INTRQ DA1 DA0 /CS1FX /DASP +5 V +5 V GROUND GROUND CONFIG(*1) RESERVED O I I/O I/O I/O I/O I/O I/O I/O I/O I O O I I I I/O I I I Connector Contact 1 2 3 4 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 26 I/O Signal Name O AUDIO R-CH GROUND I/O I/O I/O I/O I/O I/O I/O I/O O I I O I/O I I I I I DD8 DD9 DD10 DD11 DD12 DD13 DD14 DD15 DMARQ /DIOR GROUND /DMACK /IOCS16 /PDIAG DA2 /CS3FX +5 V +5 V +5 V GROUND GROUND GROUND RESERVED Interface Pin Assignments RS-232 Serial Interface The RS-232C Serial Interface uses a 9 pin D-sub male connector with the following configuration: Pin 1 2 3 4 5 6 7 8 9 Description DCD (DATA Carrier Detect) RXD (Received Data) TXD (Transmitted Data) DTR (Data Terminal Ready) GND (Signal Ground) DSR (Data Set Ready) RTS (Request To Send) CTS (Clear To Send) RI (Ring Indicator) Parallel Interface The Parallel interface uses a 25-pin D-sub female connector with the following configuration: Pin 1 3 5 7 9 11 13 15 17 19 21 23 25 Description Strobe# Data 1 Data 3 Data 5 Data 7 Busy Select Error# Select In Ground Ground Ground Ground Pin 2 4 6 8 10 12 14 16 18 20 22 24 Description Data 0 Data 2 Data 4 Data 6 ACK# Paper Empty Auto Feed# Initialize# Ground Ground Ground Ground USB Interface The external USB (Universal Serial Bus) has the following configuration: Pin 1 2 3 4 Description USB_VCCA USBP0USBP0+ GND 27 Internal trackpad Interface The internal trackpad interface connector has the following configuration: Pin 1 2 3 4 5 6 7 8 9 Description EKDA EMDA GND VCC EKCLK EMCLK GND GND GND External Monitor Interface The external monitor interface uses a 15-pin D-sub female connector with the following configuration: Pin 1 2 3 4 5 Description RED GREEN BLUE NC GND Pin 6 7 8 9 10 Description GND GND GND NC GND Pin 11 12 13 14 15 Description NC DDCDA HSYNC VSYNC DDCLK RGB Out: - Output Impedance : 75 Ohms RGB peak voltage: 0.7Vpp External Keyboard/PS2 Mouse Interface The external keyboard/PS2 mouse interface connector has the following configuration: Pin 1 2 3 4 5 6 7 8 9 Description EKDA EMDK GND VCC EKCLK EMCLK GND GND GND 28 PCMCIA CardBus Interface Pin A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 A22 A23 A24 A25 A26 A27 A28 A29 A30 A31 A32 A33 A35 A36 A37 A38 A39 Description CardBus 16Bit Card GND GND GND GND A_CAD0 A_D3 A_CCD1# A_CD1# A_CAD14 A_D4 A_CAD2 A_D11 A_CAD3 A_D5 A_CAD4 A_D12 GND GND A_CAD5 A_D6 A_CAD6 A_D13 A_CAD7 A_D7 RFU A_D14 A_CC/BE0# A_CE1# A_CAD9 A_D15 A_CAD10 GND A_CAD9 A_A10 A_CAD10 A_CE2# A_CAD11 A_OE# A_CVS1 A_VS1# A_CAD12 A_A11 GND GND A_CAD13 A_IORD# A_CAD14 A_A9 A_CAD15 A_IOWR# A_CC/BE1# A_A8 A_CAD16 A_CAD16 GND GND A_CPAR A_A13 RFU A_A18 A_CPERR# A_A14 A_CBLOCK# A_A19 A_CGNT# A_WE# A_CINT# A_CINT# A_CDEVSEK# A_CDEVSEL# A_VCC A_VCC A_VCC A_VCC A_VPP1 A_VPP1 Pin A40 A41 A42 A43 A44 A45 A46 A47 A48 A49 A50 A51 A52 A53 A54 A55 A56 A57 A58 A59 A60 A61 A62 A63 A64 A65 A66 A67 A68 A69 A70 A71 A72 A73 A74 A75 A76 A77 29 Description CardBus 16Bit Card A_VPP2 A_VPP2 A_CCLK A_A16 GND GND A_CTRDY# A_A22 A_CIRDY# A_A15 A_CFRAME# A_A23 A_CC/BE2# A_A12 A_CAD17 A_A24 A_CAD18 A_A7 GND GND A_CAD19 A_A25 A_CAD20 A_A6 A_CVS2 A_VS2# A_CAD21 A_A5 A_CRST A_RESET A_CAD22 A_A4 A_CSERR# A_WAIT# GND GND A_CAD23 A_A3 A_CREQ# A_INPACK A_CAD24 A_A2 A_CC/BE3# A_REG# A_CAD25 A_A1 A_CAUDIO# A_BVD2 A_CAD26 A_A0 GND GND A_CSTSCHG A_BVD1 A_CAD27 A_D0 A_CAD28 A_D8 A_CAD29 A_D1 A_CAD30 A_D9 RFU A_D2 A_CAD31 A_D10 GND GND A_CCLKRUN# A_WP A_CCD2# A_CD2# GND GND GND GND Internal PCI Interface (For optional modem or LAN card) Pin 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 Description GND GND GND AUXBR AD8 AD9 AD10 AD11 AD12 AD13 AD14 AD15 CBE#1 PAR VCC SERR# PERR# STOP# DEVSEL# TRDY# IRDY# FRAME# CBE#2 GND VCC3 VCC3 VCC3 GND GND VCC VCC VCC AD16 AD17 AD18 AD19 AD20 AD21 AD22 AD23 Pin 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72 74 76 78 80 30 Description GND GND GND MIC_MODM AD6 AD5 AD7 CBE#0 AD0 AD1 AD2 AD3 AD4 MODEMRI VCC IDSEL CBE#3 PME# INTA# RESET# PCLKMODM GNT#4 REQ#4 GND VCC3 VCC3 VCC3 GND GND VCC VCC VCC AD31 AD30 AD29 AD28 AD27 AD26 AD25 AD24 LCD Interface ( For XGA TFT) Pin 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 Description INVVCC ENABL GND FLM GND CONTADJ PANELID0 GND LCDVDD TXOUTV0GND TXOUTV1+ TXOUTV2GND TXCLKV+ Pin 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 31 Description INVVCC BRIGADJ LP DISPOFF# CL2 LDE PANELID1 LCDVDD GND TXOUTV0+ TXOUTV1GND TXOUTV2+ TXCLKVGND Power Application: This specification shall apply to the power module to be operated in the Notebook 5100S/ 5500S system. The power board provides the following voltages for Intel P!!! CPUs: 1.35V &1.6V for CPU VCC_CORE Input Power: a. Adapter: +20.0V Constant Voltage Mode (65W ). b. Battery: LI-ION Smart Battery ( 47.36W ). c. Input Rating ITEM MIN TYP MAX UNIT REMARK Input Voltage 12 20 21 V -- Output Power: DC OUTPUT CURRENT VOLTAGE REGULATION RIPPLE & NOISE Max Surge Vcc / 5V ±5% 150mV 4.0A 6.0A Vcc3 / 3.3V ±5% 150mV 4.0A 6.0A 12V / 12V ±5% 200mV 0.22A 0.35A Vcc_Core / 1.6V ±5% 150mV 15A 17A VccT / 1.5V ±5% 150mV 1.5A 2.0A Vcc1.8 / 1.8V ±5% 100mV 2.0A 3.0A Vdd1.8 / 1.8V ±5% 100mV 70mA 80mA VC / 5V ±5% 100mV 70mA 80mA Note: The surge currents of all outputs can keep 10 seconds maximum . The output ripple/noise requirements should be met throughout the load range and under the input voltage from 12Vdc to 20Vdc. Measurements should be made with an oscilloscope with the 20Mhz bandwidth output bypassed with a connector with a 0.1uF ceramic capacitor and a 10 uF electrolytic capacitor to simulate loading. The system is full run under auto test. 32 Output Protection Requirements: a. Over current protection: Vcc OCP —7A max Vcc3 OCP — 7A max Vcc_Core OCP — 20A max VccT OCP — 3.5A max Vcc1.8 OCP — 3.5A max b. Output Short Protection : Vcc,Vcc3,12V,Vcc_Core,VccT,Vcc1.8 The power supply shall not be damaged by short form the output to return . Battery Protection: The discharge circuits should be SHUTDOWN when the voltage for the Li-ion battery voltage is down to 12V(+/-0.2V) Vcc_Core VID setting : No 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 VID4 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 VID3 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 VID2 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 33 VID1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 VID0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 COREVCC 2.0V 1.95V 1.90V 1.85V 1.80V 1.75V 1.70V 1.65V 1.60V 1.55V 1.50V 1.45V 1.40V 1.35V 1.30V 1.25V Interface Specifications JP1. Battery Connector (Off The Mother Board) PIN 1~8 9 SIGNAL B+ BAT-DATA 10 11 12 13~20 TEMP BAT-CLK CELL GND CNA1. DC/DC Connector (Off The Power Board) PIN 1~6 7 8~13 14 ~ 21 22~27 28~33 34~39 40~42 SIGNAL B+ VR_ON GND VCC3 GND VCC GND 12V CN4. Battery Connector(Off The Mother Board) PIN 1,2 3 4 5 6 7,8 SIGNAL GND CELL TEMP BAT_CLK BAT_DATA BAT+ 34 Charge board Battery parameters The BIOS will download all battery parameters to the smart charger before POST. The battery parameters are as follows: LI-ION CHG V LI-ION DESINH V (0x39) : Li-ion CV = (0x39) /3 *4 (0x3A) : ERROR = (0X3A) * 1.27 +2.3V LI-ION EDVI LI-ION EDVF (0x3B) : EDVI = (0x3B) /3 *4 (0x3C) : EDVI = (0x3C) /3 *4 Default EDVI and EDVF and Constant Voltage: Battery Item Voltage LI-ION Constant Voltage 16.8V ± 0.2V EDVI 11.4V ± 0.2V EDVF 10.8V ± 0.2V LI-ION Charge current and Charge Time: ITEM MIN TYPE MAX UNIT REMARK Input Voltage 19 20 21 V From AC Adapter 0.6 0.8 1.0 A When System is on 1.3 1.5 1.7 A When System is off - - 450 min When System is on - - 230 min When System is off Charge Current LI-Ion Charge Time Total Power Current ( IRQ ) : Total Power Current 3A ±0.2A *Total Power = System Power + Charge Power 35 Hardware ShutDown: Battery Type Max Voltage LI-ION 12V ± 0.2V Max Voltage Protection : Battery Type Max Voltage LI-ION 17.1V ± 0.2V O.P.T ( Protect for environment temperature ) : For a LI-ION battery charger start, if the temperature exceeds 50°C or falls below 5°C, the charger shall not charge and the charge indicator will show no charger current. If the environment temperature is below 50°C the charger shall auto reCharge. The thermistor of the battery pack will detect the environment temperature. O.P.T 5 ~ 50°C The trickle charge: If the LI-ION battery voltage is below 3V/cell,the charge controller will enter the trickle charge mode. The trickle charge current is about 200~300 mA (trickle charge time is 60 minutes max). Charger full : When the battery is fully charged, the charge controller will send a full signal and the gas guage indicator will display capacity greater than 90%. For the smart battery, the charge controller full signal and the gas gauge are different. It’s normal for the gas gauge indicator to show a 90% charge even if the battery has just been fully charged and is actually above a 90% capacity. Battery empty shutdown : When the battery is empty, the charge controller will send a shut down signal within 3 seconds. The shut down signal is 3.3V. 36 Alert : The charge controller will send an alert signal, when the adapter is plugged in or out, when the battery is inserted or removed, or when the battery is low. During the alert signal, the charge controller will send the low signal pulse three times within a 10 second period. Battery low alarm : When the battery is low, the charge controller will send out the battery low alert. If KBC or the OS doesn’t respond, the battery will go to the low signal in 2 seconds. The battery low alarm is decided by the “alarm time”, the battery voltage is for reference only. Therefore the battery low alarm defines the alarm time not the voltage. Alarm time : - Alarm time is defined from the time the battery low beep starts until the computer shuts down. - The alarm time of a dumb battery must be less than 15 minutes and greater than 3 minutes for ZD Mark3.0. - The alarm time of a smart battery is defined by either the remaining capacitor alarm or the remaining time alarm. The battery is not normal if the green LED blinks while the battery is charging. You must shutdown the computer, unplug the adapter and remove the battery. After the battery cools down, reinstall the battery and plug in the adapter to recharge the battery. Smart battery : The charge current of the smart battery depends on BQ2040 data. The full charge of a smart battery depends on the remaining capacitor alarm or remaining time alarm . The smart charger always reads the temperature of the smart battery to detect Max. T and OPT. BIOS issue After re-flashing the Bios, don’t use the Ctrl+Alt+Del key to restart your computer. Instead you should press the power button to shutdown the computer and then turn on the computer, this will reload the default BIOS. While using Ctrl+Alt+Del keys (warm start), KBC doesn’t send out battery setup parameters to charge controller IC. 37 Inverter board APPLICATION : This specification refers to an inverter which operates a cold cathode fluorescent lamp for a liquid-crystal display module. This inverter is designed for the 12.1” TFT LCD-modules. ELECTRICAL CHARACTERISTICS: ITEM Input Voltage Input Current Inrush Current Lamp Current Output Voltage Frequencey Starting Voltage BKLO BRIGADJ MIN 4.5 5.5 2.5 1000 0 0 TYPE 5 900 6.0 3.0 560 60 - MAX 5.5 4 6.5 3.5 3.3 2.5 Interface Specification: J1 ( Connector 6 Pin ) Inverter To M/B Connector PIN 1 2 3 4 5 6 SIGNAL B+ B+ GND GND BRIGADJ BKLO 38 UNIT V/DC mA/DC A/AC mA/AC mA/AC V/AC KHz V/AC V/DC V/DC REMARKS at Vin=5V Less than 1ms BRIG:2.5V BRIG:0V ON = 3.3V Adapter Configuration : 3-wire input AC line (line, neutral, FG) Input characteristics: Input Voltage: 100 ~ 240 +10%vac,Full range Input Frequency: 47 ~ 63 Hz Input Current : 1.6A max @115VAC,at full load. 0.8A max @230VAC,at full load. Efficiency: 80 % (min) .at full load . Output characteristics: Output power: 65W (max) Output Current: ITEM TOLERANCE OUTPUT CURRENT Output voltage (Accuracy) Min Max +20Vdc (main) +/- 5% 0 3.25A Regulation: VOLTAGE TOLERANCE REGULATION +20Vdc (main) +/- 5 % 19 ~ 21 V Ripple & Noise : The power supply shall not exceed 250mVrms on the indicated voltage for 60Hz or 50Hz ripple, switching frequency ripple and noise dynamic load variations measured with a 20MHz bandwidth. Ripple & noise are measured at the end of output cables to which are added a 0.1uf ceramic capacitor and a 10uF electrolytic capacitor. Leakage Current: 0.75mA Over Voltage Protection : 27V max.(do not test with external DC source). Shutdown voltage protection: 10V max. 39 Over Current Protection : The power supply will not be damaged by an over current from the output (measure at 110 Vac input). OUTPUT VOLTAGE LOWER UPPER +20 to 10.0 Vdc 3.3A 3.8A Short circuit protection: A short circuit place at any output will cause no damage. ESD requirements : The adapter shall withstand IEC PUB. 801-5 (surge ) level 4 requirements. EMI / EMC : The radiated and conducted emissions of this AC adapter complies with the requirements of the FCC PART 15, CLASS B & EN55022. SAFETY : This AC adapter is designed to meet the following standards: # UL 1950 LISTED # CUL LEVEL 3 # TUV EN60950 40 Battery Pack Recharging by AC Power The battery pack automatically recharges when it is installed into a computer that is connected to an AC power supply. You can still use the computer when it is recharging. To fully recharge the battery will take several hours and may be slightly longer if the computer is being used while the battery is recharging. Proper Handling of the Battery Pack DO NOT disassemble the battery pack under any circumstances. DO NOT expose the battery to fire or high temperatures, it may explode. DO NOT connect the metal terminals (+, -) together. Battery Information Proper care will improve the performance and extend the life and cycle life of the battery. Follow these guidelines to get the best use out of the battery. Power loss When not in use, a battery will gradually lose its power, this is normal. The rate of power loss depends on the battery type and is approximately: 0.2% / Day for a Li-Ion Battery Battery storage Outside the computer If you are going to store a battery outside the computer for an extended period you must: · · Charge the battery to at least 40% capacity prior to storage. Follow steps 1 through 3 approximately every 30 days: 1. Completely recharge the battery. 2. Use the battery until it is fully discharged 3. Recharge the battery to at least 40% capacity. Inside the computer If a fully charged battery is stored inside the computer and the battery is not used for more than 30 days, you must follow these steps: 41 1. 2. Completely recharge the battery. Use the battery until it is fully discharged 3. Recharge the battery to 100% capacity. (In this case it doesn’t matter whether or not the computer is being used) Note: An empty battery will become damaged if stored too long and by following these steps the battery cycle life and the battery life will increase. Battery Testing Testing a battery while its temperature remains high could possibly cause inaccurate measurements, therefore we strongly recommend: · Waiting 30 minutes before testing a battery that has just been fully charged. · Waiting at least 30 minutes before recharging a fully discharged battery. Note: All battery testing should be done on a fully charged or fully discharged battery. Battery alarm The battery alarm is activated by a program and will sound when the battery power is low. Note: If a fully discharged battery has been charged for less than 3 minutes, this program will not be activated. This happens when these 3 steps occur: 1. The computer is being used and the low battery alarm sounds. 2. The AC adapter is connected to charge the battery while the computer continues to be used. 3. The adapter is unplugged within the first 3 minutes of charging. After this sequence of steps, the computer will eventually shutdown without the low battery alarm sounding and you will lose any work you have entered and not saved. Therefore you should make sure that the AC adapter is firmly plugged into the computer when charging the battery. 42 Removing the battery pack 1) Turn the computer over. 2) Slide the latch in the direction indicated . 3) Gently grasp the battery pack on the edge below the latches and lift it out of the bay . Inserting the battery pack 1) Turn the computer over. 2) Place the battery in its bay inserting the side without the latch in first. 3) Push down on the side with the latch until it clicks into place. 43 Battery diagram 44 Component diagrams and part numbers 10 6 8 1 2 13 4 11 4 5 3 7 9 21 17 15 25 22 12 23 14 20 4 31 19 16 22 22 22 18 7 33 22 34 29 35 36 22 28 22 24 26 14 7 30 31 32 45 46 4 6 5 3 13 11 7 16 14 9 15 15 12 2 8 1 15 10 ITEM 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 PART NAM E DISPLAY FRONT PANEL LCD 12.1" TFT SANYO TM 121SV-02L07 DISPLAY BACK PANEL HOOK KNOW HOOK SPRING FOR HOOK EXTEN INVERTER LCD BRACKET (L) LCD BRACKET (R) CA BLE 1H/2H 28AW G 35P 203m m DISPLAY RUBBER PAD DISPLAY RUBBER PAD SCREW SCREW SCREW SCREW PART NO. 39-51011-01E 50-F1255-S01 39-51S01-02A 42-51081-010 42-510A1-010 38-10R35-021 43-51S0R-010 33-51001-050 33-51001-040 43-51S01-010 47-51021-010 47-51021-020 35-01120-4RO 35-41120-3RA 35-84130-6RA 35-B6130-4RA 47 REM ARK FOR 12.1" • • • • 12.1" SV FOR 12.1 SANYO 0.35 FOR LG (S2)12.1 FOR LG (S2)12.1 SANYO UP BOTTOM M 2*4L,P,NI,ICT M 2*0,4P*3L,B,NI,ICT,NY M 3*6L,K,BK/0,ICT,NY M 3*4,K1,BZ,ICT.NY 48 1 22 6 2 7 3 5 21 9 2 3 8 10 5 9 15 2 11 16 8 17 12 4 19 10 7 13 2 14 15 16 17 20 18 2 49 50 VC C T R 1 91 H8 H 10 H 12 H 14 H 16 J7 J9 J 11 J 13 J 15 K8 K 10 K 12 K 14 K 16 L7 L9 L 11 L 13 L 15 M 8 M 10 M 12 M 14 M 16 N7 N9 N 11 N 13 N 15 P8 P 10 P 12 P 14 P 16 R7 R9 R 11 R 13 R 15 T8 T 10 T 12 T 14 T 16 U7 U9 U 11 U 13 U 15 U4 BP R I# 3 BP R I# A6 C PU R ST# 3 C PU R ST# R S#0 U1 3 R S#0 A A2 R S#1 3 R S#1 W1 R S#2 3 R S#2 Y1 Z1 T U2 H TR D Y # 3 H T R D Y# D E FE R # U3 3 D E F ER # R 2 44 1 1 0 _ 1 %ED G E C T R L P A A 1 6 1 1 ,1 2 ,2 0 C PU _ S T P# 12 A 20 M # 1 2 IG N N E# 1 2 IN IT # 1 2 IN T R 12 N M I T P R EQ # C PU PW R G D BSEL0 C PU _ S T P#1 1R 2B 5S7E L 1 0 1 2 S M I# F L U SH # 1 2 ,2 0 ST P C L K# 1 2 G C L _ L O /H I# 1 1 PIC C L K P IC C LK R1 12 0 H5 C L KC 0 PU S M I# F L U SH # ST P C L K# G C L _ L O /H I# AD 10 AC 13 AA10 AB18 AC 19 AB20 V5 AA12 AB15 AB12 AB10 AC 9 AC 11 R2 H C LK C P U UP IC C LK M 3 AA18 A 20 M # IG N N E# IN IT # IN T R NM I T P R EQ # C PU PW R G D BSEL0 BSEL1 S LP # R 2 42 VC C _ S E N SE 2 4 VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C VC C BP R I# R ES E T# R S0# R S1# R S2# R S P# T R D Y# D E F ER # GTL+ Input GTL+ Output ED G E C T R L P A 20 M # IG N N E# IN IT # L IN T 0 /IN T R1.5V CMOS Input L IN T 1 /N M I P R EQ # P W R G O O D<-- 2.5 CMOS Input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´ ¯ ⁄ 3 0 1 .5 K C PU PW R G D V2 .5 VC C T T TC K TT M S 1 2 3 4 5 6 7 8 9 10 11 12 C N 29 VC C T TD I TD O TC K TM S T R S T# P R D Y# P R EQ # C PU R ST# GND D BR E S E T # GND C o n n. 1 2P( R ) „q ‚ £ CO. 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B A 3# A 4# A 5# A 6# A 7# A 8# A 9# A1 0# A1 1# A1 2# A1 3# A1 4# A1 5# A1 6# A1 7# A1 8# A1 9# A2 0# A2 1# A2 2# A2 3# A2 4# A2 5# A2 6# A2 7# A2 8# A2 9# A3 0# A3 1# A3 2# A3 3# A3 4# A3 5# T P R D Y# IER R # C P U _ F ER R # IER R # C P U _ F ER R # U P IC D 0 U P IC D 0 U P IC D 1 U P IC D 1 1.5V Open Drain I/O R 1 63 H A # [3 ..3 1 ] H A # [3 ..3 1 ] 3 AD 9 IER R # A C 1 2 F ER R # AB21 P IC D 0 Y 2 0 P IC D 1 1.5V Open Drain Output ST P C L K# U 4 0A PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU PU 0# 1# 2# 3# 4# 5# 6# 7# 8# 9# 1 0# 1 1# 1 2# 1 3# 1 4# 1 5# 1 6# 1 7# 1 8# 1 9# 2 0# 2 1# 2 2# 2 3# 2 4# 2 5# 2 6# 2 7# 2 8# 2 9# 3 0# 3 1# 3 2# 3 3# 3 4# 3 5# 3 6# 3 7# 3 8# 3 9# 4 0# 4 1# 4 2# 4 3# 4 4# 4 5# 4 6# 4 7# 4 8# 4 9# 5 0# 5 1# 5 2# 5 3# 5 4# 5 5# 5 6# 5 7# 5 8# 5 9# 6 0# 6 1# 6 2# 6 3# LOW POWER GTL+ INTERFACE 51 HD #9 H D #10 H D #11 H D #12 H D #13 H D #14 H D #15 H D #16 H D #17 H D #18 H D #19 H D #20 H D #21 H D #22 H D #23 H D #24 H D #25 H D #26 H D #27 H D #28 H D #29 H D #30 H D #31 H D #32 H D #33 H D #34 H D #35 H D #36 H D #37 H D #38 H D #39 H D #40 H D #41 H D #42 H D #43 H D #44 H D #45 H D #46 H D #47 H D #48 H D #49 H D #50 H D #51 H D #52 H D #53 H D #54 H D #55 H D #56 H D #57 H D #58 H D #59 H D #60 H D #61 H D #62 H D #63 D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D D LOW POWER GTL+ DATA BUS H D #8 D 10 D 11 C7 C8 B9 A9 C 10 B 11 C 12 B 13 A 14 B 12 E 12 B 16 A 13 D 13 D 15 D 12 B 14 E 14 C 13 A 19 B 17 A 18 C 17 D 17 C 18 B 19 D 18 B 20 A 20 B 21 D 19 C 21 E 18 C 20 F 19 D 20 D 21 H 18 F 18 J 18 F 21 E 20 H 19 E 21 J 20 H 21 L 18 G 20 P 18 G 21 K 18 K 21 M 18 L 21 R 19 K 19 T 20 J 21 L 20 M 19 U 18 R 18 GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND HD #0 HD #1 HD #2 HD #3 HD #4 HD #5 HD #6 HD #7 C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C HD #[0..63] 0 VC C _ S E N SE 1 2 ,2 0 ST P C L K# A2 A7 A8 A 12 A 21 B1 B5 B6 B7 B8 B 10 B 15 B 18 C9 C 11 C 15 C 16 C 19 D2 D6 D7 D9 E3 E7 E8 E9 E 10 E 11 E 13 E 19 F3 F6 F7 F8 F9 F 10 F 11 F 12 F 13 F 14 F 15 F 16 F 20 G3 G 19 H2 H7 H9 H 11 H 13 3 H D # [0 ..6 3 ] Schematic Drawings V C C _C ORE uPGA2 PIII-1 S iz e D oc um ent Num ber C u s to m Rev A 71-51S00-D02 D ate: Monday, S eptem ber 18, 2000 S heet 1 of 29 52 .1U .1U 4.7U CL KR E F R S VD G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND 6 6 M Hz 0 1 1 0 0 M Hz RE S E RV E D 1 1 3 3 M Hz 2K _1% (08 05) L5 1 V CC _C O RE P LL 1 Z29 0 R 14 6 1 V C CT C 26 2 C 27 2 C 25 2 C 24 7 C 16 0 C 18 8 C 26 4 C 27 7 C 20 1 C 20 2 C 21 6 C 22 9 C 23 0 C 22 8 C 22 7 C 21 5 2 2U /10 V_ 1 21 0 A D1 7 Y5 N5 A D2 0 H4 A A1 7 G4 T ES T HI T ES T LO 1 T ES T LO 2 T E ST P 1 T E ST P 2 T E ST P 3 T E ST P 4 R 19 0 R 14 8 R 32 8 R 24 0 R 13 5 R 20 4 R 32 9 10K 1K 1K R R R R A D2 A D3 A D4 A C4 AB4 VID 0 VID 1 VID 2 VID 3 VID 4 A D1 9 R T T IMP E DP VID 0 VID 1 VID 2 VID 3 VID 4 R 23 9 15 ,2 4 15 ,2 4 15 ,2 4 15 ,2 4 15 ,2 4 56.2_ 1% V C CT 10U P2 A B1 9 Z3 1 U2 0 V3 V1 9 W4 W18 Y3 Y9 Y1 0 Y1 1 Y1 2 Y1 3 Y1 4 Y1 5 Y1 6 Y1 9 AA4 A A1 3 A A2 0 AB3 AB5 AB9 A B1 1 A B1 3 A B1 4 A B1 7 A C1 A C2 A C5 A C1 0 A C1 4 A C1 6 A C1 8 A C2 1 A D1 A D5 A D1 6 A D2 1 CL KR E F T R 19 2 0 R 14 4 2K _1% (08 05) R 14 5 2K _1% (08 05) VS S_ S E N SE .1U .1U .1U .1U .1U .1U 4 70 P .1U .1U .1U .1U .1U .1U .1U VS S_ S E N SE V C CT + .1U .1U .1U .1U .1U 1 1 1 + C 28 3 470 U/4 V .1U 4 70 V C CT + C 66 2 C 24 8 220 U/6 .3V 470 U/4 V .1U + + C 24 5 C 22 4 C 21 7 C 20 3 C 17 7 C 21 8 C 26 5 220 U/6 .3V 470 U/4 V 4.7U .1U .1U .1U 1 .1U + C 18 1 1 00 U /10V 4 70 P C 1 00 V 2.5 V 2.5 V C CT C 18 7 C 17 5 C 18 4 C 18 6 C 18 5 C 24 4 C 24 3 C 24 2 C 24 1 C 16 9 C 19 6 C 23 1 C 17 6 C 22 3 C 28 9 C 28 4 C .1U 4. .1U .1U .1U .1U .1U .1U .1U .1U .1U .1U .1U .1U .1U .1U .1U 24 VC C 3 C P U V R M S E LE C T TA B L E F O R u P G A 2 P 3 V ID[4 :0 ] VCC_Core .1U 2 2K _1% (08 05) .1U 10U 2 1K _1% (08 05) .1U 10U V CC _C O RE R 18 7 C 16 8 10U C 20 0 C 19 9 C 19 7 C 19 8 C 21 4 C 22 6 C 22 5 C 21 2 C 22 2 C 28 8 C 23 3 C 27 3 C 26 3 C 25 3 C 21 3 C 27 6 C 32 R 20 3 C 26 1 10U 2 CMOS R E F 10U V CC _C O RE .1U AA9 A D1 8 10U 2 P LL 2 10U C opp erm in e F R E Q UE NC Y 0 1 + CMOS R E F CMOS R E F BS EL0 0 1 R 14 2 1 R T T IMP E DP .1U 2 NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC VID 0 VID 1 VID 2 VID 3 VID 4 .1U V ID[4 :0 ] VCC_Core C 25 7 VC C 3 R 70 5 0_ 0 80 5 R 70 6 R_ 080 5 .1U 11111 NO CPU 01111 NO CPU 11110 0.925V 01110 1.30V 11101 0.950V 01101 1.35V 1 T H ER MDP 11100 0.975V 01100 1.40V 1 T H ER MDN 11011 1.000V 01011 1.45V 11010 1.025V 01010 1.50V 11001 1.050V 01001 1.55V 11000 1.075V 01000 1.60V 10111 1.100V 00111 1.65V 10110 1.125V 00110 1.70V 10101 1.150V 00101 1.75V 10100 1.175V 00100 1.80V 10011 1.200V 00011 1.85V 10011 1.225V 00010 1.90V 10001 1.250V 00001 1.95V 10000 1.275V 00000 2.00V 20 m ils G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND T ES T HI T ES T LO 1 T ES T LO 2 TE S TP TE S TP TE S TP TE S TP .1U 4.7U H(08 05) C 17 9 M2 1K _1% (08 05) C 17 8 C 18 0 C 23 2 C 24 0 C 24 6 C 23 9 C 16 7 .1U V C CT Z69 3 R8 R1 0 R1 2 R1 4 R1 6 R2 0 T3 T5 T7 T9 T1 1 T1 3 T1 5 T1 8 T1 9 U8 U1 0 U1 2 U1 4 U1 6 P LL 2 L2 GT LR E F 1 V CC _C O RE P LL 1 R 14 3 E5 E1 6 E1 7 F5 F1 7 U5 Y1 7 Y1 8 2 0 VR E F VR E F VR E F VR E F VR E F VR E F VR E F VR E F 1 R 73 7 BS EL1 U 40B G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND G ND Z73 0 R V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V CC T /C PU V CC V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT V C CT H1 5 H2 0 J4 J8 J1 0 J1 2 J1 4 J1 6 J1 9 K2 K7 K9 K1 1 K1 3 K1 5 K2 0 L5 L8 L1 0 L1 2 L1 4 L1 6 L1 9 M7 M9 M1 1 M1 3 M1 5 M2 0 N2 N3 N4 N8 N1 0 N1 2 N1 4 N1 6 N1 8 N1 9 N2 0 P5 P7 P9 P1 1 P1 3 P1 5 P1 9 R3 R4 R5 R 73 6 G6 G7 G8 G9 G1 0 G1 1 G1 2 G1 3 G1 4 G1 5 G1 6 G1 7 H6 H1 7 J6 J1 7 K6 K1 7 L6 L1 7 M6 M1 7 N6 N1 7 P1 P6 P1 7 R6 R1 7 T6 T1 7 U6 U1 7 V6 V7 V8 V9 V1 0 V1 1 V1 2 V1 3 V1 4 V1 5 V1 6 V1 7 W6 W7 W8 W9 W10 W11 W12 W13 W14 W15 W16 W17 Y6 Y7 Y8 AA6 AA7 AA8 AB6 AB7 AB8 A C6 A C7 A C8 A D6 A D7 A D8 2 V C CT 0 A1 5 A1 6 A1 7 C1 4 D8 D1 4 D1 6 E1 5 G2 G5 G1 8 H3 H5 J5 M4 M5 P3 P4 AA5 A A1 9 A C3 A C1 7 A C2 0 A D1 5 F R E Q U E N C Y S E L E C T TA B L E C 25 6 U3 5 2 V CC S TB Y # SMBD A T A 22 0 0P 1 2 T AL ER T # 3 4 T AL ER T # 11 7 8 D XP S MBC LK D XN AD D 1 AD D 0 AL ER T # N C/C RIT 1 N C/C RIT 0 N C /OS # NC NC G ND G ND MA X 16 1 7 15 R 21 7 R 22 8 R 22 9 4.7K 4.7K 4.7K Z29 3 12 S DA _A T F 2 3 14 S C L_A T F 2 3 6 10 Z2 5 Z2 6 1 5 9 13 16 Z2 7 Z2 8 VC C 3 20 m i l s R 20 7 R 20 8 Z2 9 Z3 0 1 0K _ 080 5(R) 10K (R) OS # OS # T T R 23 0 R 21 4 4.7K (R) 4.7K (R) ´ ¯ ⁄ „q ‚£ C LE VO C O . CLEVO CO. T itle uPGA 2 PIII-2 Size Docum ent Num ber Cu s tom Date: 71-51S00-D02 Monday, Sept em ber 18, 2000 Sheet 2 of VCCT M DD[ 0. . 63] R1 3 2 C1 5 5 7 5_1% .001 U C3 8 1 R3 9 7 5 6 . 2 _1 % 1 RS # 2 1 RS # 1 1 RS # 0 .1 U 1 V 29 T 29 R 26 P 25 G 27 R 29 G 28 RS#2 RS#1 RS#0 V 26 R 25 U 29 HIT M# HI T # DRDY # DBS Y # BNR# U 26 R 24 U 28 T 27 U 27 P 28 HREQ#4 HREQ#3 HREQ#2 HREQ#1 HREQ#0 R 27 T 26 T 28 R 28 P 27 ADS# ADS# 1 HI T M # 1 H IT # 1 DR DY # 1 DB S Y # 1 B NR # VS SQA VS SQB 53 HA # [ 3.. 3 1 ] 1 HA#[ 3. . 31] R 92 V CC 3 0 (0 8 05 ) HA#31 HA#30 HA#29 HA#28 HA#27 HA#26 HA#25 HA#24 HA#23 HA#22 HA#21 HA#20 HA#19 HA#18 HA#17 HA#16 HA#15 HA#14 HA#13 HA#12 HA#11 HA#10 HA#9 HA#8 HA#7 HA#6 HA#5 HA#4 HA#3 M 24 H 26 G 29 J 26 H 29 H 27 K 27 H 28 J 29 J 27 K 26 J 28 K 28 L 26 L 27 L 28 K 29 M 25 M 26 M 27 L 29 N 25 N 28 M 28 M 29 N 29 N 26 P 24 N 27 CPUAV DD V 27 C1 1 7 C1 3 2 C1 3 3 C3 7 9 10 U .1 U T 25 W 28 W 27 Y 29 Y 27 Y 26 AA 28 AA 26 AB 28 AB 26 AC 29 AC 27 AC 25 AD 28 AD 27 Y 25 AG 22 AJ 22 AF 21 AH 21 AF 20 AH 20 AJ 20 AG 19 AJ 19 AF 18 AH 18 AF 17 AG 17 AJ 17 AF 16 AH 16 T 24 W 29 U 25 W 26 Y 28 V 25 AA 29 AA 27 AB 29 AB 27 V 24 AC 28 AC 26 AD 29 W 25 AD 26 AF 22 AH 22 AE 23 AG 21 AJ 21 AG 20 AE 22 AF 19 AH 19 AE 18 AG 18 AJ 18 AD 20 AH 17 AE 21 AG 16 CS B # [5 ] CS B # [4 ] CS B # [3 ] CS B # [2 ] CS B # [1 ] CS B # [0 ] R S # [2] R S # [1] R S # [0] A DS # HI T M # H IT # DR DY # DB S Y # B NR # H RE Q# [4 ] H RE Q# [3 ] H RE Q# [2 ] H RE Q# [1 ] H RE Q# [0 ] M A [ 1 4] M A [ 1 3] M A [ 1 2] M A [ 1 1] M A [ 1 0] MA [9 ] MA [8 ] MA [7 ] MA [6 ] MA [5 ] MA [4 ] MA [3 ] MA [2 ] MA [1 ] MA [0 ] SiS630S-1 H A # [ 31 ] H A # [ 30 ] H A # [ 29 ] H A # [ 28 ] H A # [ 27 ] H A # [ 26 ] H A # [ 25 ] H A # [ 24 ] H A # [ 23 ] H A # [ 22 ] H A # [ 21 ] H A # [ 20 ] H A # [ 19 ] H A # [ 18 ] H A # [ 17 ] H A # [ 16 ] H A # [ 15 ] H A # [ 14 ] H A # [ 13 ] H A # [ 12 ] H A # [ 11 ] H A # [ 10 ] H A # [9] H A # [8] H A # [7] H A # [6] H A # [5] H A # [4] H A # [3] D QM[7 ] D QM[6 ] D QM[5 ] D QM[4 ] D QM[3 ] D QM[2 ] D QM[1 ] D QM[0 ] WE# SR AS # SC AS # S D CL K CK E HO ST Interface S DA V D D AE 24 AG 24 AF 24 AJ 25 AH 25 AG 25 Z 32 Z 33 RA S A # 3 RA S A # 2 RA S A # 1 RA S A # 0 AF 28 AF 29 AA 25 AE 25 AE 26 AE 27 Z 34 Z 35 Z 36 Z 37 Z 38 Z 39 AB 25 AF 27 AF 26 AG 29 AG 28 AG 27 AH 28 AB 24 AH 27 AD 24 AJ 27 AG 26 AH 26 AJ 26 AF 25 MAA 14 MAA 13 MAA 12 MAA 11 MAA 10 MAA 9 MAA 8 MAA 7 MAA 6 MAA 5 MAA 4 MAA 3 MAA 2 MAA 1 MAA 0 Y 24 AE 28 AF 23 AG 23 AD 25 AE 29 AJ 24 AD 22 DQ MA 7 DQ MA 6 DQ MA 5 DQ MA 4 DQ MA 3 DQ MA 2 DQ MA 1 DQ MA 0 AH 23 W EA # AH 24 AJ 23 S RA S A # S CA S A # AJ 16 6 3 0 S D CL K E9 CK E AE 19 SDAV DD CP UA V D D 4 7 0 P V 28 CP UA V S S E 21 A 19 C 19 B 20 B 21 B 19 A 21 A 20 D 19 E 20 D 20 B 22 C 22 C 20 A 22 D 21 A 23 C 21 B 23 C 23 A 25 E 22 D 22 D 24 D 23 C 25 B 25 C 24 E 25 F 22 D 25 E 23 B 26 E 24 C 26 A 26 A 27 D 26 B 27 C 27 B 28 F 24 C 28 D 28 H 24 C 29 E 26 D 27 J 25 E 28 D 29 E 27 H 25 K 24 F 25 F 27 E 29 F 26 L 25 K 25 F 29 F 28 G 26 G 25 .0 1 U P 29 C P U CL K HL O CK # DE FE R # H T R DY # CP UR S T # B P RI # BR EQ0# H RE Q# [ 0 . .4 ] 1 H RE Q# [ 0 . .4 ] U2 5 A CS A # [5 ] CS A # [4 ] CS A # [3 ] CS A # [2 ] CS A # [1 ] CS A # [0 ] M e mory Inte rface H D# 6 3 H D# 6 2 H D# 6 1 H D# 6 0 H D# 5 9 H D# 5 8 H D# 5 7 H D# 5 6 H D# 5 5 H D# 5 4 H D# 5 3 H D# 5 2 H D# 5 1 H D# 5 0 H D# 4 9 H D# 4 8 H D# 4 7 H D# 4 6 H D# 4 5 H D# 4 4 H D# 4 3 H D# 4 2 H D# 4 1 H D# 4 0 H D# 3 9 H D# 3 8 H D# 3 7 H D# 3 6 H D# 3 5 H D# 3 4 H D# 3 3 H D# 3 2 H D# 3 1 H D# 3 0 H D# 2 9 H D# 2 8 H D# 2 7 H D# 2 6 H D# 2 5 H D# 2 4 H D# 2 3 H D# 2 2 H D# 2 1 H D# 2 0 H D# 1 9 H D# 1 8 H D# 1 7 H D# 1 6 H D# 1 5 H D# 1 4 H D# 1 3 H D# 1 2 H D# 1 1 H D# 1 0 HD # 9 HD # 8 HD # 7 HD # 6 HD # 5 HD # 4 HD # 3 HD # 2 HD # 1 HD # 0 VCCT 1 1 6 3 0 CL K 1 HL O CK # 1 DE FE R # 1 H T R DY # 1 CP UR S T # 1 B P RI # 1 BR EQ0# 630CLK HLO CK# DE FER# HT RDY # CPURS T # BPRI# BREQ0# 4,7,11 MD 6 3 MD 6 2 MD 6 1 MD 6 0 MD 5 9 MD 5 8 MD 5 7 MD 5 6 MD 5 5 MD 5 4 MD 5 3 MD 5 2 MD 5 1 MD 5 0 MD 4 9 MD 4 8 MD 4 7 MD 4 6 MD 4 5 MD 4 4 MD 4 3 MD 4 2 MD 4 1 MD 4 0 MD 3 9 MD 3 8 MD 3 7 MD 3 6 MD 3 5 MD 3 4 MD 3 3 MD 3 2 MD 3 1 MD 3 0 MD 2 9 MD 2 8 MD 2 7 MD 2 6 MD 2 5 MD 2 4 MD 2 3 MD 2 2 MD 2 1 MD 2 0 MD 1 9 MD 1 8 MD 1 7 MD 1 6 MD 1 5 MD 1 4 MD 1 3 MD 1 2 MD 1 1 MD 1 0 MD 9 MD 8 MD 7 MD 6 MD 5 MD 4 MD 3 MD 2 MD 1 MD 0 B 24 P 26 GT L V R E F A R1 3 1 C1 5 4 1 5 0 _ 1% .001 U GT L V R E F B A 24 G T LRE FA G T LRE FB R1 0 8 C1 3 8 1 5 0 _ 1% .001 U MD D[ 0 .. 6 3] M DD0 M DD1 M DD2 M DD3 M DD4 M DD5 M DD6 M DD7 M DD8 M DD9 M DD10 M DD11 M DD12 M DD13 M DD14 M DD15 M DD16 M DD17 M DD18 M DD19 M DD20 M DD21 M DD22 M DD23 M DD24 M DD25 M DD26 M DD27 M DD28 M DD29 M DD30 M DD31 M DD32 M DD33 M DD34 M DD35 M DD36 M DD37 M DD38 M DD39 M DD40 M DD41 M DD42 M DD43 M DD44 M DD45 M DD46 M DD47 M DD48 M DD49 M DD50 M DD51 M DD52 M DD53 M DD54 M DD55 M DD56 M DD57 M DD58 M DD59 M DD60 M DD61 M DD62 M DD63 R1 0 9 C1 3 4 7 5_1% .001 U S DA V S S AE 20 T T R A S A # [ 0 . .3 ] T T T T T T R A S A # [ 0 . .3 ] MA A [ 0 .. 1 4] D QMA [ 0. .7 ] 4 MA A [ 0 .. 1 4] 4 D QMA [ 0. .7 ] 4 W EA # 4 S RA S A # S CA S A # 4 4 6 3 0 S D CL K 11 CK E R3 3 1 8 .2 K R4 2 9 0 (0 8 05 ) C3 9 3 C4 0 8 .0 1 U .1 U V CC 3 C3 8 0 10 U V CC 3 S iS 6 30 S C4 4 7 R4 9 3 R4 8 6 R4 9 5 R4 9 HD#0 HD#1 HD#2 HD#3 HD#4 HD#5 HD#6 HD#7 HD#8 HD#9 HD#10 HD#11 HD#12 HD#13 HD#14 HD#15 HD#16 HD#17 HD#18 HD#19 HD#20 HD#21 HD#22 HD#23 HD#24 HD#25 HD#26 HD#27 HD#28 HD#29 HD#30 HD#31 HD#32 HD#33 HD#34 HD#35 HD#36 HD#37 HD#38 HD#39 HD#40 HD#41 HD#42 HD#43 HD#44 HD#45 HD#46 HD#47 HD#48 HD#49 HD#50 HD#51 HD#52 HD#53 HD#54 HD#55 HD#56 HD#57 HD#58 HD#59 HD#60 HD#61 HD#62 HD#63 CK E 1 HD # [ 0.. 6 3 ] CK E 2 4 6 8 H D # [ 0. . 6 3] V CC 3 V C C1 . 8 11 13 15 17 6 30S V T T .1 U U 20 1 19 1G 2G VC C 1A 1 1A 2 1A 3 1A 4 2A 1 2A 2 2A 3 2A 4 1Y 1 1Y 2 1Y 3 1Y 4 2Y 1 2Y 2 2Y 3 2Y 4 GN D 20 2 70 18 16 14 12 C KE 0 C KE 1 C KE 2 C KE 3 9 7 5 3 Z 40 Z 41 Z 42 Z 43 2 70 2 70 2 70 T T T T 10 7 4 LV C2 4 4 C3 3 4 C4 3 4 C3 8 7 C1 5 6 C3 9 0 C3 8 9 C3 8 8 C3 7 7 C3 7 1 C3 6 3 C4 0 7 C3 9 1 C1 6 5 C3 7 2 C3 9 2 C3 7 8 C1 6 6 C3 7 3 C3 6 4 C3 6 5 10 U 10 U 4 .7 U 4 .7 U .1 U .0 1 U .1 U .0 1 U .1 U .0 1 U .1 U .0 1 U 4 .7 U .1 U .0 1 U .1 U .0 1 U 4 .7 U .1 U .0 1 U CO. „qCLEVO ‚£ C LEVO C ´ ¯ ⁄ T it le Si630S HOST/MEMORY INTERFA CE Size Docum ent Num ber Cu s t o m Dat e: 71- 51S00-D02 Monday, Sept em ber 18, 2000 Sheet 3 V CC3 3 MA A13 3 MA A11 3 MA A10 3 MA A9 3 MA A3 3 MA A6 3 MA A8 3 MA A12 1 2 3 4 MA A13 MA A11 MA A10 MA A9 1 2 3 4 MA A3 MA A6 MA A8 MA A12 1 2 3 4 8 7 6 5 RN45 RN36 8P 4R -10 8P 4R -10 8 7 6 5 8 7 6 5 RN35 8P 4R -10 RN34 8P 4R -10 8 7 6 5 IMA B1 IMA B2 IMA B0 IMA B4 IMA B1 IMA B2 IMA B0 IMA B4 Z45 IMA B5 IMA B7 IMA B14 T IMA B5 5 IMA B7 5 IMA B14 5 IMA B13 IMA B11 IMA B10 IMA B9 IMA B3 IMA B6 IMA B8 IMA B12 5 5 5 5 MDD[ 0..63] IMA B13 5 IMA B11 5 IMA B10 5 IMA B9 5 IMA B3 5 IMA B6 5 IMA B8 5 IMA B12 5 MDD36 MDD37 MDD38 MDD39 1 2 3 4 MDD3 MDD2 MDD1 MDD0 1 2 3 4 MDD47 MDD46 MDD45 MDD44 1 2 3 4 MDD15 MDD13 MDD12 1 2 3 4 MDD23 MDD22 MDD21 MDD20 1 2 3 4 MDD52 MDD53 MDD54 MDD55 1 2 3 4 MDD14 3 3 3 3 RA SA #0 RA SA #1 RA SA #2 RA SA #3 3 3 3 3 C K E0 C K E1 C K E2 C K E3 3 3 3 3 DQ MA 2 DQ MA 6 DQ MA 3 DQ MA 7 3 3 3 3 DQ MA 0 DQ MA 1 DQ MA 4 DQ MA 5 54 T 3 S RA S A# 3 S CA S A# 3 W E A# RA SA #0 RA SA #1 RA SA #2 RA SA #3 1 2 3 4 C K E0 C K E1 C K E2 C K E3 1 2 3 4 DQ MA 2 DQ MA 6 DQ MA 3 DQ MA 7 1 2 3 4 DQ MA 0 DQ MA 1 DQ MA 4 DQ MA 5 1 2 3 4 Z46 S RA S A# S CA S A# W E A# 1 2 3 4 8 7 6 5 RN39 RN47 8P 4R -22 8P 4R -10 8 7 6 5 8 7 6 5 RN44 8P 4R -10 RN33 8P 4R -10 8 7 6 5 IRA SA #0 IRA SA #1 IRA SA #2 IRA SA #3 IC K E0 IC K E1 IC K E2 IC K E3 IDQ MA 2 IDQ MA 6 IDQ MA 3 IDQ MA 7 IRA SA #0 IRA SA #1 IRA SA #2 IRA SA #3 IC K E0 IC K E1 IC K E2 IC K E3 5 5 5 5 5 5 5 5 IDQ MA 2 IDQ MA 6 IDQ MA 3 IDQ MA 7 5 5 5 5 IDQ MA 0 IDQ MA 1 IDQ MA 4 IDQ MA 5 IDQ MA 0 IDQ MA 1 IDQ MA 4 IDQ MA 5 5 5 5 5 Z47 IS RA SA # IS CA SA # IW E A# T IS RA SA # 5 IS CA SA # 5 IW E A# 5 MDD24 MDD25 MDD26 MDD27 8 7 6 5 MDD31 MDD30 MDD29 MDD28 8 7 6 5 Thes e H/W tra ps h av e inte rnal pu ll-d ow n re sis tors. MDD7 MDD6 MDD5 MDD4 1 2 3 4 MDD32 MDD33 MDD34 MDD35 1 2 3 4 MDD8 MDD9 MDD10 MDD11 1 2 3 4 MDD43 MDD42 MDD41 MDD40 1 2 3 4 MDD48 MDD49 MDD50 MDD51 1 2 3 4 MDD19 MDD18 MDD17 MDD16 1 2 3 4 V CC3 MDD53 R451 4.7 K(R ) R452 4.7 K(R ) MDD54 R428 4.7 K(R ) MDD55 MD 32: P AL /N T S C Sel ec t 1:P A L 0:NT SC MD33 : E nable V ideo Bridge MD36 : E nable E xt-P Link M D38 : Enable VGA Interrupt Function (For 3D Strereo) 1 : E na ble 0 : Di s able MD 31 : Quick Start Function 1 : E na ble 0 : Di s able RN29 8P 4R -10 8 7 6 5 8 7 6 5 RN30 RN31 8P 4R -10 8P 4R -10 8 7 6 5 8 7 6 5 RN32 RN38 8P 4R -10 8P 4R -10 8 7 6 5 8 7 6 5 RN37 RN28 8P 4R -10 8P 4R -10 1 2 3 4 1 2 3 4 R681 4.7 K(R ) MDD38 R410 4.7 K MDD31 MDD56 MDD57 MDD58 MDD59 8 7 6 5 MDD60 MDD61 MDD62 MDD63 8 7 6 5 RN27 RN41 8P 4R -10 8P 4R -10 8 7 6 5 8 7 6 5 RN40 RN43 8P 4R -10 8P 4R -10 8 7 6 5 8 7 6 5 RN42 RN48 8P 4R -10 8P 4R -10 8 7 6 5 8 7 6 5 RN49 RN15 8P 4R -10 8P 4R -10 1 2 3 4 1 2 3 4 RN16 5 MD[ 0..63] R138 0(120 6)(R ) R137 0(1 206) 3,7 ,11 V CC3 MD36 MD37 MD38 MD39 U25C A A11 A A12 A A13 A A18 A A19 A A20 A A22 A B12 A B19 A B21 A B22 H10 H17 J 11 J 12 J9 K8 K9 M9 U21 U22 V 21 V 22 W 21 W 22 Y 21 MD3 MD2 MD1 MD0 MD47 MD46 MD45 MD44 MD15 MD14 MD13 MD12 MD23 MD22 MD21 MD20 MD52 MD53 MD54 MD55 A B10 A B11 A B13 A B18 A B20 H11 H12 H18 J 18 L8 M8 N22 T 22 Y 22 MD24 MD25 MD26 MD27 MD31 MD30 MD29 MD28 V CC 1.8 S DRAM BUS INTE RFACE NE AR SiS 63 0S MD D[55. .53] : Cl oc k s kew c ont ro l of A GP input /outpu t loop (D efaul t: 001) MDD[ 0..63] 630 SV T T A A10 A A14 A A17 A A21 A B14 A B17 H13 H16 J 10 J 13 J 16 J 17 J 19 J 20 K 21 L21 L9 M21 N21 N9 T 21 U9 MD7 MD6 MD5 MD4 MD32 MD33 MD34 MD35 MD8 MD9 MD10 MD11 MD43 MD42 MD41 MD40 MD48 MD49 MD50 MD51 H9 V DD3 J8 V DD 1.8 MD19 MD18 MD17 MD16 OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD OV DD P V DD P V DD P V DD P V DD P V DD P V DD P V DD P V DD P V DD P V DD P V DD P V DD P V DD P V DD H20 H21 H22 J 21 J 22 K 22 L22 M22 Z44 MA A5 MA A7 MA A14 8P 4R -10 8 7 6 5 GT LV T T GT LV T T GT LV T T GT LV T T GT LV T T GT LV T T GT LV T T GT LV T T T 3 MA A5 3 MA A7 3 MA A14 RN46 A A8 A A9 A B8 A B9 N8 P8 P9 U8 V8 V9 W8 W9 Y8 Y9 H19 MA A1 MA A2 MA A0 MA A4 1 2 3 4 V D DQ V D DQ V D DQ V D DQ V D DQ V D DQ V D DQ V D DQ V D DQ V D DQ V D DQ V D DQ V D DQ V D DQ GT LV T T 3 3 3 3 MA A1 MA A2 MA A0 MA A4 SiS630S-3 V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V SS V S SD V S SD V S SD V S SD V S SD V S SD V S SD V S SD V S SD V S SD V S SD V S SD V S SD V S SD V S SD V S SD V S SD V S SD V S SD V S SD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD IV DD V S SQ V S SQ V S SQ V S SQ V S SQ V S SQ V S SQ V S SQ V S SQ V S SQ V S SQ A UX 3.3V A UX 1.8V L13 L14 L15 L16 L17 M12 M13 M14 M15 M16 M17 M18 N11 N12 N13 N14 N15 N16 N17 N18 N19 P 14 P 15 P 18 P 19 R14 R15 T 14 T 15 U14 U15 V 14 V 15 W 13 W 14 W 15 P 16 P 17 R16 R17 R18 R19 T 16 T 17 T 18 T 19 U16 U17 U18 U19 V 16 V 17 V 18 W 16 W 17 P 11 P 12 P 13 R11 R12 R13 T 11 T 12 T 13 U11 U12 U13 V 12 V 13 S i S 630S MD56 MD57 MD58 MD59 MD60 MD61 MD62 MD63 V DD 1.8 V DD3 C362 C349 C340 C348 .1U .1U 8P 4R -10 4.7 U 4.7 U ´ ¯ ⁄ „q CLEVO ‚£ CCO. L E V O C O. T itle MD[ 0..63] DA M P ING F O R DRA M INTE RF A CE Size Document Number B Dat e: 7 1-51 S 0 0-D 02 Monday, Sept ember 18, 2000 Sheet 4 of V CC 3 MEM_V CC L2 1 J 32 1 6H S4 8 0 C9 0 C8 8 C8 7 10U 10U .1U BBAANNKK00 MEM_V CC MD [0 ..6 3] MD [0 ..6 3] 4 MD [0 ..6 3] BBAANNKK11 MEM_V CC MEM_V CC MD [0 ..6 3] C N11 P IN1 4 5 -> 1 4 8:NC ME MC L K 1 ME MC L K 2 1 1 ME MC L K 1 1 1 ME MC L K 2 C4 7 6 G ND MD 0 MD 1 MD 2 MD 3 C4 8 4 R R MD 4 MD 5 MD 6 MD 7 G ND ID Q MA 0 ID Q MA 1 N E A R S ODIMM 4 ID Q MA 0 4 ID Q MA 1 IMA B 0 IMA B 1 IMA B 2 G ND MD 8 MD 9 MD1 0 MD1 1 4 IMA B 0 4 IMA B 1 4 IMA B 2 MEM_V CC C5 4 2 C5 4 9 10U .1U MD1 2 MD1 3 MD1 4 MD1 5 G ND T T Z4 8 Z4 9 ME MC L K 1 1 1 ME MC L K 1 ISR A SA # IW EA # IR A S A# 0 IR A S A# 1 Z5 6 G ND Z5 0 T Z5 1 T MD1 6 MD1 7 MD1 8 MD1 9 G ND MD2 0 MD2 1 MD2 2 MD2 3 55 4 ISR A SA # 4 IW EA # 4 IR A S A# 0 4 IR A S A# 1 R5 3 3 1K IMA B 6 IMA B 8 G ND IMA B 9 IMA B1 0 4 IMA B 6 4 IMA B 8 4 IMA B 9 4 IMA B1 0 ID Q MA 2 ID Q MA 3 G ND MD2 4 MD2 5 MD2 6 MD2 7 4 ID Q MA 2 4 ID Q MA 3 MD2 8 MD2 9 MD3 0 MD3 1 G ND SD A _RA 2 3 SD A _RA 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 C N10 P IN1 4 5 -> 1 4 8:NC C N1 1 V SS DQ 0 DQ 1 DQ 2 DQ 3 V CC DQ 4 DQ 5 DQ 6 DQ 7 V SS CE 0# /D QM0 CE 1# /D QM1 V CC A0 A1 A2 V SS DQ 8 DQ 9 D Q1 0 D Q1 1 V CC D Q1 2 D Q1 3 D Q1 4 D Q1 5 V SS RE S V D /D Q6 4 RE S V D /D Q6 5 V SS D Q3 2 D Q3 3 D Q3 4 D Q3 5 V CC D Q3 6 D Q3 7 D Q3 8 D Q3 9 V SS CE 4# /D QM4 CE 5# /D QM5 V CC A3 A4 A5 V SS D Q4 0 D Q4 1 D Q4 2 D Q4 3 V CC D Q4 4 D Q4 5 D Q4 6 D Q4 7 V SS RE S V D /D Q6 8 RE S V D /D Q6 9 C LK 0 V CC R AS # WE# C S0 # C S1 # QE # V SS RE S V D /D Q6 6 RE S V D /D Q6 7 V CC D Q1 6 D Q1 7 D Q1 8 D Q1 9 V SS D Q2 0 D Q2 1 D Q2 2 D Q2 3 V CC A6 A8 V SS A9 A1 0 V CC CE 2# /D QM2 CE 3# /D QM3 V SS D Q2 4 D Q2 5 D Q2 6 D Q2 7 V CC D Q2 8 D Q2 9 D Q3 0 D Q3 1 V SS S DA V CC C KE 0 V CC C AS # C KE 1 A1 2 A1 3 C LK 1 V SS RE S V D /D Q7 0 RE S V D /D Q7 1 V CC D Q4 8 D Q4 9 D Q5 0 D Q5 1 V SS D Q5 2 D Q5 3 D Q5 4 D Q5 5 V CC A7 BA 0/A1 1 V SS BA 1/A1 2 A 11/A1 3 V CC CE 6# /D QM6 CE 7# /D QM7 V SS D Q5 6 D Q5 7 D Q5 8 D Q5 9 V CC D Q6 0 D Q6 1 D Q6 2 D Q6 3 V SS SC L V CC 61 63 65 67 69 71 73 75 77 79 81 83 85 87 89 91 93 95 97 99 10 1 10 3 10 5 10 7 10 9 11 1 11 3 11 5 11 7 11 9 12 1 12 3 12 5 12 7 12 9 13 1 13 3 13 5 13 7 13 9 14 1 14 3 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60 G ND MD3 2 MD3 3 MD3 4 MD3 5 62 64 66 68 70 72 74 76 78 80 82 84 86 88 90 92 94 96 98 10 0 10 2 10 4 10 6 10 8 11 0 11 2 11 4 11 6 11 8 12 0 12 2 12 4 12 6 12 8 13 0 13 2 13 4 13 6 13 8 14 0 14 2 14 4 IC K E 0 MD3 6 MD3 7 MD3 8 MD3 9 G ND ID Q MA 4 ID Q MA 5 C5 0 3 C5 2 8 R R G ND MD 0 MD 1 MD 2 MD 3 MD 4 MD 5 MD 6 MD 7 G ND ID Q MA 0 ID Q MA 1 N E A R S ODIMM ID Q MA 4 ID Q MA 5 IMA B 3 IMA B 4 IMA B 5 G ND MD4 0 MD4 1 MD4 2 MD4 3 MD4 4 MD4 5 MD4 6 MD4 7 G ND Z5 2 Z5 3 ME MC L K 3 ME MC L K 4 1 1 ME MC L K 3 1 1 ME MC L K 4 IMA B 3 IMA B 4 IMA B 5 4 4 4 ID Q MA 0 4 ID Q MA 1 4 4 4 IMA B 0 IMA B 1 IMA B 2 G ND MD 8 MD 9 MD1 0 MD1 1 4 IMA B 0 4 IMA B 1 4 IMA B 2 MD1 2 MD1 3 MD1 4 MD1 5 G ND Z5 8 T Z5 9 T T T IC K E 0 4 ISC A SA # IC K E 1 IMA B1 4 Z5 7 ME MC L K 2 G ND Z5 4 T Z5 5 T MD4 8 MD4 9 MD5 0 MD5 1 G ND MD5 2 MD5 3 MD5 4 MD5 5 ME MC L K 2 IMA B 7 IMA B1 1 G ND IMA B1 2 IMA B1 3 MD6 0 MD6 1 MD6 2 MD6 3 G ND S CL _RA 11 R5 2 6 R5 5 4 1K 1K IMA B 6 IMA B 8 G ND IMA B 9 IMA B1 0 4 IMA B 6 4 IMA B 8 IMA B1 2 IMA B1 3 4 4 4 IMA B 9 4 IMA B1 0 ID Q MA 6 ID Q MA 7 4 4 4 ID Q MA 2 4 ID Q MA 3 S CL _RA ISR A SA # IW EA # IR A S A# 2 IR A S A# 3 Z6 0 G ND Z6 1 T Z6 2 T MD1 6 MD1 7 MD1 8 MD1 9 G ND MD2 0 MD2 1 MD2 2 MD2 3 4 ISR A SA # 4 IW EA # 4 IR A S A# 2 4 IR A S A# 3 IMA B 7 4 IMA B1 1 4 ID Q MA 6 ID Q MA 7 G ND MD5 6 MD5 7 MD5 8 MD5 9 ME MC L K 3 1 1 ME MC L K 3 ISC A SA # 4 IC K E 1 4 IMA B1 4 4 23 ID Q MA 2 ID Q MA 3 G ND MD2 4 MD2 5 MD2 6 MD2 7 MD2 8 MD2 9 MD3 0 MD3 1 G ND SD A _RB 2 3 SD A _RB 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 81 83 85 87 89 91 93 95 97 99 10 1 10 3 10 5 10 7 10 9 11 1 11 3 11 5 11 7 11 9 12 1 12 3 12 5 12 7 12 9 13 1 13 3 13 5 13 7 13 9 14 1 14 3 S O-D IMM1 44_ 4 MEM_V CC MEM_V CC C N1 0 V SS DQ 0 DQ 1 DQ 2 DQ 3 V CC DQ 4 DQ 5 DQ 6 DQ 7 V SS CE 0# /D QM0 CE 1# /D QM1 V CC A0 A1 A2 V SS DQ 8 DQ 9 D Q1 0 D Q1 1 V CC D Q1 2 D Q1 3 D Q1 4 D Q1 5 V SS RE S V D /D Q6 4 RE S V D /D Q6 5 V SS D Q3 2 D Q3 3 D Q3 4 D Q3 5 V CC D Q3 6 D Q3 7 D Q3 8 D Q3 9 V SS CE 4# /D QM4 CE 5# /D QM5 V CC A3 A4 A5 V SS D Q4 0 D Q4 1 D Q4 2 D Q4 3 V CC D Q4 4 D Q4 5 D Q4 6 D Q4 7 V SS RE S V D /D Q6 8 RE S V D /D Q6 9 C LK 0 V CC R AS # WE# C S0 # C S1 # QE # V SS RE S V D /D Q6 6 RE S V D /D Q6 7 V CC D Q1 6 D Q1 7 D Q1 8 D Q1 9 V SS D Q2 0 D Q2 1 D Q2 2 D Q2 3 V CC A6 A8 V SS A9 A1 0 V CC CE 2# /D QM2 CE 3# /D QM3 V SS D Q2 4 D Q2 5 D Q2 6 D Q2 7 V CC D Q2 8 D Q2 9 D Q3 0 D Q3 1 V SS S DA V CC C KE 0 V CC C AS # C KE 1 A1 2 A1 3 C LK 1 V SS RE S V D /D Q7 0 RE S V D /D Q7 1 V CC D Q4 8 D Q4 9 D Q5 0 D Q5 1 V SS D Q5 2 D Q5 3 D Q5 4 D Q5 5 V CC A7 BA 0/A1 1 V SS BA 1/A1 2 A 11/A1 3 V CC CE 6# /D QM6 CE 7# /D QM7 V SS D Q5 6 D Q5 7 D Q5 8 D Q5 9 V CC D Q6 0 D Q6 1 D Q6 2 D Q6 3 V SS SC L V CC 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72 74 76 78 80 82 84 86 88 90 92 94 96 98 10 0 10 2 10 4 10 6 10 8 11 0 11 2 11 4 11 6 11 8 12 0 12 2 12 4 12 6 12 8 13 0 13 2 13 4 13 6 13 8 14 0 14 2 14 4 G ND MD3 2 MD3 3 MD3 4 MD3 5 MD3 6 MD3 7 MD3 8 MD3 9 G ND ID Q MA 4 ID Q MA 5 ID Q MA 4 ID Q MA 5 IMA B 3 IMA B 4 IMA B 5 G ND MD4 0 MD4 1 MD4 2 MD4 3 MD4 4 MD4 5 MD4 6 MD4 7 G ND Z6 3 Z6 4 IMA B 3 IMA B 4 IMA B 5 4 4 4 4 4 T T IC K E 2 IC K E 2 4 ISC A SA # IC K E 3 IMA B1 4 Z6 5 ME MC L K 4 G ND Z6 6 T Z6 7 T MD4 8 MD4 9 MD5 0 MD5 1 ISC A SA # 4 IC K E 3 4 IMA B1 4 4 ME MC L K 4 11 MD5 2 MD5 3 MD5 4 MD5 5 IMA B 7 IMA B1 1 G ND IMA B1 2 IMA B1 3 IMA B 7 4 IMA B1 1 4 ID Q MA 6 ID Q MA 7 G ND MD5 6 MD5 7 MD5 8 MD5 9 MD6 0 MD6 1 MD6 2 MD6 3 G ND S CL _RB IMA B1 2 IMA B1 3 4 4 ID Q MA 6 ID Q MA 7 4 4 S CL _RB 23 SO -DIMM14 4_4R MEM_V CC MEM_V CC C4 8 8 C4 7 1 C4 7 0 C4 7 8 C4 7 3 C4 7 2 C4 7 7 C4 7 4 C4 7 9 C4 8 0 C4 7 5 C5 3 3 C5 3 1 C5 2 9 C4 8 7 C5 2 4 C5 0 5 C5 0 6 C5 2 3 C4 8 6 C4 8 5 C4 8 1 C5 2 7 C5 3 0 C5 3 2 C5 0 4 4.7U 4.7U .1U .1U .1U .01U .01U .01U .01U .1U .1U .1U .1U .1U .1U .1U .1U 4.7U 4.7U .1U .1U .1U .01U .01U .01U .01U CLEVO CO. ´ ¯ ⁄ „q ‚ £ C L EVO C O. T it le SODIMM Size B Date: Docum ent Num ber 71-51S00-D02 M onday, Septem ber 18, 2000 Sheet 5 of V CC 3 9 R ED RED R3 42 0 Z6 31 C 9 H SY NC 9 V SY NC T 11 V OS CI R3 69 C1 50 14 0 _1 % B 14 A 14 A 15 HSY NC V SY NC D 15 A 16 C 15 B 16 S SY NC C 16 VO SCI A 11 RSET E 19 630VREF .1U C3 27 Z6 31 Z6 32 Z6 33 DDCDA DDCLK 9 D DC DA 9 DD CLK 1U COMP C 14 B 15 DA CA VD DC F 18 56 B K2 1 2 5H S3 30 C3 29 C3 28 4 .7U T T T T ROUT GOUT B OUT H SY NC V SY NC 4 .7U V OS CI RS E T PR1 S BA 7 A CB E 1# A CB E 0# A T R DY # A D EV S E L A SE RR # AP AR A ST OP # VG A Interface V BH S Y NC /ST 0 V BV S Y NC /ST 1 S B A 0 /V BB LA NK # V G CLK /A GNT # V B CLK /ST 2 S BA 2/DD C2 CL K S B A 1/D D C2D A T COMP DA CA VD DC AD_S T B 0 A D _ST B 0# DA CA VS S C AD_S T B 1 A D _ST B 1# A GP CLK A G PV RE F F 15 B K2 1 2 5H S3 30 C1 64 4 .7U 4 .7U P6 P7 P8 P9 P 10 P 11 4 6 7 9 10 12 Z 68 Z 69 Z 70 Z 71 Z 72 Z 73 Z 74 Z 75 P 12 P 13 P 14 P 15 P 16 P 17 13 15 16 18 19 20 R6 P2 P1 U6 Z 76 Z 77 Z 78 Z 79 VBHSY NC VBVSY NC 22 23 25 T T T T T T T T T T T T V6 R5 R3 VBHSY NC VBVSY NC M T6 R4 SHF CLK V BH S Y NC V BV S Y NC M 8 8 8 M S HF CL K LC D_ P D # 8 D OT CLK DO T CLK LC D_ P D # R1 R2 ENAVDD# ENABKKL# T2 T3 Z 82 Z 83 AD2 AD3 Z 84 Z 85 W1 W2 Z 86 Z 87 A J3 AGP_CLK AA 1 Z 88 AB 1 R4 09 E N AV DD # 7,8 E NA B K K L # 7 26 27 U 12 V CC V CC V CC V CC T XO U T 0T X OU T 0+ T XO U T 1T X OU T 1+ T X IN 0 T X IN 1 T X IN 2 T X IN 3 T X IN 4 T X IN 5 T XO U T 2T X OU T 2+ T XC LK OT X CL K O + T X IN 6 T X IN 7 T X IN 8 T X IN 9 T XIN 10 T XIN 11 L VD SV CC L VD SG ND L VD SG ND L VD SG ND T XIN 12 T XIN 13 T XIN 14 T XIN 15 T XIN 16 T XIN 17 P LLV CC P LLG ND P LLG ND T XIN 18 T XIN 19 T XIN 20 N /C G ND G ND G ND G ND G ND T XC LK IN /P W R DW N A GP A V DD 1 DCLKAV DD F 16 B K2 1 2 5H S3 30 C1 52 C3 54 4 .7U 4 .7U .01U E 16 L 57 DA CA VD DB E 14 B K2 1 2 5H S3 30 C3 20 C3 26 C3 52 4 .7U 4 .7U .01U Y 1M Y 1P 35 34 Y 2M Y 2P 33 32 CLKO UT M CLKO UT P 37 LVDSVCC Y 0M Y 0P 7 7 Y 1M Y 1P 7 7 Y 2M Y 2P 7 7 C LK OU T M C LK OU T P 7 7 VC L 74 B K2 1 2 5H S3 30 C6 03 C6 04 C6 14 36 42 31 .01U .1U 4 .7U L 73 29 PLLV CC B K2 1 2 5H S3 30 C5 94 C6 02 C5 93 30 28 .01U 43 24 17 11 5 46 Z 90 .1U 4 .7U T 4 .7K T T T T S HF CL K SHF CLK T T R7 48 0 Z8 03 R6 17 0 DO T CLK C7 01 C5 85 10 P(R) 10 P(R) D OT CLK 8 a“ æU 25 Z 89 A GP _ CLK R4 72 11 P [0 ..17 ] 8 .2K R4 71 59 V CC 3 R N 25 P 0 _0 P 1 _0 P 2 _0 P 3 _0 1 2 3 4 P 13 _0 P 12 _0 P 6 _0 P 7 _0 1 2 3 4 P 8 _0 P 9 _0 P 10 _0 P 11 _0 1 2 3 4 P 5 _0 P 4 _0 P 15 _0 P 14 _0 1 R N 26 2 3 4 8 7 6 5 P0 P1 P2 P3 8 7 6 5 P 13 P 12 P6 P7 8 7 6 5 P8 P9 P 10 P 11 8 7 6 5 P5 P4 P 15 P 14 P [0 ..17 ] B K2 1 2 5H S3 30 V CC 3 C4 06 C1 16 C4 23 .01U 4 .7U 4 .7U R N 17 8P 4 R-0 DC L K A V DD DC L K A V SS A GP A V DD 2 A D 10 AE 9 A GP V S S RE F DA CA VS S B AD8 R N 18 L 59 AG PAVDD1 J 3 2 16 H S48 0NT DA CA VD DB A GP A V SS 2 D 14 L 26 A E 10 AG PAVDD0 E C L K A V SS A GP A V SS 1 C1 53 Y 0M Y 0P 39 38 8P 4 R-0 .01U L 44 41 40 S N 75L V DS 84A C3 53 E 15 V CC 3 E C L K A V DD A GP R CO MP C1 51 44 45 47 48 1 3 V RE F SiS630S-4 E CLKAV DD U2 AC1 A G2 AB 3 AB 4 AB 6 AA 5 AB 5 21 14 8 2 P0 P1 P2 P3 P4 P5 U 25D V BC A D /A R EQ # V B HC LK /R B F# V B CT L0 /W B F# V BC T L 1 /P IPE # S SY NC .01U L 43 V CC 3 4 .7U P [0 ..17 ] 8 P [0 ..17 ] V2 V3 V4 V5 W3 W4 Y1 U3 T1 T4 T5 U1 W5 V1 U4 U5 AG P Interface DD C 1DA T A DD C1 CLK C3 55 F 20 V CC 3 C5 96 .01U PR0 P 5 _0 P 4 _0 P 3 _0 P 2 _0 P 1 _0 P 0 _0 P 11 _0 P 10 _0 P 9 _0 P 8 _0 P 7 _0 P 6 _0 P G1 P G0 Z6 24 S B_ S T B SB _S T B # L 58 V CC 3 C5 95 .01U R A A D27 /R 7 A A D26 /R 6 A A D25 /R 5 A A D24 /R 4 A A D23 /R 3 A A D22 /R 2 A A D21 /R 1 A C B E 3# /R 0 Z6 33 C S B A 3 /G 7 S B A 4 /G 6 S B A 5 /G 5 S B A 6 /G 4 A A D31 /G3 A A D28 /G2 A A D30 /G1 A A D29 /G0 0 C1 49 AB 2 Y6 AA 4 AA 3 Y4 Y5 Y2 Y3 AD6 A G1 A F3 A F2 A F1 AE 4 AE 3 AE 2 AE 1 AD5 AD4 AD1 AC4 AC3 AC2 AC5 R3 32 A AD 0 A AD 1 A AD 2 A AD 3 A AD 4 A AD 5 A AD 6 A AD 7 A AD 8 A AD 9 A A D 10 A A D 11 A A D 12 A A D 13 A A D 14 A A D 15 B LUE P 17 _0 P 16 _0 P 15 _0 P 14 _0 P 13 _0 P 12 _0 T T Z6 32 PB1 PB0 0 R6 24 C A FR AME # /B 7 A IRD Y # /B 6 A A D16 /B 5 A C B E 2# /B 4 A A D18 /B 3 A A D17 /B 2 A A D20 /B 1 A A D19 /B 0 R3 33 C1 48 9 B LUE C6 15 .01U 10 K T T T T T T T T T T T T T T T T G RE EN A AD 0 A AD 1 A AD 2 A AD 3 A AD 4 A AD 5 A AD 6 A AD 7 A AD 8 A AD 9 A A D 10 A A D 11 A A D 12 A A D 13 A A D 14 A A D 15 9 G RE E N C6 16 R6 25 C1 46 8P 4 R-0 V CC 3 R4 47 C4 05 C4 35 1 K(R) .01U .01U 8P 4 R-0 AA 2 P 16 _0 R4 48 0 P 16 P 17 _0 R 91 0 P 17 ´ ¯ ⁄ CLEVO „q ‚ £ CO. C L EV O C O. S iS 63 0S T it le SiS630S V GA INTERFACE Size Docum ent Num ber C us tom Date: 71-51S00-D02 Monday, S eptem ber 18, 2000 S heet 6 of V CC 3 V CC 3 +12 V R6 1 6 C6 9 C6 3 5 4.7U .1U R6 2 0 R6 3 8 V CC 3 U9 1 D 2 D 3 G 1M R6 3 7 Z29 4 10K E NA V DD # R6 3 9 6,8 E NA V DD # 0 D S 0 E NA B K K L E NAB L E NAB L 6 D Q7 8 S 2N 700 2 LC DV DD 5 4 C6 3 4 C6 2 6 C7 4 .1U 4.7U 6 EN A BK KL # EN A BK KL # 8 D IS P OFF # D IS P OFF # G FOR DS TN .1U R6 2 3 R D Q7 9 S 2N 70 02(R) G FP _V DD EN 8 FP _V DD EN D S I3 45 6DV D Q2 S 2N 700 2 G Z61 2 E NA B K K L 10K LC DV DD C ON T A D J B RIG AD J FOR D STN C ON T A D J B RIG AD J 1 9 C6 2 5 C6 2 4 C6 0 1 C6 0 0 C6 1 2 C6 1 3 .1U 4.7U .1U 4.7U .1U 4.7U FOR DS TN V CC +12 V 8 8 LP FLM LP FLM R7 4 9 R7 5 0 D6 6 A C F1J 4 D6 5 A C F1 J 4(R) CN 6 IN V V CC E NAB L 1 9 B RIG AD J E NAB L B RIG AD J 8 D IS P OFF # Z80 4 Z80 2 D IS P OFF # 0 0 C7 0 2 C C7 0 3 C CL2 CO NT ADJ 57 8 CL 2 C ON T A D J 8 LDE 8 PA N ELID 0 8 PA N ELID 1 LDE PA N ELID 0 PA N ELID 1 LC DV DD 6 6 Y0 M Y0 P 6 6 Y1 M Y1 P 6 6 Y2 M Y2 P 6 C LK OU T M 6 C LK OU T P Y0M Y 0P R4 4 R4 3 18 18 T X OU T U 0T X O UT U0 + Y1M Y 1P R4 0 R3 9 18 18 T X OU T U 1T X O UT U1 + Y2M Y 2P R3 8 R3 4 18 18 T X OU T U 2T X O UT U2 + CLKO UT M CLKO UT P R3 3 R3 2 18 18 T XC LK UT X CL K U + C6 3 2 C6 3 3 C6 4 3 C6 4 4 C6 4 5 C6 4 8 C6 4 9 C6 5 5 10P 10P 10P 10P 10P 10P 10P CN 9 Z56 9 1 1 Z57 0 2 2 Z57 1 3 3 Z57 2 4 4 Z57 3 5 5 Z57 4 6 6 7 7 Z57 5 8 8 Z57 6 9 9 Z57 7 10 10 Z57 8 11 11 Z57 9 12 12 Z58 0 13 13 14 14 Z58 1 15 15 Z58 2 16 16 Z58 3 17 17 Z58 4 18 18 Z58 5 19 19 Z58 6 20 20 21 H RS _R _H EA D2 0 22 23 24 25 26 27 28 29 30 H RS _R _H EA D3 0 R5 4 4 R5 4 5 R5 4 8 R5 4 9 R5 5 0 R5 6 0 0 0 0 0 0 0 T FT _B 0 T FT _B 1 DS T N_ UD 0 DS T N_ UD 1 DS T N_ UD 2 DS T N_ UD 3 R5 6 1 R5 8 2 R5 8 3 R5 8 4 R5 9 6 R5 9 3 0 0 0 0 0 0 DS T N_ UD 4 DS T N_ UD 5 DS T N_ UD 6 DS T N_ UD 7 D ST N _ LD 0 D ST N _ LD 1 R5 9 7 R5 9 4 R5 9 8 R5 9 5 R6 0 4 R6 0 3 0 0 0 0 0 0 D ST N _ LD 2 D ST N _ LD 3 D ST N _ LD 4 D ST N _ LD 5 D ST N _ LD 6 D ST N _ LD 7 T FT _B 0 8 T FT _B 1 8 DS T N_ UD 0 DS T N_ UD 1 DS T N_ UD 2 DS T N_ UD 3 DS T N_ UD 4 DS T N_ UD 5 DS T N_ UD 6 DS T N_ UD 7 D ST N _ LD 0 D ST N _ LD 1 D ST N _ LD 2 D ST N _ LD 3 D ST N _ LD 4 D ST N _ LD 5 D ST N _ LD 6 D ST N _ LD 7 C5 1 3 C5 1 4 C5 2 0 C5 2 1 C5 2 2 C5 4 0 C5 4 1 C5 4 6 C5 4 7 C5 4 8 C5 5 9 C5 5 6 C5 6 0 C5 5 7 C5 6 1 C5 5 8 C5 7 1 C5 7 0 R R R R R R R R R R R R R R R R R R 10P V CC R6 6 2 5.6K Near SiS630S and place top side V CC 3 1 2 S5 4 3 R5 1 6 4.7K MD D3 3 R5 1 7 4.7K MD D3 9 Z74 0 R5 1 5 Z74 1 R5 1 4 4.7K 4.7K MD D3 2 MD D3 6 MD D3 3 MD D3 9 MD D3 2 MD D3 6 3,4 3,4 3,4 3,4 HC H_ DIP SW _ 2 V CC MD39 1: LVDS 0: CMOS MD36 1: 1024*768 0: 800*600 R6 4 8 16,17 ,1 9,2 0 16,17 ,1 9,2 0 16,17 ,1 9,2 0 16,17 ,1 9,2 0 16,17 ,1 9,2 0 16,17 ,1 9,2 0 16,17 ,1 9,2 0 16,17 ,1 9,2 0 P CSS 1 10K V CC MD32,MD33: PANEL ID 1 6 P CS 1 Panel 1 2 1 2. 1 " ID SAN Y O TM 1 2 1S V -0 2L 04 Sa m su ng L T1 21 S U -1 21 V M D 39 V M D 36 V M D 33 V M D 16 32,1 7,1 9 IO W R # 1 1 0 0 1 0 1 0 3 ADI A A1 2 1S J 03 0 0 0 0 4 IBM I TS V 5 3C 1 0 0 0 0 SD 0 SD 1 SD 2 SD 3 SD 4 SD 5 SD 6 SD 7 SD 0 SD 1 SD 2 SD 3 SD 4 SD 5 SD 6 SD 7 P CS 1 1 IO W R # 2 3 U5 0 IN 1 V CC 5 3 4 7 8 13 14 17 18 11 1 U8 D0 D1 D2 D3 D4 D5 D6 D7 Q0 Q1 Q2 Q3 Q4 Q5 Q6 Q7 V CC LE G ND OE 74H C T 37 3 2 5 6 9 12 15 16 19 Z61 3 Z61 4 Z61 5 Z61 6 Z61 7 Z61 8 Z61 9 Z62 0 R6 5 9 R6 5 8 R6 5 7 R6 5 0 R6 4 9 R6 5 4 R6 5 5 R6 5 6 20 10 680 K 330 K 160 K 82K 39K 20K 10K 4.7K S Z62 5 Q1 D C ON T A D J C ON T A D J G C5 9 1U N D S 35 2 Z62 6 R6 6 1 R3 0 2.2K D Q8 0 2N 700 2 S 10K G F P _V C ON EN V CC F P _V C ON EN 8 V CC C6 5 6 .1U IN 2 G ND O UT S N 7 4A HC T 1G0 2 4 C6 6 9 FOR D STN .1U CLEVO „q ‚ £ CO. C L EVO C O. ´ ¯ ⁄ T it le LCD INTERF ACE Size B Date: Docum ent Num ber 71-51S00-D02 M onday, Septem ber 18, 2000 Sheet 7 of V CC 3 12 L_ T XD 1 7 L_ T XD 1 4 L_ T XD 0 12 L_ T XD 0 16 V CC C5 5 0 6 M I1D I0D YD 9 L_ T XD 2 12 L_ T XD 2 E# YC YB I1C I0C I1B I0B YA V CC I1A I0A 13 14 L_ R XE E R 92 11 S DO L_ R XE E R 13 10 11 L_ T X DD 2 92 11 S CS L_ T X DD 2 13 6 5 L_ T X DD 1 92 1 1 S D IN L_ T X DD 1 13 3 2 L_ T X DD 0 9 211 S CL K L_ T X DD 0 13 5P 6 P [ 0.. 17] DOT CLK 6 D OT CL K 6 V B H SY NC 6 V B V SY NC P [ 0.. 17] V B H SY NC V B V SY NC 76 79 78 85 86 96 P0 P1 P2 P3 P4 P5 V CC 3 1 2 3 4 RN 72 8 7 6 5 8P 4 R-1 0K 9,1 0,1 3 ,1 4,1 6, 21 ,2 3 P C IR S T # P6 P7 P8 P9 P 10 P 11 93 92 87 94 98 1 00 P 12 P 13 P 14 P 15 P 16 P 17 80 82 83 81 84 88 P C IR S T # 44 R5 6 5 R5 5 2 R5 6 6 10 K 10 K 10 K T 58 R5 6 7 R5 6 9 7 P A N EL ID 0 7 P A N EL ID 1 Z5 98 Z5 99 Z6 00 45 47 46 Z5 97 48 49 9 211 _O S C 16 9 211 _O S C V CC 3 1 01 77 95 75 97 99 E NA LCD IN E N AV DD E NA LCD IN E N AV DD M 92 11 S DO 92 11 S CS 92 1 1 S D IN 9 211 S CL K 40 41 43 42 Q S 32 57 .1U C7 0 4 U S E RS W # 19 1 17 37 55 72 91 1 08 1 25 12 U S E RS W # LP S H FCLK FL M S CLK S D IN S CS S DO LD 2 LD 3 E N A_ LCD IN E N A_ V DD IN E NA _DIS P D OT CL K F P_ H SY NC F P_ V SY NC LD 4 LD 5 LD 6 LD 7 LD 1 0 LD 1 1 UD 0 UD 1 R ED 0 R ED 1 R ED 2 R ED 3 R ED 4 R ED 5 UD 2 UD 3 UD 6 UD 7 UD 8 UD 9 UD 10 UD 11 G RE EN 0 G RE EN 1 G RE EN 2 G RE EN 3 G RE EN 4 G RE EN 5 B LUE 0 B LUE 1 B LUE 2 B LUE 3 B LUE 4 B LUE 5 R ST # LD 0 LD 1 LD 8 LD 9 UD 4 UD 5 DI SP OF F# F P_ V DD E N FP _ VC ON E N LDE T ES TA T E ST _ SE S C AN _ EN MA 0 MA 1 MA 2 MA 3 MA 4 MA 5 MA 6 MA 7 MA 8 MA 9 MA 10 X T A LIN X T AL O UT 20 K 20 K R5 7 0 R5 6 8 R 51 R 50 R 49 R 48 R 47 R 46 P A N EL ID 0 P A N EL ID 1 V CC 3 3 30 3 30 10 0K 10 0K 10 0K 10 0K 10 0K 10 0K Z5 89 Z5 90 Z5 91 Z5 92 Z5 93 Z5 94 Z5 95 Z5 96 70 69 68 67 66 65 64 63 50 51 52 53 56 57 58 59 60 61 62 74 GP IO 0 GP IO 1 GP IO 2 GP IO 3 GP IO 4 GP IO 5 GP IO 6 GP IO 7 MD 0 MD 1 MD 2 MD 3 MD 4 MD 5 MD 6 MD 7 MD 8 MD 9 MD 10 MD 11 MD 12 MD 13 MD 14 MD 15 NC NC NC NC NC NC NC NC NC NC NC NC CS # WE# R AS # C A S L# CA SH # O E #/ B A C KE # D QML DQ MH V CC 3 10 K E N AV DD E N AV DD 19 54 V S S 89 V S S 1 28 V S S V SS R5 7 1 C 79 C5 8 4 C5 6 2 C5 4 3 C5 4 4 C5 4 5 C6 1 7 .1U .1U 10 U .1U .1U .1U .1U U 44 V DD IO V DD IO V DD IO V DD IO V DD IO V DD IO V DD IO V DD IO 15 L _RX ER 1 V S S IO V S S IO V S S IO V S S IO V S S IO V S S IO V S S IO Z6 57 S 2 18 38 71 90 1 09 1 26 1K G ND 36 73 1 44 R5 8 6 12 L _RX ER U 43 V DD V DD V DD 8 CLK C S 92 11 31 30 33 LP P A N _CLK FL M LP 7 P A N _CLK FL M 7 27 26 T F T _B 0 T F T _B 1 T F T _B 0 T F T _B 1 25 24 23 22 16 15 14 13 D S T N _UD 0 D S T N _UD 1 D S T N _UD 2 D S T N _UD 3 D S T N _UD 4 D S T N _UD 5 D S T N _UD 6 D S T N _UD 7 D S T N _UD 0 D S T N _UD 1 D S T N _UD 2 D S T N _UD 3 D S T N _UD 4 D S T N _UD 5 D S T N _UD 6 D S T N _UD 7 12 11 8 7 6 5 4 3 Z6 06 Z6 07 Z6 08 Z6 09 Z6 10 Z6 11 39 34 35 DI SP OF F# F P_ V DD E N FP _ VC ON E N 32 LDE 7 7 7 7 7 7 7 7 V CC 3 PA N_CLK P A N _CLK DS T N _ LD 0 DS T N _ LD 1 DS T N _ LD 2 DS T N _ LD 3 DS T N _ LD 4 DS T N _ LD 5 DS T N _ LD 6 DS T N _ LD 7 29 28 21 20 10 9 7 7 DS T N _ LD 0 DS T N _ LD 1 DS T N _ LD 2 DS T N _ LD 3 DS T N _ LD 4 DS T N _ LD 5 DS T N _ LD 6 DS T N _ LD 7 R5 9 9 1 0K (R) R6 0 0 0 CL2 7 7 7 7 7 7 7 7 C L2 7 C5 7 2 1 0P (R) T T T T T T DI SP OF F# 7 F P_ V DD E N 7 FP _ VC ON E N 7 LDE U 11 7 1 36 1 38 1 43 1 42 1 41 1 40 1 39 1 37 1 34 1 32 1 35 S D MA 0 S D MA 1 S D MA 2 S D MA 3 S D MA 4 S D MA 5 S D MA 6 S D MA 7 S D MA 8 S D MA 9 S D MA 10 21 22 23 24 27 28 29 30 31 32 20 1 03 1 05 1 07 1 11 1 13 1 15 1 17 1 19 1 18 1 16 1 14 1 12 1 10 1 06 1 04 1 02 S D MD 0 S D MD 1 S D MD 2 S D MD 3 S D MD 4 S D MD 5 S D MD 6 S D MD 7 S D MD 8 S D MD 9 S D MD 10 S D MD 11 S D MD 12 S D MD 13 S D MD 14 S D MD 15 2 3 5 6 8 9 11 12 39 40 42 43 45 46 48 49 1 31 1 22 1 30 1 27 1 24 1 33 1 29 1 20 1 21 S DR AMCS # S D RA MW E # S D RA MR A S # S D RA MC A S # Z5 88 T S DR AMB A S D RA MC K E S D RA MD QML S DR AMDQ MH 1 23 S DR AMCLK 1 2 3 4 RN 64 1 2 3 4 RN 65 R6 4 0 8 7 6 5 8 P4 R -10 8 7 6 5 8 P4 R -10 10 S D CS # S DW E # S DR AS # S DC AS # 18 15 17 16 S D BA S DC KE S DD QML S D DQ MH 19 34 14 36 S D CL K 35 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A 10 AP DQ 0 DQ 1 DQ 2 DQ 3 DQ 4 DQ 5 DQ 6 DQ 7 DQ 8 DQ 9 DQ 10 DQ 11 DQ 12 DQ 13 DQ 14 DQ 15 CS # WE# R AS # C AS # V CC 3 V DD V DD V D DQ V D DQ V D DQ V D DQ NC NC RFU V S SQ V S SQ V S SQ V S SQ V SS V SS 1 25 C6 2 8 C6 2 7 C6 1 9 C6 2 1 C6 2 0 C6 1 8 C 76 7 13 38 44 33 37 .1U Z6 05 .1U .1U .1U .1U .1U 10 U T 47 41 10 4 50 26 BA C KE LD QM UD QM CLK K M41 6S 11 20 DT -G /F 1 0 C 6, 7 E N AV DD # V CC 3 B Q 77 E D T C 114 E UA R6 4 1 20 K E NA LCD IN R6 4 2 R E N AV DD # E NA LCD IN CLEVO CO. ´ ¯ ⁄ „q ‚ £ C LE VO C O . T it le TFT TO DSTN - CS9211 Size Docum ent Num ber C us t om Date: 71-51S00-D02 Monday, Sept em ber 18, 2000 S heet 8 of 1 4,2 3 IDEA VDD AD[ 0.. 31] A D[0 ..3 1 ] R 496 0 V C C1 .8 AD0 AD1 AD2 AD3 AD4 AD5 AD6 AD7 AD8 AD9 AD10 AD11 AD12 AD13 AD14 AD15 AD16 AD17 AD18 AD19 AD20 AD21 AD22 AD23 AD24 AD25 AD26 AD27 AD28 AD29 AD30 AD31 C 448 C 449 C 453 .00 1 U .1 U 4 .7 U C1 C2 C3 PG NT #2 PG NT #1 PG NT #0 D2 D3 D4 C/ BE#3 C/ BE#2 C/ BE#1 C/ BE#0 F3 H4 J1 L1 INT #A INT #B INT #C INT #D N1 P4 P5 P3 PG NT #[ 0. . 2] 1 4 P GN T # [0..2 ] 1 4,2 3 P REQ#2 P REQ#1 P REQ#0 C/ BE#[ 0. . 3] C /B E # [0..3 ] 1 4 INT # A INT # B INT # C INT # D 1 4,2 3 FR A ME # 1 4,2 3 IRDY # 1 4,2 3 T RDY # 1 4 S T OP # 1 4 S E RR # 14 PA R 1 4 DE V S E L # P L OCK # H3 H2 H1 J2 SERR# PAR DEVSEL# P LO CK# B 11 M6 J3 L4 630PCLK P CIRS T # R 136 33 Z 1 00 A J 15 C 11 P G NT # [2] P G NT # [1] P G NT # [0] IDS A A [2 ] IDS A A [1 ] IDS A A [0 ] C/B E # [3 ] C/B E # [2 ] C/B E # [1 ] C/B E # [0 ] INT A # INT B # INT C # INT D # IC HR DY B IDR E Q[B ] IIRQ B CB L ID B FR A ME # IRDY # T RDY # S T OP # IIO R#[B ] IIOW # [B ] IDA C K # [B ] S E RR # PA R DE V S E L # P L OCK # 6 GR E E N 6 BLU E P IO RD Y P D RE Q IDE -IRQ 1 4 CB L ID A AH 8 A F8 A J8 P DIOR # P D IO W # P D A CK # AD 14 AE 14 AG9 P DA 2 P DA 1 P DA 0 A F1 0 A J9 C S3P # C S1P # AH 13 AD 17 A F1 5 AG15 S IO RD Y S D RE Q IDE -IRQ 1 5 CB L ID B AG13 A F1 3 A J 13 S DIOR # S D IO W # S D A CK # AG14 A F1 4 AD 18 S DA 2 S DA 1 S DA 0 A J 14 AH 14 C S3S # C S1S # P IO RD Y 1 0 P D RE Q 1 0 IDE -IRQ 1 4 1 0 CB L ID A 1 0 8 P 4 R-4 .7 K 8 7 6 5 ST OP# PERR# SERR# P LO CK# 8 P 4 R-2 .7 K 8 7 6 5 FRA ME# IRDY # T RDY# DEVSEL# 8 P 4 R-2 .7 K 4 3 2 1 P REQ#0 P REQ#2 PG NT #0 PG NT #2 R 367 4 .7 K P REQ#1 R 366 4 .7 K PG NT #1 R 450 R CB L ID B R 396 R 612 10 K 10 K PAR CLKRUN# 1 2 3 4 C S3P # 10 C S1P # 10 1 2 3 4 S IO RD Y 1 0 S D RE Q 1 0 IDE -IRQ 1 5 1 0 CB L ID B 1 0 5 6 7 8 S DIOR # 1 0 S D IO W # 1 0 S D A CK # 1 0 C S3S # 10 C S1S # 10 RN 8 RN 7 RN 1 9 C/B E # 3 C/B E # 2 C/B E # 1 C/B E # 0 1 4,2 3 1 4,2 3 1 4,2 3 1 4,2 3 INT # A 1 4 INT # D INT # C INT # B S T OP # 1 4 P E RR # 1 4 S E RR # 1 4 P L OCK # FR A ME # 1 4,2 3 IRDY # 1 4,2 3 T RDY # 1 4,2 3 DE V S E L # 1 4 PR EQ#0 PR EQ#2 P G NT # 0 P G NT # 2 14 14 PR EQ#1 P G NT # 1 CB L ID B 10 S i S 63 0 S DD P [0 ..1 5 ] DD P [0 ..1 5 ] 10 DD S [0 ..1 5 ] DD S [0 ..1 5 ] 10 PA R 14 CL K RUN # 1 4,1 7 a“æ 630S CHIP PCI BUS INTERFA CE V CC 3 V GA _ V C C R 82 2 .2 K 2 .2 K C 422 1 2 1 D9 D 58 .01 U C 386 L 35 B K 2 12 5 HS 3 30 .01 U DA 2 21 V GA _ V C C DD CD A L 31 B K 1 60 8 HS 3 30 R 86 D DCL K L 24 B K 1 60 8 HS 3 30 R(0 80 5) RE D L 32 B K 1 60 8 HS 1 21 GR E E N L 33 B K 1 60 8 HS 1 21 BLU E L 28 B K 1 60 8 HS 1 21 CN 1 7 Z91 Z92 Z93 Z94 Z95 Z96 Z 2 97 HS Y N C L 34 B K 1 60 8 HS 1 21 Z97 VS YN C L 25 B K 1 60 8 HS 1 21 Z98 3 Z99 C 131 R 443 33 P C 123 R 407 D7 33 P 7 5_ 1% C 385 C 384 C 403 C 420 C 375 C 421 C 402 33 P 33 P 33 P 2 20 P 2 20 P 2 20 P 2 20 P C 404 .1 U 18 R 426 33 P 7 5_ 1% 19 1 9 2 10 3 11 4 12 5 13 6 14 7 15 8 DA 2 21 7 5_ 1% P A N_ C RT _ DB 1 5 2 C 114 V GA _ V C C DA 2 21 3 R 90 1 6 VS YN C INT #A INT #D INT #C INT #B P DA 2 1 0 P DA 1 1 0 P DA 0 1 0 S DA 2 1 0 S DA 1 1 0 S DA 0 1 0 C/ BE#3 C/ BE#2 C/ BE#1 C/ BE#0 8 P 4 R-8 .2 K 1 2 3 4 8 7 6 5 P DIOR # 1 0 P D IO W # 1 0 P D A CK # 1 0 T T 6 HS Y N C RN 2 4 8 P 4R -1 0 K 8 7 6 5 DDP 0 DDP 1 DDP 2 DDP 3 DDP 4 DDP 5 DDP 6 DDP 7 DDP 8 DDP 9 D DP 1 0 D DP 1 1 D DP 1 2 D DP 1 3 D DP 1 4 D DP 1 5 DDS 0 DDS 1 DDS 2 DDS 3 DDS 4 DDS 5 DDS 6 DDS 7 DDS 8 DDS 9 D DS 1 0 D DS 1 1 D DS 1 2 D DS 1 3 D DS 1 4 D DS 1 5 RE D ID E C S B # [1] ID E C S B # [0] AE 13 AG8 A F9 AH 9 RN 6 3 VC C 2 6 IDS A B [2 ] IDS A B [1 ] IDS A B [0 ] IDE Interface P CICL K P CIRS T # 3 6 D DCL K ID E C S A # [1] ID E C S A # [0] SiS630S-2 59 6 DD CD A AH 15 IIO R#[A ] IIOW # [A ] IDA C K # [A ] V GA _ V C C VC C IC HR DY A IDR E Q[A ] IIRQ A CB L ID A PCI Interface AE 17 A G 1 2 IDB 0 A F1 2 IDB 1 A H 1 1 IDB 2 A E 1 6 IDB 3 A J 1 0 IDB 4 A D 1 5 IDB 5 A E 1 5 IDB 6 A G 1 0 IDB 7 A H 1 0 IDB 8 A F1 1 IDB 9 A G 1 1 IDB 1 0 A J 1 1 IDB 1 1 A D 1 6 IDB 1 2 A H 1 2 IDB 1 3 A J 1 2 IDB 1 4 IDB 1 5 1 1 6 30 P CL K 8 ,1 0 ,1 3 ,14 ,1 6,2 1,2 3 P CIRS T # FRA ME# IRDY # T RDY# ST OP# P R E Q # [2] P R E Q # [1] P R E Q # [0] AE 8 A E 1 2 IDA 0 A G 7 IDA 1 A J 6 IDA 2 A D 1 2 IDA 3 A F6 IDA 4 A E 1 1 IDA 5 A H 5 IDA 6 A J 5 IDA 7 A E 6 IDA 8 A G 6 IDA 9 A H 6 IDA 1 0 A F7 IDA 1 1 A H 7 IDA 1 2 A J 7 IDA 1 3 A D 1 3 IDA 1 4 IDA 1 5 1 4 P RE Q# [0..2 ] 1 2 3 4 U2 5 B ID E A V D D PREQ#[ 0. . 2] AD 31 AD 30 AD 29 AD 28 AD 27 AD 26 AD 25 AD 24 AD 23 AD 22 AD 21 AD 20 AD 19 AD 18 AD 17 AD 16 AD 15 AD 14 AD 13 AD 12 AD 11 AD 10 AD 9 AD 8 AD 7 AD 6 AD 5 AD 4 AD 3 AD 2 AD 1 AD 0 D1 E4 J4 E3 K6 E2 E1 F4 F2 K5 F1 G4 G3 G2 G1 L5 K4 K3 M5 K2 K1 L3 N6 L2 M4 N5 M3 M2 M1 N4 P6 N3 V CC 3 CN 1 7 P IN 1 8 -3 5 -> GN D .01 U CO. „qCLEVO ‚£ C L E V O C O. ´ ¯ ⁄ V GA _ V C C C 124 T it le SiS630S IDE INTERFA CE Siz e Docum ent Num ber Cu s to m Dat e: 71-51S00-D 02 Monday, Septem ber 18, 2000 Sheet 9 of 8 ,9 ,1 3, 14,1 6,21 ,2 3 PC I RS T # PC I RS T # C8 9 9 9 9 9 DD P 6 DD P 7 DD P 8 DD P 9 9 DD P 4 9 DD P 5 9 D D P1 0 9 D D P1 1 P DD P 2 P DD P 3 PD D P 1 2 PD D P 1 3 P DD P 0 P DD P 1 PD D P 1 4 PD D P 1 5 RN9 8 7 6 5 DD P 6 DD P 7 DD P 8 DD P 9 8 7 6 5 DD P 4 DD P 5 D D P1 0 D D P1 1 P DD P 2 P DD P 3 PD D P 1 2 PD D P 1 3 R N1 0 R N1 1 1 2 3 4 P DD P 0 P DD P 1 PD D P 1 4 PD D P 1 5 1 2 3 4 R N1 2 9 ID E -I R Q1 4 9 P IO R DY 9 PD R E Q ID E -I R Q1 4 R 53 1 8P 4R -1 0 1 2 3 4 1 2 3 4 8P 4R -1 0 8P 4R -1 0 8 7 6 5 8 7 6 5 R P DD P 6 P DD P 7 P DD P 8 P DD P 9 P DD P 4 P DD P 5 PD D P 1 0 PD D P 1 1 DD P 2 DD P 3 D D P1 2 D D P1 3 DD P 0 DD P 1 D D P1 4 D D P1 5 P DD P 6 P DD P 7 P DD P 8 P DD P 9 P DD P 4 P DD P 5 PD D P 1 0 PD D P 1 1 P PD R EQ P PD I OW # PP D IO R # P P IO R DY PP D A C K # P HD I RQ P PD A 1 P PD A 0 PC S 1P # PH D _L E D # P PD R EQ P PD I OW # PP D IO R # P P IO R DY PP D A C K # P HD I RQ P PD A 1 P PD A 0 PC S 1P # PH D _L E D # DD P 2 9 DD P 3 9 D D P1 2 9 D D P1 3 9 DD P 0 9 DD P 1 9 D D P1 4 9 D D P1 5 9 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 P DD P 7 P DD P 6 P DD P 5 P DD P 4 P DD P 3 P DD P 2 P DD P 1 P DD P 0 P DD P 7 P DD P 6 P DD P 5 P DD P 4 P DD P 3 P DD P 2 P DD P 1 P DD P 0 8P 4R -1 0 82 P HD I RQ P IO R DY R 53 0 10 P P IO R DY PD R E Q R 52 7 82 P PD R EQ Z10 1 T P HD I RQ C N2 2 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 P DD P 8 P DD P 9 PD D P 1 0 PD D P 1 1 PD D P 1 2 PD D P 1 3 PD D P 1 4 PD D P 1 5 Z10 2 P DD P 8 P DD P 9 PD D P 1 0 PD D P 1 1 PD D P 1 2 PD D P 1 3 PD D P 1 4 PD D P 1 5 FD D _V CC 1 3 5 7 9 11 13 15 17 19 21 23 25 T R 53 6 P D_ CS E L P D_ CS E L 1 7 3MOD E # R 74 5 Z73 8 P PD A 2 PC S 3P # P PD A 2 PC S 3P # R 53 5 T R Z10 9 0 Z11 0 Z664 C B LI DA 9 Z663 T R 74 6 HD D _V CC Z10 3 Z10 4 R C B LI DA 3MOD E # Z665 T 0 9 C S 1P # 9 PD A 0 9 C S 3P # 9 PD A 1 C S 1P # PD A 0 C S 3P # PD A 1 1 2 3 4 R N5 0 8 7 6 5 P PD I OW # PP D IO R # P PD A 2 PP D A C K # PC S 1P # P PD A 0 PC S 3P # P PD A 1 Z666 MT R0 # DI R # S TE P # W D AT A # W G AT E # T R K0 # WP# R D AT A # HD S E L # I N DE X D R V0 DS K C T MT R0 DI R # S TE P W D AT W G AT T R K0 WP# R D AT HD S E V CC P PD R EQ P PD I OW # PP D IO R # P PD A 2 PP D A C K # P P IO R DY 9 ID E -I R Q1 4 9 DD P 7 PC S 1P # P PD A 0 PC S 3P # P PD A 1 P PD R EQ P D_ CS E L PH D _L E D # R 53 2 10K P P IO R DY R 52 9 4. 7K ID E -I R Q1 4 R 52 5 10K DD P 7 R 52 4 10K P PD R EQ R 52 8 5. 6K P D_ CS E L R 55 1 47 0 8 7 6 5 C D _V CC SH D _L E D # S S IO R DY SH D _L E D # R5 7 10K S S IO R DY R6 1 4. 7K ID E -I R Q1 5 R5 8 10K DD S 7 R6 2 10K S SD R EQ R 52 2 5. 6K S D_ CS E L R5 6 47 0 R N5 3 8 P 4 R-1K R 53 4 R 62 2 10K 1K 1 2 3 4 22 10 33 33 I N DE X # D R V0 # DS K CH G # A CE S _S _FD D_ FC C2 6 T T HD D _V CC R 47 6 R 48 8 R 44 9 R 48 7 2 4 6 8 10 12 14 16 18 20 22 24 26 2 4 6 8 10 12 14 16 18 20 22 24 26 P P IO R DY PH D _L E D # PD I OW # P D IO R # PD A 2 P D AC K # 1 3 5 7 9 11 13 15 17 19 21 23 25 SP E E D _S _B /B _ H D D4 8 NEAR TO CONNECTOR 9 PD I OW # 9 P D IO R # 9 PD A 2 9 P D AC K # C N1 8 9 ID E -I R Q1 5 9 DD S 7 S SD R EQ S D_ CS E L R D AT A # T R K0 # DS K CH G # I N DE X # 3MOD E # WP# 1 7 R D AT A # 1 7 T R K0 # 1 7 DS K CH G # 1 7 I N DE X # 1 7 3MOD E # 17 WP# 8P 4R -3 3 60 NEAR TO SiS630S C D _V CC HD D _V CC V CC V CC FD D _V CC V CC L2 2 L7 1 J 32 16 HS 48 0 J 32 16 HS 48 0 9 9 9 9 DD S 7 DD S 6 DD S 5 DD S 4 9 9 9 9 DD S 3 DD S 2 DD S 1 DD S 0 DD S 7 DD S 6 DD S 5 DD S 4 R N5 1 R N5 5 5 6 7 8 DD S 3 DD S 2 DD S 1 DD S 0 5 6 7 8 R N5 4 9 ID E -I R Q1 5 9 S IO R DY 9 SD R E Q 5 6 7 8 8P 4R -1 0 8P 4R -1 0 4 3 2 1 4 3 2 1 SD D S 1 2 SD D S 1 3 SD D S 1 4 SD D S 1 5 S DD S 7 S DD S 6 S DD S 5 S DD S 4 S DD S 3 S DD S 2 S DD S 1 S DD S 0 S DD S 8 S DD S 9 SD D S 1 0 SD D S 1 1 S DD S 7 S DD S 6 S DD S 5 S DD S 4 82 CD I RQ S IO R DY R6 0 10 S S IO R DY SD R E Q R 52 3 82 S SD R EQ 9 SD A 1 9 SD A 0 9 C S 1S # 9 C S 3S # SD A 1 SD A 0 C S 1S # C S 3S # 8 7 6 5 R N1 3 22 10 33 33 1 2 3 4 4. 7U S SD A 2 S SD I OW # SS D IO R # SS D A C K # S SD A 1 S SD A 0 SC S 1S # SC S 3S # 8P 4R -3 3 J 32 16 HS 48 0 C 50 1 C 50 2 . 1U 4. 7U C 46 2 C 46 3 C 10 0 . 01U . 1U 4. 7U C 46 1 C9 9 . 1U 4. 7U + C 46 7 + C 52 6 1 00 U / 10V 1 00 U / 10V 8 ,9 ,1 3, 14,1 6,21 ,2 3 PC I RS T # PC I RS T # C 48 9 C9 6 C9 7 C 49 0 C9 8 . 01U . 1U 10U . 1U 4. 7U CD I RQ S S IO R DY S SD R EQ S SD A 2 S SD I OW # SS D IO R # SS D A C K # S SD A 1 S SD A 0 SC S 1S # SC S 3S # C D _V CC R6 5 C 49 5 S DD S 3 S DD S 2 S DD S 1 S DD S 0 8P 4R -1 0 R5 9 R7 4 R7 0 R6 9 R7 1 C 52 5 . 1U 0 Z10 7 R C D_ L CD G ND 2 1 C D_ L 2 1 CD G ND ID E -I R Q1 5 SD A 2 SD I OW # S D IO R # S D AC K # C 48 3 . 01U SD D S 1 2 SD D S 1 3 SD D S 1 4 SD D S 1 5 NEAR TO CONNECTOR 9 SD A 2 9 SD I OW # 9 S D IO R # 9 S D AC K # C 48 2 2 4 3 2 1 S DD S 8 S DD S 9 SD D S 1 0 SD D S 1 1 1 D D S1 2 D D S1 3 D D S1 4 D D S1 5 8P 4R -1 0 5 6 7 8 S DD S 7 S DD S 6 S DD S 5 S DD S 4 S DD S 3 S DD S 2 S DD S 1 S DD S 0 S DD S 7 S DD S 6 S DD S 5 S DD S 4 S DD S 3 S DD S 2 S DD S 1 S DD S 0 S SD I OW # S S IO R DY CD I RQ S SD A 1 S SD A 0 SC S 1S # SH D _L E D # S SD I OW # S S IO R DY CD I RQ S SD A 1 S SD A 0 SC S 1S # SH D _L E D # S D_ CS E L T S D_ CS E L Z10 5 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 C N1 9 A UX A L A G ND R E SE T # DD7 DD6 DD5 DD4 DD3 DD2 DD1 DD0 G ND I OW # I O CH R DY I RQ DA1 DA0 C S1 FX # D AS P # +5V +5V G ND G ND CS E L N .C AU X A R A G ND DD8 DD9 D D1 0 D D1 1 D D1 2 D D1 3 D D1 4 D D1 5 D RQ IO R # G ND D AC K # I O CS 16 # PD I AG DA2 C S3 FX # +5V +5V +5V G ND G ND G ND R ES E R V ED S P EE D _ S _B /B _C DR O M5 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 CD _R CD _R 2 1 S DD S 8 S DD S 9 SD D S 1 0 SD D S 1 1 SD D S 1 2 SD D S 1 3 SD D S 1 4 SD D S 1 5 S SD R EQ SS D IO R # SS D A C K # Z10 6 C B LI DB S SD A 2 SC S 3S # S DD S 8 S DD S 9 SD D S 1 0 SD D S 1 1 SD D S 1 2 SD D S 1 3 SD D S 1 4 SD D S 1 5 S SD R EQ SS D IO R # Z10 8 Q3 D2 C Z11 1 A PH D _L E D # PH D _L E D # R5 5 Z11 2 4. 7K SS D A C K # T E C D _V CC C B LI DB 9 S SD A 2 SC S 3S # Q7 4 R 54 2 Z11 4 4. 7K HD _L E D HD _L E D D6 4 C Z11 3 A C 1 S S 35 5 2N 390 6 SH D _L E D # C 1 S S 35 5 2N 390 6 SH D _L E D # L6 4 E HD D _V CC B D D S1 2 D D S1 3 D D S1 4 D D S1 5 R N5 2 4 3 2 1 B 9 9 9 9 DD S 8 DD S 9 D D S1 0 D D S1 1 2 9 DD S 8 9 DD S 9 9 D D S1 0 9 D D S1 1 1 L7 0 B K 2125 HS 33 0 „qCLEVO ‚£ CCO. LE VO C O . ´ ¯ ⁄ T T itle HDD/CDROM/FDD CONNECTOR NEAR TO SiS630S Size Docum ent Num ber Cu s tom Date: 71-51S00-D02 Monday, Sept em ber 18, 2000 Sheet 10 of ' ƒ‡„s ¥ a“æC L OC K GENER A TOR IC U22 1 15 19 27 30 36 42 C LKVC C L23 CLKVCC VC C3 B K2125H S330 6 C103 C443 C442 C109 C110 C126 C127 C125 C119 C118 C135 C108 .1U 10U .001U .1U .001U .1U .001U .1U .001U .1U 3 16 22 33 39 .001U 470P 10 VD D VD D VD D VD D VD D VD D L27 47 CLKVCC2.5 B K2125H S330 C441 C438 C106 C107 C436 C437 C439 C440 .1U .001U 10U .1U C104 .001U .1U 22P .001U 470P 4 14XIN-1 Y2 VD DPCI GNDR EF GN D GN D GN D GN D FS 3/R EF0 R EF1 C PU2.5_3.3#/24_4 8MHz FS0/4 8MHz GN DPCI 22P S DRA M_F0 S DRA M_F1 S DRA M0 S DRA M1 S DRA M2 S DRA M3 S DRA M4 S DRA M5 S DRA M6 S DRA M7 VD DLCP U GN DL CPU _ST OP# P D# SD RAM_STO P# P CI_ST OP# X1 R94 1 4.318M_E C136 44 7 8 9 11 12 13 14 FS1/PC IC LK_F FS2 /PC IC LK1 PC IC LK2 PC IC LK3 PC IC LK4 PC IC LK5 PC IC LK6 CLKV CC2.5 V2.5 45 43 46 C PUC LK1 C PUC LK2 C PUC LK_F V DDR EF 1M 5 14XIN-2 S DAT A SC LK X2 66MH z-1 66MH z-2 Z119 P CI-2 P CI-3 P CI-4 P CI-5 P CI-6 R88 R479 R458 R457 R456 R433 R434 14-1 R480 R478 25 26 MOD E R99 R98 40 41 28 29 31 32 34 35 37 38 Z120 Z121 Z122 Z123 630SDCLK-1 20 18 17 21 Z127 Z126 Z128 Z687 23 24 S DA_A T FF S CL_A T FF 2 48 22 HCLKCPU 22 630CLK R477 R455 T T T T T MEMCLK-1 MEMCLK-2 MEMCLK-3 MEMCLK-4 Z124 C424 C411 C426 C414 C413 C412 C397 C398 C427 C425 C382 10P 10P 10P 10P 10P 10P 10P 10P 10P 10P 10P T T T S DA_A T FF 15,23 S CL_A T FF 15,23 R685 R686 10K 10K C394 C395 C396 C409 C410 10P 10P 10P 10P 10P HC LKCP U 1 630C LK 3 FS1 FS2 33 PICCLK 33 PCLKT I 33 83626CLK 33 33 33 33 FS1 FS2 PICC LK 1 PC LKTI 14 83626C LK 16 80PORT_C LK 23 869_PC LK 17 A GP_C LK 6 630PC LK 9 80PORT_C LK 869_PC LK A GP_C LK 630PCLK FS3 22 VOSCI 22 83626CLK-14 FS3 V OSCI 6 836 26CLK-14 10K 22 U SBC LK FS0 VC C3 U SBC LK 12 FS0 MEMCLK1 MEMCLK2 MEMCLK3 MEMCLK4 R430 R431 R432 R453 22 22 22 22 R454 22 630SDCLK R93 0 R415 0 16 MEMC LK1 MEMC LK2 MEMC LK3 MEMC LK4 5 5 5 5 6 30SDC LK 3 CP U_ST P# CP U_ST P# 1,12,20 61 IC S9248-135 R735 10K VC C3 C LKVC C R508 100K VR_ON 24,27 C454 .1U VC C3 FS0 FS0 R411 8 7 6 5 2.7K (R) VC C3 V2.5 U18 GN D E N GN D IN GN D OU T GN D A DJ MIC5209B M 1 2 3 4 VC C3 C451 .1U R414 R403 R402 R401 VC C3 2.7K 2.7K 2.7K 2.7K Z115 Z116 Z117 Z118 1 2 3 4 S3 8 7 6 5 R413 R412 R399 R398 3,4 3,4 3,4 3,4 10K 10K 10K 10K MD D44 MD D43 MD D42 MD D41 MDD44 MDD43 MDD42 MDD41 R520 R521 R519 R518 4.7K (R) 4.7K (R) 4.7K (R) 4.7K (R) C450 R507 .1U C101 4.7U 10K_1%(0805) R497 VRIOSE T 10.2K_1% HCH_ DIP SW _4 FS0 BS EL1 FS1 FS2 FS3 FS0 1 BS EL1 FS1 FS2 FS3 CP U Frequ e ncy Ratio Se le ct R400 MD D44 (N MI) 10K (R) 0 = OFF 1 = ON SiS630S CLOCK (FS3) S W2-4 (FS2) (FS1) S W2-3 S W2-2 (FS0) S W2-1 CP U (MH z) S DRA M (MH z) PCI (MH z) R EF (MH z) 0 0 0 1 100 100 33.33 14.318 0 1 0 1 100 133 33.33 14.318 0 1 1 1 133 133 14.318 33.33 N OTE: PC ICLK <37.5MHz 1/2 1/3 1/4 1/5 2/5 2/7 2/9 2/11 1/6 1/7 1/8 Res erved 2/13 2/15 2/3 1/2 MD D43 (INTR) 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 = Non-ST UFF 1 = ST UFF 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 VC C3 MD D42 MD D41 (A20M#) (IGN NE#) 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 C679 1 000P C680 1 000P C681 1 000P C682 1 000P FOR EMI VC C3 V2.5 C683 C684 C685 1 000P 1 000P 1 000P FOR EMI FOR EMI C686 1 000P FOR EMI ´¯ ⁄ „qCLEVO ‚£ C CO. L E VO C O. T it le CLO CK G E NE R A TO R Size Docum ent Num ber C us tom Date: Monday, Septem ber 18, 2000 Rev A 71-51S 00-D02 Sheet 11 of 29 VC C 3 V VD D 3 8 7 6 5 VC C 3 R 475 R 485 R 484 4 .7 K 4 .7 K 4 .7 K 8 P 4 R - 4 .7 K R 353R 368R 385 R 683 10K 10K SU S_ L ED # E X TS MI# 630P W R S W # SCI W A KE # TAL ER T # B7 A7 D8 0 Z1 30 C 8 B8 V R _ H I/L O # G C L _ L O /H I# G V_ G ATE A C IN # R 3 5 4 L _ TXD 3 1 5 V R _ H I/L O # 1 G C L _ L O /H I# G V_ G ATE 2 0 ,2 2 A C IN # 1 3 L _ TXD 3 10K E1 1 C7 B1 2 E1 0 B6 A6 D 13 P W R _ON # 1 9 PW R _ O N # SU S_ L ED # 1 9 E X T S M I# 2 2 6 3 0 PW R SW # 1 9 SC I 1 9 W AKE# 2 TAL ER T # Z 1 3 1A E 7 Z 1 3 2A H 2 T T 4 .7 K E N T E S T N 2 R 105 L _ TXD 0 L _ TXD 1 L _ TXD 2 L _ R XER 1 3 L _ TXC L K 13 L_C OL 13 L_C R S L _ TXD 0 L _ TXD 1 L _ TXD 2 L _ R XER L _ TXC L K L_C OL L_C R S C 12 D 12 E1 7 F1 2 C 10 F1 4 C6 1 3 L_ M D C 1 3 L _ R XC L K L_ M D C L _ R XC L K D9 D 10 PCSPK E1 8 S P D IF E1 2 8 8 8 8 2 0 PC SPK 2 1 S P D IF 1 3 ,2 1 A C _ R S T # B1 0 A1 0 Z6 52 A1 3 A C _S Y N C B1 3 AC _R S T# D 11 C 13 Z6 53 PSO N # A C P IL E D E X T S M I# PW R BT N # R IN G PM E# TH ER M# K B D A T /G P 1 0 K B C L K /G P 1 1 PM D A T /G P 1 2 PM C L K /G P 1 3 K L O C K# /G P 1 4 /T X D AG 4 0 AF 4 1 AJ 4 2 AE5 3 AF 5 LD R Q # AH 4 L F R AM E# AG 5 S IR Q NMI S M I# IN T R A2 0 M # IN IT # IG N N E # FER R # ST PC L K# C P U S T O P # /C P U S L P C PU In te r fa c e KB C In te r fa c e R ESER VE2 R ESER VE1 SM C L K SM B SM BD AT In te r fa cT XeE N /G P 1 5 /S M B A L EN T EST G P 0 /P R E Q # 3 /T XD [ G P 1 /P G N T # 3 /T XD [ G P 2 /L D R Q 1 # /T XD [ G P 3 /R X E R G P 4 /T X C L K G P5 /C O L G P6 /C R S M AC In te r fa c e S iS 63 0S -5 G P 8 /M D C G P 9 /R X C L K US B In te r fa c e SPK U SBC L K4 8 M AC _ SYN C A1 2 0 1 2 3 AU XO K BATO K PW R O K R TC VSS L55 S D A TI -M B K1 6 0 8 H S 3 3 0 R 340 C 307 C 319 C C 100K L48 SD ATAI XD XD XD XD C 170 C C 4 .7 K U V 0U V 0+ U V 1U V 1+ U V 2U V 2+ U V 3U V 3+ U V 4U V 4+ U V 5U V 5+ 1 .1 U 4 .7 U R 351 470K R 339 L _ R XD V1 3 L _ M D IO 1 3 U SBVC .0 1 U 560K U SBVC C 106 114 394 107 393 115 116 382 381 383 15K 15K 15K 15K 15K 15K 15K 15K 15K 15K 22 22 U SBP0 + U S B P0 - L41 L38 L40 C 370 R 352 15K C 338C 346 47P 47P R 122 15K 22P 22P 1 3 2 4 5 6 C N 12 V+ U SB+ U SB GND GND GND U SB_ R _ T 4 NEAR TO CONNECTOR NEAR TO SiS630S U S B CLK Z1 37 Z1 38 Z1 39 J3 2 1 6 H S4 8 0 N 1 6 08 Z 3 0 1 N 1 6 08 Z 3 0 1 C 361 U SBC L K 1 1 C 350 VD D 3 C R (0) R 364 3 PW R G O O D 150K MR # 4 Z1 40 R 365 10K R ESET# 1 P W R OK VC 5 PW R C 360 R S T - IN VC C GND 2 C _0805 L_R L_R L_R L_R D 5 Z1 35 R 68 4 S iS 6 3 0 S M AX 6 3 0 6 100K L _ R XD 0 L _ R XD 1 L _ R XD 2 L _ R XD 3 XD XD XD XD .1 U 01 3 11 3 21 3 31 3 10 25MH z T C 663 10P Z7 28 3 1 Y3 O SC VC C NC GND 25 M O SC VC C 1 .8 R 3 4 1 61.9K _1% R 330 1 0 0 K_ 1 % Z5 87 3 4 2 10M Y4 U SBVC C C 3 3 9 PO L YFU SE OC 0# R 384 R 395 R R R R R R R R R R 4 .7 K C 143 VC C 3 U 31 C 692 .1U VC C A 4 VC C 1 PW R G O O D R ESET# 1 P W R OK PW R VC C 5 PW R G O O D VC C 3 GND 2 C 325C 145 L T C 1 7 2 8 ES5-5 Q91A D T B 1 1 4 EK ( S O T - 3 2 3 ) 2 3 2 .7 6 8 K _ C C 333 C 332 10P 10P .1 U PW R _O N VD D 3 .1 U P W R _ O N1 9 ,2 2 ,2 3 ,2 5 ,2 8 ,2 9 Q91 D T B 1 1 4EK( SO T - 23 ) R 445 C 163 4 .7 K R 579 F3 SM BC L K 2 3 SM BD ATA 2 3 L _ TXEN 1 3 L _ R XD V L _ M D IO C9 [0 ] B 9 [1 ] E 1 3 [2 ] A 9 [3 ] Z6 51 B K1 6 0 8 H S 3 3 0 4 .7 K R 633 4 .7 K C 347 OC 0# OC 0# S MB CLK S MB D A TA L _ TXEN D 5 1 1 S S 3 5 5 (R ) A C O C 0# Z6 50 R 308 1 3 ,2 1 S D A T A I R R R R L AN C L K2 5 M Z1 34 1 3 S D A T I- M R 555 4 .7 K C 141 M II In te r fa c e F1 3 F1 7 VSSA N 2 4 VSSB U 2 4 VSSC VSSD R TC V D D B4 A3 4 .7 K U 28 RT C In te r fa c e O SC 3 2 KH O R TC V D D A 4 R 444 J3 2 1 6 H S4 8 0 VC C R 363 O S C 3 2 KH I R TC V D D 4 .7 K Z1 36 VC C 1 PW R G O O D R 123 C 678 .1 U 4 .7 K ( R ) L39 NMI 1 S M I# 1 IN T R 1 A2 0 M # 1 IN IT # 1 IG N N E # 1 FER R #1 S T P C L K # 1 ,2 0 C P U _ S T P # 1 ,1 1 ,2 0 AC _ R ESET# A C _ B IT _ C L K B5 A5 C5 C4 A U X OK B A TO K P W R OK K 4 .7 K R 585 L _ TXC L K R 634 L_C OL L_C R S R 575 L_ M D C L _ R XC L K R 556 L _ TXEN 16 16 16 16 VC C 3 AU XO K 2 3 BATO K 1 PW R O KK R 563 R 564 L D R E Q #1 6 L F R AM E# 1 6 S IR Q 1 4 ,1 6 ,1 7 N MI S MI# I NTR A 20M# I NI T# I G N NE # FE RR # STP C LK # C P U _S TP # B2 U SBVD D 0 B3 U SBVD D 1 A C97 In te r fa c e A C _ SD O U T AH 3 AG 3 A8 LAD LAD LAD LAD LD R EQ # LFR A ME # S IR Q C 18 D 16 D 18 B1 7 A1 7 B1 8 A1 8 C 17 D 17 F1 0 R X D V /O C 0 # D 6 M D IO /O C 1 # H5 U V0 - J 5 U V0 + G 5 U V1 - H 6 U V1 + E5 U V2 - F 5 U V2 + E6 U V3 - F 6 U V3 + F8 U V4 - E 7 U V4 + E8 U V5 - D 7 U V5 + G P 7 /S P D IF A C _ S D IN [1 ] A C _ S D IN [0 ] LA D 0 LA D 1 LA D 2 LA D 3 LAD LAD LAD LAD LPC In te r fa c e A CPI In te r fa c e Z1 33 62 1 3 ,2 1 A C _ S Y N C Z6 50 Z6 51 4 .7 K 1 2 3 4 U 25E R 562 L _ TXD 0 L _ TXD 1 L _ TXD 2 S P D IF L _ R XER 4 .7 K R N 14 P W R _ON # 1 9 PW R _ O N # 100K VD D 3 R 83 1 3 ,2 1 S D A T A O S D A TA O A U X OK 1K L56 R 473 Z6 52 B K1 6 0 8 H S 3 3 0 D C 115 S Q66 2N 7002 G Z 1 4 3R 4 7 4 1 K S H UTD O W N 100K C 322 C 321 C C VC C VC C 3 SH U T D O W N2 2 ,2 8 C 696 R 408 R 392 .4 7 U 4 .7 K 10K 2 4 G C L _ G ATE VC C 3 L54 1 3 ,2 1 A C _ B C L K VC C 3 R 113 10K PW R G O O D P R 380 10K D Z1 41 2 2 U /1 0 V_ 1 2 1 0 A C _B CLK AU XO K Z6 53 R 446 10K R 87 0 G V_ G ATE G G C L _ G ATE Q61 S 2N 7002 Q12 S 2N 7002 C D 85 G V_ G ATE G D A F0 1 J 2 E B K1 6 0 8 H S 3 3 0 C 299 C 351 C 1 0 P (R ) SU S_ L ED # SU S_ L ED # SU SPEN D # SU SPEN D G S Q8 D N D S0 6 1 0 SU SPEN D #1 4 SU SPEN D 2 2 C B ´¯ ⁄ Q65 E D TD 1 14EK „q ‚CLEVO £ C L E VCO. O C O. Ti tle S i S 6 3 0 S C P U ,L P C,L A N ,U S B IN TE Si ze SU S_ L ED SU S_ L ED 2 0 C u s to m Doc ument N umber 7 1 -5 1 S 0 0 -D 0 2 D ate: Monday, S eptember 18, 2000 S heet 12 o LRX+ L RX + R6 01 5 6.2 _1 % Transformer C5 64 .1 U Z660 C5 73 R6 05 5 6.2 _1 % C LRX- LRX - C6 23 C Z1 44 T Z1 45 1 2 3 4 L 80 RX + RX RX C 16 15 14 RD+ RD RDC NC 13 NC T PLACE NEAR THE TRANSFORMER 7 8 6 LT X+ LT X- LT X+ LT X - R6 35 R6 36 6 1.9 _1 % T Z1 46 5 T X+ TX T XC T D+ TDT DC NC NC Z1 56 10 9 11 Z1 49 12 Z1 50 T D+ T D- C6 22 .1 U C R6 44 7 5_ 1% (0 80 5 ) 7 5_ 1% (0 80 5 ) R3 7 R3 1 7 5_ 1% (0 80 5 ) Z1 59 T 7 5_ 1% (0 80 5 ) Z1 60 Z1 61 T T J 32 16HS 48 0 Z2 92 C HRT XRXN HRT XRXP 1 2 HRS _ R_ HE A D2 R R6 60 L 12 C6 31 B K 1 608HS 1 2 1 B K 1 608HS 1 2 1 HRS _R_ RJ 4 5 T Z659 T P _ CP T P _ CP L 84 L 83 HC _R_ RJ 1 1 L F-H4 9 P 6 1.9 _1 % CN2 7 Z1 57 Z1 58 2 1 1 2 3 4 5 6 7 8 Z1 54 Z1 48 CN2 5 CN2 4 RD+ RD Z1 47 Z1 62 Z1 63 T T C6 30 V DD3 .0 1U/ 2 K V (12 1 0) C V CC3 S DA T A O A C_ RS T # P CI RS T # MCL K 1 2,2 1 S DA T A O 1 2,2 1 A C_ RS T # 8 ,9, 10, 1 4,1 6 ,21 ,23 P CI RS T # 2 1 MCL K R2 5 R2 6 R6 78 0 0 (R ) R AC_RESET # Z6 84 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 CN2 6 MONO_ OUT A UDI O_ P D GND M ONO_ P HONE A UX R R_ D A UX L GND CDGND V CC CD_ R R_ D CD_ L R_ D GND P _ DN 3 .3V V CC GND GND 3 .3V S Y NC S DA T A _O S DA T A _I NB RE S E T # S DA T A _I NA GND GND MCL K B CL K 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 Z1 64 P HONE Z6 85 T P HONE 21 V CC Z1 65 Z1 66 Z1 67 Z6 86 1 0K T R T T A C_ S Y NC S DA T I-M R6 77 R S DA T A I A C_ B CL K A C_ S Y N S DA T I-M S DA T A A C_ B CL MODE M V CC3 R5 91 1 .5K 1 2 L _COL 1 2 L _CRS 1 2 L _MDC 1 2 L_ MDIO 12 12 12 12 L _RX D0 L _RX D1 L _RX D2 L _RX D3 8 L _T X DD0 8 L _T X DD1 8 L _T X DD2 1 2 L _T X D3 R6 28 R6 27 22 22 COL CRS 49 50 L _MDC L_ MDIO R5 92 R5 90 22 22 MDC MDI O 31 30 L _RX CLK L _RX DV L _RX E E R R6 06 R6 02 R5 76 22 22 22 RX CL K RX DV RX E R 38 36 39 RX D0 RX D1 RX D2 RX D3 35 34 33 32 L _RX D0 L _RX D1 L _RX D2 L _RX D3 RN6 0 4 3 2 1 8 P 4R-2 2 5 6 7 8 L _T X DD0 L _T X DD1 L _T X DD2 L _T X D3 RN6 2 1 2 3 4 8 P 4R-2 2 8 7 6 5 45 46 47 48 T X D0 T X D1 T X D2 T X D3 COL CRS V DD_ D V D D_I O V D D_I O V D D_I O MDC MDI O RX CL K RX DV RX E R RX D0 RX D1 RX D2 RX D3 V DD_ T V DD_ T V DD_ R V DD_ R V DD_ R Med ia Ind ep en dent Interface (MII) T P _ RX + T P _RX - Tranform er T P _ T X + T P _T X Interface T X D0 T X D1 T X D2 T X D3 T P _ CP NC 22 22 T X CL K T XEN 43 44 R6 08 R6 07 1K 1K T XER RX T R I 42 41 (RX T RI=0 T ri-S tate Off) 4 61 11 12 17 22 58 28 29 40 56 57 T X CL K T XEN PHY Add ress T XER RX T R I VSS_T VSS_T VSS_D V S S _I O V S S _I O V S S _I O VSS_D P0AC P 1 CL P 2 LI P3T D P 4 RD NOD/ RE P MI I/S I 1 0/1 00 S E L DP X S E L A NS E L L OCK Config urationL S T A HW /S W Pins VSS_R VSS_R VSS_R VSS_R VSS_R RE F_IN R5 77 R5 78 53 L _T X CLK L _T X E N RE F_OUT 1 2 L _T X CLK 1 2 L _T X E N 52 63 1 2 L _RX CLK 1 2 L _RX DV 8 L _RX E E R V CC3 U4 5 L _COL L _CRS 1 0T CS R 1 00 T CS R RE S E T N 25 37 54 51 C6 06 C5 53 C5 65 C6 07 .1 U .1 U .1 U .1 U C5 86 C5 51 C6 05 C5 74 B K 2 125HS 3 3 0 C5 63 .1 U .1 U .1 U .1 U .1 U L 72 Z2 91 7 63 8 15 16 13 14 L RX + LRX - L RX + LRX - 5 6 LT X+ LT X - LT X+ LT X - 3 T P _ CP 20 Z1 68 55 59 60 62 64 1 19 2 24 26 27 21 23 9 10 18 T P _ CP T P0AC P 1 CL P 2 LI P3T D P 4 RD NOD/ RE P MI I/S I Z1 69 Z1 70 Z1 71 Z1 72 Z1 73 HW /S W T T T T T R6 79 R6 32 R6 31 R6 30 R6 29 R6 26 R6 80 R 1K 1K 1K 1K 1K R R6 18 R5 88 1K 1K V CC3 ---> Trace Width : 24 mils V CC3 (A DD0 ) (A DD1 ) (A DD2 ) (A DD3 ) (A DD4 ) S e t P HY ad d res s =0 000 1 1 .HW / S W =1 S e t a s S W m o de 2 .MII/ S I=0 S e t as MII m o de R5 89 1K R5 74 12 .1 K _ 1% (08 0 5) 1 00 T CS R R5 72 2 K _1% (08 05 ) 1 0T CS R R5 73 1. 54 K _ 1% (06 0 3) RE S E T - R5 87 1 0K V CC3 3 .NO D/RE P =0 NODE Ope ratio n V CC3 S e t tran s m i tt in g d riving c u rren t I n S W m od e ICS 189 3 V CC3 P i n2 (1 0/ 100 S E L ) is out p ut, s h o w no w i s 1 0 MHz or 10 0MHz L ow(0) i s 10 B a s e -T , Hi g h(1) is 10 0B a s e-T C5 52 P in 24 (D P X S E L ) is o utp u t, s ho w now is H al f or Ful l L ow(0 ) is Ha l f-Du pl ex, Hi g h(1 ) is Full -Du ple x .1 U C7 8 1 0P RE F_OUT Y1 25 MHz_ E C7 7 1 0P P i n2 6 (A N S E L) i s o u tpu t, s h ow A ut o-Neg oti ta ti o n is E na bl e o r Dis a bl L ow(0 ) is Dis ab le, Hig h(1) i s E n ab le R7 34 1M RE F_IN ´ ¯ ⁄ „q ‚CLEVO £ C LCO. EV O C O . T itle ICS 1 89 3 L A N P HY & M DC Size Docum ent Num ber B Dat e: 7 1-5 1S 0 0-D02 M onday, Septem ber 18, 2000 Sheet 13 of V CC 3 R 5 57 0 (12 06 ) R 5 58 3 1 0K (R) PME# 1 9 P ME # 4 1 C 5 35 IN OU T IN OU T EN OU T GN D OC # R 5 59 B _ V CC_ C V C C 3_ A U X U 13 2 8 7 6 5 V C C3 _ A U X B_VCC _C C 5 34 1 2 3 4 .1 U Z 1 74 T C 5 07 C 5 37 C 5 39 C 5 08 C 4 94 C 4 93 C 5 09 C 5 36 C 4 97 C 4 92 C 5 17 C 4 98 .1 U .1 U .01 U .01 U .01 U .01 U .1 U .1 U .1 U .1 U 4 .7 U 4 .7 U 1 2 3 4 T P S 2 0 32 (R) .1 U E N = " H" , V in = V ou t 1 2 3 4 5 T 1 9 P ME # Z 1 75 3 PME# 1 U 15 IN 1 OU T 4 C 5 15 IN 2 EN # GN D C 5 16 T P S 2 1 00 (R) 2 .1 U .1 U E N# = "L " , V in1 = V out 64 9 ,23 C /B E # [0..3] V C C3 _ A U X 8 ,9 ,10 ,1 3,1 6,2 1,2 3 P CIRS T # R 5 37 10 K AD21 R 5 43 1 00 INT#A R 5 41 0 (R) V C C3 _ A U X 9 AD 21 9 INT # A R 5 39 0 (R) ZV S E L 0# 2 0 P C _ RING # 1 2,1 6,1 7 S IR Q ZV S E L 1# L ED _SK T 9 ,17 C L K RUN # V C C3 _ A U X R 5 40 47 K 47 K ZV S E L 0# ZV S E L 1# L ED _SK T R 63 12 27 37 48 G RS T # R 5 38 0 FR A ME # IRDY # T RDY # D E V S E L# S T OP # P E RR # S E RR # PA R PR EQ#0 P G NT # 0 P CL K T I 66 20 28 29 31 32 33 34 35 36 1 2 21 59 70 P ME # Z 1 77 13 T I_INT A # ZV S E L 0# P C _ RING # S IR Q ZV S E L 1# L ED _SK T C L K RUN # 60 61 64 65 67 68 69 S P K R OU T 62 AD 31 AD 30 AD 29 AD 28 AD 27 AD 26 AD 25 AD 24 AD 23 AD 22 AD 21 AD 20 AD 19 AD 18 AD 17 AD 16 AD 15 AD 14 AD 13 AD 12 AD 11 AD 10 AD 9 AD 8 AD 7 AD 6 AD 5 AD 4 AD 3 AD 2 AD 1 AD 0 PCI1410 C/B E 3 # C/B E 2 # C/B E 1 # C/B E 0 # G RS T # P RS T # FR A ME # IRDY # T RDY # D E V S E L# S T OP # P E RR # S E RR # PA R RE Q # GNT # P CL K R I_O UT #/P ME # S U S P E ND # IDS E L MF0/INT A # MF1/ZV S E L 0# MF2/P C _ RING # MF3 /S E R IR Q MF4/ZV S E L 1# MF5/L E D _ S K T MF6/C L K RUN # S P K R OU T 63 D 1 5/CA D 8 D 1 4/CR SV D D 1 3/CA D 6 D 1 2/CA D 4 D 1 1/CA D 2 D1 0/C A D 3 1 D 9 /C A D 30 D 8 /C A D 28 D 7 /CA D 7 D 6 /CA D 5 D 5 /CA D 3 D 4 /CA D 1 D 3 /CA D 0 D2 /CR S V D D 1 /C A D 29 D 0 /C A D 27 IN P A C K # /C RE Q # IO RD # /C AD 13 IOW R # /C A D 15 OE # /C A D 11 W E # /C GNT # W P (IOIS 1 6 # )/CC L K RUN # W A IT # /CS E RR # R E G # /C C/B E 3 # RE A D Y (IR E Q # )/CINT # R E S E T /C RS T # B V D1 (S T S CHG # /RI#)/CS T S CH G B V D2 (S P K R # )/C A U DIO CD1 #/C CD 1 # CD2 #/C CD 2 # CE 1 #/C C/B E 0 # CE 2 #/C A D 1 0 V S 1 #/CV S 1 V S 2 #/CV S 2 4 3 2 1 V C C3 _ A U X B _ C A [0..25 ] B _ C A [0..25 ] V CCI 1 38 1 22 1 02 86 50 30 14 VC C VC C VC C VC C VC C VC C VC C 44 18 V CC P V CC P 1 26 90 V C CC B V C CC B A 2 5/C A D 1 9 A 2 4/C A D 1 7 A 2 3/C FR A ME # A 2 2/CT RDY # A 2 1/CD E V S E L# A 2 0/CS T OP # A 1 9/C B L OCK # A 1 8/CR SV D A 1 7/C A D 1 6 A 1 6/CCL K A 1 5/CIRDY # A 1 4/CP ERR # A 1 3/C P A R A 1 2/C C/B E 2 # A 1 1/C A D 1 2 A 1 0/CA D 9 A 9 /C A D 14 A 8 /C C/B E 1# A 7 /C A D 18 A 6 /C A D 20 A 5 /C A D 21 A 4 /C A D 22 A 3 /C A D 23 A 2 /C A D 24 A 1 /C A D 25 A 0 /C A D 26 6 22 42 58 78 94 1 14 1 30 2 0 S P K R OU T R 64 C/B E # 3 C/B E # 2 C/B E # 1 C/B E # 0 P CIRS T # 9 ,23 FR A ME # 9 ,23 IRDY # 9 ,23 T RDY # 9 D E V S E L# 9 S T OP # 9 P E RR # 9 S E RR # 9 PA R 9 PR EQ#0 9 P G NT # 0 1 1 P CL K T I 1 9 P ME # S U S P E ND # 1 2 S U S P E ND # C /B E # [0..3] 3 4 5 7 8 9 10 11 15 16 17 19 23 24 25 26 38 39 40 41 43 45 46 47 49 51 52 53 54 55 56 57 1 16 1 13 1 11 1 09 1 07 1 05 1 03 1 00 98 1 08 1 10 1 04 1 01 1 12 95 89 97 99 1 15 1 18 1 20 1 21 1 24 1 27 1 28 1 29 B _ CA 2 5 B _ CA 2 4 B _ CA 2 3 B _ CA 2 2 B _ CA 2 1 B _ CA 2 0 B _ CA 1 9 B _ CA 1 8 B _ CA 1 7 B _ CA 1 6 B _ CA 1 5 B _ CA 1 4 B _ CA 1 3 B _ CA 1 2 B _ CA 1 1 B _ CA 1 0 B _ CA 9 B _ CA 8 B _ CA 7 B _ CA 6 B _ CA 5 B _ CA 4 B _ CA 3 B _ CA 2 B _ CA 1 B _ CA 0 87 84 82 80 77 1 44 1 42 1 40 85 83 81 79 76 1 43 1 41 1 39 B _ CD 1 5 B _ CD 1 4 B _ CD 1 3 B _ CD 1 2 B _ CD 1 1 B _ CD 1 0 B _ CD 9 B _ CD 8 B _ CD 7 B _ CD 6 B _ CD 5 B _ CD 4 B _ CD 3 B _ CD 2 B _ CD 1 B _ CD 0 B _ CA 2 5 B _ CA 2 4 B _ CA 2 3 B _ CA 2 2 B _ CA 2 1 B _ CA 2 0 B _ CA 1 9 B _ CA 1 8 B _ CA 1 7 B _ CA 1 6 R 6 14 B _ CA 1 5 B _ CA 1 4 B _ CA 1 3 B _ CA 1 2 B _ CA 1 1 B _ CA 1 0 B _ CA 9 B _ CA 8 B _ CA 7 B _ CA 6 B _ CA 5 B _ CA 4 B _ CA 3 B _ CA 2 B _ CA 1 B _ CA 0 B _ C D[0..15 ] 47 B _ CD 1 5 B _ CD 1 4 B _ CD 1 3 B _ CD 1 2 B _ CD 1 1 B _ CD 1 0 B _ CD 9 B _ CD 8 B _ CD 7 B _ CD 6 B _ CD 5 B _ CD 4 B _ CD 3 B _ CD 2 B _ CD 1 B _ CD 0 Z 1 76 56 55 54 53 50 49 48 47 46 19 20 14 13 21 10 8 11 12 22 23 24 25 26 27 28 29 41 40 39 38 37 66 65 64 6 5 4 3 2 32 31 30 1 23 93 96 92 1 06 1 36 1 33 1 25 1 32 1 19 B _ INP A C K B _ IORD # B _ IOW R # B _ OE # B_W E # B_W P # B _ W A IT # B _ RE G # B _ RD Y B Y # B _ RE S E T 60 44 45 9 15 33 59 61 16 58 1 35 1 34 75 1 37 88 91 1 31 1 17 B_B VD 1# B_B VD 2# B _ CD 1 # B _ CD 2 # B _ CE 1 # B _ CE 2 # B _VS 1 B _VS 2 63 62 36 67 7 42 43 57 RN 5 8 RN 5 6 RN 5 7 B_B VD 1# B_B VD 1# 8 P 4R -4 3 K 8 7 6 5 B_B VD 2# B _ RD Y B Y # B _ W A IT # B_W P # B_B VD 2# B _ RD Y B Y # B _ W A IT # B_W P # 8 P 4R -4 3 K 8 7 6 5 B _ RE S E T B _ INP A C K B _ CA 1 5 B _ CA 2 2 B _ RE S E T B _ INP A C K B _ CA 1 5 B _ CA 2 2 8 P 4R -4 3 K 8 7 6 5 B _ CA 1 9 B _ CA 1 4 B _ CA 2 0 B _ CA 2 1 B _ CA 1 9 B _ CA 1 4 B _ CA 2 0 B _ CA 2 1 8 P 4R -4 3 K 5 6 7 8 B _ CD 2 # B _VS 1 B _VS 2 B _ CD 1 # B _ CD 2 # B _VS 1 B _VS 2 B _ CD 1 # CN 8 A 25 A 24 A 23 A 22 A 21 A 20 A 19 A 18 A 17 A 16 A 15 A 14 A 13 A 12 A 11 A 10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0 D 15 D 14 D 13 D 12 D 11 D 10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 INP A C K RF U(IO RD) R FU(IOW R) OE W E /P G M W P (IOIS 16 ) W A IT RE G R DY /B S Y /(IR E Q) RE S E T B V D1 (S T S C HG) B V D 2 (S P K R) CD 1 CD 2 CE 1 CE 2 R FS H (V S 1) RFU (V S 2) C 4 91 C 5 38 .01 U .01 U B _ V CC_ C VC C VC C 17 51 C 5 77 C 5 66 C 5 76 C 5 67 C 5 68 .1 U .1 U .1 U .1 U 4 .7 U B _VP P VPP 1 VPP 2 GN D GN D GN D GN D 18 52 C 5 78 C 5 69 .1 U 4 .7 U 1 34 35 68 HR S _ 5 1L _P CM_ R GN D GN D GN D GN D GN D GN D GN D GN D V C C 3_ A U X AD 31 AD 30 AD 29 AD 28 AD 27 AD 26 AD 25 AD 24 AD 23 AD 22 AD 21 AD 20 AD 19 AD 18 AD 17 AD 16 AD 15 AD 14 AD 13 AD 12 AD 11 AD 10 AD 9 AD 8 AD 7 AD 6 AD 5 AD 4 AD 3 AD 2 AD 1 AD 0 V PPD 1 V PPD 0 A D[0 ..3 1 ] 9 ,23 A D[0 ..3 1 ] VDD3 V C CD 1 # V C CD 0 # U 16 72 71 V PPD 0 V PPD 1 V C CD 0 # V C CD 1 # V PPD 0 V PPD 1 V C CD 0 # V C CD 1 # 74 73 15 15 15 15 43 K RN 5 9 P C I1 41 0 ZV S E L 0# ZV S E L 1# L ED _SK T ´ ¯ ⁄ „qCLEVO ‚£ CCO. L E V O C O. T it le 47 K PCMCIA -TI1410 Size B Dat e: Docum ent Num ber 71-51S00-D02 Monday, Septem ber 18, 2000 Sheet 14 of VCC3 C278 U39 4 5 6 7 8 CV ID0 CV ID1 CV ID2 CV ID3 CV ID4 CV ID0 CV ID1 CV ID2 CV ID3 CV ID4 11,23 SCL_A T FF 11,23 SDA_A T FF SCL_A T FF SDA_A T FF 1 2 12 VR_H I/LO# VR_H I/LO# 16 R265 18 10 1K (R) Z178 S CL SD A OV ER RID E # LEV E L N ON_MUX_OU T WP GN D AS E L 9 +12V U14 12V BV C C BV C C BV C C C86 15 14 13 12 11 Y0 Y1 Y2 Y3 Y4 MUX_S E L .1U 20 VC C I0 I1 I2 I3 I4 VI D0 VI D1 VI D2 VI D3 VI D4 3 9 17 Z179 Z180 Z181 19 Z182 VI D0 VI D1 VI D2 VI D3 VI D4 2,24 2,24 2,24 2,24 2,24 .1U B_V CC _C VC C T T T R260 11 12 13 C82 C555 4.7U .1U 5 6 V CC3_AU X 3 4 C81 C554 4.7U .1U 5V 5V BV P P 16 4.7U B_V P P .1U VCC D0# VCC D1# VP P D0 VP P D1 10K Z194 .1U C85 FM3560(R) R54 C83 10 3.3V 3.3V 1K (R) VCC 3_AU X C84 O C# GN D 1 2 15 14 VCC D0# VCC D1# VP P D0 VP P D1 8 7 Z628 VCC D0# 14 VCC D1# 14 VP P D0 14 VP P D1 14 T SHD N# T P S 2211 VCC3 CV ID0 CV ID2 CV ID1 CV ID3 CV ID4 4 3 2 1 8 7 6 5 R N22 8P4R-10K CV ID0 CV ID2 CV ID1 CV ID3 CV ID4 0(R) R197 1 2 3 4 8 7 6 5 R N23 8P4R-10K H15 Hol eC H6 Hol eE H1 Hol eE H8 Hol eD H4 Hol eD 8P4R-0(R) R N21 R198 U38 5 6 7 8 1 13 VR_HI/LO# R(0805) R245 0(0805) 9 8 7 6 1 2 3 4 5 Hol eA VCC3 2 3 4 5 H27 1 9 8 7 6 H oleC 315D105N-A : B0 ... B4-->C0 ... C4 : A0 ... A4-->C0 ... C4 H13 2 3 4 5 9 8 7 6 1 2 3 4 5 H oleC 315D105N-A C P U V RM S E LE C T TA B LE (P erform an ce O ptim ize d) V_CORE 0 11 11 NO CPU ON ON ON ON 2.00V 1 11 10 0.925V 0 11 10 1.30V ON ON ON OFF 1.95V 1 11 01 0.950V 0 11 01 1.35V ON ON OFF ON 1.90V 1 11 00 0.975V 0 11 00 1.40V ON ON OFF OFF 1.85V 1 10 11 1.000V 0 10 11 1.45V ON OFF ON ON 1.80V 1 10 10 1.025V 0 10 10 1.50V ON OFF ON OFF 1.75V 1 10 01 1.050V 0 10 01 1.55V ON OFF OFF ON 1.70V 1 10 00 1.075V 0 10 00 1.60V ON OFF OFF OFF 1.65V 1 01 11 1.100V 0 01 11 1.65V OFF ON ON ON 1.60V 1 01 10 1.125V 0 01 10 1.70V OFF ON ON OFF 1.55V 1 01 01 1.150V 0 01 01 1.75V OFF ON OFF ON 1.50V 1 01 00 1.175V 0 01 00 1.80V OFF ON OFF OFF 1.45V 1 00 11 1.200V 0 00 11 1.85V OFF OFF ON ON 1.40V 1 00 11 1.225V 0 00 10 1.90V OFF OFF ON OFF 1.35V 1 00 01 1.250V 0 00 01 1.95V OFF OFF OFF ON 1.30V 1 00 00 1.275V 0 00 00 2.00V OFF OFF OFF OFF NO CPU FD22 C-MA R K 1 FD4 C-MA R K 1 FD3 C-MA R K 1 FD11 C-MA R K 1 FD14 C-MA R K 1 FD12 C-MA R K 1 FD21 C-MA R K 1 FD2 C-MA R K 1 GND-1 2 3 4 5 H29 9 8 7 6 1 2 3 4 5 Hol eF H11 9 8 7 6 1 2 3 4 5 H19 1 Hol eF H14 1 Hol eG 9 8 7 6 2 3 4 5 H21 9 8 7 6 1 H oleC 315D105N-A 2 3 4 5 H17 9 8 7 6 2 3 4 5 Hol eF FD25 C-MA R K 1 FD19 C-MA R K 1 FD24 C-MA R K 1 FD13 C-MA R K 1 FD26 C-MA R K 1 FD1 C-MA R K 1 FD16 C-MA R K 1 FD7 C-MA R K 1 2 3 4 5 2 3 4 5 H20 9 8 7 6 1 1 FD20 C-MA R K 1 2 3 4 5 FD5 C-MA R K 1 FD23 C-MA R K 1 1 2 3 4 5 H3 9 8 7 6 1 Hol eF H12 9 8 7 6 1 H18 1 9 8 7 6 Hol eG 2 3 4 5 H5 1 2 3 4 5 H7 9 8 7 6 1 2 3 4 5 H9 9 8 7 6 2 3 4 5 1 2 3 4 5 Hol eH H25 1 9 8 7 6 2 3 4 5 H10 9 8 7 6 1 H23 9 8 7 6 1 Hol eH 9 8 7 6 2 3 4 5 Hol eH ´ ¯ ⁄ 9 8 7 6 1 Hol eH Hol eH 9 8 7 6 1 H16 H26 H oleC 315D105N-A Hol eH Hol eH 2 3 4 5 1 1 FD17 C-MA R K 1 1 1 FD6 C-MA R K 1 1 1 FD8 C-MA R K 1 1 1 FD15 C-MA R K 1 1 1 FD10 C-MA R K 1 1 1 FD9 C-MA R K 1 9 8 7 6 Hol eH Hol eH FD18 C-MA R K 1 H22 H oleC 315D105N-A 9 8 7 6 1 2 3 4 5 Hol eF 1 SW1-4 SW1-3 SW1-2 SW1-1 NO CPU 1 9 8 7 6 VCC SN 74CBV T L3 383 1 11 11 H28 Hol eA 1 V ID[4 :0] VCC_Core R196 .01U 1 V ID[4 :0] VCC_Core Z295 C249 H2 2 3 4 5 Hol eF 10K High Low CPU VRM SEL ECT TABL E(Battery Life M ode) 24 12 T T T T T 1 9 8 7 6 1 VCC3 R259 VC C A25 Z189 Z190 Z191 Z192 Z193 H30 1 12 VR_H I/LO# B E# BX 5 9 15 19 23 2 3 4 5 1 0 0 D0 D1 D2 D3 D4 2,24 2,24 2,24 2,24 2,24 1 R195 R206 B0 B1 B2 B3 B4 VI D0 VI D1 VI D2 VI D3 VI D4 H24 9 8 7 6 1 Hol eH „q CLEVO ‚£ CCO. L E V O C O. T itle P C M CIA P O W E R S W ITC H 1 HC H_DIP SW _4 4 8 14 18 22 Z183 Z184 Z185 Z186 Z187 Z188 VI D0 VI D1 VI D2 VI D3 VI D4 1 8 ON 7 6 5 GND-1 2 6 10 16 20 1 SW 1 C0 C1 C2 C3 C4 1 65 1 2 3 4 A0 A1 A2 A3 A4 1 H IGH VOLTAGE 3 7 11 17 21 CV ID0 CV ID1 CV ID2 CV ID3 CV ID4 CV ID0 CV ID1 CV ID2 CV ID3 CV ID4 1 1 2 3 4 10K LOW V OLT AG E Siz e B Date: Document Num ber 7 1-51S 00 -D0 2 Monday, Sept em ber 18, 2000 Sheet 15 of 83 626 CLK 1 1 83 626 CLK C2 6 V CC V CC R U6 13 14 21 22 23 19 18 17 16 LF RAM E# PCI RST # 1 2 LFR A ME # 8,9,10,13 ,1 4 ,2 1,2 3 P CIR ST # 1 1 83 626 CLK 1 2 LD R EQ # 12 ,1 4,1 7 SIRQ 1 2 L AD 0 1 2 L AD 1 1 2 L AD 2 1 2 L AD 3 83 626 CLK LDREQ # SIRQ LAD0 LAD1 LAD2 LAD3 5 45 55 70 85 10 5 12 0 20 25 V CC C2 4 C6 5 C4 5 C4 6 10U .1 U .1 U .1 U V CC 3 R6 6 8 C2 5 4 .7U V CC 3 V CC 3 1 1 83 626C LK -1 4 1 7 86 9_O SC 8 921 1_O S C 2 1 AU D CL K V CC 15 50 60 80 95 11 0 12 5 C2 7 .1 U R6 6 4 R6 7 4 Z19 5 0 (0 8 05) C6 5 8 .1 U 4 .7K 4 .7K 0 (0 8 05) R6 6 6 83626CLK-14 869_OS C R6 6 9 921 1_O S C R6 6 5 AUDCLK R2 3 R6 6 7 4 .7K 14M OUT 1 22 22 22 14MO UT 2 24 MH Z 2 0 FLA SH # 7 P CS 1 2 3 S EL EC T A 2 3 S EL EC T B 2 2 FA N _ S T P 1 9 MC CS # 1 9 KB D CS # 19 IRQ 1 2 0 B IO S CS # 66 R EFR E SH # B ALE S B HE # 2 0 ME MR # 2 0 ME MW # MAS T ER # LA 1 7 LA 1 8 LA 1 9 LA 2 0 LA 2 1 LA 2 2 LA 2 3 1 7 D AC K# 0 D AC K# 5 D AC K# 6 D AC K# 7 IOC H CK # OW S # S ME MW # SME MR # 8 0 P CS # D REQ7 FLA SH# PCS1 SE LECT A SE LECT B FA N_ST P MCCS# KBDCS# IRQ 1 BI OS CS# RE FRE SH# BALE SB HE# M EM R# M EMW# MA ST ER# LA17 LA18 LA19 LA20 LA21 LA22 LA23 D AC K# 0 D AC K# 5 D AC K# 6 D AC K# 7 IO CHCK# OWS# SM EMW# SM EM R# 80PCS# DREQ 7 Z19 6 30 Z68 0 24 26 27 28 29 65 66 64 63 62 40 39 38 37 91 10 1 10 2 11 2 11 3 12 3 11 1 10 9 10 8 10 7 10 6 10 4 10 3 4 2 12 8 12 6 76 81 82 83 36 12 4 L FR A M# P CIR ST # PC ICL K LD RQ # S E RIRQ L AD 0 L AD 1 L AD 2 L AD 3 V CC V CC V CC V CC V CC V CC V CC V CC 3 A V CC 3 G ND G ND G ND G ND G ND G ND G ND AG ND P W R DN # 14 .31 8 14MO UT 1 14MO UT 2 24 M& 25M RT CC S # /G P IO 6 IOHC S# /G P IO 7 G P IO 5/IR Q8 # GP IO4 /IRQIN PL ED /GP IO3 MCC S# /G P IO 2 K BC S# /G P IO 1 IR Q1 /GP IO0 RO MCS # R EFR E SH # B ALE S B HE # ME MR # ME MW # MA S T E R#/R T C EN LA 1 7 LA 1 8 LA 1 9 LA 2 0 LA 2 1 LA 2 2 LA 2 3 D AC K# 0 D AC K# 5 D AC K #6/HE FR A S D AC K7 # IOC H CK # OW S # S ME MW # SME MR # 8 0 P CS #/KB EN D RQ 7 S A [0 ..19] SA 0 SA 1 SA 2 SA 3 SA 4 SA 5 SA 6 SA 7 SA 8 SA 9 S A1 0 S A1 1 S A1 2 S A1 3 S A1 4 S A1 5 S A1 6 S A1 7 S A1 8 S A1 9 SD 0 SD 1 SD 2 SD 3 SD 4 SD 5 SD 6 SD 7 SD 8 SD 9 S D1 0 S D1 1 S D1 2 S D1 3 S D1 4 S D1 5 IOR # IOW # A EN R S T D RV D AC K# 2 TC D RQ 2 IRQ 3 IRQ 4 IRQ 6 IRQ 7 IO C HR DY IR Q1 0 D AC K# 1 D RQ 3 D AC K# 3 IR Q1 1 IRQ 5 D RQ 1 IR Q1 2 IRQ 9 IR Q1 4 IR Q1 5 IO C S1 6 # D RQ 0 D RQ 5 D RQ 6 SY S CL K MEMC S16 # 31 32 33 34 35 41 42 43 44 46 47 48 49 51 52 53 54 56 57 58 S A [0 ..19] 17 ,1 9,2 0 SA0 SA1 SA2 SA3 SA4 SA5 SA6 SA7 SA8 SA9 SA10 SD0 SD1 SD2 SD3 SD4 SD5 SD6 SD7 SD8 SD9 SD10 SD11 SD12 SD13 SD14 SD15 78 6 7 11 3 1 12 7 92 12 IRQ 9 IRQ14 IRQ15 I O CS16# RP 7 10 9 8 7 6 10 9 8 7 6 SD 6 SD 7 SD 4 SD 5 SD 6 SD 7 SD 4 SD 5 7,17 ,1 9,2 0 7,17 ,1 9,2 0 7,17 ,1 9,2 0 7,17 ,1 9,2 0 SD 0 SD 1 SD 2 SD 3 SD 0 SD 1 SD 2 SD 3 7,17 ,1 9,2 0 7,17 ,1 9,2 0 7,17 ,1 9,2 0 7,17 ,1 9,2 0 1 2 3 4 5 1 2 3 4 5 S D [0 ..15] 7,17 ,1 9,2 0 1 2 3 4 5 1 2 3 4 5 10 9 8 7 6 SA 2 SA 3 SA 0 SA 1 SA 2 SA 3 SA 0 SA 1 17 ,1 9,2 0 1 7 ,2 0 1 7 ,2 0 1 7 ,2 0 SA 5 SA 4 SA 7 SA 6 1 7 ,2 0 1 7 ,2 0 1 7 ,2 0 1 7 ,2 0 1 2 3 4 5 1 2 3 4 5 DREQ 2 IRQ 3 IRQ 4 IRQ 6 IRQ 7 IO C HR DY IRQ10 D AC K# 1 D REQ3 D AC K# 3 IRQ11 IRQ 5 D REQ1 IRQ12 T IRQ 9 IR Q1 4 IR Q1 5 IO C S1 6 # D REQ0 1 7 D REQ5 D REQ6 S D1 2 S D1 3 S D1 4 S D1 5 S D1 2 S D1 3 S D1 4 S D1 5 10 9 8 7 6 S A1 0 S A1 1 SA 8 SA 9 S A1 2 S A1 3 S A1 4 S A1 5 S A1 0 S A1 1 SA 8 SA 9 1 1 17 17 S A1 2 S A1 3 S A1 4 S A1 5 1 1 1 1 R P1 2 10 9 8 7 6 10 9 8 7 6 1 0 P8 R-10K 17 IRQ 3 IRQ 4 IRQ 6 IRQ 7 IO C HR DY 1 7 IR Q1 0 D AC K# 1 1 7 D REQ3 1 7 D AC K# 3 1 7 IR Q1 1 IRQ 5 D REQ1 1 7 IR Q1 2 1 9 SD 8 SD 9 S D1 0 S D1 1 V CC RP 4 1 2 3 4 5 10 9 8 7 6 1 0 P 8 R-10 K(R) SA 5 SA 4 SA 7 SA 6 V CC 1 2 3 4 5 SD 8 SD 9 S D1 0 S D1 1 R P1 0 10 9 8 7 6 1 0 P 8 R-10 K(R) IORD # 1 7 ,1 9 IO W R # 7 ,1 7 ,1 9 A EN 1 7 R S T D RV 1 7 D AC K# 2 1 7 TC 17 10 9 8 7 6 V CC RP 9 S D [0 ..15] 10 9 8 7 6 10P 8R -8 .2K V CC IORD # IO W R # A EN R S T D RV D AC K# 2 TC D REQ2 D REQ0 D REQ5 D REQ6 Z19 7 MEMC S16 # 1 2 3 4 5 10P 8R -8 .2K S A1 1 S A1 2 S A1 3 S A1 4 S A1 5 S A1 6 S A1 7 S A1 8 S A1 9 67 68 69 71 72 73 74 75 11 4 11 5 11 6 11 7 11 8 11 9 12 1 12 2 86 84 59 77 99 10 0 79 98 97 94 93 61 10 89 88 87 9 96 90 8 RP 5 1 2 3 4 5 IRQ 6 IRQ 5 IRQ 4 IRQ 3 IRQ 6 IRQ 5 IRQ 4 IRQ 3 IR Q1 0 IRQ 1 IRQ 9 IRQ 7 IR Q1 0 IRQ 1 1 9 IRQ 9 IRQ 7 1 2 3 4 5 1 2 3 4 5 10 9 8 7 6 1 0 P8 R-10K 10 9 8 7 6 IR Q1 4 IR Q1 5 IR Q1 2 IR Q1 1 IR Q1 4 IR Q1 5 IR Q1 2 IR Q1 1 S A1 6 S A1 7 S A1 8 S A1 9 S A1 6 2 S A1 7 2 S A1 8 2 S A1 9 V CC RP 6 1 2 3 4 5 1 2 3 4 5 10 9 8 7 6 10 9 8 7 6 1 0 P8 R-10K Z19 8 LA 2 1 LA 2 2 LA 2 3 MEMC S16 # W 8 362 6 V CC LA 2 0 LA 1 9 LA 1 8 LA 1 7 LA 2 0 LA 1 9 LA 1 8 LA 1 7 1 2 3 4 R N6 9 8 7 6 5 R EFR E SH # IO C HR DY MEMC S16 # MAS T ER # 8 7 6 5 OW S # S ME MW # SME MR # IO C S1 6 # 4 3 2 1 B ALE S B HE # IOC H CK # 5 6 7 8 ME MW # ME MR # IORD # IO W R # R EFR E S IO C HR D MEMC S1 MAS T ER 8P 4R -1 K T LA 2 1 LA 2 2 LA 2 3 1 2 3 4 V CC R N6 8 OW S # S ME MW SME MR # IO C S1 6 # 8P 4R -1 K RP 8 1 2 3 4 5 1 2 3 4 5 10 9 8 7 6 10 9 8 7 6 1 0 P 8 R-10 K(R) D AC K# 2 D AC K# 7 D AC K# 6 D AC K# 5 Z19 9 D AC K# 0 D AC K# 3 D AC K# 1 5 6 7 8 D AC K# 2 1 7 D AC K# 7 D AC K# 6 D AC K# 5 R N6 6 80PCS# 8 0 P CS # B ALE S B HE # IOC H CK 8P 4R -4 .7 K 4 3 2 1 T D AC K# 0 1 7 D AC K# 3 1 7 D AC K# 1 1 7 R N6 7 ME MW # ME MR # IORD # IO W R # 8P 4R -8 .2 K 1 2 3 4 5 R P1 1 1 10 2 9 3 8 4 7 5 6 10 9 8 7 6 10P 8R -8 .2K D REQ6 D REQ7 D REQ0 D REQ5 Z20 0 D REQ2 D REQ3 D REQ1 D REQ6 D REQ7 D REQ0 1 7 D REQ5 ´ ¯ ⁄ „qCLEVO ‚£ C LEVO C O. 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T it le T D REQ2 1 7 D REQ3 1 7 D REQ1 1 7 LPC TO ISA - W38626 Size Docum ent Num ber C us tom Date: 71-51S00- D02 Monday, Sept em ber 18, 2000 Sheet 16 of FIRVCC L85 VCC3 F IR 4 3 2 1 4 3 2 1 BK2125HS330 R5 4.7K 47K 5 6 7 8 R2 RN70 8P4R-18 5 6 7 8 RN71 8P4R-18 3 IRTX2 9 U1 RXD LEAD 8 FIR_SEL MDO T XD 11 MD1 GNDPAD NC R6 4.7K 4 Z2 01 R3 2.2K 5 Z2 02 R4 2.2K FIRGND VCC IRTX2 IRRX2 IRR3 AGNDD IRR3 GND IRRX2 10 Z2 03 VCC3 JA1 2 1 2 7 6 HSDL -36 00 1 C5 Z667 SHORT -A .1 U C659 .0 47 U C660 10U T FIRGND 16,19 7,16,19 SA[0..1 5] SA[0..1 5] IORD# IOW R# C694 C695 33P C 16 16 16 AEN RSTDRV 16 TC IOCHRDY 16 16 16 16 16 16 16 16 R613 1K DACK#0 DACK#1 DACK#2 DACK#3 DREQ0 DREQ1 DREQ2 DREQ3 9,14 CLKRUN# 12 ,14,16 SIRQ 16 869_OSC C610 R 11 869_ PCLK VCC3 R53 IRR3 IRRX2 IRTX2 46 47 48 49 51 52 53 54 SA0 SA1 SA2 SA3 SA4 SA5 SA6 SA7 SA8 SA9 SA10 SA11 SA12 SA13 SA14 SA15 26 27 28 29 30 31 32 39 40 41 95 35 36 1 3 25 IORD# IOW R# AEN RSTDRV TC IOCHRDY IRQIN 42 43 44 55 33 98 96 DACK#0 DACK#1 DACK#2 DACK#3 DREQ0 DREQ1 DREQ2 DREQ3 20 34 94 22 19 50 97 17 CLKRUN# SIRQ 869_OSC 869_ PCLK 92 37 18 38 10K IRR3 IRRX2 IRTX2 Z2 04 56 21 23 24 D0 D1 D2 D3 D4 D5 D6 D7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 C608 C609 .1 U .1 U .01U PD0 PD1 PD2 PD3 PD4 PD5 PD6 PD7 ST ROBE# SLCT IN# INIT # AUT OFD# ERROR# ACK# BUSY PE SLCT CT S1# DSR1# DCD1# RI1 RXD1 T XD1 RT S1# DT R1# IOR# IOW # AEN RESET TC IOCHRDY IRQIN CT S2# DSR2# DCD2# RI2 RXD2 /IRRX TXD2 /IRT X RT S2# DT R2# DACK_A# DACK_B# DACK_C# DACK_D# DRQ_ A DRQ_ B DRQ_ C DRQ_ D ADRX# /CLKRUN# SIRQ CLK14 CLK33 PWRGD/GAMECS# IRMODE/IRR3 IRRX2 IRTX2 C80 4.7U 13 70 VCC VCC SD0 SD1 SD2 SD3 SD4 SD5 SD6 SD7 GND GND GND GND 67 16 ,19,20 U46 SD[0..7 ] SD[0..7 ] 4 45 65 93 7,16,19,20 C575 RDATA# WDATA# DSKCHG# WGATE# DIR# ST EP# HDSEL# T RK0# WRT PRT # INDEX# MT R0# DS0# DRVDEN0 DRVDEN1 69 68 67 66 64 63 62 61 5 6 7 8 1 2 3 4 PPD0 PPD1 PPD2 PPD3 PPD4 PPD5 PPD6 PPD7 ST ROBE# SLCT IN# PPINIT # AUT OFD# 73 60 59 58 57 PPERR# PACK# PBUSY PPE PSLCT PPERR# 18 PACK# 18 PBUSY 18 PPE 18 PSLCT 18 80 78 83 82 76 77 79 81 CT S1# DSR1# DCD1# RI1# SIN1 SOUT 1 RT S1# DT R1# CT S1# 18 DSR1# 18 DCD1# 18 RI1# 18 SIN1 18 SOUT 1 18 RT S1# 18 DT R1# 18 CT S2# DSR2# DCD2# RI2# SIN2 Z2 05 RT S2# Z2 06 8P4R-33 4 3 2 1 8 7 6 5 RN2 ST ROBE# AUT OFD# PPINIT # SLCT IN# 75 71 72 74 90 88 85 84 86 87 89 91 RN3 CT S2# DSR2# DCD2# RI2# SIN2 T 8P4R-33 5 6 7 8 RN5 PD0 PD1 PD2 PD3 PD4 PD5 PD6 PD7 PD0 PD1 PD2 PD3 PD4 PD5 PD6 PD7 4 3 2 1 FIRVCC 18 18 18 18 18 18 18 18 PSTB# PAT FD# PINIT # PSLIN# PSTB# 18 PAT FD# 18 PINIT # 18 PSLIN# 18 8P4R-33 VCC3 VCC3 R610 CT S2# DSR2# SIN2 DCD2# R 5 6 7 8 CT S2# DSR2# SIN2 DCD2# R609 RI2# RI2# RN61 4 3 2 1 8P4 R-10K 10K T 14 7 15 8 5 6 9 11 12 10 100 2 RDATA# WDATA# DSKCHG# WGATE# DIR# ST EP# HDSEL# T RK0# WP# INDEX# MT R0# DRV0# RDATA# 10 WDATA# 10 DSKCHG# 10 WGATE# 10 DIR# 10 ST EP# 10 HDSEL# 10 T RK0# 10 WP# 10 INDEX# 10 MT R0# 10 DRV0# 10 99 16 3MODE# Z2 07 3MODE# T R611 VCC3 820 R619 1K WDATA# WDATA# R621 1K WGATE# WGATE# C597 C587 C C 10 37N869 ´ ¯ ⁄ „qCLEVO ‚£ CCO. 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T itle SUPE R I/O - 37N8 69 Size Document Number B Date: 71 -51 S00-D02 Monday, September 18, 2000 Sheet 17 of V CC C58 1 28 Z213 24 Z214 1 C59 2 .1 U_ K % 1 7 S O UT 1 1 7 RT S 1 # 1 7 DT R1 # 2 0 COM1RI 1 7 DS R1 # 1 7 R I1 # 1 7 CT S 1 # 1 7 S IN 1 1 7 DC D1 # Z215 2 S O UT 1 RT S 1 # DT R1 # 14 13 12 COM1RI DS R1 # R I1 # CT S 1 # S IN 1 DC D1 # 20 19 18 17 16 15 23 V CC R61 5 10 0K T Z224 Z223 22 21 C1 + C1- V CC Z212 C59 1 .1 U_ K % 26 .1U U4 7 V+ V- 27 Z217 3 Z216 C58 3 C2 + .1 U_ K % C58 2 .1 U_ K % C N2 3 C2T 1IN T 2IN T 3IN R2 OU T B R 1O UT R 2O UT R 3O UT R 4O UT R 5O UT 12 T 1O UT T 2O UT T 3O UT R 1IN R 2IN R 3IN R 4IN R 5IN 9 10 11 4 5 6 7 8 F OR CE ON /F OR CE OF F G ND 25 Z2 0 9 Z2 1 0 Z2 1 1 Z218 Z219 Z220 Z221 Z222 4 3 2 1 RN 4 5 6 7 8 R IA DT RA CT S A S OU T A 5 6 7 8 RT S A S INA DS RA DC DA 5 9 4 8 3 7 2 6 1 8P 4R -3 3 4 3 2 1 RN 1 13 P A N_ CO M_ DB 9 8P 4R -3 3 C61 1 C59 9 C59 8 C59 0 C58 9 C58 8 C58 0 C57 9 /INV A L ID C N 23:14-29 P IN ->G ND 22 0P 22 0P 22 0P 22 0P 22 0P 22 0P 22 0P 22 0P MAX 32 4 3 PD0 PD1 PD2 PD3 PD4 PD5 PD6 PD7 L6 2 L6 5 L6 7 L6 9 L2 0 L1 9 L1 8 L1 7 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) C N2 1 29 Z226 Z227 Z228 Z229 Z230 Z231 Z232 Z233 Z234 C49 6 C49 9 C50 0 C51 0 C45 9 C46 4 C46 6 C46 9 22 0P 22 0P 22 0P 22 0P 22 0P 22 0P 22 0P 22 0P Z235 Z236 C45 5 C45 8 C46 0 C46 5 C51 1 C51 2 C51 8 C51 9 Z237 22 0P 22 0P 22 0P 22 0P 22 0P 22 0P 22 0P 22 0P Z238 1 7 P A CK # 1 7 P BU S Y 1 7 P PE 1 7 P S LCT 1 7 P S TB # 1 7 P AT FD # 1 7 P P E RR # 1 7 P IN IT # 1 7 P SL IN # P A CK # P BU S Y P PE P S LCT P S TB # P AT FD # P P E RR # P IN IT # P SL IN # L1 6 L1 5 L1 4 L1 3 L6 0 L6 1 L6 3 L6 6 L6 8 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) 0(N1 60 8Z 3 01) Z239 Z240 Z241 Z242 1 14 2 15 3 16 4 17 5 18 6 19 7 20 8 21 9 22 10 23 11 24 12 25 13 V CC A PD0 PD1 PD2 PD3 PD4 PD5 PD6 PD7 D1 1S S 35 5 C 68 17 17 17 17 17 17 17 17 1 7 PD3 1 7 P SL IN # 1 7 P S TB # 1 7 P AT FD # PD3 P SL IN # P S TB # P AT FD # Z225 1 2 3 4 5 RP 2 1 10 2 9 3 8 4 7 5 6 10 9 8 7 6 PD2 P IN IT # PD0 PD1 PD2 1 7 P IN IT # 1 7 PD0 1 7 PD1 1 7 P P E RR # P P E RR # 1 7 10 P 8 R -2K R6 6 1 7 P BU S Y 1 7 P A CK # 1 7 P PE 1 7 P S LCT 28 P BU S Y P A CK # P PE P S LCT 1 2 3 4 5 2K RP 1 1 10 2 9 3 8 4 7 5 6 10 9 8 7 6 PD4 PD5 PD6 PD7 PD4 PD5 PD6 PD7 17 17 17 17 10 P 8 R -2K C46 8 P A N_ L P T _D B 2 5 18 0P C N 21 PIN 2 8 -4 5 ->G ND ´ ¯ ⁄ „q ‚ £ CO. 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CLEVO T it le COM & PRINT PORT Size B Date: Docum ent Number 71-51S00-D02 Monday, Sept em ber 18, 2000 S heet 18 of L4 6 C3 1 7 V CC C OL 8 C OL 7 C OL 6 C OL 5 C OL 4 C OL 3 C OL 2 C OL 1 R OW 1 R OW 2 A R OW 6 A E MCLK EMDA D4 4 C R OW 4 R OW 4 EK DA E K CLK 1S S35 5 D4 3 A C 1S S35 5 D4 1 R OW 7 R OW 5 R OW 9 R OW 1 0 R OW 1 1 R OW 8 R OW 1 2 R OW 3 R OW 1 6 R OW 1 3 R OW 1 4 R OW 1 5 S R3 1 1 D 0 PW R_ ON # 10 9 8 7 6 10 9 8 7 6 C OL 4 C OL 3 C OL 2 C OL 1 G 7 8 68P 68P 68P K B_ ON # 12 22 V CC A D4 6 C1 7 1 C3 1 1 C3 1 2 4.7U .1U .01U R OW 1 6 R OW 1 5 R OW 1 4 R OW 1 3 R OW 1 2 R OW 1 1 R OW 1 0 R OW 9 R OW 8 R OW 7 R OW 6 R OW 5 R OW 4 R OW 3 R OW 2 R OW 1 69 C OL 8 C OL 7 C OL 6 C OL 5 C OL 4 C OL 3 C OL 2 C OL 1 K BV 3 G Q5 7 2N 700 2 S C Z397 D R3 1 5 10K R3 1 4 2 0 R ING# R1 4 7 2 1 AMP _D OW N R3 0 5 K BV 3 D4 5 R 2 2 P W RSW # 2 0 ,2 8 BA T FUL L 1 2 ,2 2,2 3,2 5 ,2 8,2 9 P W R _ ON P W RSW # BA T FUL L P W R _ ON R2 7 0 R2 6 8 R1 7 2 100 K 100 K 100 K R2 6 9 0(R) C D1 9 A D3 3 Z255 72 B RIGA D J FA N_ PW M S CI MBID 0 MBID 1 10 11 19 21 20 35 36 37 38 12 13 R2 6 2 4.7U 1 2 ,2 2,2 3,2 5 ,2 8,2 9 P W R _ ON D3 1 SW R SW L C3 4 1 C3 4 2 33P 33P S2 1 3 2 4 H CH _51 _T P _B U T T ON S1 1 3 2 4 H CH _51 _T P _B U T T ON 24 30 73 A C2 9 7 1S S3 55(R) D3 2 A P W R _ ON C V CC R N2 0 1 2 3 4 C3 2 3 V CC P1 7 P1 6 P1 5 P1 4 P1 3 P1 2 P1 1 P1 0 PO 7 PO 6 PO 5 PO 4 PO 3 PO 2 PO 1 PO 0 P3 7 P3 6 P3 5 P3 4 P3 3 P3 2 P3 1 P3 0 P6 7 P6 6 P6 5 P6 4 P6 3 P6 2 P6 1 P6 0 V RE F P5 7 P5 6 P4 6 P4 4 P4 5 P2 3 P2 2 P2 1 P2 0 P5 5 P5 4 P2 7 P2 6 P2 5 P2 4 DQ 7 DQ 6 DQ 5 DQ 4 DQ 3 DQ 2 DQ 1 DQ 0 P 53/W R # P5 2/RD # P5 1/CS # P 50/A 0 31 32 33 34 SC R OLL # N UM# C A PS # S PD IFON 63 64 65 66 67 68 69 70 SD 7 SD 6 SD 5 SD 4 SD 3 SD 2 SD 1 SD 0 14 15 16 17 SC R OLL # 2 0 N UM# 2 0 C A PS # 2 0 S PD IFON 2 1 SD 7 SD 6 SD 5 SD 4 SD 3 SD 2 SD 1 SD 0 C 7,16 ,1 7 ,2 0 7,16 ,1 7 ,2 0 7,16 ,1 7 ,2 0 7,16 ,1 7 ,2 0 7,16 ,1 7 ,2 0 7,16 ,1 7 ,2 0 7,16 ,1 7 ,2 0 7,16 ,1 7 ,2 0 IO W R # IORD # IO W R # 7 ,1 6 ,1 7 IORD # 1 6 ,1 7 SA 2 SA 2 E K CLK EK DA E MCLK EMDA C C C R1 4 9 10K IMCLK IMCLK R1 5 0 10K IMDA T A IMDA T E XT SMI# E XT S R2 6 6 V DD 3 E K CLK EK DA E MCLK EMDA C1 9 2 C1 9 3 C1 9 1 C1 9 0 8 P 4 R-1 0K 8.2K C2 7 9 R2 8 3 Z299 8 7 6 5 D Q5 0 16 ,1 7,2 0 10K C K BV 3 S KB D CS # KB D CS # 1 6 G 2N 700 2 P 42/IRQ 1 P4 3/IR Q1 2 23 22 IRQ 1 IR Q1 2 18 Z250 3 2 S MB DA S MB C L 5 8 E MCLK EMDA 4 7 E K CLK EK DA 6 9 IMCLK IMDA T A V CC IRQ 1 1 6 IR Q1 2 1 6 R1 6 1 P 47/C S (A CP I) D Q2 6 10K K BV 3 S MC CS # MC CS # 16 G P 76 /S DA P7 7/SC L P 74 /E MCL K P7 1/EMDA P 75 /E K CL K P7 2/EK DA P 73 /IMCLK P7 0/IMDA P4 0 P4 1 RE S ET # X IN C NV SS V SS AV S S 4.7U XO UT 27 26 28 ES MI W A KE # R1 7 1 Z251 S MB DA S MB C L 2N 700 2 V CC E MCLK EMDA E K CLK EK DA IMCLK IMDA T A E XT SMI# G W A KE # 1 2 100 K K BV 3 E XT SMI# 12 D Q2 7 S 2N 700 2 R2 6 7 10K Y5 29 Z252 8 MH Z_C .1U M388 6 7M8 C2 8 0 10U IMDA T A IMCLK 74 75 76 77 78 79 80 1 25 K B RE S ET # 1S S3 55(R) T T BE E P_ EN # K B _ S US # 100 K C Q C N1 3 IMDA T A IMCLK Z254 2 0 BE E P_ EN # 2 2 K B _ S US # 100 K R2 9 3 Q 47 48 49 50 51 52 53 54 Z253 K BV 3 22 R OW 8 R OW 7 R OW 6 R OW 5 R OW 4 R OW 3 R OW 2 R OW 1 Z62 7 V CC C3 5 7 39 40 41 42 43 44 45 46 55 56 57 58 59 60 61 62 7 B RIGA D J 2 2 FA N_ PW M 1 2 S CI MBID 0 MBID 1 A F0 1J 2E C F0 1J 2 E (R) R OW 1 6 R OW 1 5 R OW 1 4 R OW 1 3 R OW 1 2 R OW 1 1 R OW 1 0 R OW 9 C OL 8 C OL 7 C OL 6 C OL 5 C OL 4 C OL 3 C OL 2 C OL 1 R3 1 3 100 K A LE RT # P ME # D IS B L W EB SW # 100 K R ING# 100 K E MA IL SW # AMP _D OW N 100 K U S ERSW # 8 U S ERSW # K BV 3 71 K BV 3 S MA LE RT 1K (0 805) C 1 5 3 U4 1 1 4 P ME # 2 0 D IS B L A PW R_ ON # K B_ ON # C OL 4 C OL 3 C OL 2 C OL 1 VO LT AG E :2.5V 1 2 3 4 5 6 Z256 7 Z257 8 A C E S _ U _T P _ FFC 8 Z245 Z246 N D S 35 2 K BV 3 R3 1 6 1 2 3 4 5 6 7 8 BK 160 8H S24 1 BK 160 8H S24 1 9 C N15 P IN 10-18 ->GND Q2 3 0 (1 2 06)(R) V CC .1U L4 9 L5 0 V DD 3 R3 1 2 F0 1J 2E C3 5 6 EK DA E K CLK 68P V DD 3 K BV 3 AS 243 1 A1 4 6 2 C 2 8 S MA LE RT .1U Z549 Z243 Z244 1S S35 5 10 P8 R-10K C3 1 3 BK 160 8H S24 1 BK 160 8H S24 1 2 1 2 3 4 5 L4 5 L4 7 PA N _K /B _T 6 RP 3 1 2 3 4 5 C OL 5 C OL 6 C OL 7 C OL 8 E MCLK EMDA C N1 5 C3 1 8 C3 1 6 C3 0 6 C3 0 5 K BV 3 C OL 5 C OL 6 C OL 7 C OL 8 .1U B K2 125 HS 3 30 _0 80 5 1 C N1 4 1 C OL 8 1 2 C OL 7 2 3 C OL 6 3 4 C OL 5 4 5 C OL 4 5 6 C OL 3 6 7 C OL 2 7 8 C OL 1 8 9 R OW 1 9 10 R OW 2 10 11 R OW 4 -1 11 12 R OW 4 -2 12 13 R OW 6 13 14 R OW 4 -3 14 15 R OW 7 15 16 R OW 5 16 17 R OW 9 17 18 R OW 1 0 18 19 R OW 1 1 19 20 R OW 8 20 21 R OW 1 2 21 22 R OW 3 22 23 R OW 1 6 23 24 R OW 1 3 24 25 R OW 1 4 25 26 R OW 1 5 26 A CE S _ U _K /B _FC C2 6 C2 3 4 C2 3 5 Y 5:3-4 P IN->GND 22P 22P S MB DA S MB C L S MB DA S MB C L R2 9 4 R3 0 4 0 0 B A T _ DA T A B A T _ CLK B AT_ B AT_ C1 8 2 C1 8 9 22P MBID 0 MBID 1 V CC 3 MBID 0 MBID 1 R1 7 0 R1 8 4 22P 10K 10K R2 6 1 R2 5 4 10 K(R) 10 K(R) ´ ¯ ⁄ „q CLEVO ‚£ CCO. 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T it le K/B CONTROLLER-M38867 Size B Date: Docum ent Num ber 71-51S00-D02 M onday, Septem ber 18, 2000 Sheet 19 of 2 D 25 R2 18 HD _L E D 10 HD _L E D A Z280 33 0(0 80 5) C S ML _0 10 MT _ G D 24 VC C C6 29 .1 U VC C 16 ME MW # 1 FL A S H # U 48 IN 2 ME MW # 5 VC C R6 47 10 K IN 3 Z258 C 4 GN D OU T T C 7S H 3 2F U D 68 22 24 1 31 B IOS CS # ME MR # 16 B IOS CS # 16 ME MR # Z259 A W BIOS # CE OE VP P PGM 1S S3 5 5 C 73 13 14 15 17 18 19 20 21 O0 O1 O2 O3 O4 O5 O6 O7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A 10 A 11 A 12 A 13 A 14 A 15 A 16 S A [0..16 ] SD 0 SD 1 SD 2 SD 3 SD 4 SD 5 SD 6 SD 7 SD 0 SD 1 SD 2 SD 3 SD 4 SD 5 SD 6 SD 7 N UM# 19 N UM# R2 19 CA P S # 19 CA P S # R2 21 1,1 2 S T P CLK # Z7 1 3 A R7 16 V CC 3 22 0(0 80 5) 70 1,1 1,1 2 V CC 3 D 80 S CR OL L # 19 S CR OL L # 32 VC C S A 17 S A 17 16 B A T FU L L B A T FU L L R1 51 33 0(0 80 5) Z285 D 14 G B A T CH A R1 52 33 0(0 80 5) Z286 R LE D(CS L -F3 00 ) .1 U BA T ON 22 B A T O N R2 90 Q52 D 2N7 0 02 D 13 G Z287 33 0(0 80 5) C E C Z277 A C IN # R1 65 A C IN # 4.7 K Z279 E C 1S S3 5 5 D 34 Z278 A R2 91 LE D(CS L -F3 00 ) C Z276 1S S3 5 5 Q48 2N3 9 04 B A T _B EE P B A T _B EE P Z2 9 6 R 22 0(0 80 5) C V CC 3 D 37 A Q49 2N3 9 06 S A 18 16 D Q85 S 2N7 0 02 G VC C U36 E R2 22 Z271 1 0K (R) Z288 B R2 32 8 CO M C Q37 E D T D 11 4E K(R) U36 D S V CC 3 C C6 42 16 GN D 29 F0 2 0 9 P C _RING # A 28 B A T CH A 19 ,28 30 A 17 .1 U 14 P C _RING # C Z284 22 0(0 80 5) VC C C2 55 G R2 23 S ML _0 10 MT _ G V CC 3 VC C R2 82 10 K V CC 3 C Z7 3 9 S ML _0 10 MT _ G CP U_S T P # CP U_S T P # A D 28 D Q84 S 2N7 0 02 G S T P CLK # C Z283 22 0(0 80 5) S ML _0 10 MT _ G C Z7 3 7 S ML _0 10 MT _ G 22 0(0 80 5) V CC 3 B V CC 3 A D 27 12 ,22 D 79 C Z282 22 0(0 80 5) S ML _0 10 MT _ G R Z7 1 2 A C D 26 7,1 6,1 7,1 9 7,1 6,1 7,1 9 7,1 6,1 7,1 9 7,1 6,1 7,1 9 7,1 6,1 7,1 9 7,1 6,1 7,1 9 7,1 6,1 7,1 9 7,1 6,1 7,1 9 .1 U R7 14 A Z281 22 0(0 80 5) S ML _0 10 MT _ G R6 43 S A 18 R2 16 16 ,17 ,19 B A C F0 1J 2 E 16 FL A S H # 12 11 10 9 8 7 6 5 27 26 23 25 4 28 29 3 2 SA 0 SA 1 SA 2 SA 3 SA 4 SA 5 SA 6 SA 7 SA 8 SA 9 S A 10 S A 11 S A 12 S A 13 S A 14 S A 15 S A 16 D 67 U 10 S US _L E D 12 S US _L E D S A [0..16 ] 10 11 Z275 74 HC 1 4 U3 6F 13 R2 47 12 74 HC 1 4 10 0 K Z274 1M(R) Z272 74 HC 1 4 C2 67 C2 59 R3 02 K BV 3 10 0 K Q56 G C OM1RI R3 03 RING # 19 D S .04 7 U E .47 U(08 0 5 )(R) Q41 B C 2N7 0 02 E Q36 2N3 9 04 B Z658 C 10 0 K R2 20 10 K DISB L DISB L 19 Z266 3 R2 09 1K B A T _B EE P B A T _B EE P R2 15 U36 C U36 B 4 5 6 S Q38 Z263 D Z265 R2 10 14 1 VC C 2 Z262 R2 49 19 DISB L 3M C E E B Z273 Q33 2N3 9 06 2N7 0 02 74 HC 1 4 74 HC 1 4 0 C B Z264 4.7 K G U36 A Z270 2N 39 04 (R) Z269 18 C OM1RI RING # R2 00 2.2 K FA UL T # Q31 2N3 9 06 FA UL T # 22 R2 53 VC C DISB L 10 K C2 68 LB P .1 U 74 HC 1 4 C D 29 A Z289 R2 52 10 K V DD A R2 48 LB P 1S S3 5 5 D 21 Z260 19 B E E P _E N # B E E P _E N # R2 01 10 K Z261 B LB P 22 0 K C Q32 E 2N3 9 04 12 P C S P K PC SP K C Z268 R2 31 2.2 K Z267 B R2 46 C2 66 1S S3 5 5 C2 69 4.7 U A 14 S P K R OU T S P K R OU T C2 58 21 C Q30 E 2N3 9 04 R1 99 .1 U 1K .1 U 2.2 K (R) C2 54 .04 7 U ´¯ ⁄ „qCLEVO ‚£ CCO. 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T it le BIOS & LED INDICA TOR Size B Dat e: Docum ent Num ber 71-51S00-D02 Monday, Sept em ber 18, 2000 Sheet 20 of C 54 TP 8 T T T T T P1 74 T P1 76 T P 4 .01 U(R) C ID 0 C ID 1 NC G ND NC G ND NC NC G ND G ND st atus MAST ER SLA VE SLA VE SLA VE L 10 Z300 T T T P 1 7T7P 1 7 5 Z307 R 35 R 36 R 42 C ID 0 C ID 1 L 75 V CC 3 Z317 C 43 20 K (R) 20 K (R) R 1 V D DA O UT .01 U C 36 C 37 .1U 4 .7 U C6 5 4 C6 5 3 4 .7 U .1U .01 U 1 9 25 38 AGND 2 A UD CLK 3 Z6 81 C 71 Z6 54 5 R Z6 55 Z6 56 6 8 10 11 .1U Z310 27 C 39 10 U(R) Z311 28 X T L_O UT LINE _IN_R S D AT A _O UT MIC 2 B IT _ CL K S D A T A _IN S Y NC R ES ET # MIC 1 .1 U(R) .00 1U Z312 29 C 52 .00 1U Z313 Z314 30 31 Z315 32 10 U .1U .00 1U C 41 10 U(R) LINE _OU T _L V RE F 12 Z319 C 68 .1U 13 Z320 C 64 .1U 14 Z321 C6 5 0 .04 7U C6 4 6 R6 4 6 15 Z322 C 63 .01 U 20 K 16 Z323 C6 5 1 .04 7U 17 Z325 C 62 Z324 1K LB P LB P 20 P HONE CN 3 AGND 13 IN T MIC .04 7U R8 C 57 .04 7U Z327 C 48 .04 7U 22 Z328 C 58 .04 7U AGND 2 .7 K C9 .04 7U Z326 Z330 AGND L3 B K 1 6 08H S 3 3 0 10 U A FILT 1 C D _L A FILT 2 C AP 1 C AP 2 C D_G ND C D_R CN 1 5 4 3 2 1 HC H_ P HO NE _T R 14 AGND 2 .7 K C6 7 4 Z351 Z352 L2 MIC _ IN Z7 16 R7 1 8 1K Z7 15 R7 R B K 1 6 08H S 2 4 1 35 1 2 H RS _ R_ HE V D DA 24 21 R 41 P HONE 23 36 LIN E_ OU T _ R V R EFOUT 4 7 C 53 C 42 C 35 1U MON O_O UT C 50 C 51 +1 2V B K 2 1 25H S 3 3 0 33 34 39 40 41 43 44 45 46 47 48 V IDE O_R 10 U C 49 C 40 A U X_ R V IDE O _L X T L _ IN LIN E _IN _L C A C _S Y NC CO DE CR ST # C 38 AU X _L A V DD 1 A V DD 2 A V SS 1 A V SS 2 1 2,13 A C _S Y NC CO DE CR ST # P HONE C1 C6 7 5 Z661 C 44 Z662 1U C 55 1U LOUT L Z331 18 Z332 C 66 1U 19 Z333 C 61 1U 20 Z334 C 60 1U T LO UT L LO UT R 37 U3 .01 U LOU T R AGND TP 3 8 7 6 5 S PDI F 12 S P DIF S P DIFON 19 S P DIFON Z335 R6 4 5 4 .7 K C D _L C D _L 10 C DGND Z336 R 29 4 .7 K R6 5 2 R6 5 1 R6 5 3 71 R 1K 1K C DGND C D_R C 47 C 67 .01 U .01 U NO C OM N IC NC IN G ND N IC V CC C7 68 0P .22 U 1 2 3 4 SP DIF OUT MIC IN V D DA P I5A 3 1 9 R6 6 3 A K M4 5 4 3 26 42 13 MCLK MCLK R 45 DV DD 1 DV DD 2 V SS 1 V SS 2 16 A UD CLK P C _B E E P NC NC NC NC NC NC NC NC NC NC NC U7 C6 5 2 Z329 .1U AGND V D DA 8 IN G ND G ND 1 G ND 2 G ND 3 C 72 .1U L9 2 3 6 7 C 70 4 .7 U Z318 Z301 Z302 Z303 Z304 Z305 .04 7 U(R) C6 4 7 Z306 B K 2 1 25H S 3 3 0 V CC B K 212 5H S 33 0(R) U5 7 8L0 5(S O8 ) C6 5 7 2 .7 K .1U 10 C D_R 10 AGND O P V CC AGND L 77 1 2,13 S D AT A O Z6 54 B K 1 6 08H S 3 3 0 C6 4 0 C 1 2,13 S D AT A I S D AT A I C6 4 1 C6 3 7 C C C A C _R ST # R 27 1 2,13 A C _R ST # 8,9 ,1 0,1 3 ,1 4,1 6 ,23 L 76 1 2,13 A C _B CL K 1 00 C 18 P C IR S T # R 28 P C IR S T # R CO DE CR ST # C 56 B K 1 6 08H S 3 3 0 C6 3 8 C6 3 9 .01 U C C 68 0P 68 0P CO DE CR ST # 5 Z350 C8 5 HC H_ VR _ 10K C 17 6 10 K _1% (0 805 ) O UT IN G ND 4 G ND 1 G ND 3 G ND 2 S ET OF F# 1 2 3 4 A ME8 8 0 7 4 .7 U PI NNC3. 4=AG ND Z6 55 A C _B CL K R 12 1 6 AOUT L A O UT L 7 3 LOUT L LO UT L 8 2 LO UT R LOU T R Z6 56 B K 1 6 08H S 3 3 0 C6 3 6 AO UT R A OU T R AGND L 11 S D AT A O V CC U2 VR 1 AGND AGND R 13 C6 3.6 K _ 1% (0 805 ) 4. AGND AGND U4 .22 U Z339 R 18 10 K Z337 4 C 23 .22 U Z340 R 22 10 K Z338 5 CN 5 1 2 H RS _ R_ HE AD 2 Z342 R 17 10 K Z344 C 14 .22 U 20 Z343 R 21 10 K Z345 C 22 .22 U R 19 R 16 R 15 C 13 15 K 15 K 10 K 5P 10 Z565 O P V CC L8 C 33 C 32 B K 212 5H S 33 0(R) .1U 6 8 9 7 18 MUT E O UT .1U 21 10 K L_O UT - 4 .7 U R _H P IN R 20 3 C 30 R_L IN E IN 5P L_O UT + C 34 L_ H P IN C 16 SPEAK_L V CC L_ L IN E IN 1U 1 12 13 24 L_ O UT + L _OU T L _B Y PA S S S HU T D OW N MU T E O UT V DD V DD R _O UT + R _OU T R _B Y PA S S S E /B T L# H P /L INE # MUT E IN GN D/HS GN D/HS GN D/HS GN D/HS NC NC NC R_O UT + 15 L_ O UT + R_O UT Z341 R_O UT + C 21 1 L_O UT + 1 MS P K R L5 B K 2 1 25H S 1 2 1 2 4 7U/1 6V MS PK L L4 B K 2 1 25H S 1 2 1 11 A MP _ D OW N TT P 2 T P1 80 TT P 1 T R 24 C 29 C 31 1U .1U C 20 68 0P 68 0P R1 R9 1K 1K Z347 Z348 Z349 C4 C 12 68 0P 68 0P .1U C3 OPV CN 2 5 4 3 2 1 HC H_ P HO N SPEAKER AGND A MP _ D OW N 19 L6 T P A0 2 0 2 ´ ¯ ⁄ „qCLEVO ‚£ C LEV O CO. CO. T it le A UDIO CODEC & A MP AGND Size AGND 10 0K H P _S EN S E B E AD (1 2 06) AGN D:25,26,27,28,29,30,31,32,33 R 11 T P 1 T9 1 C 11 10 K AGND C 10 10 0K Z346 R 10 2 4 7U/1 6V SPEAK_R H P _S EN S E Z550 Z551 Z552 H P _S EN S E H P _S EN S E 1 2 H RS _ R_ HE AD 2 14 16 2 17 23 A OU T R R _O UT + CN 7 22 19 AO UT R + C 15 + AOUT L A O UT L A3 Date: Document Num ber 71-51S00-D02 Monday, Septem ber 18, 2000 S heet 21 of T T P 96 P W RS W # S D 2 N7 00 2 (R ) S4 R 7 38 0 Z7 2 9 5 3 Z 354 H CH _ 5 1 _ P W R _ BU T T O N 7 C 2 60 12 63 0 P W R S W # 63 0 P W R S W # R 2 1 3 Q .1 U (R ) 1 C 2 K B _ O N# C D 22 A K B _ S US# D 20 A F 01 J 2 E (R ) K B _ O N# 19 P W R _ON C 2 71 R 2 50 10 K (R ) R 2 12 10 K (R ) A Z 356 D D B+ R 5 12 L T 11 21 .1 U _K % (1 2 0 6 ) .1 U _K % (1 2 0 6 ) A DA P C 4 57 R 5 11 C 4 56 4 .7U 1 00 K (R ) G 2 N 70 02 .1 U (0 8 0 5 ) V C C3 D T B 11 4 EK (S O T -3 2 3 ) C R 2 37 B Z 399 V CC Q 43 E 2 N 39 04 1 0K 1 0 0K C V D D3 Z 398 A P W R _ON J 3 2 16 HS 4 8 0 C2 C N 2 8 #4 ~# 6 , # 1 1 ~ # 1 8 ->G N D #7 ~# 1 0 -> Z3 8 1 Z7 3 2 A C Z7 3 4 2 N 70 02 1 SS 3 5 5 D 84 P W R _ON L1 Z 382 R 5 13 R 7 41 1 SS 3 5 5 E R 1 78 B ++ R 7 42 B Z 400 VA 1 0K R 1 86 Q 89 Z7 3 3 R 7 43 B A T O N 20 Q 90 Z7 3 5 G 4 7 0K 2 N 70 02 D T B 11 4 EK (S O T -3 2 3 ) B AT ON 1 0K V CC R 7 44 C 6 93 L 37 2 0 0K 1U B K2 1 2 5 HS 3 3 0 40 M IL Q8 9A 63 0 P W R S W # 12 D 63 0 P W R S W # D T B 1 1 4E K (S OT -2 3) Q 44 C 2 N 39 06 1 0K (0 80 5) S V CC Q 13 2S C 46 72 V C C3 R 3 89 1 0K 3 4.8 K _1 % A R 6 72 .1 U 1 Z 374 2 Z 373 3 C B Z 372 C 3 69 Z 375 40 M IL C N 16 1 2 3 H R S _S _ H E A D3 E D 11 R 3 88 3 Q 14 16 F A N _S T P F A N _S T P R 3 76 1K E Z 366 B C R 3 91 CF 0 C 8 20 F A U LT VO V MI N Z 566 2 1 SS 3 5 5 8 V DD 1 2m i l FA N _P W M U 26 V IN GND 19 FA N _P W M 1 2 N 39 06 SENSE T C 6 46 6 FA U L T # FA U L T # 20 7 C 3 58 5 Z 370 R 3 75 .0 1U _ K % 1 0K V CC Z 371 R 3 77 Z 368 12 S US P E N D S US P E N D G R 3 79 R 3 90 C 3 59 C 3 76 C 1 37 15 K _1 % 1 0 0K .0 1U .0 1U .2 2 U _K % (0 80 5) C D Q 15 2 N 70 02 S Z 369 R R D 54 R 3 87 C 3 68 1 SS 3 5 5 6 .8K 1U 40 M IL R 3 78 Z 367 A 4 12 ,1 9 ,2 3 ,2 5 ,2 8,2 9 L7 J 3 2 16 HS 4 8 0 C 19 2 D 83 R 68 47 0 (0 8 0 5 ) 47 0 (0 8 0 5 ) 47 0 (0 8 0 5 ) 47 0 (0 8 0 5 ) B ++ S G S 72 19 P W R S W # P W R S W # Q 87 VO R 67 3 2 C V D D 1 .8 _ B+ 3 A Q 47 E 2 N 39 04 1K F 01 J 2 E (R ) GND Z7 3 6 S R 1 69 C N 28 H C H _ R_ D C IN3 1 Z 381 DZ7 3 2 1 0 0K B 1 0K (0 80 5) C Q 39 S 2 N7 00 2 (R ) G O S# D 30 A C I N# 1 2,2 0 C Z 383 VA R 2 11 V D D3 1M T P 92 T T P 95 T A C I N# 1 0 0K R 1 77 Q 86 D T B 1 1 4E K (S OT -2 3) U 17 C 1 Z7 3 1A VI D 82 1 SS 3 5 5 B ++ Q8 6A Z7 3 1 Q 88 R 7 39 R 1 68 5 60 K (R ) 1 SS 3 5 5 R 7 40 Z 385 R S H U T DO W N VA Z 384 12 1 U _ K % (R ) D 81 B ++ 13 C 2 70 V C C3 O S# Q 7 44 01 3 (R ) P W R _ O N 12 ,1 9 ,2 3 ,2 5 ,2 8,2 9 V C C3 2 C LK C 2 74 .1 U (R ) K B _ S U S # 19 1S S 35 5 (R ) 1 2,2 8 S H U T DO W N D 11 V D D3 7 44 01 3 (R ) Q 40 S D Z 353 2 N7 00 2 (R ) R Q GND 4 G .1 U (R ) C LK 9 Q R C 2 51 10 K (R ) Z 386 14 V DD D 1 M(R ) U 3 7B R 2 33 V D D3 10 K (R ) U 3 7A 10 K (R ) Q 42 R 1 85 R G R 2 34 10 R 2 51 10 K (R ) C 2 50 .1 U 6 R 2 02 19 10 K (R ) S 19 P W R S W # Q Z 355 R 2 35 V D D3 8 V D D3 Q V D D3 Z 387 V D D3 V D D3 ´¯ ⁄ „qCLEVO ‚£ CLCO. 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T itle POWER ON & F A N CONTROL Size B Date: Do cum ent Nu m ber 71-51S00-D02 Monday, Septem ber 18, 2 000 S heet 22 of V CC 3 V CC 3 V CC 3 AD[0. . 31] V CC AD0 AD2 AD4 AD6 AD8 AD10 AD12 AD14 9,14 9,14 9,14 9,14 C/ BE#0 C/ BE#1 C/ BE#2 C/ BE#3 C /B E #0 C /B E #1 C /B E #2 C /B E #3 V CC 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 K1 L L L L L L L L L L L L L L L L U U U U U U U U U U U U U U U U 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 AD1 AD3 AD5 AD7 AD9 AD11 AD13 AD15 8 7 6 5 AD[0. . 31] R5 47 R5 46 1K 1K RN 6 R6 70 R6 71 R5 81 R5 80 C6 89 8P 4R -4 .7K 10 K 80 P OR T _ CL K P CIR S T # F RA ME # IR DY # T R DY # V CC 80PO RT _CLK 11 PCIRST # 8, 9,10, 13,14, 16,21 FRAME# 9,14 I RDY# 9,14 T RDY# 9,14 10 K 10 K 10 K .1U U 42 16 S E LEC T A 16 S E LEC T B S E LEC T A S E LEC T B 16 1 15 14 2 12 S MB DA T A S MB DA T A 7 S MB CLK 9 12 S MB CLK V CC EA # EB # S0 S1 10 A 11 A 12 A 13 A YA 10 B 11 B 12 B 13 B YB 8 GOL D -F IG EN 1 2 3 4 9,14 6 5 4 3 Z670 10 11 12 13 T Z669 T S DA _RA S DA _RB S DA _RA S DA _RB SDA_ AT F SDA_ AT F S CL _RA S CL _RB S CL _RA S CL _RB S CL _ A T F S CL _ A T F 5 5 2 5 5 2 G ND QS 3 2 5 3 V CC G D S CL _ A T F 2 S CL _ A T F G D SDA_ AT F 2 SDA_ AT F S Q 75 2N 70 02 S Q 76 2N 70 02 S C L _A T FF S C L _A T FF 1 1,15 S D A_A T FF S D A_A T FF 1 1,15 73 V DD 1.8 A V CC 3 V CC 3 V CC C 94 .1U C 95 10 U +1 2V 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 D C/D C 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 Co n n B AT OK 12 RT CV DD 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 D 35 Z6 83 A D 36 C Z389 A 1S S 3 5 5 C Z390 A 1S S 3 5 5 D 39 C Z391 R7 04 C 0 F0 1J 4 C D 38 1S S 3 5 5 V CC 3 D 70 A 1S S 3 5 5 C C N 20 C3 00 C3 08 C3 10 1U .01U 22 U/10 V _12 10 Z392 V DD 3 C C 93 10 U 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 D V CC R2 80 4 70 Q 51 S ND S 3 5 2 G Z393 D 40 1S S 3 5 5(R) A C 92 .1U P W R _ON BA T O K 51 K .1U A 12 ,1 9 ,22 ,2 5,2 8,29 1.8V C R3 10 B+ V CC D 42 F0 1J 2 E C6 90 Z394 +1 2V C 91 C6 91 R2 81 .1U .1U 10 0K R3 00 1K BT 1 Z395 B AT _CR 20 23 ´ ¯ ⁄ „q CLEVO ‚£ CCO. 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T it le SMBUS & RTC POWER Size B Date: Docum ent Num ber 71-51S00-D02 Monday, S eptem ber 18, 2000 S heet 23 of D D 74 A F5 B+ 5A C Z401 C2 75 0.1U F(0805) C2 38 22UF/25V(DIP 10X5) 5 Z4 03 Q 46 2 N39 06 5 4 C2 94 Q 29 S I4884 (S O8) V CC _CO RE 4 1 2 3 2 D 16 A R2 55 200K (0603) VC C2_ CO RE + N8 N9 N 10 N 11 N 12 C Z402 1 2 3 R2 56 10K Q 28 S I4884 (S O8) 6 7 8 12 G CL _GA T E R 6 7 8 11,27 VR _ON 10K R2 76 V CC 3 R2 63 F1 J4 C C2 86 IN T V CC R2 95 1 0.1U F L 53 1.5uH (MOD IN G) Z4 16 R1 73 14m (1206) C2 92 C2 06 C2 04 47U F/6.3V(D) 47U F/6.3V(D) C2 07 C2 09 C2 91 47U F/6.3V(D) 47U F/6.3V(D) 2.2UF/25V(1206) C2 90 0.1UF Z6 90 R1 67 R 0.1U F(0805) R1 74 14m (1206) P2 R2 77 R IN T V CC Z405 2 74 C2 85 0.1U F C2 11 C 21 2 C2 10 V CC R2 85 IN T V CC 3 68P F 0 R2 64 Z5 48 1 Z406 17 0 4 2 15 14 R6 93 R6 94 R6 95 R6 96 R6 97 13 R 12 R R R R 11 2,15 V ID 4 5 2,15 V ID 3 P GO OD RU N/SS IN T V c c Q 34 IT H V IDV c c LT C17 36CG E X TVcc B OO ST <P CB Footprint> FCB TG SW B4 BG B3 S EN SE + B2 SE NS E- B1 V OS EN SE B0 VFB PG ND SG ND R2 71 1 20 R1 76 16 23 Z409 24 Z410 22 Z411 19 Z412 8 Z413 7 Z5 67 C2 20 0.01U F P2 0 R2 74 C2 19 C2 37 C C 2 2 0 R2 75 0 10 9 Z407 18 C2 87 R2 72 C2 82 C 560P 1 392K 2,15 V ID 1 2,15 V ID 0 P2 R R R R 2 VS S_S EN SE 2 2 2 1 VS S_S EN SE J2 S HORT -A 2 R C2 05 S I4874 (S O8) 6 2,15 V ID 2 R6 98 R6 99 R7 00 R7 01 R7 02 C2 36 220uF /4V Z5 68 V IN Co s c C2 08 220uF /4V S I4874 (S O8) 2.2 UF/25V (1206) C2 93 U 34 C2 81 6 7 8 Q 35 0.1U F(0805) P2 R6 92 20m (1206) 220uF /4V R C2 95 220PF F1A J3 D 23 4 1 2 3 Z404 4 R1 75 14m (1206) A R2 73 5 1 2 3 C2 21 1000P 6 7 8 5 R2 78 10K D ZD 3 C Z6 77 1 VC C_S EN SE J1 2 VC C_S EN SE CORE 1.35V/1.6V 15A PK 17A S HORT -A P2 CO.£ ª Ñ ¥ ÷ ¦ ³ - - ¤ ½ ³ Í ³CLEVO Õ ¹ q¸ 71-51S00-D01 Size B Date: Docum ent Num ber Rev 71-51S 00-D 02 Mon day, S eptem ber 1 8, 20 00 1.0 S heet 24 of 29 P3 C417 0.1UF R461 4.7 Z425 U23 R 2 EXT VCC RUN/SS INT VCC + VIN C142 22UF/25V(C) P3 4 B+ + C687 16 Z422 TG 5A 100UF/25V(6.3X7)-L D5 F1J4 15 BOOST L36 Z423 R89 14m(1206) N1 1 COSC 14 SW C430 0.22UF 5 Q17 SI4416(SO-8) C Z419 6 7 8 C Z418 9 4.7UF(1206)5 F2 Q16 SI4416(SO-8) 1 2 3 R482 12 Z671 A 13 C428 6 7 8 Z688 SDS1005-4R7M N2 D57 33PF Z424 Z420 12,19,22,23,28,29 PWR_ON R435 10K Z460 Q67 2N3906 4 R460 11 Z426 BG F1AJ3 4 ZD2 2.4V PGOOD 10 PGND R437 Z421 470PF 8 C668 1000P(0603) IT H A C431 3 C429 SGND SENSE+ VOSENSE SENSE- 32.4K 1% P3 6 Z427 Z696 C432 0.1UF 1 2 3 C419 C418 + 1000PF R481 Z429 R 220PF 33K 7 C111 5 Z428 330UF/4V R691 LT C1735-1 C415 47PF 0 S3 C416 R436 47PF 25.5K 1% 75 S3 S3 JUMPER SHORT J P3 S3 JUMPER SHORT J P2 VCC1.8 2A PK 3A P3 CLEVO CO. T itle 71-51S00-D01 Size B Date: Document Number 71-51S00-D02 Monday, September 18, 2000 Sheet FA 1 7A Z 433 B -1 C A 12 IN T V C C -1 C A 10 1 2V -1 C A 33 4 .7U F/3 5 V (12 0 6)(R ) R A 27 5 R 1(0 8 05 ) 0 .1U F /5 0V (1 2 06 ) V CC3-1 C A 15 0 .1 U F(0 8 05 ) + Z 554 A DA4 C A 19 4 .7U F/3 5 V (12 0 6)(R ) CA2 C 100UF /25V (6.3 x 7) 2 2 U F /2 5 V (D IP 1 0X 5 ) F1 J4 C A 23 2 .2U F /2 5V (1 2 06 ) DA7 B G2 14 Z 438 SW 1 SW 2 19 B G1 UA1 L T C 1 6 28 S GN D S E N S E 2+ P GN D S E N S E 1+ 27 Z 449 25 Z 450 26 13 12 5 23 0 RA2 R 5 Z 441 6 Z 442 28 10 0 P RA9 0 RA5 20K 11 R A 31 R RA3 R + + CA9 47 U F /6.3 V (D ) 76 C D A 73 D R A 26 R V OS E N S E 1 FR E Q S E T FCB S T B Y MD 3 .3 V ou t FL T C P L EXT VCC IT H 2 C A 34 0 .1 U F S1 + CA8 47 U F /6.3 V (D ) V OS E N S E 2 Z 440 S1 R U N /S S 1 RA1 IN T V C C -1 C A 37 IT H 1 V C C -1 LA1 10UH(1.42) 7 Z 451 3 4 5 2 R A 25 R (1 2 06 ) R A 12 8 9 10 DA5 5 .6 V (L L -34 ) C A 28 47UF /6.3V (D) 10 m (1 2 06 ) Z 452 4 R A 11 20 DA1 D (F 1 A J 3 ) 2 Z 453 3 P1 C A 30 4 40 m (1 2 06 ) Z 455 Z 456 RA4 22 Z 457 R A 10 8 Z 6 94R A 29 28 7 K RA7 R 47UF /6.3V (D) CA3 47UF /6.3V (D) 0 R A 37 10 CA4 + + C A 21 2 .2U F /2 5V (1 2 06 ) V C C 3-1 Z 454 7 + DA3 F 1A J 3 QA 1 S I48 1 2(S O -8 ) 1000P 10 5 K C A 31 10 0 P V C C 3-1 0 V C C -1 1 00 0 P C A 29 A Z 6 79 CA1 22 0 P 1 Z 439 0 SENSE1- 15 Z 6 95R A 36 SENSE2- R U N /S S 2 1000P RA6 6 3.4 K 6 7 8 4 C A 24 0 .1 U F 3 2 1 C A 32 T G1 B OOS T 1 C 17 9 A ZDA 1 3 .9 V (L L -34 ) B OOS T 2 A Z 437 4 T G2 C Z 436 Q A5 4 S I4 8 12 (S 0 -8 ) C 18 V IN 16 Z 435 A DA2 F 1A J 3 QA 2 S I44 1 6(S O -8 ) 61 72 83 0 .1 U F 3 2 1 8 7 6 C 33 m (1 2 06 ) R A 24 R (1 2 06 ) 5 F1 J4 1 2 3 CA7 24 21 Z 434 14 m (1 2 06 ) LA2 S D S 12 0 8-6 R 5 M P1 P1 IN T V C C F1 J4 5 QA 3 S I44 1 6(S O -8 ) 4 C R A 14 R A 13 R A 35 R A 34 1 5 0(1 2 06 ) R (1 2 06 ) DA6 0 .1 U F(0 8 05 ) C A 20 2 .2U F /2 5V (1 2 06 ) V IN 1 C A 13 + 8 7 6 C A 11 100UF/25V(DIP6.3 x 7) + CA5 2 .2U F /2 5V (1 2 06 ) A A CA6 0 .1 U F D D A 72 R A 30 20K C S1 RA8 20K Z 448 S1 A Z 6 78 C A 26 22 0 P C A 22 47 U F /6.3 V (D ) C A 35 1 00 0 P Z 443 R A 33 1M C A 36 1 00 0 P R A 32 10K S1 IN T V C C -1 C A 25 V IN 1 1 00 0 P C A 27 1 00 0 P R A 28 10K IN T V C C -1 S1 S1 R A 17 Z 444 QA 6 2 N 3 9 04 B R A 22 R (0 6 03 ) R A 23 R (0 6 03 ) Z 445 Z 446 C C E R A 19 10K QA 7 2 N 3 9 04 B C A 16 C A 18 1 00 0 P R A 20 Z 447 E 1 00 0 P DD_O N+ 10K 10K C A 14 1 00 0 P R A 18 20 0 K R A 21 20 0 K C QA 5 E 2 N 3 9 04 C A 17 1 00 0 P B Z 555 V R _ O N -1 V C C 3-1 V C C -1 1 2V -1 CNA1 2 2 4 1 4 6 3 6 8 5 8 10 7 10 12 9 12 14 11 14 16 13 16 18 15 18 20 17 20 22 19 22 24 21 24 26 23 26 28 25 28 30 27 30 32 29 32 34 31 34 36 33 36 38 35 38 40 37 40 42 39 42 41 D C /D C C on n A S1 V R_O N-1 10K V R _ O N -1 R A 16 20 0 K B -1 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 R A 15 S1 S1 V C C 3-1 1 JA3 2 S HO RT -A S1 1 JA2 VCC3 4A PK 6A VCC 4A PK 6A 12V 0.22A PK 0.35A 2 S HO RT -A P1 V C C -1 CO.£ ª Ñ ¥ ÷ ¦ ³ - ³ Í ³CLEVO Õ ¹ q¸ 1 2V -1 71-51S00-D 01 S iz e Docum ent Num ber Rev C u s tom 7 1 -51 S 0 0 -D 02 Date: M on d ay , S e p tem b er 1 8, 2 0 00 1.0 Sheet 26 of 29 V D D 1 .8_ B + C6 6 4 Z7 2 3 C Z6 9 2 C D7 1 D A V D D 1 .8 + N1 3 R3 4 3 7 6 4 C6 6 6 5 C FB 1 2 Z6 9 8 5V SD # C6 6 7 C6 6 5 V D D 1 .8 VO VO GND 3 VI ERR OR # 8 U4 9 M A C A -2 9 5 1 (S O -8 ) 4 3 .2 K / F C6 8 8 D7 5 2 .4 V 2 . 2 U F /2 5 V (1 2 0 6 ) .1 U R6 8 9 2 . 2 U F /2 5 V (1 2 0 6 ) 1K V CC 3 Z 45 9 R3 4 5 N1 4 N1 5 10 0K/F 4 . 7 U F /6 .3 V (D ) Z 8 0 1 1 Z 46 2 2 Z 46 3 3 Z 55 6 4 U3 3 SE NSE - VIN IT H P DR V VF B GND R U N /S S S YN C 8 7 5 Z 46 5 Q53 2N 390 6 C1 9 5 1 0 0 0 P (0 6 0 3 ) C3 1 4 R3 2 0 C 10 K R3 1 7 0.01U F C1 9 4 1 0 0 0 P (0 6 0 3 ) N7 N3 R3 1 8 9 3 .1 K ZD 4 2 .4 V 237 K D4 7 R3 0 6 R F1AJ3 C1 8 3 3 3 0 U F /4 V (D ) A Z7 0 7 Z6 9 7 10 K V P4 C C3 0 1 R1 5 4 VC CT + L5 2 S D S 1 0 0 5 -4 R 7 M Z 46 6 L T C 162 2 11 ,2 4 V R _O N Q20 S I3 4 4 3 ( T S O P -6 ) 3 Z 46 4 6 1 2 5 6 77 Z 46 1 R1 3 9 1 4 m (1 2 0 6 ) C1 7 2 4 + Z 46 7 R1 5 3 R R6 9 0 0 C 3 0 3C 3 0 2 220 P220 P R3 1 9 75 K Z 55 7 JUM P ER SH O R T JP 1 CLEVO CO. Tit le 7 1 -5 1 S 0 0 -D 0 1 V DD 1.8 = 1 .8V / 100 m A P4 V CC T = 1 .5V / 1 .5A S iz e B D a t e: D oc u m e n t N u m b e r 7 1 -5 1 S 0 0 -D 0 2 M o n d a y , S e p t e m b e r 1 8 , 2 0 0 0Sh e e t 27 of C R 1 27 R 1 21 0 1 00 K R 1 20 R R 3 50 R 15 R 3 72 R R 3 62 R 1 29 10K 10K R 1 25 C 1 58 1 0U F (12 0 6) 10K 28 Z4 69 9 Z4 70 C 3 66 0 .1U F C 3 44 1U F /16 V (08 0 5) 10 Z4 71 16 R 1 30 R 1 26 R R P B 1/T C A P P A 0 /P W M0 P A 1 /P W M1 P A 2 /P W M2 P A 3 /P W M3 P A 4 /S C L0 P A 5 /S D A 0 P A 6 /S C L1 P A 7 /S D A 1 V dd 1UF /16V (0805) 7 H i => R es et C h arg er R 1 19 R 3 59 R 3 71 R R 4.7K 4.7K D 53 D 52 1S S 3 55 1S S 3 55 IR Q / V pp RE SE T P B 7 /A N 0 P B 6 /A N 1 P B 2/C S 0 (O S C 1) P B 5 /A N 2 P B 4 /A N 3 TM P B 3/C S 1 (O S C 2) CS A VM VSS C A P (A D C ) A A PC4 PC5 PC6 PC7 ESV C 3 43 IR Q R 3 74 47K SHDN_CT L FULL_LED Z5 59 22 23 24 25 26 27 2 1 P W M_C T L 29 C H G_C T L 29 Z4 80 BUS_CT L BAT _CLK 19, 29 BA T _DAT A 19, 29 Z4 81 Z4 82 R 3 73 R 3 49 14 13 12 11 18 19 20 17 0 C VC R 3 57 R C 29 A C _IN R 1 24 10K 0 R 1 17 0 D 55 D 49 1S S 3 55 1S S 3 55 Z4 83 Z4 84 R 3 56 R 3 70 0 R A 8 6 5 4 3 A 21 Z4 68 R 3 48 Z5 60 U 29 R 3 61 0 19 S MA L E R T C VC VCC R 3 38 R C H G_I 29 Z4 85 VC WI N723(SO IC-28) R 1 33 510K VC C 3 30 1UF /16V (A) 8 R 3 34 3 30 (08 0 5) 15 PC4 PC5 PC6 PC7 ESV P B 1/T C A P P A 0 /P W M0 P A 1 /P W M1 P A 2 /P W M2 P A 3 /P W M3 P A 4 /S C L0 P A 5 /S D A 0 P A 6 /S C L1 P A 7 /S D A 1 V dd Z4 72 78 7 28 C 9 Q58 E 2N3904 10 B A T C H A 20 16 29 BA T D T B 11 4E K (S O T -2 3) Q71 R 77 470 (0805) 8 Z4 76 U 21 MIC 2 9 51 (S O8) VI R 80 470 (0805) 3 R 84 Q71 A D T B 1 14 E K (S O T -3 2 3) 470 (0805) SD# Z4 75 C 4 52 P W R _ ON FB 29 C 4 46 7 Q70 D T D 11 4E K (S O T -2 3) 2 .2U F /25 V (12 0 6) VIN D 60 R 4 89 1S S 3 55 1 58 k A C Z4 86 R 7 31 0 Z8 00 6 2_5V Z7 24 R 4 92 1 8K /B 7 Z6 22 R 75 10 0 K /F D 6 0 .1U F 5 .6 V C C 1 13 12 ,19 ,22 ,23 ,25 ,29 VO VO S H D N _C T L C 1 47 C 3 37 C 3 36 1U F /16 V (08 0 5) 1U F /16 V (08 0 5) 1U F /16 V (08 0 5) 1 2 R 81 470 (0805) VCC3 R 7 29 R 12 D3 E C 11 FS 2 C R 3 47 10 0 K /F U 19 A LM3 39 1 Z4 92 C Z4 74A T E MP 29 2 _5 V R 5 06 1 8K /B R 7 32 0 C 4 44 R 78 1 00 K 2 .2U F /25 V (12 0 6) R 4 99 10 0 K /F C 1 02 R 72 10 K Z6 23 Z4 90 S H U T D OW N 12 ,22 H i = > S h u td o w m sy ste m C 6 98 Q72 2 N 39 04 R 5 09 0 D 62 1S S 3 55 A C C (08 0 5) 1M R 5 00 Z4 91 0 .1U F (08 0 5) Z4 88 VC ³ Í CLEVO ³ Õ ¹ CO. q¸ £ ª Ñ ¥ ÷ ¦ ³ - - ¤ Q5 2 N 70 02 Q70 A D T D 1 14 E K (S O T -3 2 3) R 73 47 K D 63 1S S 3 55 Z7 25 R V_BAT 29 VC ERROR# GN D 5V R 7 03 B A T F U LL 19 ,20 3 _5 V 14 13 12 11 18 19 20 17 C 1 59 1U F /16 V (08 0 5) V IN 29 5 4 6 VA Q59 2 N 39 06 A Z4 79 Z7 22 D4 E C 11 FS 2 C A Z4 93 FULL_LED WI N723(SSO P-28) D 61 1S S 3 55 C A R 3 60 10 K 14K /B 3 C 4 45 C R 3 37 4 3.2 K /F R 1 28 Z7 26 R 3 58 10 K P B 7 /A N 0 P B 6 /A N 1 P B 5 /A N 2 P B 4 /A N 3 TM P B 3/C S 1 (O S C 2) CS A VM VSS C A P (A D C ) P B 2/C S 0 (O S C 1) 22 23 24 25 26 27 2 1 + B RE SE T R 3 35 3 30 (08 0 5) VC - Z4 73 29 C H G_C T L IR Q / V pp 6 5 4 3 Z4 94 21 Z7 27 U 30 VC Z4 89 BA T _MO DE R 4 98 Q69 2 N 70 02 71-51S00-D01 Size B Docum ent Num ber Rev 71 -51 S 00 -D 02 1 .0 10K Date: Mon d ay, S e pte m b er 18 , 20 00 Sheet 28 of 29 F1 A DA PT E R 5A Z 63 0 L2 9 6 00 (1 2 06 ) Z 49 5 6 00 (1 2 06 ) C 13 0 10 P (1 2 06 ) Z 64 9 C 12 9 C 12 2 1 00 0 P L3 0 0 .1U /50 V (1 2 06 ) D12 K S 8 23 C 0 4 (T O -2 52 ) A1 C VA R 10 3 100m (2512) VC B+ A2 Z 495 VC C 34 5 0 .1 U F /50 V (1 2 06 ) R96 R 28 8 0 10K/F R 43 8 100K/F R 43 9 10K/F R 44 0 U24D L M32 4 10K/F A 10 Z 496 + Z 497 9 C 39 9 C - R 46 3 C 8 Z 498 Z 62 1 12 + 13 - 20K 14 Z 500 Z 501 Q6 8 2 N 3 90 4 R 46 8 D18 K S 8 23 C 0 4 (T O -2 52 ) A1 C Z 502 51 0 K R95 11.3K/F V _B AT 28 CE LLS R 46 5 2 8 A C _ IN R 46 2 10 0 K U24C L M32 4 100K/F Z 499 D59 1S S 35 5 IRQ R 46 4 R C 12 0 1 U F /16 V (0 8 05 ) Q7 2 N 3 90 6 C 43 3 1 U F /16 V (0 8 05 ) 28 B AT C 69 9 0 .1 U F /50 V (1 2 06 ) C 29 8 0 .1 U F /50 V (1 2 06 ) LA3 VA 4.7K C Z 522 Z 521 C 17 4 Z 528 R 32 5 10 0 K 1 2 3 Z 532 4 R 44 1 2K/F D R A IN D R A IN D R A IN D R A IN 8 7 6 5 Z 71 4 A R 32 2 20K C 67 3 C(S MT ) C(S MT ) C 40 0 C R 46 7 D8 1S S 35 5 C Z 523 A Z 524 7 U24B L M32 4 + 5 - 6 C Q5 5 R 30 7 10K Z 508 Z 509 Z 510 Z 511 C 14 0 1 00 0 P R 11 2 10K R 11 1 10 0 K C H G_ C T L 2 8 BAT R R 41 7 0 R 42 5 P _CV Z 525 C 40 1 0.1 U F 28 R 28 7 P _CV Z 526 G Z 539 Q5 4 2 N 7 00 2 10K/F Z 67 2 R 28 4 R76 53.6K/B C 13 9 1 U F /16 V (0 8 05 ) 18K/B V IN Z 512 R 42 2 5 .1 K C 38 3 0.1 U F R 42 1 510K R 41 6 R 41 9 R 42 0 6.8K R 100K R 29 6 Z 541 220 VC R 51 0 100K G 10K/F 2 Z 542 R 40 4 G Z 516 Z 520 P W R _ O N 12 ,1 9,2 2 ,23 ,2 5 ,2 8 R 68 7 0 T E MP 2 8 Z 543 12 S D Z 519 Z 546 S U24A L M32 4 R 50 4 Q6 4 Q (7 0 02 ) D - R 49 0 53.6K/F Vc R 50 3 100K R 74 7 R79 R G Z 74 2 Q9 2 Q (7 0 02 ) 10.7K/B B A T _ MO D E S C 12 1 1UF 16V (0805) R 38 6 R Z 69 9 C 10 5 1 0 U F/1 6 V (B ) 4 100K D R85 3 .3 K 1 Q6 2 N 7 00 2 G Z 545 S 2 + Z 68 9 3 S Z 518 11 2 8 P W M_ C T L 5.1K/F 4 R 47 0 5 .1 K Z 517 2 8 V _B A T D R 42 3 R 48 3 5 .1 K 383K/F L M33 9 + 5 - R R 50 1 U19B 47K Q4 2 N 7 00 2 R 42 4 VA B A T _CLK 19,28 CE LLS B A T _MO DE R 50 2 510K BA T _DA T A 19,28 T E MP 2 8 N i = Hi C (0 6 03 ) R 10 2 C 70 0 0 .1 U F /50 V (1 2 06 ) VC 0 D C 69 7 Z 547 28 R 50 5 Z 564 CN4 1 2 3 4 5 R 27 9 6 0 7 8 9 10 11 12 B A T _ MO D E 1 3 14 15 16 17 18 19 20 C ON2 0 100K 499K/F R 10 0 Z 513 Z 514 Z 515 D 44.2K/B R97 S 1 IN + Q 1 -E Q 2 -E 2 IN + 2 IN VREF 1 IN G ND R 28 9 4.5 3 K /B 100K/B B Z 534 40.2K/F 2 8 C H G_ I 1 9 10 16 15 14 2 7 VA R 16 2 2N3904 E F4 7A 100K G Z 536 Z 540 Z 507 U27 Q 1 -C Q 2 -C V CC MO D E CT RT DE AD C O MP T L 4 9 4(S O -16 ) V _B A T 2 8 R 29 7 Z 537 Z 67 6 B 79 C 18K/B Q2 5 2 N 7 00 2 R 10 1 8 11 12 13 5 6 4 3 0 10K C 12 8 1 U F /16 V (0 8 05 ) 0 R R 44 2 Q6 3 2 N 3 90 6 E R 11 0 R 29 9 D Z 527 R 28 6 C R 29 8 Z 67 4 R 46 9 2 00 K /F C H G_ C T L Q6 0 Q Z 506 B B AT 28 R 15 5 S C 67 2 C(S MT ) E C D15 F 1A J 3 S I4 4 31 (S O 8 ) 499K/F VA Q2 4 S OUR C E S S OUR C E S S OUR C E S GA T E A 100UF /25V (6.3x 7)-L 2 2 U F /25 V (2 2 20 ) 100UF /25V (6.3x 7)-L 2 2 U F /25 V (2 2 20 ) 10K/F C Q1 8 Q E 40m (1206) C 67 0 Z 535 4.7 Z 505 B 28 40m (1206) R 14 0 2K/F Z 504 R 40 5 R 14 1 0 .1U F (0 8 05 ) 100UF /25V (6.3x 7)-L R 11 8 C 67 1 D76 D C 31 5 C 30 4 C 33 1 D50 R B 05 L E Q6 2 2 N 3 90 4 2 8 A C _ IN L4 2 1 0 0 U HC 17 3 R 46 6 S I4 4 31 (S O 8 ) B 1 0 U F /25 V (1 8 12 ) 8 7 6 5 Z 538 R406 36.5K/F C 37 4 D R A IN D R A IN D R A IN D R A IN Z 533 R 41 8 Q1 9 S OUR C E S S OUR C E S S OUR C E S GA T E S D S 1 2 0 8_ L A 3 1 2 3 Z 503 4 C C 36 7 0 .1 U F /50 V (1 2 06 ) B+ A2 C 11 2 1 U F /16 V (0 8 05 ) G Z 544 Q7 3 2 N 7 00 2 R 49 1 0 CO.£ ª Ñ ¥ ÷ ¦ ³ - ³ Í ³CLEVO Õ ¹ q¸ 71-51S00-D 01 S iz e C u s tom Date: Docum ent Num ber Rev 7 1-5 1 S 0 0-D 0 2 Mo n d ay , S ep te m b e r 18 , 2 00 0 1.0 S heet 29 of 29