TECHNICAL USER'S MANUAL FOR: smartModule 480 BUS INTEGRATION MANUAL Nordstrasse 11/F CH- 4542 Luterbach Tel.: ++41 (0)32 681 58 00 Fax: ++41 (0)32 681 58 01 Email: [email protected] Homepage: http://www.digitallogic.com
TECHNICAL USER'S MANUAL FOR:
smartModule 480 BUS INTEGRATION MANUAL
Nordstrasse 11/F CH- 4542 Luterbach Tel.: ++41 (0)32 681 58 00 Fax: ++41 (0)32 681 58 01 Email: [email protected] Homepage: http://www.digitallogic.com
DIGITAL-LOGIC AG SM480 Integration manual V1.7
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COPYRIGHT 1999- 2003 BY DIGITAL- LOGIC AG No part of this document may be reproduced, transmitted, transcribed, stored in a retrieval system, in any form or by any means, electronic, mechanical, optical, manual, or otherwise, without the prior written permis-sion of DIGITAL-LOGIC AG.
The software described herein, together with this document, are furnished under a license agreement and may be used or copied only in accordance with the terms of that agreement.
ATTENTION: All information in this manual and the product are subject to change without prior notice. REVISION HISTORY: Prod.-Serialnumber: From: To:
smart-bus Version
BIOS Version
Doc. Version
Date/Vis:
Modification: Remarks, News, Attention:
V1.0 09.2000 Initial Version V2.0 V1.01 10.2000 Min. Modifikations, ICP Port defined V2.1 V1.1 12.2000 STP smart design dimensions, 480bus
definitions, schematic added V2.2 V1.2f 01.2001 KUF SMGX modifications, new DK
schematic, typo errors, application tips, etc
V2.2 V1.3 04.2001 STP smart dimensions and 480bus sig-nals corrected, new schematics
V2.2 V1.4 04.2001 STP Pin1 position smart480 connector corrected
V2.2 V1.5 06.2001 STP AC97 codec taken out, new sche-matic of the DK,
V2.2 V1.6 09.2001 STP New cooler dimensions V2.2 V1.7 08.2003 KUF LCD-Bus to 3.3V only corrected.
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Table of Contents
1 PREFACE .......................................................................................................... 4
1.1 How to use this manual .......................................................................................................... 4 1.2 Disclaimer ................................................................................................................................ 4 1.3 Who should use this product................................................................................................. 4 1.4 Limited Warranty ..................................................................................................................... 5 1.5 smart Support Request Form (smart-SRF)........................................................................... 6 1.6 smart DesignIn Center (smart – DIC) .................................................................................... 7
2 OVERVIEW ........................................................................................................ 8 2.1 Features.................................................................................................................................... 8 2.2 Optional features (must be ordered separately) .................................................................. 8 2.3 SM586PC block diagram........................................................................................................ 9 2.4 SMP5PC & SMP3PC block diagram................................................................................... 10 2.5 SMGXPC block diagram ..................................................................................................... 11 2.6 Specifications ........................................................................................................................ 12 2.7 Ordercodes ............................................................................................................................ 14
3 DESIGNIN WITH SMART ................................................................................ 15 3.1 Mechanical dimensions, SMxxxPC ..................................................................................... 15
3.1.1 Mechanical PCB pad dimensions on the carrier-board ................................................... 16 3.1.2 PCB to SMxxxPC height ................................................................................................ 17 3.1.3 Mechanical dimensions of the PCB, plug ........................................................................ 18 3.1.4 Mechanical dimensions of the SMxxxPC, receptacle ...................................................... 19
4 BOARD TO BOARD CONNECTORS.............................................................. 20 4.1 The generic smartModule480 bus, (sinceVers. 2.2)........................................................... 20 4.2 SM480BUS pullup/down resistor specification................................................................. 26
4.2.1 Differences between the smartModules........................................................................... 32 4.2.2 Signal lines....................................................................................................................... 33 4.2.3 LCD interface signaldefinition, only for C&T 69000 / 69030 (not for GEODE) ............... 35 4.2.4 CRT monitor signaldefinition........................................................................................... 36 4.2.5 Power lines signaldefinition, SM486PCX......................................................................... 36
4.3 Power supply of the smartModule-480Bus......................................................................... 37 4.3.1 Connector specifications .................................................................................................. 37 4.3.2 Suspend mode description............................................................................................... 38
4.4 Thermal specifications ......................................................................................................... 38
5 PCI ASSIGNMENTS ...................................................................................... 39 5.1 Onmodule PCI assignments................................................................................................. 39 5.2 PC/104plus PCI assignments............................................................................................... 39 5.3 CompactPCI assignments ................................................................................................... 39 5.4 ATX-board PCI-BUS assignments ..................................................................................... 39
6 DESIGNIN BLOCK SCHEMATICS.................................................................. 40 6.1 Samples Schematics SMP5PC- DK and SM486PCX- EK................................................. 41 6.2 Application to use the downloadtool for the external VGA BIOS. ................................... 42 6.3 Application for external DRAM (SODIMM 144pins)............................................................ 43 6.4 Application for external IDE’s .............................................................................................. 44 6.5 Application for the ATX power supply ................................................................................ 45 6.6 Application AC97 CODEC for the SMGXPC........................................................................ 46 6.7 SM486PCX- EK ...................................................................................................................... 50
7 INDEX .............................................................................................................. 55
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1 PREFACE This manual is for integrators of systems based on the smartModule480 family. It contains information on hardware requirements, interconnections, and details of how to program the system. The specifications given in this manual were correct at the time of printing; advances mean that some may have changed in the meantime.
1.1 How to use this manual This manual is written for the original equipment manufacturer (OEM) who plans to build computer systems based on the system on chip units. It provides instructions for designing, installing and configuring the unit, and describes the system and setup requirements.
1.2 Disclaimer DIGITAL-LOGIC AG makes no representations or warranties with respect to the contents of this manual and specifically disclaims any implied warranty of merchantability or fitness for any particular purpose. DIGITAL-LOGIC AG shall under no circumstances be liable for incidental or consequential damages or related ex-penses resulting from the use of this product, even if it has been notified of the possibility of such damage. DIGITAL-LOGIC AG reserves the right to revise this publication from time to time without obligation to notify any person of such revisions
1.3 Who should use this product - Electronic engineers with know-how in PC-technology. - Without electronic know-how we expect you to have questions. This manual assumes, that you have a
general knowledge of PC-electronics. - Because of the complexity and the variability of PC-technology, we can’t give any warranty that the prod-
uct will work in any particular situation or combination. - Pay attention to the electrostatic discharges. Use a CMOS protected workplace. - Power supply OFF when you are working on the board or connecting any cables or devices.
This is a high technology product. You need know-how in electronics and PC-technology
to install the system !
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1.4 Limited Warranty DIGITAL-LOGIC AG warrants the hardware and software products it manufactures and produces to be free from defects in materials and workmanship for one year following the date of shipment from DIGITAL-LOGIC AG, Switzerland. This warranty is limited to the original purchaser of product and is not transferable.
During the one year warranty period, DIGITAL-LOGIC AG will repair or replace, at its discretion, any defec-tive product or part at no additional charge, provided that the product is returned, shipping prepaid, to DIGITAL-LOGIC AG. All replaced parts and products become property of DIGITAL-LOGIC AG.
Before returning any product for repair, customers are required to contact the company.
This limited warranty does not extend to any product which has been damaged as a result of accident, mis-use, abuse (such as use of incorrect input voltages, wrong cabling, wrong polarity, improper or insufficient ventilation, failure to follow the operating instructions that are provided by DIGITAL-LOGIC AG or other con-tingencies beyond the control of DIGITAL-LOGIC AG), wrong connection, wrong information or as a result of service or modification by anyone other than DIGITAL-LOGIC AG. Neither, if the user has not enough knowledge of these technologies or has not consulted the product manual or the technical support of DIGITAL-LOGIC AG and therefore the product has been damaged.
Except, as expressly set forth above, no other warranties are expressed or implied, including, but not limited to, any implied warranty of merchantability and fitness for a particular purpose, and DIGITAL-LOGIC AG ex-pressly disclaims all warranties not stated herein. Under no circumstances will DIGITAL-LOGIC AG be liable to the purchaser or any user for any damage, including any incidental or consequential damage, expenses, lost profits, lost savings, or other damages arising out of the use or inability to use the product.
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1.5 smart Support Request Form (smart-SRF) 1. Send this SRF with your problem description to: DIGITAL-LOGIC AG smartModule DesignIn Center Nordstr. 11/F CH-4542 Luterbach (SWITZERLAND) Fax: ++41 32 681 58 01 E-Mail: [email protected] Internet www.digitallogic.com Support request form (fill in and send via fax to DIGITAL-LOGIC AG support center): SRF No: S118_______ Date: Customer name:
Customer company:
Customer tel.no.: Customer e-mail:
Customers Address:
Customers country:
smart type: SM Processing date: Request type: Support report: Operating system: DesignIn aid: OS version: V___.____ BIOS adaption: BIOS version: V___.____ Manual correction: Others: Problem description: Solution / answer (will be filled in by DIGITAL-LOGIC AG smart DesignIn Center): Support date: Support statistics: Support sign: Comment: Support cost: yes no Offered costs
for serving design support:
CHF/USD/DEM:
DesignIn no.: Effective time / costs:
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1.6 smart DesignIn Center (smart – DIC) DIGITAL-LOGIC AG offers a DesignIn support from a specialized engineering group in the smart DesignIn Center (smart – DIC). To initialize a DesignIn Support, please fill in the smart-SRF form. The DesignIn Sup-port can be offered in each phase of a DesignIn procedure. Only the ordered support value will be charged. The charge fees are as follow: Design Phase No. Support type Fee Charged Evaluation 01 Consultation CHF 200.-- per hour 02 Training CHF 200.-- per hour 03 Design of the customers specification CHF 150.-- per hour Schematics 10 Consultation CHF 200.-- per hour 11 Design of the schematics CHF 150.-- per hour 12 Review / inspection of customers schematics CHF 300.-- per sheet 13 Development of circuits / schematics CHF 200.-- per hour Layout 20 Consultation CHF 200.-- per hour 21 Design of the layout CHF 150.-- per hour 22 Review / inspection of customers layout CHF 300.-- per sheet 23 Development of circuits / layout CHF 200.-- per hour BIOS 30 Consultation CHF 200.-- per hour 31 Modification / test of the BIOS sourcecode CHF 1500.-- per day 32 Review / inspection of customers software CHF 300.-- per hour 33 Development of software CHF 200.-- per hour Prototype 40 Consultation CHF 200.-- per hour 41 Test of customers system CHF 1200.-- per day 42 Review / inspection of customers system CHF 300.-- per hour 43 Development of test entvironment CHF 200.-- per hour All costs are payable in advance.
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2 OVERVIEW The following information is only a summary. Please refer to the product manual to receive the latest infor-mation of a specific smartModule product.
2.1 Features The smartModule is a miniaturized PC system on chip unit incorporating the major elements of a PC/AT compatible computer. It includes standard PC/AT compatible elements, such as:
- Powerful Pentium P5/P3, GEODE or 80586 core - BIOS Flash AMD 29F010 or ATMEL 29C020 - SODIMM socket for 16 - 128MB - AT Timers - AT DMA - Real-time clock - 2k EEPROM - LPT1 - COM1and COM2 (as TTL’s) - IrDA interface - Speaker interface - AT-keyboard interface - PS/2 mouse interface - 2x USB V1.0 - Floppydisk interface - 2x ATA-IDE harddisk interface - VGA/LCD video controller 3.3V (5V) - JTAG Incircuit-Testport - Embedded smartBUS480 - Support for ATX-Powermanagement - 3.3V CPU- CORE- power supply (switched mode) - PCI (33MHz) bus and ISA-bus (8MHz) - External SDRAM expansion with 66/100MHz - Remote BIOS function for control over serial link with host
2.2 Optional features (must be ordered separately) - SMGXPCX and SM586PCX with onboard module 100Base-T LAN - SMGXPC with soundfunktion (onboard AC97 codec), new since integration manual version V1.5
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2.3 SM586PC block diagram
DRAM
BUS
MachZF 80586
133MHz
CPU
(SO-DIMM 16- 128MB)
MachZF 80586
2x IDE
LCD/VGA Controller 69000 (69030, VRAM 4MB)
PCI-BUS
Speaker
LCD CRT
BIOS 256kByte
MachZF 80586
ISA-BUS
TTL
IrDA FD LPT1
TTL
COM1 COM2
RTC
Ext.Bat
EEPROM 2kByte
Watchdog 1232
KB Mouse
VRAM 2 MB
Temp. LM75
2x USB
OPTION LAN
INTEL 82559
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2.4 SMP5PC & SMP3PC block diagram
DRAM
BUS
P5 – 266MHz
+ TX430
PIII – 700MHz + BX440
CPU
since V2.0 (SMP5PC): (SO-DIMM 16- 256MB) until V1.4 (SMP5PC): DRAM (32/64 Mbyte)
PIIX4
2x IDE
LCD/VGA Controller 69000 (69030, VRAM 4MB)
PCI-BUS
Speaker
LCD CRT
BIOS 256kByte
Super I/O 37C672
ISA-BUS
TTL
IrDA FD LPT1
TTL
COM1 COM2
RTC
Ext.Bat
EEPROM 2kByte
Watchdog 1232
KB Mouse
VRAM 2 MB
Temp. LM75
2x USB
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2.5 SMGXPC block diagram
DRAM
BUS
GX1-300MHz GEODE VGA/LCD and North & South- bridge incl.
CPU
(SO-DIMM 16- 128MB)
GEODE Southbridge
2x IDE
GEODE VGA Controller Integrated in South bridge
PCI-BUS
Speaker
LCD CRT
BIOS 256kByte
Super I/O PC97317
ISA-BUS
TTL
IrDA FD LPT1
TTL
COM1 COM2
RTC
Ext.Bat
EEPROM 2kByte
Watchdog 1232
KB Mouse
UMA Temp. LM75
2x USB
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2.6 Specifications CPU:
CPU: ZF 80586-133MHz Pentium P5 166/266MHz Pentium PIII 400-700MHz GEODE 300MHz
Mode: Real / Protected Compatibility: 8086 – 80386 1. Level Cache: 16 & 16kByte write-back Word Size: 64 Bits Physical Addressing: 32 lines Virtual Addressing: 64 Mbytes Clock Rates: Depending from the modultype Math. Coprocessor:
Available on the CPU Power Management:
available Defined by the BIOS DMA:
8237A comp. 2 channels 8 Bits Interrupts:
8259 comp. 8 + 2 levels PC compatible Timers:
8254 comp. 3 programmable counter/timers Memory:
DRAM SODIMM 144pin holder (16 – 128Mbyte), externally expandable For TX and BX chipset up to 256MB or higher depending on market
Video:
Controller: 80586, P5 and P3: 69000 (69030) PCI-BUS CRT: 2Mbyte (4MB) LCD: 36Bit up to 1024 x 768 x 256 colors Panel: TFT up to 36Bit, STN, EL Plasma GEODE: CRT: up to 2Mbyte UMA (Unified Memory Architecture) LCD: 18Bit TFT LCD Panel: TFT 18Bit
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Mass Storage:
FD: Floppy disk interface, for max. 2 floppies HD: 2x IDE interface, AT - Type, for max. 4 harddisks Standard AT Interfaces:
Serial: Device Name
FIFO Std.-IRQs
Addr. Signals: Remarks
COM1 COM2
yes yes
IRQ4 IRQ3
3F8 2F8
(Baudrates: 50 – 115 KBaud programmable) Parallel: LPT1 printer interface, Modes: SPP (output) , EPP ( bidir.) Keyboard: AT- or PS/2-keyboard Mouse: PS/2 Speaker: 0.1 W output drive RTC: Integrated into the PIIX4 or SuperIO with CMOS-RAM 256byte Backup current: <5 µA at 3.0V Battery: Not assembled, must be connected external Supervisory:
Watchdog: LTC1232 with power-fail detection, strobe time max. 1 sec. BUS:
ISA: IEEE-996 standard bus Clock: 8 MHz PC/104plus IEEE-996 standard bus, buffered Clock: 33 MHz defined by the design USB Defined by the chipsset DRAM 66Mhz or 100MHz (Pentium-III), defined by the chipset Power Supply:
Working: 5 Volts ± 5%, 3.3V onboard switch mode regulator Power Rise Time: > 100µs (0V --> 4,75V) Physical Characteristics:
Dimensions: Length: 85 mm +/- 0.1mm Depth: 66 mm +/- 0.1mm Height: 12 mm +/- 0.2mm (with 5mm bus connectors) + 12 mm (active or passive cooler)
Weight: 90 gr / 9 ounces PCB Thickness: 1.6 mm / 0.0625 inches nominal PCB Layer: Multilayer Operating Environment:
Relative Humidity: 5 - 90% non condensing Vibration: 5 to 2000 Hz Shock: 10 G Temperature: Refer to the product manual
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EMI / EMC (IEC1131-2 refer MIL 461/462):
ESD Electro Static Discharge: IEC 801-2, EN55101-2, VDE 0843/0847 Part 2 metallic protection needed separate Ground Layer included 15 kV single peak
REF Radiated Electromagnetic Field: IEC 801-3, VDE 0843 Part 3, IEC770 6.2.9. not tested
EFT Electric Fast Transient (Burst): IEC 801-4, EN50082-1, VDE 0843 Part 4 250V - 4kV, 50 ohms, Ts=5ns Grade 2: 1KV Supply, 500 I/O, 5Khz
SIR Surge Immunity Requirements: IEC 801-5, IEEE587, VDE 0843 Part 5 Supply: 2 kV, 6 pulse/minute I/O: 500 V, 2 pulse/minute FD, CRT: none
High-frequency radiation: EN55022 Any information is subject to change without notice.
2.7 Ordercodes To get the actual status of the partnumbers, customers are advised to ask for them via our sales department or distributors. The list below has to be treated as a momentary screenshot and is might not up to date anymore. Family/order code: Based CPU Standard with VGA Option: No VGA Option: With LAN smartModule486 ELAN400 (66MHz) SM486PCX SM486PCN SM486PCX smartModule586 ZF586 (133MHz) SM586PC SM586PCN SM586PCX smartModuleGX GEODE 200MHz SMGXPC-200 Not available SMGXPCX-200 GEODE 300MHz SMGXPC-300 SMGXPCX-300 smartModuleP5 Pentium 166MHz SMP5PC-166 SMP5PCN-166 Not available Pentium 266MHz SMP5PC-266 SMP5PCN-266 smartModuleP3 Pentium 400C MHz SMP3PC-400C SMP3PCN-400C Not available Pentium-III 700MHz SMP3PC-700
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3 DESIGNIN WITH smart 3.1 Mechanical dimensions, SMxxxPC
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3.1.1 Mechanical PCB pad dimensions on the carrier-board
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3.1.2 PCB to SMxxxPC height
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3.1.3 Mechanical dimensions of the PCB, plug
Must be mounted onto the customers electronicboard (carrierboard). Standard height: 5.0mm (do not place components below the smartModule) Expanded height: 7.0mm (place max. 2.0mm components below the smartModule)
53475-2409 Dimension mm (inches) Circuits A (Overall Length) B (1st to Last Ckt) C D
240 83.07(3.270) 75.565(2.970) 79.17(3.110) 78.07(3.070) DLAG partnumber: 439004
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3.1.4 Mechanical dimensions of the SMxxxPC, receptacle
Mounted on the smartModule xxPC, as a reference only
52760-2409 Dimension mm (inches) Circuits A B C D
240 84.07(3.309) 75.565(2.970) 80.47(3.168) 78.87(3.105) DLAG part number: 439003
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4 BOARD TO BOARD CONNECTORS
4.1 The generic smartModule480 bus, (sinceVers. 2.2) smart 480 BUS connector J1 Pin 1-40 (Vers. 2.2 SM520PC, SMGXPC, SMP5/3PC) Pin Group Volt SMxxxPC Pin Group Volt SMxxxPC A1 POWER VCC (5V) B1 ISA 5 i IRQ1 used by keyboard A2 ISA 5 o RESDRV B2 ISA 5 i IRQ9 A3 ISA 5 i SBHE# B3 ISA 5 i IRQ3 used by COM2A4 ISA 5 i MEMCS16# B4 ISA 5 i IRQ4 used by COM1A5 ISA 5 i IOCS16# B5 ISA 5 i IRQ5 A6 ISA 5 o IOW# B6 ISA 5 i IRQ6 used by FDDA7 ISA 5 o IOR# B7 ISA 5 i IRQ7 used by LPT1 A8 ISA 5 o SYSCLK B8 ISA 5 i IRQ10 A9 ISA 5 o TC B9 ISA 5 i IRQ11 A10 ISA 5 o ALE B10 ISA 5 i IRQ12 used by PS/2 mouse A11 ISA 5 i/o SD7 B11 ISA 5 i IRQ14 used by P-IDEA12 ISA 5 i/o SD6 B12 ISA 5 i IRQ15 used by S-IDEA13 ISA 5 i/o SD5 B13 CORE 3/5 i Only factory: COREBIOSA14 ISA 5 i/o SD4 B14 CORE 3/5 i Only factory: VGABIOS A15 ISA 5 i/o SD3 B15 ISA 5 o SA21 = LA21 A16 ISA 5 i/o SD2 B16 ISA 5 o SA20 = LA20 A17 ISA 5 i/o SD1 B17 ISA 5 o LA19 A18 ISA 5 i/o SD0 B18 ISA 5 o LA18 A19 ISA 5 o IOCHRDY B19 ISA 5 o LA17 A20 ISA 5 o AEN B20 ISA 5 i/o SD8 A21 ISA 5 o SA19 B21 ISA 5 i/o SD9 A22 ISA 5 o SA18 B22 ISA 5 i/o SD10 A23 ISA 5 o SA17 B23 ISA 5 i/o SD11 A24 ISA 5 o SA16 B24 ISA 5 i/o SD12 A25 ISA 5 o SA15 B25 ISA 5 i/o SD13 A26 ISA 5 o SA14 B26 ISA 5 i/o SD14 A27 ISA 5 o SA13 B27 ISA 5 i/o SD15 A28 ISA 5 o SA12 B28 ISA 5 i DRQ 0A29 ISA 5 o SA11 B29 ISA 5 i DRQ 1A30 ISA 5 o SA10 B30 ISA 5 i DRQ 2A31 ISA 5 o SA9 B31 ISA 5 i DRQ 3A32 ISA 5 o SA8 B32 ISA 5 i DRQ 5A33 ISA 5 o SA7 B33 ISA 5 i DRQ 6A34 ISA 5 o SA6 B34 ISA 5 o OSC (14.31MHz) A35 ISA 5 o SA5 B35 ISA 5 o DMA0# A36 ISA 5 o SA4 B36 ISA 5 o DMA1# A37 ISA 5 o SA3 B37 ISA 5 o DMA2# A38 ISA 5 o SA2 B38 ISA 5 o DMA3# A39 ISA 5 o SA1 B39 ISA 5 o DMA5# A40 ISA 5 o SA0 B40 ISA 5 o DMA6# ** These signals (LA17-LA19) correspond with the SA17-SA19. Remarks: 5 o = 5V output 5 i/o = 5V input/output 3 o = 3V output 3 i/o = 3V input/output # (-) = active low signal o.c. = open collector output NC = not connected RES = pin function depending of the CPU, reserved
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smart 480 BUS connector J1 Pin 41-80 (Vers. 2.2 SM520PC, SMGXPC, SMP5/3PC) Pin Group Volt SMxxxPC Pin Group Volt SMxxxPC A41 S/DRAM 3 o CAS0- / DQMB0 B41 CORE 5 o Speaker A42 S/DRAM 3 o CAS1- / DQMB1 B42 ISA 5 i ZWS# A43 S/DRAM 3 o CAS2- / DQMB2 B43 ISA 5 o REF#A44 S/DRAM 3 o CAS3- / DQMB3 B44 ISA 5 o MEMR#A45 S/DRAM 3 o CAS4- / DQMB4 B45 ISA 5 o SMEMR# A46 S/DRAM 3 o CAS5- / DQMB5 B46 ISA 5 o MEMW#A47 S/DRAM 3 o CAS6- / DQMB6 B47 ISA 5 o SMEMW# A48 S/DRAM 3 o CAS7- / DQMB7 B48 S-IDE 5 i/o IDE HD 0A49 DRAM 3 i/o MD0 B49 S-IDE 5 i/o IDE HD 1A50 DRAM 3 i/o MD1 B50 S-IDE 5 i/o IDE HD 2A51 DRAM 3 i/o MD2 B51 S-IDE 5 i/o IDE HD 3A52 DRAM 3 i/o MD3 B52 S-IDE 5 i/o IDE HD 4A53 DRAM 3 i/o MD4 B53 S-IDE 5 i/o IDE HD 5A54 DRAM 3 i/o MD5 B54 S-IDE 5 i/o IDE HD 6A55 DRAM 3 i/o MD6 B55 S-IDE 5 i/o IDE HD 7A56 DRAM 3 i/o MD7 B56 S-IDE 5 i/o IDE HD 8A57 POWER GROUND B57 S-IDE 5 i/o IDE HD 9A58 DRAM 3 i/o MD8 B58 S-IDE 5 i/o IDE HD 10A59 DRAM 3 i/o MD9 B59 S-IDE 5 i/o IDE HD 11A60 DRAM 3 i/o MD10 B60 S-IDE 5 i/o IDE HD 12A61 DRAM 3 i/o MD11 B61 S-IDE 5 i/o IDE HD 13A62 DRAM 3 i/o MD12 B62 S-IDE 5 i/o IDE HD 14A63 DRAM 3 i/o MD13 B63 S-IDE 5 i/o IDE HD 15A64 DRAM 3 i/o MD14 B64 S-IDE 5 o IDE CS0#A65 DRAM 3 i/o MD15 B65 S-IDE 5 o IDE CS1#A66 POWER GROUND B66 S-IDE 5 o IDE IOR#A67 DRAM 3 i/o MD16 B67 S-IDE 5 o IDE IOW# A68 DRAM 3 i/o MD17 B68 SDRAM 3 o SDCLK2 A69 DRAM 3 i/o MD18 B69 SDRAM 3 o CKE0 A70 DRAM 3 i/o MD19 B70 SDRAM 3 o CKE1 A71 DRAM 3 i/o MD20 B71 SDRAM 3 o SCASA A72 DRAM 3 i/o MD21 B72 SDRAM 3 o SCASB A73 DRAM 3 i/o MD22 B73 SDRAM 3 o SRASA A74 DRAM 3 i/o MD23 B74 SDRAM 3 o SDASB A75 DRAM 3 o MA0 B75 SDRAM 3 o RAS4 (TX)A76 DRAM 3 o MA1 B76 SDRAM 3 o RAS5 (TX)A77 DRAM 3 o MA2 B77 DRAM 3 o MA13 A78 DRAM 3 o MA3 B78 SDRAM 3 o S DCLK0 A79 DRAM 3 o MA4 B79 SDRAM 3 o S DCLK1 A80 DRAM 3 o MA5 B80 RES 3 o RES- function 7/ 24MHz Remarks: 5 o = 5V output 5 i/o = 5V input/output 3 o = 3V output 3 i/o = 3V input/output # (-) = active low signal o.c. = open collector output NC = not connected RES = pin function depending of the CPU, reserved P5 CPU with 64Bit memorybus: CASL0-CASL3 Bank 0,2 CAS0 .... CAS7 to all banks CASH0-CASH3 Bank 1,3
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smart 480 BUS connector J1 Pin 81-120 (Vers. 2.2 SM520PC, SMGXPC, SMP5/3PC) Pin Group Volt SMxxxPC Pin Group Volt SMxxxPC A81 DRAM 3 o MA 6 B81 POWER Ground A82 DRAM 3 o MA 7 B82 DRAM 3 i/o NC/ MD48 A83 DRAM 3 o MA 8 B83 DRAM 3 i/o NC/ MD49 A84 DRAM 3 o MA 9 B84 DRAM 3 i/o NC/ MD50 A85 DRAM 3 o MA 10 B85 DRAM 3 i/o NC/ MD51 A86 DRAM 3 o MA 11 B86 DRAM 3 i/o NC/ MD52 A87 DRAM 3 o MA 12 B87 DRAM 3 i/o NC/ MD53 A88 POWER Ground B88 DRAM 3 i/o NC/ MD54 A89 DRAM 3 i/o MD24 B89 DRAM 3 i/o NC/ MD55 A90 DRAM 3 i/o MD25 B90 POWER GROUNDA91 DRAM 3 i/o MD26 B91 DRAM 3 i/o NC/ MD56 A92 DRAM 3 i/o MD27 B92 DRAM 3 i/o NC/ MD57 A93 DRAM 3 i/o MD28 B93 DRAM 3 i/o NC/ MD58 A94 DRAM 3 i/o MD29 B94 DRAM 3 i/o NC/ MD59 A95 DRAM 3 i/o MD30 B95 DRAM 3 i/o NC/ MD60 A96 DRAM 3 i/o MD31 B96 DRAM 3 i/o NC/ MD61 A97 POWER GROUND B97 DRAM 3 i/o NC/ MD62 A98 DRAM 3 i/o MD32 B98 DRAM 3 i/o NC/ MD63 A99 DRAM 3 i/o MD33 B99 POWER GROUND
A100 DRAM 3 i/o MD34 B100 S-IDE 5 i/o IDE-DACK#A101 DRAM 3 i/o MD35 B101 S-IDE 5 i/o IDE-DRQA102 DRAM 3 i/o MD36 B102 S-IDE 5 i/o IRQ (assigned to IRQ15) A103 DRAM 3 i/o MD37 B103 S-IDE 5 i/o IDE-IORDYA104 DRAM 3 i/o MD38 B104 S-IDE 5 i/o IDE-A0A105 DRAM 3 i/o MD39 B105 S-IDE 5 i/o IDE-A1A106 POWER GROUND B106 S-IDE 5 i/o IDE-A2A107 DRAM 3 i/o MD40 B107 SDRAM 3 o BA0A108 DRAM 3 i/o MD41 B108 Core 5 i# WDOG StrobeA109 DRAM 3 i/o MD42 B109 Core 5 i# WDOG EnableA110 DRAM 3 i/o MD43 B110 SDRAM 3 o BA1A111 DRAM 3 i/o MD44 B111 Xbus 3 o KM-P10/ XD0 A112 DRAM 3 i/o MD45 B112 Xbus 3 o KM-P11/ XD1 A113 DRAM 3 i/o MD46 B113 Xbus 3 o KM-P12/ XD2 A114 DRAM 3 i/o MD47 B114 Xbus 3 o KM-P13/ XD3 A115 S/DRAM 3 o RAS0# / (S0 @ SDRAM) B115 Xbus 3 o KM-P14/ XD4 A116 S/DRAM 3 o RAS1# / (S1 @ SDRAM) B116 Xbus 3 o KM-P15/ XD5 A117 S/DRAM 3 o RAS2# / (internally used) B117 Xbus 3 o KM-P16/ XD6 A118 S/DRAM 3 o RAS3# / (free) B118 Xbus 3 o KM-P17/ XD7 A119 DRAM 3 o MWEA# B119 Xbus 3 o KM-WRMTRX/ XD CS# A120 DRAM 3 o MWEB# B120 RES KM-RDMTRX/ VCC (+5V) Remarks: 5 o = 5V output 5 i/o = 5V input/output 3 o = 3V output 3 i/o = 3V input/output # (-) = active low signal o.c. = open collector output NC = not connected RES = pin function depending of the CPU, reserved Memorybus width: P5: 64Bit (MD0 – MD63))
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smart 480 BUS connector J2 Pin 1-40 (Vers. 2.2 SM520PC, SMGXPC, SMP5/3PC) Pin Group Volt SMxxxPC Pin Group Volt SMxxxPC A1 PRINTER 5 o Strobe# B1 COM1 5 o DCD1 A2 PRINTER 5 o Auto# B2 COM1 5 i DSR1 A3 PRINTER 5 o Error# B3 COM1 5 i RXD1 A4 PRINTER 5 o Init# B4 COM1 5 o RTS1 A5 PRINTER 5 o Slctin# B5 COM1 5 o TXD1A6 PRINTER 5 i/o PRINTER data 0 B6 COM1 5 i CTS1 A7 PRINTER 5 i/o PRINTER data 1 B7 COM1 5 o DTR1 A8 PRINTER 5 i/o PRINTER data 2 B8 COM1 5 i RI1 A9 PRINTER 5 i/o PRINTER data 3 B9 COM2 5 o DCD2 A10 PRINTER 5 i/o PRINTER data 4 B10 COM2 5 i DSR2 A11 PRINTER 5 i/o PRINTER data 5 B11 COM2 5 i RXD2 A12 PRINTER 5 i/o PRINTER data 6 B12 COM2 5 o RTS2 A13 PRINTER 5 i/o PRINTER data 7 B13 COM2 5 o TXD2A14 PRINTER 5 i Acknowledge# B14 COM2 5 i CTS2 A15 PRINTER 5 i Busy B15 COM2 5 o DTR2 A16 PRINTER 5 i Paper end# B16 COM2 5 i RI2 A17 PRINTER 5 i Select# B17 FLOPPY 5 i Index# A18 KBD 5 i/o Keyboard data B18 FLOPPY 5 o Drive select 1# A19 KBD 5 o Keyboard clock B19 FLOPPY 5 i Disk change# A20 MOUSE 5 o MOUSE clock B20 FLOPPY 5 o Motor on 1A21 MOUSE 5 i/o MOUSE data B21 FLOPPY 5 o Direction# A22 POWER Ground B22 FLOPPY 5 o Step impulse#A23 P-IDE 5 i/o IDE HD 0 B23 FLOPPY 5 o Write data# A24 P-IDE 5 i/o IDE HD 1 B24 FLOPPY 5 o Write gate# A25 P-IDE 5 i/o IDE HD 2 B25 FLOPPY 5 i Track zero# A26 P-IDE 5 i/o IDE HD 3 B26 FLOPPY 5 i Write protected#A27 P-IDE 5 i/o IDE HD 4 B27 FLOPPY 5 i Read data#A28 P-IDE 5 i/o IDE HD 5 B28 FLOPPY 5 o Head select# A29 P-IDE 5 i/o IDE HD 6 B29 FLOPPY 5 o Drive select 0 A30 P-IDE 5 i/o IDE HD 7 B30 FLOPPY 5 o Motor on 0A31 P-IDE 5 i/o IDE HD 8 B31 APM 5 i PWRBTN# A32 P-IDE 5 i/o IDE HD 9 B32 P-IDE 5 o IDE RESET# A33 P-IDE 5 i/o IDE HD 10 B33 APM 5 i LID# A34 P-IDE 5 i/o IDE HD 11 B34 USB 5 i/o USB-P0+ A35 P-IDE 5 i/o IDE HD 12 B35 USB 5 i/o USB-P0- A36 P-IDE 5 i/o IDE HD 13 B36 P-IDE 5 o IDE-A 0 A37 P-IDE 5 i/o IDE HD 14 B37 P-IDE 5 o IDE-A 1 A38 P-IDE 5 i/o IDE HD 15 B38 P-IDE 5 o IDE-A 2 A39 P-IDE 5 o IDE CS0# B39 P-IDE 5 o IDE-IORDYA40 P-IDE 5 o IDE CS1# B40 LCD 5 o LCD D32
Remarks: 5 o = 5V output 5 i/o = 5V input/output 3 o = 3V output 3 i/o = 3V input/output # (-) = active low signal o.c. = open collector output NC = not connected RES = pin function depending of the CPU, reserved
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smart 480 BUS connector J2 Pin 41-80 (Vers. 2.2 SM520PC, SMGXPC, SMP5/3PC)
Pin Group Volt SMxxxPC Pin Group Volt SMxxxPC A41 P-IDE 5 o DACK# B41 IrDA 5 o IrDA TXA42 P-IDE 5 o DRQ B42 IrDA 5 i IrDA RX A43 P-IDE 5 i IDE-IRQ (to IRQ14) B43 LCD 3.3/5 o LCD D33A44 P-IDE 5 o IDE-IOR# B44 LCD 3.3/5 o LCD D34A45 P-IDE 5 o IDE-IOW# B45 LCD 3.3/5 o LCD D35A46 POWER VCC (5V) B46 POWER 3 i Battery 3.0V-3.6V for RTC A47 PCI 3 i/o AD0 B47 PCI 3 i/o AD16 A48 PCI 3 i/o AD1 B48 PCI 3 i/o AD17 A49 PCI 3 i/o AD2 B49 PCI 3 i/o AD18 A50 PCI 3 i/o AD3 B50 PCI 3 i/o AD19 A51 PCI 3 i/o AD4 B51 PCI 3 i/o AD 20 A52 PCI 3 i/o AD5 B52 PCI 3 i/o AD 21A53 PCI 3 i/o AD6 B53 PCI 3 i/o AD 22A54 PCI 3 i/o AD7 B54 PCI 3 i/o AD 23A55 PCI 3 i/o AD8 B55 PCI 3 i/o AD 24A56 PCI 3 i/o AD9 B56 PCI 3 i/o AD 25A57 PCI 3 i/o AD10 B57 PCI 3 i/o AD 26A58 PCI 3 i/o AD11 B58 PCI 3 i/o AD 27A59 PCI 3 i/o AD12 B59 PCI 3 i/o AD 28A60 PCI 3 i/o AD13 B60 PCI 3 i/o AD 29A61 PCI 3 i/o AD14 B61 PCI 3 i/o AD 30A62 PCI 3 i/o AD15 B62 PCI 3 i/o AD 31A63 PCI 3 o C-BE0# B63 PCI 3 i PIRQA# A64 PCI 3 o C-BE1# B64 PCI 3 i PIRQB# A65 PCI 3 o C-BE2# B65 PCI 3 i PIRQC# A66 PCI 3 o C-BE3# B66 PCI 3 i PIRQD# A67 POWER VCC (5V) B67 POWER VCC (5V) A68 PCI 3 o PCI-CLK1 B68 PCI 3 o PCI-CLK2A69 PCI 3 i REQ0# B69 PCI 3 o GNT0# A70 PCI 3 i REQ1# B70 PCI 3 o GNT1# A71 PCI 3 i REQ2# B71 PCI 3 o GNT2# A72 PCI 3 i REQ3# B72 PCI 3 o GNT3# A73 RES i/o RES.- function 5
DRAM_SEL B73 POWER VCC (5V)
A74 PCI 3 i/o FRAME# B74 PCI 3 i/o IRDY# A75 PCI 3 i/o TRDY# B75 PCI 3 i/o STOP#A76 PCI 3 i/o DEVSEL# B76 PCI 3 i/o PAR# A77 PCI 3 i/o SERR# B77 PCI 3 i/o LOCK#A78 RES i/o RES.-function 4 B78 PCI 3 o PCI-RESET# A79 CORE 5 i Resetinput / POWERgood B79 ISA 5 i DRQ7A80 RES i/o RES.- function 6 B80 ISA 5 0 DACK7#
All PCI signals are left open, if the smartModule does not support the PCI bus. Remarks: 5 o = 5V output 5 i/o = 5V input/output 3 o = 3V output 3 i/o = 3V input/output # (-) = active low signal o.c. = open collector output NC = not connected RES = pin function depending of the CPU, reserved
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smart 480 BUS connector J2 Pin 81-120 (Vers. 2.2 SM520PC, SMGXPC, SMP5/3PC) Pin Group Volt SMxxxPC Pin Group Volt SMxxxPC A81 LCD 3 o LCD D24 B81 USB 5 i/o USB-P1+ A82 LCD 3 o LCD D25 B82 USB 5 i/o USB-P1- A83 LCD 3 o LCD D26 B83 USB 5 i/o USB-OC0A84 LCD 3 o LCD D27 B84 USB 5 i/o USB-OC1A85 LCD 3 o LCD D28 B85 ISA 5 o LA22 A86 LCD 3 o LCD D29 B86 ISA 5 o LA23 A87 LCD 3 o LCD D30 B87 PCI 5 i/o PERR- A88 LCD 3 o LCD D31 B88 RES i/o RES.-function 1 A89 RES i/o RES.- function 2 B89 I2C 3 i/o SMB-DAT A90 RES i/o RES.- function 3 B90 I2C 3 o SMB-CLK A91 POWER 3.3V B91 POWER 3.3V A92 OPTION i/o INTERN LAN TX+ B92 ISA 5 i MASTER# A93 OPTION i/o INTERN LAN TX- B93 ISA 5 i IOCHCK A94 OPTION i/o INTERN LAN RX+ B94 CORE 5 i JTAG-TCK (DASP)A95 OPTION i/o INTERN LAN RX- B95 CORE 3 i JTAG-TDI (DIAG) A96 APM 3 o SSTAT2 B96 CORE 3 o JTAG-TDO (SEL)A97 POWER 5 i VCC-SUSPEND +5Volt B97 CORE 3 i JTAG-TMSA98 APM 3 i/o SUSA- (LAN0) B98 VGA 3 o VESA VDDA A99 APM 3 i/o SUSB- (LAN1) B99 VGA 3 o VESA VDDC
A100 APM 3 i/o SUSC- (LAN2) B100 APM 3 i STAT1 A101 VGA o VGA Analog Green B101 VGA o Analog ground A102 VGA o VGA Analog Blue B102 VGA 5 o VSynchA103 VGA o VGA Analog Red B103 VGA 5 o HSynch A104 LCD 5 o LCD ENAVEE B104 LCD 3 o LCD ENAVDDA105 POWER GROUND B105 LCD 3 o LCD SHCLK A106 LCD 3 o LCD FLM/VS B106 LCD 3 o LCD LP/HS A107 LCD 3 o LCD D12 B107 LCD 3 o LCD D0A108 LCD 3 o LCD D13 B108 LCD 3 o LCD D1A109 LCD 3 o LCD D14 B109 LCD 3 o LCD D2A110 LCD 3 o LCD D15 B110 LCD 3 o LCD D3A111 LCD 3 o LCD D16 B111 LCD 3 o LCD D4A112 LCD 3 o LCD D17 B112 LCD 3 o LCD D5A113 LCD 3 o LCD D18 B113 LCD 3 o LCD D6A114 LCD 3 o LCD D19 B114 LCD 3 o LCD D7A115 LCD 3 o LCD D20 B115 LCD 3 o LCD D8A116 LCD 3 o LCD D21 B116 LCD 3 o LCD D9A117 LCD 3 o LCD D22 B117 LCD 3 o LCD D10 A118 LCD 3 o LCD D23 B118 LCD 3 o LCD D11 A119 LCD 3 o LCD ENABKL B119 LCD 3 o LCD M A120 POWER 3 o LCD VCC OUTPUT (3.3V) B120 POWER 2 o CPU CORE OUTPUT (VCC2) Remarks: 5 o = 5V output 5 i/o = 5V input/output 3 o = 3V output 3 i/o = 3V input/output # (-) = active low signal o.c. = open collector output NC = not connected RES = pin function depending of the CPU, reserved
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4.2 SM480BUS pullup/down resistor specification SM480BUS pullup/down-resistor, connector J1 Pin 1-40 (Vers. 2.2 SM586PC, SMGXPC, SMP5/3PC)
Pin Pull *) Chip Description Pin Pull *) Chip Description A1 VCC (5V) B1 iPU10k /5V PIIX4 IRQ1 used by keyboardA2 TTL-Output HCT04 RESDRV B2 iPU10k /5V PIIX4 IRQ9A3 ePU1k /5V PIIX4 SBHE# 1) B3 iPU10k /5V PIIX4 IRQ3 used by COM2A4 ePU1k /5V PIIX4 MEMCS16# 1) B4 iPU10k /5V PIIX4 IRQ4 used by COM1A5 ePU1k /5V PIIX4 IOCS16# 1) B5 iPU10k /5V PIIX4 IRQ5A6 iPU10k /5V PIIX4 IOW# B6 iPU10k /5V PIIX4 IRQ6 used by FDD A7 iPU10k /5V PIIX4 IOR# B7 iPU10k /5V PIIX4 IRQ7 used by LPT1 A8 SYSCLK B8 iPU10k /5V PIIX4 IRQ10 A9 TC B9 iPU10k /5V PIIX4 IRQ11 A10 iPU10k /5V PIIX4 ALE B10 iPU10k /5V PIIX4 IRQ12 used by PS/2 A11 iPU10k /5V PIIX4 SD7 B11 iPU10k /5V PIIX4 IRQ14 used by P-IDE A12 iPU10k /5V PIIX4 SD6 B12 iPU10k /5V PIIX4 IRQ15 used by S-IDE A13 iPU10k /5V PIIX4 SD5 B13 Only factory: COREBIOS A14 iPU10k /5V PIIX4 SD4 B14 Only factory: VGABIOS A15 iPU10k /5V PIIX4 SD3 B15 iPU10k /5V PIIX4 SA21 = LA21A16 iPU10k /5V PIIX4 SD2 B16 iPU10k /5V PIIX4 SA20 = LA20A17 iPU10k /5V PIIX4 SD1 B17 iPU10k /5V PIIX4 LA19A18 iPU10k /5V PIIX4 SD0 B18 iPU10k /5V PIIX4 LA18A19 ePU1k /5V PIIX4 IOCHRDY 1) B19 iPU10k /5V PIIX4 LA17A20 iPU10k /5V PIIX4 AEN B20 iPU10k /5V PIIX4 SD8 A21 iPU10k /5V PIIX4 SA19 B21 iPU10k /5V PIIX4 SD9 A22 iPU10k /5V PIIX4 SA18 B22 iPU10k /5V PIIX4 SD10 A23 iPU10k /5V PIIX4 SA17 B23 iPU10k /5V PIIX4 SD11 A24 iPU10k /5V PIIX4 SA16 B24 iPU10k /5V PIIX4 SD12 A25 iPU10k /5V PIIX4 SA15 B25 iPU10k /5V PIIX4 SD13 A26 iPU10k /5V PIIX4 SA14 B26 iPU10k /5V PIIX4 SD14 A27 iPU10k /5V PIIX4 SA13 B27 iPU10k /5V PIIX4 SD15 A28 iPU10k /5V PIIX4 SA12 B28 iPD1k /5V PIIX4 DRQ 0 A29 iPU10k /5V PIIX4 SA11 B29 iPD1k /5V PIIX4 DRQ 1 A30 iPU10k /5V PIIX4 SA10 B30 iPD1k /5V PIIX4 DRQ 2 A31 iPU10k /5V PIIX4 SA9 B31 iPD1k /5V PIIX4 DRQ 3 A32 iPU10k /5V PIIX4 SA8 B32 iPD1k /5V PIIX4 DRQ 5 A33 iPU10k /5V PIIX4 SA7 B33 iPD1k /5V PIIX4 DRQ 6 A34 iPU10k /5V PIIX4 SA6 B34 iSE 33 PIIX4 OSC (14.31MHz) A35 iPU10k /5V PIIX4 SA5 B35 PIIX4 DMA0#A36 iPU10k /5V PIIX4 SA4 B36 PIIX4 DMA1#A37 iPU10k /5V PIIX4 SA3 B37 PIIX4 DMA2#A38 iPU10k /5V PIIX4 SA2 B38 PIIX4 DMA3#A39 iPU10k /5V PIIX4 SA1 B39 PIIX4 DMA5#A40 iPU10k /5V PIIX4 SA0 B40 PIIX4 DMA6#
*) ePU = external required resistor iPU = internal placed resistor eSE = external serial resistor needed iSE = internal serial resistor iPD = internal pulled down 1) Internal with 10k to 5V pullup, for ISA-Bus application an external 1k pullup resistor is recommended • Shaded resistors must be placed externally on the motherboard as close as possible to the module • PIIX4 treat also as SOUTHBRIDGE • TX treat also as NORTHBRIDGE
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SM480BUS pullup/down-resistor, connector J1 Pin 41-80 (Vers. 2.2 SM586PC, SMGXPC, SMP5/3PC)
Pin Pull *) Chip Description Pin Pull *) Chip Description A41 eSe 33 TX CAS0# B41 SpeakerA42 eSe 33 TX CAS1# B42 iPU10k /5V PIIX4 ZWS# A43 eSe 33 TX CAS2# B43 iPU10k /5V PIIX4 REF#A44 eSe 33 TX CAS3# B44 iPU10k /5V PIIX4 MEMR# A45 eSe 33 TX CAS4# B45 iPU10k /5V PIIX4 SMEMR#A46 eSe 33 TX CAS5# B46 iPU10k /5V PIIX4 MEMW# A47 eSe 33 TX CAS6# B47 iPU10k /5V PIIX4 SMEMW#A48 eSe 33 TX CAS7# B48 eSe 10 PIIX4 SIDE – D0 A49 TX MD0 B49 eSe 10 PIIX4 SIDE – D1 A50 TX MD1 B50 eSe 10 PIIX4 SIDE – D2 A51 TX MD2 B51 eSe 10 PIIX4 SIDE – D3 A52 TX MD3 B52 eSe 10 PIIX4 SIDE – D4 A53 TX MD4 B53 eSe 10 PIIX4 SIDE – D5 A54 TX MD5 B54 eSe 10 PIIX4 SIDE – D6 A55 TX MD6 B55 eSe 10 PIIX4 SIDE – D7 A56 TX MD7 B56 eSe 10 PIIX4 SIDE – D8 A57 GROUND B57 eSe 10 PIIX4 SIDE – D9 A58 TX MD8 B58 eSe 10 PIIX4 SIDE – D10A59 TX MD9 B59 eSe 10 PIIX4 SIDE – D11A60 TX MD10 B60 eSe 10 PIIX4 SIDE – D12A61 TX MD11 B61 eSe 10 PIIX4 SIDE – D13A62 TX MD12 B62 eSe 10 PIIX4 SIDE – D14A63 TX MD13 B63 eSe 10 PIIX4 SIDE – D15A64 TX MD14 B64 eSe 10 PIIX4 SIDE - CS0# A65 TX MD15 B65 eSe 10 PIIX4 SIDE – CS1# A66 GROUND B66 eSe 10 PIIX4 SIDE – IOR# A67 TX MD16 B67 eSe 10 PIIX4 SIDE – IOW# A68 TX MD17 B68 iSe 10 TX SDRAM – CLK2A69 TX MD18 B69 iSe 10 TX SDRAM – CKE0 A70 TX MD19 B70 iSe 10 TX SDRAM – CKE1 A71 TX MD20 B71 iSe 10 TX SDRAM – SCASA A72 TX MD21 B72 iSe 10 TX SDRAM – SCASB A73 TX MD22 B73 iSe 10 TX SDRAM – SRASA A74 TX MD23 B74 iSe 10 TX SDRAM – SRASB A75 eSE 33 TX MA0 B75 eSe 33 TX RAS4 A76 eSE 33 TX MA1 B76 eSe 33 TX RAS5 A77 eSE 33 TX MA2 B77 eSe 33 TX MA13 A78 eSE 33 TX MA3 B78 iSe 10 TX SDRAM – CLK0A79 eSE 33 TX MA4 B79 iSe 10 TX SDRAM – CLK1A80 eSE 33 TX MA5 B80 RES RES. –function 7/ 24MHz
*) ePU = external required resistor iPU = internal placed resistor eSE = external serial resistor needed iSE = internal serial resistor iPD = internal pulled down 2) Internal with 10k to 5V pullup, for ISA-Bus application an external 1k pullup resistor is recommended • Shaded resistors must be placed externally on the motherboard as close as possible to the module • PIIX4 treat also as SOUTHBRIDGE • TX treat also as NORTHBRIDGE
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SM480BUS pullup/down-resistor, connector J1 Pin 81-120 (Vers. 2.2 SM586PC, SMGXPC, SMP5/3PC)
Pin Pull: *) Chip Description Pin Pull: *) Chip Description A81 eSE 33 TX MA 6 B81 TX GroundA82 eSE 33 TX MA 7 B82 TX NC/ MD48A83 eSE 33 TX MA 8 B83 TX NC/ MD49A84 eSE 33 TX MA 9 B84 TX NC/ MD50A85 eSE 33 TX MA 10 B85 TX NC/ MD51A86 eSE 33 TX MA 11 B86 TX NC/ MD52A87 eSE 33 TX MA 12 B87 TX NC/ MD53A88 TX Ground B88 TX NC/ MD54A89 TX MD24 B89 TX NC/ MD55A90 TX MD25 B90 TX GROUNDA91 TX MD26 B91 TX NC/ MD56A92 TX MD27 B92 TX NC/ MD57A93 TX MD28 B93 TX NC/ MD58A94 TX MD29 B94 TX NC/ MD59A95 TX MD30 B95 TX NC/ MD60A96 TX MD31 B96 TX NC/ MD61A97 TX GROUND B97 TX NC/ MD62A98 TX MD32 B98 TX NC/ MD63A99 TX MD33 B99 TX GROUND
A100 TX MD34 B100 eSe 33 PIIX4 SIDE – DACK A101 TX MD35 B101 iPD1k/0V PIIX4 SIDE – DRQA102 TX MD36 B102 eSE 33 PIIX4 SIDE – IRQ A103 TX MD37 B103 iPU1k/5V PIIX4 SIDE – RDY A104 TX MD38 B104 eSE 33 PIIX4 SIDE – A0 A105 TX MD39 B105 eSE 33 PIIX4 SIDE – A1 A106 TX GROUND B106 eSE 33 PIIX4 SIDE – A2 A107 TX MD40 B107 eSE 10 TX BA0 A108 TX MD41 B108 LT1232 WDOG Strobe A109 TX MD42 B109 LT1232 WDOG ENABLEA110 TX MD43 B110 eSE 10 TX BA1 A111 TX MD44 B111 PIIX4 KM-P10/ XD0 A112 TX MD45 B112 PIIX4 KM-P11/ XD1 A113 TX MD46 B113 PIIX4 KM-P12/ XD2 A114 TX MD47 B114 PIIX4 KM-P13/ XD3 A115 eSE 10 TX RAS0# / (S0 @ SDRAM) B115 PIIX4 KM-P14/ XD4 A116 eSE 10 TX RAS1# / (S1 @ SDRAM) B116 PIIX4 KM-P15/ XD5 A117 eSE 10 TX RAS2# / (internally used) B117 PIIX4 KM-P16/ XD6 A118 eSE 10 TX RAS3# / (free) B118 PIIX4 KM-P17/ XD7 A119 eSE 10 TX MWEA# B119 PIIX4 KM-WRMTRX/ XD CS# A120 eSE 10 TX MWEB# B120 RES KM-RDMTRX/ VCC (+5V)
*) ePU = external required resistor iPU = internal placed resistor eSE = external serial resistor needed iSE = internal serial resistor iPD = internal pulled down 3) Internal with 10k to 5V pullup, for ISA-Bus application an external 1k pullup resistor is recommended • Shaded resistors must be placed externally on the motherboard as close as possible to the module • PIIX4 treat also as SOUTHBRIDGE • TX treat also as NORTHBRIDGE
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SM480BUS pullup/down-resistor, connector J2 Pin 1-40 (Vers. 2.2 SM586PC, SMGXPC, SMP5/3PC)
Pin Pull: *) Chipt Description Pin Pull: *) Chip Description A1 iPU1k/5V 37C672 strobe# B1 37C672 DCD1 A2 iPU1k/5V 37C672 auto# B2 37C672 DSR1 A3 iPU1k/5V 37C672 error# B3 37C672 RXD1 A4 iPU1k/5V 37C672 init# B4 37C672 RTS1 A5 iPU1k/5V 37C672 slctin# B5 37C672 TXD1 A6 ePU1k/5V 37C672 PRINTER data 0 B6 37C672 CTS1 A7 ePU1k/5V 37C672 PRINTER data 1 B7 37C672 DTR1 A8 ePU1k/5V 37C672 PRINTER data 2 B8 37C672 RI1 A9 ePU1k/5V 37C672 PRINTER data 3 B9 37C672 DCD2 A10 ePU1k/5V 37C672 PRINTER data 4 B10 37C672 DSR2 A11 ePU1k/5V 37C672 PRINTER data 5 B11 37C672 RXD2 A12 ePU1k/5V 37C672 PRINTER data 6 B12 37C672 RTS2 A13 ePU1k/5V 37C672 PRINTER data 7 B13 37C672 TXD2 A14 iPU1k/5V 37C672 acknowledge# B14 37C672 CTS2 A15 iPU1k/5V 37C672 busy B15 37C672 DTR2 A16 iPU1k/5V 37C672 paper end# B16 37C672 RI2 A17 iPU1k/5V 37C672 Select# B17 iPU1k/5V 37C672 Index#A18 iPU1k/5V 37C672 keyboard data B18 37C672 Drive select 1#A19 iPU1k/5V 37C672 keyboard clock B19 iPU1k/5V 37C672 Disk change# A20 iPU1k/5V 37C672 MOUSE clock B20 37C672 Motor on 1 A21 iPU1k/5V 37C672 MOUSE data B21 37C672 Direction# A22 Ground B22 37C672 Step impulse# A23 eSE 10 PIIX4 PIDE HD 0 B23 37C672 Write data# A24 eSE 10 PIIX4 PIDE HD 1 B24 37C672 Write gate# A25 eSE 10 PIIX4 PIDE HD 2 B25 iPU1k/5V 37C672 Track zero#A26 eSE 10 PIIX4 PIDE HD 3 B26 iPU1k/5V 37C672 Write protected#A27 eSE 10 PIIX4 PIDE HD 4 B27 iPU1k/5V 37C672 Read data# A28 eSE 10 PIIX4 PIDE HD 5 B28 37C672 Head select#A29 eSE 10 PIIX4 PIDE HD 6 B29 37C672 Drive select 0 A30 eSE 10 PIIX4 PIDE HD 7 B30 37C672 Motor on 0 A31 eSE 10 PIIX4 PIDE HD 8 B31 iPU10k/3V PIIX4 PWRBTN#A32 eSE 10 PIIX4 PIDE HD 9 B32 eSE 10 PIIX4 IDE RESET# A33 eSE 10 PIIX4 PIDE HD 10 B33 iPU10k/3V PIIX4 LID# A34 eSE 10 PIIX4 PIDE HD 11 B34 extern PIIX4 USB-P0+A35 eSE 10 PIIX4 PIDE HD 12 B35 extern PIIX4 USB-P0- A36 eSE 10 PIIX4 PIDE HD 13 B36 eSE 10 PIIX4 P-IDE-A 0A37 eSE 10 PIIX4 PIDE HD 14 B37 eSE 10 PIIX4 P-IDE-A 1A38 eSE 10 PIIX4 PIDE HD 15 B38 eSE 10 PIIX4 P-IDE-A 2A39 eSE 10 PIIX4 PIDE CS0# (1Fx) B39 eSE 10 PIIX4 P-IDE-IORDY A40 eSE 10 PIIX4 PIDE CS1# (3Fx) B40 69000 LCD D32
*) ePU = external required resistor iPU = internal placed resistor eSE = external serial resistor needed iSE = internal serial resistor iPD = internal pulled down 4) Internal with 10k to 5V pullup, for ISA-Bus application an external 1k pullup resistor is recommended • Shaded resistors must be placed externally on the motherboard as close as possible to the module • PIIX4 treat also as SOUTHBRIDGE • TX treat also as NORTHBRIDGE
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SM480BUS pullup/down-resistor, connector J2 Pin 41-80 (Vers. 2.2 SM586PC, SMGXPC, SMP5/3PC)
Pin Pull: *) Chip: Description Pin Pull: *) Chip DescriptionA41 eSE 10 PIIX4 PDACK# B41 SIO IrDA TXA42 iPD1k/0V PIIX4 PREQ B42 SIO IrDA RX A43 eSE 10 PIIX4 PIDE IRQ B43 69000/30 LCD D33A44 eSE 10 PIIX4 PIDE IOR# B44 69000/30 LCD D34A45 eSE 10 PIIX4 PIDE IOW# B45 69000/30 LCD D35A46 VCC (5V) B46 Battery 3.0V for RTC A47 PCI AD0 B47 PCI AD16 A48 PCI AD1 B48 PCI AD17 A49 PCI AD2 B49 PCI AD18 A50 PCI AD3 B50 PCI AD19 A51 PCI AD4 B51 PCI AD20 A52 PCI AD5 B52 PCI AD21 A53 PCI AD6 B53 PCI AD22 A54 PCI AD7 B54 PCI AD23 A55 PCI AD8 B55 PCI AD24 A56 PCI AD9 B56 PCI AD25 A57 PCI AD10 B57 PCI AD26 A58 PCI AD11 B58 PCI AD27 A59 PCI AD12 B59 PCI AD28 A60 PCI AD13 B60 PCI AD29 A61 PCI AD14 B61 PCI AD30 A62 PCI AD15 B62 PCI AD31 A63 PCI C-BE0# B63 iPU10k/3V PIIX4 PIRQA# A64 PCI C-BE1# B64 iPU10k/3V PIIX4 PIRQB# A65 PCI C-BE2# B65 iPU10k/3V PIIX4 PIRQC#A66 PCI C-BE3# B66 iPU10k/3V PIIX4 PIRQD#A67 VCC (5V) B67 VCC (5V)A68 iSE 33 CLK PCI-CLK1 B68 iSE 33 CLK PCI-CLK2A69 iPU10k/3V PIIX4 REQ0# B69 iPU1k/3V PIIX4 GNT0# A70 iPU10k/3V PIIX4 REQ1# B70 iPU1k/3V PIIX4 GNT1# A71 iPU10k/3V PIIX4 REQ2# B71 iPU1k/3V PIIX4 GNT2# A72 iPU10k/3V PIIX4 REQ3# B72 iPU1k/3V PIIX4 GNT3# A73 RES RES. –function 5/ SDRAM_SEL B73 VCC (5V)A74 iPU10k/3V PIIX4 FRAME# B74 iPU10k/3V PIIX4 IRDY#A75 iPU10k/3V PIIX4 TRDY# B75 iPU10k/3V PIIX4 STOP# A76 iPU10k/3V PIIX4 DEVSEL# B76 iPU10k/3V PIIX4 PAR#A77 iPU10k/3V PIIX4 SERR# B77 iPU10k/3V PIIX4 LOCK# A78 RES FKT 4 B78 iPU10k/3V PIIX4 PCI-RESET#A79 iPU1k/5V LT1232 resetinput / POW- B79 iPD1k/0V PIIX4 DRQ7A80 iPU1k/3.3V PIIX4 RES FKT 6 B80 PIIX4 DACK7
*) ePU = external required resistor iPU = internal placed resistor eSE = external serial resistor needed iSE = internal serial resistor iPD = internal pulled down 5) Internal with 10k to 5V pullup, for ISA-Bus application an external 1k pullup resistor is recommended • Shaded resistors must be placed externally on the motherboard as close as possible to the module • PIIX4 treat also as SOUTHBRIDGE • TX treat also as NORTHBRIDGE
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SM480BUS pullup/down-resistor, connector J2 Pin 81-120 (Vers. 2.2 SM586PC, SMGXPC, SMP5/3PC)
Pin Pull: *) Chip Description Pin Pull: Chip DescriptionA81 69000/30 LCD D24 B81 extern PIIX4 USB-P1+A82 69000/30 LCD D25 B82 extern PIIX4 USB-P1-A83 69000/30 LCD D26 B83 extern PIIX4 USB-OC0 A84 69000/30 LCD D27 B84 extern PIIX4 USB-OC1 A85 69000/30 LCD D28 B85 iPU10k/5V PIIX4 S/LA22 A86 69000/30 LCD D29 B86 iPU10k/5V PIIX4 S/LA23 A87 69000/30 LCD D30 B87 iPU10k/3V PIIX4 PERR-A88 69000/30 LCD D31 B88 RES FKT1 RES FKT1 A89 RES-FKT2 37C672 DRVDEN1 (IrDA-SEL) B89 iPU10k/3V PIIX4 SMB-DATA A90 RES-FKT3 37C672 DRVDEN0 (IrDA-SEL) B90 iPU10k/3V PIIX4 SMB-CLOCK A91 3.3V B91 3.3V A92 Option 82C559 INTERN TX100+ B92 iPU1k/5V PIIX4 MASTER#A93 Option 82C559 INTERN TX100- B93 iPU1k/5V PIIX4 IOCHCK A94 Option 82C559 INTERN RX100+ B94 ICP TCKA95 Option 82C559 INTERN RX100- B95 ICP TDI A96 PIIX4 SUS-STAT2 B96 ICP TDO A97 POWER VCC-SUSPEND B97 ICP TMS A98 PIIX4 SUSA- B98 69000 VESA: DDA A99 PIIX4 SUSB- B99 69000 VESA: DDC
A100 PIIX4 SUSC- B100 iPU10k/3V PIIX4 SUS-STAT1A101 iPD 75 69000/30 analog green B101 VGA Analog ground VIDEOA102 iPD 75 69000/30 analog blue B102 69000/30 VSynch A103 iPD 75 69000/30 analog red B103 69000/30 HSynchA104 69000/30 LCD ENAVEE B104 69000/30 LCD ENAVDD A105 69000/30 GROUND B105 69000/30 LCD SHCLKA106 69000/30 LCD FLM/VS B106 69000/30 LCD LP/HSA107 69000/30 LCD D12 B107 69000/30 LCD D0 A108 69000/30 LCD D13 B108 69000/30 LCD D1 A109 69000/30 LCD D14 B109 69000/30 LCD D2 A110 69000/30 LCD D15 B110 69000/30 LCD D3 A111 69000/30 LCD D16 B111 69000/30 LCD D4 A112 69000/30 LCD D17 B112 69000/30 LCD D5 A113 69000/30 LCD D18 B113 69000/30 LCD D6 A114 69000/30 LCD D19 B114 69000/30 LCD D7 A115 69000/30 LCD D20 B115 69000/30 LCD D8 A116 69000/30 LCD D21 B116 69000/30 LCD D9 A117 69000/30 LCD D22 B117 69000/30 LCD D10 A118 69000/30 LCD D23 B118 69000/30 LCD D11 A119 69000/30 LCD ENABKL B119 69000/30 LCD M A120 POWER LCD VCC (3,3V) B120 CPU CPU CORE output
*) ePU = external required resistor iPU = internal placed resistor eSE = external serial resistor needed iSE = internal serial resistor iPD = internal pulled down 6) Internal with 10k to 5V pullup, for ISA-Bus application an external 1k pullup resistor is recommended • Shaded resistors must be placed externally on the motherboard as close as possible to the module • PIIX4 treat also as SOUTHBRIDGE • TX treat also as NORTHBRIDGE
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4.2.1 Differences between the smartModules
SM486PCX SM586PC SMP5PC SMP3PC SMGXPC EXT. MEMORY
Type: EDO SDRAM SDRAM SDRAM SDRAM Width 32Bit 32Bit 64Bit 64Bit 64Bit
MD00 – MD31 yes yes yes yes Yes MD32 – MD63 n.c. n.c. yes yes Yes
PCI-BUS no yes yes yes Yes
EXTERNAL BIOS BIOSCSin/out yes yes (XD bus) yes (XD bus) yes (XD bus) yes (XD bus)
S-IDE / SDRAM no yes yes yes Yes J1-B48 – B67 PCMCIA S-IDE S-IDE S-IDE S-DIE J1 B68 – B79 PCMCIA SDRAM SDRAM SDRAM SDRAM
Option LAN Yes Yes no no Yes
J1 B100 – B107 Base-T10 n.c. n.c. n.c. J2 A89 – A90 Base-2 n.c. IrDA-Select. IrDA-Select Audio J2 A91 – A95 Base-2 Base-T100 n.c. n.c. Base-T100
J1 B107 & B110 LAN-LED Ext.SDRAM Ext.SDRAM Ext.SDRAM Ext.SDRAM
COM3/LCD 24Bit 36Bit 36Bit 36Bit 18Bit J2 A81 – A88 COM3 LCD D24-31 LCD D24-31 LCD D24-31 n.c.
J2 B40 n.c. LCD D32 LCD D32 LCD D32 n.c. J2 B43 – B45 n.c. LCD D33-35 LCD D33-35 LCD D33-35 n.c.
USB:
J2 B34 – B35 n.c. USB 0 USB 0 USB 0 USB 0 J2 B81 – B84 n.c. USB 1 USB 1 USB 1 USB 1
Specials / APM J1 – B80 1.8MHz/ BL0 24MHz 24MHz 24MHz 24MHz J2 – A96 BL2 n.c. SUS-STAT2 SUS-STAT2 n.c. J2 – A97 FL_IN 5V-SUS 5V-SUS 5V-SUS 5V-SUS J2 – A98 LAN0 GPIO0 SUSA# SUSA# n.c. J2 – A99 LAN1 GPIO1 SUSB# SUSB# n.c.
J2 – A100 LAN2 GPIO2 SUSC# SUSC# SUSC# J2 – B31 Sus/Resume n.c. PWRBTN# PWRBTN# n.c. J2 – B33 Sleep Input GPIO4 LID# LID# SLEEP#
J2 – B100 BL1 GPIO3 SUS-STAT1 SUS-STAT1 n.c. J2 – A80 AC Input PWM SMI# SMI# SMI# J2 – B98 ROMWR DDA DDA DDA DDA J2 – B99 ROMRD DDC DDC DDC DDC
J2 B94 – B96 CF n.c. JTAG JTAG. JTAG J2 – B88 n.c. RES1 RES1 RES1 Audio AC97
J2 B89 – B90 I2C I2C SMB SMB I2C J2 – A97, B97 FLASH n.c. JTAG JTAG JTAG
J2 – A89 LAN RES2 DEN1 (IrDA**) DEN1 (IrDA**) Audio AC97 J2 – A90 LAN RES3 DEN0 (IrDA**) DEN0 (IrDA**) Audio AC97
J2 – B120 3.3V 2.5V 1.8V 1.3V 2.0V J1 B110 – B120 Keymatrix - IC-BIOS XD IC-BIOS XD IC-BIOS XD
J2 – A73 n.c. SDRAM_SEL SDRAM_SEL SDRAM_SEL Audio AC97 J2 - A78 n.c. RES4 RES4 PCS0# Audio AC97
*) Only for in-circuit test in the production **) IrDA mode select of the SMC37C672 (Fast IrDA)
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4.2.2 Signal lines
Signal or Group
CPU Type
Current [mA]
Volt [V]
Pullup Group Description
A0 – A25 E 3 o 8 3.3 none corebus addressbus from elan400 for vesa extension AD0-AD31 P 3 i/o 8 3.3 none PCI not used on the ELAN400, not connected pins D0 – D32 E 3 i/o 20 3.3 none corebus 32bit databus for dram and vesa extension MA0-MA12
EP 3 o 20 3.3 none dram dram memory address lines for dram extension
MWE EP 3 o 20 3.3 none dram dram write enable RAS 0-3 EP 3 o 8 3.3 none dram row adress for dram extension CASH 0-3 EP 3 o 8 3.3 none dram column adress for dram extension CASL 0-3 EP 3 o 8 3.3 none dram column adress for dram extension KB dat/clk EP 5 o 8 5 1k kbd keyboard interface MS dat/clk EP 5 o 8 5 1k mouse mouse interface COM E 5 o 8 5 none uart COM1 if internal ELAN400 uart is enabled IrDA E 5 o 8 5 none IrDA Infrared datalines of the ELAN400 IRQx EP 5 o 8 5 10k ISA interrupt request lines DMAx EP 5 o 4 5 none ISA DMA acknowledge DRQx EP 5 i 5 1k ISA DMA request signals MEMW EP 3 o 4 3.3 none dram/IS
A write signal for dram and ISA**
MEMR EP 3 o 4 3.3 none dram/ISA
read signal for dram and ISA**
IOR, IOW EP 5 o 8 5 none ISA I/O control lines for ISA bus SD0-SD15 EP 5 i/o 8 5 10k ISA ISA datalines SA0-SA25 EP 5 o 8 5 none ISA ISA adresslines LA17-LA19
EP 5 o 8 5 none ISA ISA latched adresslines, equal to SA17-SA19***
BIOS & FLASHDISK control lines from ELAN400
BIOSC-Sout
E 5 o 4 5 1k core Chipselect for the BIOS device must be connected to the BIOSCSin
BIOSCSin E 5 i 5 1k core 29F040 biosdevice chipselect must be connected to the BIOSCSout
FLASHCSout
E 5 o 4 5 1k core Chipselect for the FLASHDISK device must be connected to the FLASHCSin
FLASHCSin E 5 i 5 1k core 29F016 biosdevice chipselect must be connected to the FLASHCSout
SLEEP (B32)
E 5 o 4 5 none core/PM Power for peripherals: 1 = sleep / 0 = powered ex. MAX211, VGA chip, others, this signal is con-trolled from the bios powermanagement.
RUN (A33) EP 5 o 4 5 none core/PM invers signal of SLEEP: 1= full powered BLx E 3 i 10k core/PM Battery Level sense inputs SMC37C6XX Super I/O controller IDExx E 5 o 8 5 none ide peripheral control lines
needs 2 x 74HCT245 buffer to control LPT signals
EP 5 i/o 20 5 10k printer printer data and control lines, pullup resistors only on the controllines
FD signals EP 5 i/o 20 5 1k floppy floppydisk data and control lines COM1 EP 5 i/o 8 5 none uart COM1 EXT COM2 EP 5 i/o 8 5 none uart COM2 EXT IrDA P 5 i/o 5 none IrDA Fast IrDA
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Signal or
Group CPU Type Current
[mA] Volt [V]
Pullup Group Description ELAN400
LAN E 3 o 2 5.0 none LAN 10-Base-T and 10-BASE-2 from 91C94/96 SMC controller, The transformator must be placed ex-ternally in both interface cases.
LCD EP 3/5 o 8 5.0 none LCD VGA digital signals from the VGA Controller VGA EP var - 5.0 none VGA CRT output for a VGA Monitor CF EP 5 i/o 8 5.0 none CF CompactFlash control lines DDA,DDC EP 3 i/o 2 3.3 none VGA VESA: Digital Display Control LAN-LED1 E 3 i 10 3.3 none LAN ACTIVITY LED (Cathode)
LED-Anode over serial resistor to 3.3V con-nected.
LAN-LED2 E 3 i 10 3.3 none LAN LINK LED (Cathode) LED-Anode over serial resistor to 3.3V con-nected.
DX-Bus EP 3 i/o 8 3.3 none PIIX4 Bus for BIOS-Flashdevice (ext/int) BIOSCS controlls the devices-select. MEMR- and MEMW- controls the datadirection.
AUDIO G 3 i/o 8 3.3 none GEODE AC97 codec interface The CPU colon is a hint for which smartModule the signals are refered to: E = ELAN400 P = PENTIUM EP = ELAN400 and PENTIUM G = GEODE Remarks: ** Must be buffered with 74HCT244 to receive 5V MEMW/MEMR *** The LA17-LA19 lines are only available to be compatible with ISA busses. On the SMxxPC they are in-ternally connected to the SA17-SA19 signals. • Please note, that when 3.3/5 signal are mentioned, that this does not mean that both supplies are
available on one single board. It is rather meant, that 5V are for the SM486PCX and all new smartModule are 3.3V signals. Check always the appropriate smartManual for details or ask DLAG if you are uncertain.
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4.2.3 LCD interface signaldefinition, only for C&T 69000 / 69030 (not for GEODE)
Pin 480BUS
LCD Line
Mono SS 8Bit
Mono DD 8Bit
Mono DD 16Bit
TFT 9/12/16Bit
TFT 18/24Bit
TFT HR 18/24Bit
STN DD 8Bit
STN DD 16Bit
TFT 36Bit
B107 D0 - UD3 UD7 B0 B0 B00 R1 UR0 O-B0 B108 D1 - UD2 UD6 B1 B1 B01 G1 UG0 O-B1 B109 D2 - UD1 UD5 B2 B2 B02 B1 UB0 O-B2 B110 D3 - UD0 UD4 B3 B3 B03 R2 UR1 O-B3 B111 D4 - LD3 UD3 B4 B4 B10 G2 LR0 O-B4 B112 D5 - LD2 UD2 G0 B5 B11 B2 LG0 O-B5 B113 D6 - LD1 UD1 G1 B6 B12 R3 LB0 E-B0 B114 D7 - LD0 UD0 G2 B7 B13 G3 LR1 E-B1
B115 D8 P0 - LD7 G3 G0 G00 B3 UG1 E-B2 B116 D9 P1 - LD6 G4 G1 G01 R4 UB1 E-B3 B117 D10 P2 - LD5 G5 G2 G02 G4 UR2 E-B4 B118 D11 P3 - LD4 R0 G3 G03 B4 UG2 E-B5 A107 D12 P4 - LD3 R1 G4 G10 R5 LG1 O-G0 A108 D13 P5 - LD2 R2 G5 G11 G5 LB1 O-G1 A109 D14 P6 - LD1 R3 G6 G12 B5 LR2 O-G2 A110 D15 P7 - LD0 R4 G7 G13 R6 LG2 O-G3
A111 D16 - - - - R0 R00 - - O-G4 A112 D17 - - - - R1 R01 - - O-G5 A113 D18 - - - - R2 R02 - - E-G0 A114 D19 - - - - R3 R03 - - E-G1 A115 D20 - - - - R4 R10 - - E-G2 A116 D21 - - - - R5 R11 - - E-G3 A117 D22 - - - - R6 R12 - - E-G4 A118 D23 - - - - R7 R13 - - E-G5
- A81 D24 O-R0 A82 D25 O-R1 A83 D26 O-R2 A84 D27 O-R3 A85 D28 O-R4 A86 D29 O-R5 A87 D30 E-R0 A88 D31 E-R1 B40 D32 E-R2 B43 D33 E-R3 B44 D34 E-R4 B45 D35 E-R5
A106 VS/FLM FRAME S FLM VSYN VSYN VSYN YD YD VS B106 HS/LP LOAD CP1 CL1 HSYN HSYN HSYN LP LP HS B105 SHFCLK CP CP2 CL2 CK CK CK XCKL XCK SH-ClkB119 M DF - M ENAB ENAB - - - M
PANEL Generic LM64P80
SHARP LCM-5491 SANYO
LQ9D011 SHARP
LQ10D311 SHARP
LQ10DX01 SHARP
LM64C031 SHARP
LM64C08 Sharp
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4.2.4 CRT monitor signaldefinition
Pin: Name: Function: A101 green analog output green A102 blue analog output blue A103 red analog output red B101 gnd analog ground B102 vsynch vertical synchron signal to the CRT B103 hsynch horizontal synchron singla to the CRT 4.2.5 Power lines signaldefinition, SM486PCX
Signal or
Group I/O Current
[mA] Volt [V] Toler-
ance Group Description
VCC i 950
5.0 +/- 5% power Main power supply for CPU and peripheral. From this supply, the onboard switch mode con-verter generates the 3.3V supply, available on the 3.3V out pins.
VCC_SUS i 30mA
5.0V +/- 5% power Main power to supply the 3.3V_SUS plane in the module. In powermanagement solutions, this voltage must be ON, even when the main 5V are switched off.
GND i 0.0 power Ground 3.3V Out o max. 100
3.3 +/- 2% power Output of the 3.3V generator of the module,
used to supply external 3.3V devices RTC backup i <5 uA 3.0 + 20% power RTC backup supply (3.0V – 3.6V Li-battery).
NOT CHARGEABLE !!! This supply must be powered anytime, other-wise the RTC information will be lost. With the onboard battery option, this pin is not connected. Do never charge a Lithium battery !
CORE-VCC Sense pin
o max.1mA Core +/-3% power This voltage output is for controlling purposes in the production process only, do not use this pin.
* Normally connected directly to the 3.3V Out power lines. ** May be powered with 3.3V or with 5V supply (depending on the LCD voltage)
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4.3 Power supply of the smartModule-480Bus Supply.: Voltage / direction: Current Tolerance and ripple VCC 5.0V Input 0.1 – 2Amp +-5% / 50mV VCC_SUSPEND 5.0V Input max. 0.2 Amp +-5% / 50mV VCC3 3.3V Output max. 1 Amp.
for external DRAM and PCI-devices
+-5% / 50mV
VBAT 3.6V 0.1 – 2µA for RTC-backup VCC2, VCCCORE 1.1V to 2.0V output for tests only +-5% / 30mV 4.3.1 Connector specifications
The DIGITAL LOGIC AG smartModule- SMxxPC module connectors are surface mount 0.635mm pitch, 240pin connectors. Parameter: Condition: Specification: Material: Contact: Beryllium Copper Housing: Thermoplast Molded Electrical: Current: 0.5 Amp Voltage: 100 VAC Termination Resistance: 20mOhms Insulation Resistance: 500MOhm Mechanical: Mating Cycles: 50 Connector Mating Force: 1N per contact Connector Unmating Force: 0.4N per contact Pitch: 0.635mm Number of pins: 240 The manufacturer of the connector is:
Source on SMxxPC module *: Part-Name: Part-Number: On customers board to hold a SMxxPC h=5mm
MOLEX 240pin (53475-2409 *) Alternatives: h=6mm (PCB-PCB) (53467-2409 *) h=7mm (PCB-PCB) (53481-2409 *) SMxxPC connector h=5mm MOLEX 240pin Mating connector 52760-2409
* Only as a reference.
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4.3.2 Suspend mode description
Power state SUSSTATx SUSA- SUSB- SUSC-
Normal ON 1 1 1 1 Power On Suspend 0 0 1 1 Suspend to RAM 0 0 0 1 Suspend to disk 0 0 0 0 OFF 0 0 0 0 Suspend events: - LID - Power button - SMI - Timer Resume events: - LID - Power button - SMI - Timer Signal description: - SUSA- Control of clock PLL supply (currently not used) - SUSB- Control of CPU supply, DRAM, RTC, TX - SUSC- Control of all Vcc exept of the PIIX VCCSUS
4.4 Thermal specifications Each product will undergo a BurnIn-Test of 10 cycles of 30 min. between the operating temperatures of –25°C to +70°C or higher if extended ranges are required. The critical point is to meet the max. Tcase temperature of the CPU. This temperature is specified by 110°C for the SQFP case. The tables show the allowable ambient tempera-ture at various airflows and with different heatsink configurations. CPU: T (case) = 90°C Power consumption: CPU frequency Air temperature T case
no Airflow 0 m/sec
T case Airflow 3 m/sec
T case Airflow 6 m/sec
166MHz 70°C 266MHz 60°C These values have to be definitely defined when having series status. See the appropriate manual.
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5 PCI ASSIGNMENTS
5.1 Onmodule PCI assignments Device: ID-select on address IRQ-assignments REQ/GNT-assignments PIIX4 Southbridge AD_18 PCI: none
ISA-IRQ’s: USB, IDE0, IDE1
none
VGA 69000/030 AD_31 none none Option LAN 82C559 /ER (AD_29) (PIRQA) (GNT1/REQ1)
5.2 PC/104plus PCI assignments From the BIOS assigned resources: Device: ID-select on address IRQ-assignments REQ/GNT-assignments SLOT1 / MODULE1 AD_20 PIRQA 0 SLOT2 / MODULE2 AD_21 PIRQB 1 SLOT3 / MODULE3 AD_22 PIRQC 2 SLOT4 / MODULE4 AD_23 PIRQD 3
5.3 CompactPCI assignments From the BIOS assigned resources: Device: ID-select on address IRQ-assignments REQ/GNT-assignments PER-SLOT2 AD_31 0 PER-SLOT3 AD_30 1 PER-SLOT4 AD_29 2 PER-SLOT5 AD_28 3 PER-SLOT6 AD_27 4 PER-SLOT7 AD_26 5 PER-SLOT8 AD_25 6 One additional PCI device is allowed on the CompactPCI SystemSlotBoard and uses ID-selects in the range of AD11 to AD24. Also PCI devices on a segment behind a PCI2PCI bridge uses the ID-Select AD11 to AD24.
5.4 ATX-board PCI-BUS assignments From the BIOS assigned resources: Device: ID-select on address IRQ-assignments REQ/GNT-assignments PER-SLOT1 AD_ PIRQ-A 0 PER-SLOT2 AD_ PIRQ-B 1 PER-SLOT3 AD_ PIRQ-C 2 PER-SLOT4 AD_ PIRQ-D 3 (not defined yet)
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40
6 DESIGNIN BLOCK SCHEMATICS ATTENTION: Very important information for smartModule integrators. 1. The minimum schematics to operate with the smartModule-P5PCX is described further on.
Place on the 5Volt line 10x 100nF capacitors nearest possible at the powerpins. 2. Place on the 5Volt line 4 x 100µF/16V and 2 x 330µF tantal capacitors. 3. Use a separate ground and 5Volt plane in the OEM PCB. 4. If 3.3V DRAM extension are used, integrate a 3.3V powerplane to supply the DRAMs and other 3.3V
parts. The 3.3V supply may be loaded with max. 300mA. Place also on the 3.3V plane 5 to 10 x 100nF and 2 x 100µF capacitors, nearest possible to the supply pins of each components. Place the DRAMs directly under the smartModule.
5. To meet all EMI/EMC parameters, place on every peripheral line (go to external cables) a ferrite (TDK) and a 47pF capacitor to ground.
6. All generic pullup resistor should be 10k typ 7. All generic buffers are recommended to be 74HCT245/244 or 74ABT245/244 type. 8. If using SODIMM's, please refer to our overview list, which is also on our CD. Cleaning the contacts on
the SODIMM and the socket with e.g. pure alcohol is highly recommended to may eliminate memory er-rors.
9. For any questions, we are providing a DesignIn support. Please fill out the form in chapter 1.5 to initialize a DesignIn support.
DIGITAL-LOGIC AG SM480 Integration manual V1.6
41
6.1 Samples Schematics SMP5PC- DK and SM486PCX- EK
On the following pages, one will see the schematics for the SMP5PC- (V2.1) and SM486PCX- development kit .
DIGITAL-LOGIC AG SM480 Integration manual V1.6
42
6.2 Application to use the downloadtool for the external VGA BIOS.
1 2
1 2
J98 SMEMW
Vcc
VccVcc
Vcc
CS
J97 MEMW
XD-BUS
XD-BUS
SD-BUS
CE¯
A16...A19
VGAENA 1=disabled
TTL
PIIX4 BIOSCS
EXT enabledJ88INT enabled
INT
enab
led
J87
EX
T e
nabl
ed
A16...A19
1=disabled
WR
WR
1=disabled
external f lashdevice
internal f lashdevice
smartModule
74HCT138
BIOSEXT1
To be defined
74HCT138
DISV D12
D11
DISBD13
74HCT74
R¯
NRE
SDRV
Q
DCLK
1 2 3
CS
CE¯
1 2 3
1 2
Vcc
J95
clos
ed =
INT
BIO
Sop
en
= EX
T BI
OS
DLAG download application(Since SMP5PC V2.2)
External circuit
external f lashdeviceinternal f lashdevice
designed with GRIDS V1.0.5
DIGITAL-LOGIC AG SM480 Integration manual V1.6
43
6.3 Application for external DRAM (SODIMM 144pins) signal signal MD (0...63) Resistor 10- 33Ω MD SDA I2D MA (0...13) Resistor 10- 33Ω MA SCL I2C Resistor 10- 33Ω BA0 CKE0 CKE0 Resistor 10- 33Ω BA1 CKE1 CKE1 MWEB- Resistor 10- 33Ω WE- CK0 SCK0 DQM (0...7) Resistor 10- 33Ω DQM CK1 SCK1 GND OE- SCAS SCAS SCS2- S0 SRAS SRAS SCS3- S1 SODIMM signal signal MA (0...13) Vcc3 SCS (0..3) GND WEx DQMB (0...7) TERMINATIONS
PACDN005
DIGITAL-LOGIC AG SM480 Integration manual V1.6
44
6.4 Application for external IDE’s smart IDE-
MASTER IDE-
SLAVE PRIMARY PORT
PIDE_D (0...15) Resistor 10- 33Ω PIDE_A (0...2) Resistor 10- 33Ω PIDE_CS (0...1) Resistor 10- 33Ω PIDE_IOW Resistor 10- 33Ω PIDE_IOR Resistor 10- 33Ω PIDE_INT = IRQ14 Resistor 10- 33Ω PIDE_DACK Resistor 10- 33Ω PIDE_DRQ Resistor 10- 33Ω NC Pin 34 PDIAG NC Pin 39 PDASP smart IDE-
MASTER IDE-
SLAVE SECONDARY PORT
SIDE_D (0...15) Resistor 10- 33Ω SIDE_A (0...2) Resistor 10- 33Ω SIDE_CS (0...1) Resistor 10- 33Ω SIDE_IOW Resistor 10- 33Ω SIDE_IOR Resistor 10- 33Ω SIDE_INT = IRQ15 Resistor 10- 33Ω SIDE_DACK Resistor 10- 33Ω SIDE_DRQ Resistor 10- 33Ω NC Pin 34 PDIAG NC Pin 39 PDASP
DIGITAL-LOGIC AG SM480 Integration manual V1.6
45
6.5 Application for the ATX power supply
Power supply +5V
VccSUS
5V= operating mode 0V= suspend modeVcc
SI4425DY
FET
External Vcc devices
External Vcc3 devices (e.g. LAN, SDRAM, etc)
Power button LID Battery
External LCD logic 3.3V/5V
VCCSUS
SUSC-
VCC
VCC3
PWRBTN
LID
VBAT
LCD_VCC
CORE_VCC Testpoint for CPU voltages
LCD display
DIGITAL-LOGIC AG SM480 Integration manual V1.6
46
6.6 Application AC97 CODEC for the SMGXPC Is now part of the smartModule (optional).
DIGITAL-LOGIC AG SM480 Integration manual V1.6
47
8 8
7 7
6 6
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
|LINK
|a3.sch
SSOP28
SSOP28
|a5.SCH
LPT
MOLEX26 FLOPPY
COM1
COM2
MMC
MASTER
SLAVE
CLOSE=486
OPEN=P5
SMBBUS
JTAG
EXT-SDRAM
2.SOCKET
USB
CPU-CORE
VOLTAGE
TESTOUTPUT
LCD_SUPPLY
OUTPUT
OF 3.3V
ALL VCC3 ARE 3.3V OUTPUTS
WITH MAX. CURRENT OF 1.0Amp
OPTIONAL
FOR TEST
ONLY FOR EXT.SDRAM OPTION
MOUSE
KEYBOARD
PWM
PC/104BUS
CFLASH
IDE-SEC
IDE-PRIM
UTILITY
FLOPPY
SELECT
DOWNLOAD
OPTIONAL
FOR TEST
EMI/EMC
SHIELDS
AND HOLES
POWER
INPUT
VGABIOS
COREBIOS
INT
EXT
INT
EXT
INT
VGA-BIOS
CORE-BIOS
WR_ENA
WR_ENA
RESET-FF
WITH POWERON
NRESDRV
SMART P5 DEVELOPME
NT KIT
2.1
SMP5PCDK
DIGITAL-LOGIC AG
HAELEGAERTLISTR.10
CH-4515 OBERDORF
C
24
Tuesday, May 22, 2001
Title
Size
Document Number
Rev
Date:
Sheet
of
-IOR
HDA0
HDA0R
HD0S
HD0T
DISB
DISV
MEMWX
-IOW
P1D1
HDA1
HDA1R
HD1S
HD1T
AEN
P1D0
HDA2
HDA2R
HD2S
HD2T
HDWR
HDWRR
HD3S
HD3T
HD0
HD0R
HDRD
HDRDR
HD4S
HD4T
HD1
HD1R
HCS0
HCS0R
HD5S
HD5T
SA0
SD0
SA0
XD0
RESDRV
IRQ9
SPK
STR1
DCD1
HD2
HD2R
HCS1
HCS1R
HD6S
HD6T
SA1
SD1
SA1
XD1
SBHE
IRQ3
WDOG
AUTO1
DSR1
HD3
HD3R
HDRDY
HDRDYR
HD7S
HD7T
SA2
SD2
SA2
XD2
MCS16
IRQ4
XRESET
ERROR1
RXD1
HD4
HD4R
SA3
SD3
SA3
XD3
IOC16
IRQ5
INIT1
RTS1
HD5
HD5R
SA4
SD4
SA4
XD4
-IOW
IRQ6
KBDAT
SLCTIN1
TXD1
HD6
HD6R
SA5
SD5
SA5
XD5
-IOR
IRQ7
KBCLK
P1D0
CTS1
HD7
HD7R
HDA0S
HDA0T
HD8S
HD8T
SA6
SD6
SA6
XD6
SYSCLK
IRQ10
P1D1
DTR1
HDA1S
HDA1T
HD9S
HD9T
SA7
SD7
SA7
XD7
TC
IRQ11
P1D2
RI1
HDA2S
HDA2T
HD10S
HD10T
SA8
SA8
BALE
IRQ12
MSCLK
P1D3
DCD2
HDWRS
HDWRT
HD11S
HD11T
SA9
SA9
SD7
IRQ14
MSDAT
P1D4
DSR2
HD8
HD8R
HDRDS
HDRDT
HD12S
HD12T
SA10
SA10
SD6
IRQ15
P1D5
RXD2
HD9
HD9R
HCS0S
HCS0T
HD13S
HD13T
SA11
SA11
SD5
BIOSDIS
P1D6
RTS2
HD10
HD10R
HCS1S
HCS1T
HD14S
HD14T
SA12
SA12
SD4
VBIOSDIS
P1D7
TXD2
HD11
HD11R
HDRDYS
HDRDYT
HD15S
HD15T
SA13
SMEW
SA13
MEMWX
SD3
LA21
ACK1
CTS2
HD12
HD12R
SA14
SMEMR
SA14
MEMR
SD2
LA20
BUSY1
DTR2
HD13
HD13R
SA15
VGAEX
SA15
BIOSEX
SD1
LA19
PE1
RI2
HD14
HD14R
SA16
SA16
SD0
LA18
SCLT1
INDEX
HD15
HD15R
SA17
SA17
IOCHRDY
LA17
KBDAT
DRV1
SA18
SA18
AEN
SD8
KBCLK
DSKCHG
HD3R
SA19
SD9
MSCLK
MTR1
HD4R
HD7T
SA18
SD10
MSDAT
DIR
NRESDRV
HD5R
HD8T
SMEW
SA17
SD11
STEP
HD6R
HD6T
SMEMW
SA16
SD12
HD0
WDATA
HD7R
HD7R
HD9T
SA15
SD13
HD1
WGATE
HD8R
HCS0R
HD5T
SA16
SA14
SD14
HD2
TRK0
HD6R
HD10T
SA17
DISB
SA13
SD15
HD3
WRPT
HD9R
HD4T
SA18
SA12
DRQ0
HD4
RDATA
RX5V
HD5R
HD11T
MEMWX
SA11
DRQ1
HD5
HDSEL
TX5V
HD10R
HD3T
VGAEX
MEMW
SA10
DRQ2
HD6
DRV0
HD4R
HD12T
SA19
INTERNBIO
DISV
SA9
DRQ3
DRV1
HD7
MTR0
HD11R
HD2T
AEN
SA8
DRQ5
DRVSEL
HD8
PWRBTN
HD3R
HD13T
DISV
SA7
DRQ6
DRV0
HD9
NRESDRV
HD12R
HD1T
SA6
OSC
HD10
LID
HD2R
HD14T
SA5
-DACK0
HD11
U_P0+
HD13R
HD0T
VBIOSDIS
BIOSDIS
SA4
-DACK1
HD12
U_P0-
HD1R
HDA2R
HD15T
SA3
-DACK2
HD13
HDA0
HD14R
HDA1R
SCLT1
DISV
DISB
SA2
-DACK3
MTR1
HD14
HDA1
HD0R
HDA0R
SA1
-DACK5
MOTON
HD15
HDA2
HD15R
HD0R
HDRQS
PE1
SA0
-DACK6
MTR0
HCS0
HDRDY
HD1R
DQMB0
SPKR
HCS1
P32
HD2R
HDWRT
BUSY1
DQMB1
0WS
HDACK
TX5V
HDRQ
DISB
DQMB2
REF
HDRQ
RX5V
UOC1
HDRDT
ACK1
BIOSEX
DQMB3
MEMR
HDIRQ
P33
HDWRR
BIOSEX1
BIOSDIS
DQMB4
SMEMR
HDRD
P34
HD11R
HDRDYT
P1D7
DQMB5
MEMW
HDWR
P35
HDRDR
HD12R
DQMB6
SMEMW
HD13R
HDACKS
P1D6
DQMB7
HD0S
A_D0
A_D16
HDRDYR
HD14R
MD0
HD1S
A_D1
A_D17
HD15R
HDIRQS
P1D5
DISB
BIOSDI
MD1
HD2S
A_D2
A_D18
HDACK
HCS1R
HDIOC16
SPK
MD2
HD3S
A_D3
A_D19
HDA1T
P1D4
MD3
HD4S
A_D4
A_D20
HDIRQ
HDRDR
PDIAGS
MD4
HD5S
A_D5
A_D21
HDIOC16
HDWRR
HDA0T
P1D3
MD5
HD6S
A_D6
A_D22
UOC0
HDA1R
HDA2T
SLCTIN1
MD6
HD7S
A_D7
A_D23
PDIAG
HDIRQ
HCS0T
P1D2
DISV
VBIOSDIS
MD7
HD8S
A_D8
A_D24
HDA0R
HCS1T
INIT1
SPKR
HD9S
A_D9
A_D25
HDA2R
CARDS
DASP-S
P1D1
MD32
HD10S
A_D10
A_D26
HCS0R
ERROR1
MD33
HD11S
A_D11
A_D27
HCS1R
NRESDRV
P1D0
SMEW
MD34
HD12S
A_D12
A_D28
DASP-
HDRDYR
AUTO1
MD35
HD13S
A_D13
A_D29
STR1
MD36
HD14S
A_D14
A_D30
MD37
HD15S
A_D15
A_D31
DASP-
MD38
HCS0S
C_BE0-
PIRQA-
PDIAG
MD39
HCS1S
C_BE1-
PIRQB-
HD8R
HDRDS
C_BE2-
PIRQC-
HD9R
MD8
HDWRS
C_BE3-
PIRQD-
HD10R
MD9
MD10
CKE0
PCI_CLK0
PCI_CLK1
MD11
CKE1
REQ0-
GNT0-
MD12
REQ1-
GNT1-
MD13
SCAS
REQ2-
GNT2-
HDIOC16
DQMB0
MD14
REQ3-
GNT3-
IOC16
DQMB2
MD15
SRAS
RES5
U_P1+
MD0
DQMB3
MA0
FRAME-
IRDY-
MD1
DQMB4
MA1
TRDY-
STOP-
CARDS
U_P0-
U_P1-
MD2
DQMB1
MA2
MA13
DEVSEL-
PAR
MD3
DQMB6
MA3
SCK0
SERR-
LOCK
MD4
DQMB7
MA4
SCK1
RES4
PCIRST-
MD5
DQMB5
MA5
XRESET
DRQ7
MD6
MA6
RES6
-DACK7
NSETINT
MD7
MA7
MD40
P24
U_P1+
MA0
MA8
MD41
P25
U_P1-
SETINT
MD8
MA1
MA9
MD42
P26
UOC0
DASP-
HDLED
MD9
MA2
MA10
MD43
P27
UOC1
MD10
MA3
MA11
MD44
P28
LA22
MD11
MA4
MA12
MD45
P29
LA23
MD12
MA5
MD46
P30
PERR-
MD13
MA6
MD16
MD47
P31
RES1
RESDRV
SBHE
MD14
MA7
MD17
RES2
I2D
LA23
MD15
MA8
MD18
MD48
RES3
I2C
IRQ9
LA22
INDEX
MA9
MD19
MD49
LA21
MD16
MA10
MD20
MD50
INT_LTX+
MASTER#
DRQ2
LA20
DRVSEL
INTERNBIO
MD17
BA0
MD21
MD51
INT_LTX-
IOCHK#
LA19
MD18
BA1
MD22
MD52
INT_LRX+
TCK
0WS
LA18
DSKCHG
MD19
MA13
MD23
MD53
INT_LRX-
TDI
LA17
MD20
MA12
MD54
SSTAT2
TDO
MEMR
MD21
MA13
MD24
MD55
VCCSUS
TMS
SMEMW
MEMW
MD22
MD25
LAN0
VDDA
SMEMR
SD8
MOTON
MD23
MD26
HDACKS
LAN1
VDDC
-IOW
SD9
MSDAT
MD27
HDRQS
SUSC-
SSTAT1
-IOR
SD10
DIR
MD24
WEB
MD28
HDIRQS
VGAG
-DACK3
SD11
MD25
MD29
HDRDYS
VGAB
VGAV
DRQ3
SD12
STEP
MD26
MD30
HDA0S
VGAR
VGAH
-DACK1
SD13
NRESDRV
MSCLK
MD27
SCS3
MD31
HDA1S
ENAVEE
ENAVDD
DRQ1
SD14
WDATA
MD28
SCS2
HDA2S
SHFCLK
REF
SD15
MD29
MD56
BA0
FLM
LP
SYSCLK
WGATE
TXD2
TXDV2
MD30
SRAS
MD57
WDOG
P12
P0
IRQ7
RTS2
RTSV2
MD31
SCAS
MD58
P13
P1
IRQ6
TRK0
DTR2
DTRV2
MD59
BA1
P14
P2
IRQ5
MD32
CKE0
MD60
XD0
P15
P3
IRQ4
WRPT
RXD2
RXDV2
MD33
CKE1
MD61
XD1
P16
P4
IRQ3
CTS2
CTSV2
MD34
MD62
XD2
P17
P5
-DACK2
RDATA
DSR2
DSRV2
MD35
SCK0
MD63
XD3
P18
P6
TC
DCD2
DCDV2
MD36
SCK1
XD4
P19
P7
BALE
HDSEL
RI2
RIV2
MD37
XD5
P20
P8
MD38
SCS2
XD6
P21
P9
OSC
MD39
I2D
SCS3
XD7
P22
P10
I2C
BIOSEX1
P23
P11
DASP-S
HDLED2
MD40
WEB
ENABKL
MMD41
IOCHK#
KBDAT
MD42
SD7
MCS16
DCDV2
MD43
SD6
IOC16
DSRV2
MD44
SD5
IRQ10
RXDV2
MD45
SD4
IRQ11
RTSV2
KBCLK
MD46
DQMB0
MA0
SD3
IRQ12
TXDV2
MD47
DQMB1
MA1
SD2
IRQ15
CTSV2
DQMB2
MA2
SD1
IRQ14
DTRV2
MD48
DQMB3
MA3
SD0
-DACK0
RIV2
MD49
DQMB4
MA4
IOCHRDY
DRQ0
MD50
SA25
SD15
DQMB5
MA5
TCK
AEN
-DACK5
SSTAT1
MD51
SA24
SD14
DQMB6
MA6
SA19
DRQ5
SSTAT1
MD52
SA23
SD13
DQMB7
MA7
TDO
SA18
-DACK6
SSTAT2
SSTAT2
MD53
SA22
SD12
MA8
SA17
DRQ6
LID
MD54
SA21
SD11
MA9
TMS
SA16
-DACK7
PWRBTN
MD55
SA20
SD10
SRAS
MA10
SA15
DRQ7
LAN0
SA19
SD9
SCAS
MA11
XRESET
SA14
LAN1
MD56
SA18
SD8
MA12
SA13
MASTER#
TXD1
TXDV1
LAN2
MD57
SA17
SD7
MA13
TDI
SA12
DCDV1
RTS1
RTSV1
MD58
SA16
SD6
SCS3
BA0
SA11
DSRV1
DTR1
DTRV1
MD59
SA15
SD5
SCS2
BA1
SA10
RXDV1
MD60
SA14
SD4
WEB
SA9
RTSV1
RXD1
RXDV1
MD61
SA13
SD3
SA8
TXDV1
CTS1
CTSV1
MD62
SA12
SD2
SA7
CTSV1
DSR1
DSRV1
MD63
SA11
SD1
SA6
DTRV1
DCD1
DCDV1
SA10
SD0
SA5
RIV1
RI1
RIV1
SA9
SA4
SA8
SA3
SA7
MA11
BA0
SA2
BIOSCS
SA6
SA1
ROMCS
SA5
SA0
RX5V
SA4
TX5V
SA3
I2D
NRESDRV
SA2
MA12
BA1
I2C
ROMRD
SA1
ROMWR
SA0
RESDRV
SD[0..15]
SA[0..25]
VCCHD
U_P0+
VCCVCC
VCC
VCC
VCC
VCC
GND
GND
VCC
GND
GND
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
VCC
VCC
GND
VCC
GND
GND
GND
GND
GND
GND
GND
GND
GND
VCC
GND
GND
GND
VCC
GND
GND
GND
VCCBB
VCC
GND
GND
GND
GND
GND
GND
VCC
GND
VCC
VCC3
GND
GND
VCC
VCC
VCC GND
VCC
+12V
GND
+12V
GND
GND
GND
GND
GND
GND
GND
GND
GND
VCCSUS
VCCSUS
VCCSUS
VCCSUS
VCC
VCC
VCC
GND
GND
GND
GND
VCC
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
VCC
VCC
VCC
GND
GND
GND
GND
GND
GND
VCC
VCCB
VCC3
VCC
AGND
VCC
GND
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
VCC3
VCC3
VCC3
GND
GND
GND
VCC3
VCC3
VCC3
GND
GND
GND
VCC
GND
RPACK5
8X33
YC24
116
215
314
413
512
611
710
89
J14
S480A
CON240X0635S
A1A2A3A4A5A6
B1B2B3B4B5B6
A7A8A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
A22
A23
A24
A25
A26
A27
A28
A29
A30
A31
A32
A33
A34
A35
A36
A37
A38
A39
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
A78
A79
A80
A81
A82
A83
A84
A85
A86
A87
A88
A89
A90
A91
A92
A93
A94
A95
A96
A97
A98
A99
A100
A101
A102
A103
A104
A105
A106
A107
A108
A109
A110
A111
A112
A113
A114
A115
A116
A117
A118
A119
A120
B7B8B9B10
B11
B12
B13
B14
B15
B16
B17
B18
B19
B20
B21
B22
B23
B24
B25
B26
B27
B28
B29
B30
B31
B32
B33
B34
B35
B36
B37
B38
B39
B40
B41
B42
B43
B44
B45
B46
B47
B48
B49
B50
B51
B52
B53
B54
B55
B56
B57
B58
B59
B60
B61
B62
B63
B64
B65
B66
B67
B68
B69
B70
B71
B72
B73
B74
B75
B76
B77
B78
B79
B80
B81
B82
B83
B84
B85
B86
B87
B88
B89
B90
B91
B92
B93
B94
B95
B96
B97
B98
B99
B100
B101
B102
B103
B104
B105
B106
B107
B108
B109
B110
B111
B112
B113
B114
B115
B116
B117
B118
B119
B120
VCC
RESDRV
SBHE-
MEMCS16-
IOCS16-
IOW-
IRQ1
IRQ9
IRQ3
IRQ4
IRQ5
IRQ6
IOR-
SYSCLK
TCBALE
SD7
SD6
SD5
SD4
SD3
SD2
SD1
SD0
IOCHRDY
AEN
SA19
SA18
SA17
SA16
SA15
SA14
SA13
SA12
SA11
SA10
SA9
SA8
SA7
SA6
SA5
SA4
SA3
SA2
SA1
SA0
CAS0-/DQM0
CAS1-/DQM1
CAS2-/DQM2
CAS3-/DQM3
CAS4-/DQM4
CAS5-/DQM5
CAS6-/DQM6
CAS7-/DQM7
MD0
MD1
MD2
MD3
MD4
MD5
MD6
MD7
GND
MD8
MD9
MD10
MD11
MD12
MD13
MD14
MD15
GND
MD16
MD17
MD18
MD19
MD20
MD21
MD22
MD23
MA0
MA1
MA2
MA3
MA4
MA5
MA6
MA7
MA8
MA9
MA10
MA11
MA12
GND
MD24
MD25
MD26
MD27
MD28
MD29
MD30
MD31
GND
MD32
MD33
MD34
MD35
MD36
MD37
MD38
MD39
GND
MD40
MD41
MD42
MD43
MD44
MD45
MD46
MD47
RAS0-/S0
RAS1-/S1
RAS2-/S2
RAS3-/S3
MWEA-
MWEB-
IRQ7
IRQ10
IRQ11
IRQ12
IRQ14
IRQ15
COREBIOS_DIS
VGABIOS_DIS
SA21
SA20
LA19
LA18
LA17
SD8
SD9
SD10
SD11
SD12
SD13
SD14
SD15
DRQ0
DRQ1
DRQ2
DRQ3
DRQ5
DRQ6
OSC 14M
DACK0-
DACK1-
DACK2-
DACK3-
DACK5-
DACK6-
SPEAKER
ZWS-
REF-
MEMR-
SMEMR-
MEMW-
SMEMW-
SIDE_D0
SIDE_D1
SIDE_D2
SIDE_D3
SIDE_D4
SIDE_D5
SIDE_D6
SIDE_D7
SIDE_D8
SIDE_D9
SIDE_D10
SIDE_D11
SIDE_D12
SIDE_D13
SIDE_D14
SIDE_D15
SIDE_CS0-
SIDE_CS1-
SIDE_IOR-
SIDE_IOW-
SD_CLK2
SD_CKE0
SD_CKE1
SD_CASA
SD_CASB
SD_RASA
SD_RASB
RAS4(TX)
RAS5(TX)
MA13
SD_CLK0
SD_CLK1
(1.8M)24M
GND
MD48
MD49
MD50
MD51
MD52
MD53
MD54
MD55
GND
MD56
MD57
MD58
MD59
MD60
MD61
MD62
MD63
GND
SIDE_DACK-
SIDE_DRQ
SIDE_IRQ
SIDE_IORDY-
SIDE_A0
SIDE_A1
SIDE_A2
SD_BA0-
WDOG_STROBE
WDOG_ENABLE
(MKLED)SD_BA1-
XD0
XD1
XD2
XD3
XD4
XD5
XD6
XD7
(WRMK)BIOSCS-
(RDMK)VCC
RPACK1
8X33
YC24
116
215
314
413
512
611
710
89
RPACK2
8X33
YC24
116
215
314
413
512
611
710
89
X8
IDE44
1 2 3 4 5 6 7 8 9 1011121314151617181920212223242526272829303132333435363738394041424344
J23
CON6
PS2CON
1 2 3 4 5 6
R30
1
12
D11
1N4148
1206
12
D12
1N4148
1206
RPACK6
8X33
YC24
116
215
314
413
512
611
710
89
J82
CON3
JUMPER3
1 2 3
U112A
74HCT32
14SOP150
1 23
J95
CON2
JUMPER2
1 2
R553
1K
R217
33
R550
1K
X2
CON105X2HEAD
1 2 3 4 5 6 7 8 910
X3
DB9M
DB9M
5948372611011
U113A
74HCT04
14SOP150
12
R554
1K
X18
5X2_HEADER
5X2HEAD
1 2 3 4 5 6 7 8 9 10
R248
560K
0603
U113C
74HCT04
14SOP150
56
U20
MAX211
7 62021 8 5262219
2 3 1 289 4 272318
11
13
12
14
1024172515
16
TI1
TI2
TI3
TI4
RO1
RO2
RO3
RO4
RO5
TO1
TO2
TO3
TO4
RI1
RI2
RI3
RI4
RI5
VCC
V+
C1+
C1-
GNDENV-SDC2+
C2-
J90
JUMPER
SMDJUMP2
C18
470nF
R269
1K
0603
U19
MAX211
7 62021 8 5262219
2 3 1 289 4 272318
11
13
12
14
1024172515
16
TI1
TI2
TI3
TI4
RO1
RO2
RO3
RO4
RO5
TO1
TO2
TO3
TO4
RI1
RI2
RI3
RI4
RI5
VCC
V+
C1+
C1-
GNDENV-SDC2+
C2-
C19
470nF
R270
1
R250
560K
0603
J97
CON2
JUMPER2
1 2
C20
470nF
X6
CON10
5X2HEAD
1 2 3 4 5 6 7 8 9 10
C14
470nF
R251
470K
0603
U63
29F040
PLCC32R
121110 9 8 7 6 527262325 42829 3 230 1
1314151718192021
312422
32
16
A0A1A2A3A4A5A6A7A8A9A10
A11
A12
A13
A14
A15
A16
A17
VPP/A18
D00
D01
D02
D03
D04
D05
D06
D07
WE OE CE
VCC
GND
C15
470nF
C21470nF
R45
22K
C16
470nF
C17470nF
R44
22K
C112
100nF
R5
1K
R551
1K
R249
470K
0603
J88
CON3
JUMPER3
1 2 3
TP10
TPTP
1X
R555
1K
L11
15uH
IND5
J80
STAR-7DQMB-111P
SPEAKER
1 2
J15
S480B
CON240X0635S
A1A2A3A4A5A6
B1B2B3B4B5B6
A7A8A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
A22
A23
A24
A25
A26
A27
A28
A29
A30
A31
A32
A33
A34
A35
A36
A37
A38
A39
A40
B7B8B9B10
B11
B12
B13
B14
B15
B16
B17
B18
B19
B20
B21
B22
B23
B24
B25
B26
B27
B28
B29
B30
B31
B32
B33
B34
B35
B36
B37
B38
B39
B40
A81
A82
A83
A84
A85
A86
A87
A88
A89
A90
A91
A92
A93
A94
A95
A96
A97
A98
A99
A100
A101
A102
A103
A104
A105
A106
A107
A108
A109
A110
A111
A112
A113
A114
A115
A116
A117
A118
A119
A120
B81
B82
B83
B84
B85
B86
B87
B88
B89
B90
B91
B92
B93
B94
B95
B96
B97
B98
B99
B100
B101
B102
B103
B104
B105
B106
B107
B108
B109
B110
B111
B112
B113
B114
B115
B116
B117
B118
B119
B120
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
A78
A79
A80
B41
B42
B43
B44
B45
B46
B47
B48
B49
B50
B51
B52
B53
B54
B55
B56
B57
B58
B59
B60
B61
B62
B63
B64
B65
B66
B67
B68
B69
B70
B71
B72
B73
B74
B75
B76
B77
B78
B79
B80
P_STROBE-
P_AUTO-
P_ERROR-
P_INIT-
P_SLCTIN-
P_DATA0
DCD1
DSR1
RXD1
RTS1
TXD1
CTS1
P_DATA1
P_DATA2
P_DATA3
P_DATA4
P_DATA5
P_DATA6
P_DATA7
P_ACK
P_BUSY
P_PE
P_SELECT
KEY_DATA
KEY_CLOCK
MS_CLOCK
MS_DATA
GND
PIDE_D0
PIDE_D1
PIDE_D2
PIDE_D3
PIDE_D4
PIDE_D5
PIDE_D6
PIDE_D7
PIDE_D8
PIDE_D9
PIDE_D10
PIDE_D11
PIDE_D12
PIDE_D13
PIDE_D14
PIDE_D15
PIDE_CS0-
PIDE_CS1-
DTR1
RI1
DCD2
DSR2
RXD2
RTS2
TXD2
CTS2
DTR2
RI2
F_INDEX
F_DRV1
F_CHNG
F_MOT1
F_DIR
F_SETP
F_WDATA
F_WGATE
F_TRK00
F_WP
F_RDATA
F_HEAD
F_DRV0
F_MOT0
RESU/PWBTN#
IDE_RESET-
SLEEP/LID#
USB_P0+
USB_P0-
PIDE_A0
PIDE_A1
PIDE_A2
IDE_RDY
LCD_D32
LCD_D24/CD3
LCD_D25/DS3
LCD_D26/RX3
LCD_D27/RT3
LCD_D28/TX3
LCD_D29/CT3
LCD_D30/DT3
LCD_D31/RI3
RES2
RES3
3.3V
LAN_TX+
LAN_TX-
LAN_RX+
LAN_RX-
SSTAT2
VCC_SUS
SUSA(LAN0)
SUSB(LAN1)
SUSC(LAN2)
VGA_GREEN
VGA_BLUE
VGA_RED
LCDVEEENA
GND
LCD_FLM
LCD_D12
LCD_D13
LCD_D14
LCD_D15
LCD_D16
LCD_D17
LCD_D18
LCD_D19
LCD_D20
LCD_D21
LCD_D22
LCD_D23
LCDBKLENA
LCD_VCC
USB_P1+
USB_P1-
USB_OC0
USB_OC1
S/LA22
S/LA23
PERR-
RES1
I2C_D
I2C_C
3.3V
MASTER-
IOCHK
(DASP)TCK
(DIAG)TDI
(SEL)TDO
TMS
VESA-DDA
VESA-DDC
SSTAT1
VGA_GND
VGA_VSY
VGA_HSY
LCDVDDENA
LCD_SHFCLK
LCD_LP
LCD_D0
LCD_D1
LCD_D2
LCD_D3
LCD_D4
LCD_D5
LCD_D6
LCD_D7
LCD_D8
LCD_D9
LCD_D10
LCD_D11
LCD_M
CORE_VCC
PIDE_DACK-
PIDE_DRQ
PIDE_IRQ
PIDE_IOR-
PIDE_IOW-
VCC
PCI_AD0
PCI_AD1
PCI_AD2
PCI_AD3
PCI_AD4
PCI_AD5
PCI_AD6
PCI_AD7
PCI_AD8
PCI_AD9
PCI_AD10
PCI_AD11
PCI_AD12
PCI_AD13
PCI_AD14
PCI_AD15
PCI_CBE0
PCI_CBE1
PCI_CBE2
PCI_CBE3
VCC
PCI_CLK0
PCI_REQ0
PCI_REQ1
PCI_REQ2
PCI_REQ3
RES5
PCI_FRAME-
PCI_TRDY
PCI_DEVSEL
PCI_SERR
RES4
RESET_IN
RES6/SMI/AC
IR_TX
IR_RX
LCD_P33
LCD_P34
LCD_P35
BATTERY_IN
PCI_AD16
PCI_AD17
PCI_AD18
PCI_AD19
PCI_AD20
PCI_AD21
PCI_AD22
PCI_AD23
PCI_AD24
PCI_AD25
PCI_AD26
PCI_AD27
PCI_AD28
PCI_AD29
PCI_AD30
PCI_AD31
PCI_INTA
PCI_INTB
PCI_INTC
PCI_INTD
VCC
PCI_CLK1
PCI_GNT0
PCI_GNT1
PCI_GNT2
PCI_GNT3
VCC
PCI_IRDY
PCI_STOP
PCI_PAR
PCI_LOCK
PCI_RESET
DRQ7
DACK7
X15
CON8
4X2HEAD
1 2 3 4 5 6 7 8
J85
CON2
JUMPER2
1 2
C145
47pF
0603
C152
CER22uF
1206
J24
CON6
PS2CON
1 2 3 4 5 6
RPACK3
8X33
YC24
116
215
314
413
512
611
710
89
J87
CON3
JUMPER3
1 2 3
U110
PACDN005
SSOP24QSC
2 3 4 5 7 8 91011141516171820212223
241912
1613
D0D1D2D3D4D5D6D7D8D9D10
D11
D12
D13
D14
D15
D16
D17
VDD
VDD
VDD
GND
GND
GND
J86
CON2
JUMPER2
1 2
X17
IDE44
1 2 3 4 5 6 7 8 9 1011121314151617181920212223242526272829303132333435363738394041424344
R552
1K
0603
U115A
74HCT74
14SOP150
2 3
5 6
4 1
D CLK
Q Q
PR CL
X7
CON8
4X2HEAD
1 2 3 4 5 6 7 8
R242
33
0603
U113B
74HCT04
14SOP150
34
R243
33
0603
L12
FB
1206
12
U111
74HCT138
16SOP150
1 2 3 6 4 5
1514131211109 7
A B C G1G2A
G2B
Y0Y1Y2Y3Y4Y5Y6Y7
X16
CON4
4SIP100
1 2 3 4
X12
CON4
4SIP1001234
C116
47pF
0603
J89
JUMPER
SMDJUMP2
C115
47pF
0603
J84
CON3
JUMPER3
1 2 3
J2
PC104LP
PC104LP
B1B2B3B4B5B6B7B8B9B10
B11
B12
B13
B14
B15
B16
B17
B18
B19
B20
B21
B22
B23
B24
B25
B26
B27
B28
B29
B30
B31
B32
A1A2A3A4A5A6A7A8A9A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
A22
A23
A24
A25
A26
A27
A28
A29
A30
A31
A32
C0C1C2C3C4C5C6C7C8C9
C10
C11
C12
C13
C14
C15
C16
C17
C18
C19
D0D1D2D3D4D5D6D7D8D9
D10
D11
D12
D13
D14
D15
D16
D17
D18
D19
E1E2E3E4
X4
CON26
1 2 3 4 5 6 7 8 91011121314151617181920212223242526
R240
22K
0603
C144
47pF
0603
J11
CON3
1 2 3
R241
22K
0603
C117
47pF
0603
J12
CON3
1 2 3
C118
47pF
0603
U114
29F040
PLCC32R
121110 9 8 7 6 527262325 42829 3 230 1
1314151718192021
312422
32
16
A0A1A2A3A4A5A6A7A8A9A10
A11
A12
A13
A14
A15
A16
A17
VPP/A18
D00
D01
D02
D03
D04
D05
D06
D07
WE OE CE
VCC
GND
X5
DB25
DB25F
13251224112310229 218 207 196 185 174 163 152 141
R244
22K
0603
12
D13
1N4148
1206
R245
22K
0603
R246
33
0603
X1
COMPCARD
COMPCARD
1 2 3 4 5 6 7 8 91011121314151617181920212223242526272829303132333435363738394041424344454647484950
GND
D3D4D5D6D7CS0
(A10)
ATA/OE
(A9)
(A8)
(A7)
VCC
(A6)
(A5)
(A4)
(A3)
A2A1A0D0D1D2IO16
CD2
CD1
D11
D12
D13
D14
D15
CS1
VS1
IORD
IOWR
(WE)
IRQ
VCC
CSEL
VS2
RESET-
IORDY
INPACK-
(REG)
DASP-
PDIAG-
D8D9D10
GND
R247
33
0603
Q1NPNSOT
SOT23
X13
CON4
4SIP1001234
U108
SODIMM144
SODIMM144
1
3 5 7 9
11
13151719
21
2325
27
35
3739414347495153
55
8385878993959799
121
123
125
127
131
133
135
137 4 6 8
1014161820
3840424448505254
84868890949698
100
122
124
126
128
132
134
136
138
115
117
2426116
118
293133303234103
104
105
109
111
106
110
112
7072
67
7169
6566
6268
6174
141
142
45631228468182101
102
113
114
129
130
143
144
2 22
36
5675769192107
108
139
140
73
64
119
120
5758
GND
DQ0
DQ1
DQ2
DQ3
3.3V
DQ4
DQ5
DQ6
DQ7
GND
CAS0/DQMB0
CAS1/DQMB1
3.3V
GND
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
GND
DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23
DQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31
DQ32
DQ33
DQ34
DQ35
DQ36
DQ37
DQ38
DQ39
DQ40
DQ41
DQ42
DQ43
DQ44
DQ45
DQ46
DQ47
DQ48
DQ49
DQ50
DQ51
DQ52
DQ53
DQ54
DQ55
DQ56
DQ57
DQ58
DQ59
DQ60
DQ61
DQ62
DQ63
CAS2/DQMB2
CAS3/DQMB3
CAS4/DQMB4
CAS5/DQMB5
CAS6/DQMB6
CAS7/DQMB7 A0A1A2A3A4A5A6A7A8A9
A10
A11/BA0
A12/BA1
NC/A13
NC/A12
NC/A13
WE#
NC/S1#
RAS0#/S0#
NC/RAS#
NC/CAS#
NC/CKE0
NC/CKE1
NC/CK0
NC/CK1
SDA
SCL
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
OE#
3.3V
GND
GND
DLAG_S3#
DLAG_S2#
U109
PACDN005
SSOP24QSC
2 3 4 5 7 8 91011141516171820212223
241912
1613
D0D1D2D3D4D5D6D7D8D9D10
D11
D12
D13
D14
D15
D16
D17
VDD
VDD
VDD
GND
GND
GND
L13
FB
1206
12
J98
CON2
JUMPER2
1 2
RPACK4
8X33
YC24
116
215
314
413
512
611
710
89
NRESDRV
TX5V
RX5V
ROMCS
BIOSCS
P1D0
P1D1
ROMRD
ROMWR
P0P1P2P3P4P5P6P7P8P9
LP
P10
P11
P12
P13
P14
P15
P16
P17
P18
P19
P20
P21
P22
P23
SHFCLK
M
FLM
ENAVDD
ENAVEE
ENABKL
VGAR
VGAG
VGAB
VGAH
VGAV
TX5V
RX5V
LAN0
LAN1
SA[0..25]
SD[0..15]
AEN
-IOR
-IOW
RESDRV
P35
P34
P33
P32
P31
P30
P29
P28
P27
P26
P25
P24
FRAME-
LOCK
PCIRST-
STOP-
TRDY-
DEVSEL-
SERR-
PAR
IRDY-
C_BE0-
C_BE1-
C_BE2-
C_BE3-
PIRQC-
PIRQA-
PIRQB-
PIRQD-
A_D0
A_D1
A_D2
A_D3
A_D4
A_D5
A_D6
A_D7
A_D8
A_D9
A_D10
A_D11
A_D12
A_D13
A_D14
A_D15
A_D17
A_D18
A_D19
A_D20
A_D21
A_D22
A_D23
A_D24
A_D25
A_D26
A_D27
A_D28
A_D29
A_D30
A_D31
A_D16
GNT0-
GNT1-
GNT2-
GNT3-
PCI_CLK0
REQ0-
REQ1-
REQ2-
REQ3-
HDLED
LID
VDDC
VDDA
PCI_CLK1
PERR-
SSTAT2
SSTAT1
HDLED2
SUSC-
INT_LTX+
INT_LTX-
INT_LRX+
INT_LRX-
RES2
RES3
RES4
RES5
RES1
RES6
PWRBTN
DIGITAL-LOGIC AG SM480 Integration manual V1.6
48
8 8
7 7
6 6
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
IrDA
BACKUP BATTERY
DIGITAL-LOGIC AG SECRET
CONFIDENTAL DOCUMENT
DO NOT LEAVE THIS
DO NOT REPRODUCE ANY PORTIONS OF IT
THIS DOCUMENT IS ISSUED TO YOU ALONE.
DO NOT TRANSFER IT TO OTHER PERSON.
STORE THIS DOCUMENT IN A LOCKED CABINET.
THIS DOCUMENT IS THE PROPERTY OF DIGITAL-LOGIC AG
AND MAY BE REQUIRED TO RETURN IT AT ANY TIME.
RECIPIENT:
COMPANY:
DATE/VIS:
DOCUMENT UNATTENDED !
DIGITAL-LOGIC TAKES NO RESPONIBILITY FOR
THE FUNCTION AND RELIABILITY OF THIS DESIGN
THIS DESIGN IS ONLY A PROPOSITION.
SUSC
SUSB
SUSA
SUSSTAT2
SUSSTAT1
POWERMANAGEMENT
CLOSE FOR POWER DOWN/UP
CLOSE FOR LID EVENT
PLEASE REFER THE
INTEL DATASHEET
FOR THE PIIX-DEVICE
(SOUTHBRIDGE FOR tx/bx)
VERPOLUNGSSCHUTZ
SUPPLY
MAIN POWER INPUT
SUSA-
SUSB-
SUSC-
SUSSTATX
POWER-STATE
NORMAL-ON
11
11
00
11
POWER ON SUSPEND
00
01
00
00
00
00
SUSPEND TO RAM
SUSPEND TO DISK
OFF
POWER CONTROL
SUSPEND EVENTS:
LID
PWRBTN
SMI
TIMER
LID
PWRBTN
SMI
TIMER
RESUME EVENTS:
SUSA-
CONTROL OF CLOCK PLL SUPPLY
SUSB-
SUSC-
CONTROL OF CPU SUPPLY
DRAM, RTC, TX ARE POWERED
CONTROL OF ALL VCC EXCEPT
OF THE PIIX-VCCSUS
(MONITOR THE OPEN/CLOSE OF THE
NOTEBOOK-LCD)
POWER CONTROL OVERVIEW
ELAN400
ZF-MACH
GEODE
INTEL-P5/P3
SIGNALS
SUSA-
NO
NO
YES
FUNCTION
POS
SUSB-
NO
NO
YES
SUSPEND TO RAM
SM586PC
SMGXPC
SMP5SC
SM486PCX
SUSC-
NO
YES
SUSPEND TO DISK
YES
NO
NO
YES
POWER BUTTON
YES
PWRBTN-
NO
DIR
OUT
OUT
OUT
IN
IN
POWER-MODES
CLOCK
300
166 - 600
133
66
MHz
GPIO0
GPIO1
GPIO2
GPIO4
LID-
YES (LID)
SLEEP/RESUME
LID
OR SLEEP
(SLEEP-)
INPUT
NOT USED CURRENTLY
SMT ASSEMBLY
CENTER MARKS
NO ELECTRICAL FUNCTION$
SMART-P5PC DEVELOPME
NT KIT
2.1
SMP5PC-DK
DIGITAL-LOGIC AG
NORDSTR.4F
CH-4543 LUTERBACH
C
34
Tuesday, May 22, 2001
Title
Size
Document Number
Rev
Date:
Sheet
of
LAN0
LAN1
SUSC-
RX5V
TX5V
SSTAT1
SSTAT2
LID
PWRBTN
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCCB
VCCBB
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCCSUS
VCCSUS
VCCSUS
GND
R
1 2
D8LED-GRUEN
SOD80
R266
470
0603
C111
100nF
SD
G
U58
2N7002
SOT23
2
31
C78
100nF
1 2
D9LED-GRUEN
SOD80
R267
470
0603
C79
100nF
SD
G
U59
2N7002
SOT23
2
31
C80
100nF
1 2
D10
LED-GRUEN
SOD80
R
DESIGN by Felix Kunz
DESIGNCHECK:
RELEASED by:
VIS:
VIS:
VIS:
Date:
Date:
Date:
+C141
22uF
5534
C81
100nF
R268
470
0603
SD
G
U60
2N7002
SOT23
2
31
C82
100nF
L10
FB 1206
+C139
22uF
5534
C83
100nF
C84
100nF
C85
100nF
C86
100nF
J81
CON3
JUMPER3
1 2 3
C87
100nF
C88
100nF
12
B1
LIBAT3V
LIBAT2040
R137
1K
C89
100nF
C90
100nF
C91
100nF
+C142
22uF
5534
C92
100nF
V1LOCH
LOCH35
1X
V2LOCH
LOCH35
1X
1 2
D7LED-GRUEN
SOD80
R133
22
0603
V3LOCH
LOCH35
1X
R265
470
0603
R134
22
0603
SD
G
U57
2N7002
SOT23
2
31
R135
22
0603
V4LOCH
LOCH35
1X
U44
HSDL1001
HSDL1001
1 2 3 4 5 6 7 8
SDNCVCC
RXD
GND
TXD
LEDC
LEDA
+C143
22uF
5534
R136
1K
0603
V5LOCH
LOCH35
1X
J48
CON2
TB2POL
1 2
V6LOCH
LOCH35
1X
12
D5
1N5817
MELF
TP4
TPSMD2
1X TP5
TPSMD2
1X TP6
TPSMD2
1X
TP7
TPSMD2
1X TP8
TPSMD2
1X TP9
TPSMD2
1XC110
22uF
V7LOCH
LOCH35
1X
V8LOCH
LOCH35
1X
SD
G
U56
2N7002
SOT23
2
31
+C146
22uF
5534
+C140
22uF
5534
R264
470
0603
1 2
D6LED-GRUEN
SOD80
RX5V
TX5V
LAN0
LAN1
SSTAT2
SSTAT1
SUSC-
LID
PWRBTN
DIGITAL-LOGIC AG SM480 Integration manual V1.6
49
8 8
7 7
6 6
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
DIGITAL-LOGIC AG SECRET
CONFIDENTAL DOCUMENT
DO NOT LEAVE THIS
DO NOT REPRODUCE ANY PORTIONS OF IT
THIS DOCUMENT IS ISSUED TO YOU ALONE.
DO NOT TRANSFER IT TO OTHER PERSON.
STORE THIS DOCUMENT IN A LOCKED CABINET.
THIS DOCUMENT IS THE PROPERTY OF DIGITAL-LOGIC AG
AND MAY BE REQUIRED TO RETURN IT AT ANY TIME.
RECIPIENT:
COMPANY:
DATE/VIS:
DOCUMENT UNATTENDED !
DIGITAL-LOGIC TAKES NO RESPONIBILITY FOR
THE FUNCTION AND RELIABILITY OF THIS DESIGN
THIS DESIGN IS ONLY A PROPOSITION.
V1.0A
4FACH-LED
RJ45
100BASE-T
ONLY FOR 91C96
ASSENBLY WITH 0OHM
ATX-POWERSWITCH
EXTERNAL 100/10BASE-LAN
ONLY FOR SMART-PC INTERNAL
ETHERNET OF SMGXPC AND
SM586PC
CLOSE THIS JUMPERS, IF U46
IS NOT ASSEMBLED ONLY !
LCD & VGA INTERFACE
ONLY FOR FACTORY
TEST, DO NOT
ASSEMBLY THIS COMPONENTS
SCGX
AUD_DO
SMI-
AUD_CK
AUD_SY
AUD_DI
P5/P3
SMI-
SM586PCX
RESERVED FUNCTIONS
MAIN SUPPLY
ON ALSO IN
THE SUSPENDED
MODE
SUPPLY FOR
OPERATING
MODE ONLY
IN THE SMART
ALSO THE
VCC3 SUPPLY
IS GENERATED
FROM THE VCC
MANUAL
POWER ON
FOR SMARTMODULES
WITHOUT SUSC-
3.3V LCD PANEL
5.0V LCD PANEL
WAKE ON LAN
OPTION
+12V BACKLIGHT
+5V BACKLIGHT
NEW IN V2.1
SMART DEVELOP
MENT KIT
2.1
SMP5PCDK
DIGITAL-LOGIC AG
MICROSPACE DIVISION
SWITZERLAND
C
44
Tuesday, May 22, 2001
CONFIDENTAL SCHEMATIC
Title
Size
Document Number
Rev
Date:
Sheet
of
P0
P0X
P1
P1X
P2
P2X
P3
P3X
P4
P4X
P5
P5X
P6
P6X
TDP
INT_LTX+
P7
P7X
TDN
INT_LTX-
P8
P8X
P9
P9X
P10
P10X
P11
P11X
RDP
INT_LRX+
P12
P12X
P13
P13X
P14
P14X
MXP15
P15X
FLMX
VBBX
LPX
RDN
INT_LRX-
P0
SUSC-
SUSCC
P1P2
ENAVEE
P3
SHFCLKX
P4
VDDX
P16
P16X
P5
P0X
P17
P17X
P6
P1X
P18
P18X
P7
P2X
P19
P19X
P8
P3X
P20
P20X
P9
P4X
P21
P21X
P10
P5X
P22
P22X
P11
P6X
P23
P23X
P12
P7X
P13
P8X
P14
P9X
P15
P10X
P16
P11X
P17
P12X
P18
P13X
P19
P14X
SHFCLK
SHFCLKX
P20
P15X
MMX
P21
LP
LPX
P22
P16X
FLM
FLMX
P23
P17X
FA15
FA13
ENAVEE
ENAVEEX
P24
P18X
EECS
FA14
P25
P19X
VGAH
VGAHX
P26
P20X
VGAV
VGAVX
P27
P28
P21X
P29
P22X
P30
P23X
P31
P24X
P32
P25X
P33
P26X
P34
P27X
A_D0
LILED
P35
P28X
A_D1
ACLED
P24
P24X
P29X
A_D2
SPLED
P25
P25X
P30X
A_D3
P26
P26X
SHFCLK
P31X
A_D4
TDP
P27
P27X
MA_D5
TDN
P28
P28X
LP
P32X
A_D6
RDP
P29
P29X
FLM
P33X
A_D7
RDN
P30
P30X
ENAVDD
P34X
A_D8
P31
P31X
ENAVEE
P35X
A_D9
ENABKL
A_D10
FA15
VGAR
A_D11
FA14
VGAG
A_D12
FA13
VGAB
A_D13
VGAH
A_D14
VGAV
A_D15
A_D29
A_D16
P32
P32X
A_D17
P33
P33X
A_D18
P34
P34X
VGAR
A_D19
P35
P35X
VGAG
A_D20
VGAB
A_D21
A_D22
A_D23
A_D24
A_D25
A_D26
A_D27
A_D28
A_D29
A_D30
LETX
VGAHX
A_D31
VGAVX
C_BE0-
LERX
C_BE1-
ACLED
ENABKL
C_BE2-
EECS
HDLED
C_BE3-
DEVSEL-
FRAME-
TEST
LAN0
GNT1-
LANIDSEL
HDLED2
IRDY-
VIO
PAR
PCI_CLK0
ENAVDD
REQ1-
LAN1
PCIRST-
SERR-
STOP-
TRDY-
PIRQA-
PERR-
SUSC-
RES1
RES2
RES3
RES4
RES5
X1OSC
X2OSC
X1OSC
RBIAS10
X2OSC
IOSLATE
LANRUN-
LID
ALTRST
PME#
RBIAS100
WOL
A_D[0..31]
SUSC
LILED
VBBX
VDDX
VCC3
VCC3
VCC3
VCCLCD
VCC3
VCCLCD
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCCSUS
VCC3
VCC3
VCC3
VCC3
VCC3
VCC
+12V
AGND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
GND
GND
GND
GND
GND
GND
GND
GND
VCCLCD
VCC
GND
GND
GND
GND
GND
GND
GND
VCCVCCLCD
VCC
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
VCC3
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
VCC
GND
GND
GND
VCC3
VCC3
VCC3
VCC3
VCC3
VCC
VCCLCD
GND
VCCLCD
GND
VCCLCD
GND
VCCLCD
GND
VCCLCD
VCCLCD
GND
VCCLCD
GND
VCC
U52
74LV244
SSOP20
2 4 6 811131517 119
181614129 7 5 3 2010
A0A1A2A3A4A5A6A7
G1G2
Y0Y1Y2Y3Y4Y5Y6Y7
VCC
GND
+C129
33uF/6V
3528
X10
CON15
DB15VGA
1 2 3 4 5 6 7 8 9 101112131415
J92
JUMPER
SMDJUMP2
J70
CON2
JUMPER2
1 2
U62
74LV244
SSOP20
2 4 6 811131517 119
181614129 7 5 3 2010
A0A1A2A3A4A5A6A7
G1G2
Y0Y1Y2Y3Y4Y5Y6Y7
VCC
GND
R
+C132
33uF/6V
3528
U61
74LV244
SSOP20
2 4 6 811131517 119
181614129 7 5 3 2010
A0A1A2A3A4A5A6A7
G1G2
Y0Y1Y2Y3Y4Y5Y6Y7
VCC
GND
U55
SI9933DY
8SOP150
2 43651 8 7
G1
G2
S2
DD2D2
S1
DD1 D1
U116A
74HCT04X
14SOP150
12
14 7
Q2NPNSOT
SOT23
Q3NPNSOT
SOT23
J68
CON2
JUMPER2
1 2R259
100K
0603
R261
1K
0603
X19
CON10
5X2HEAD
1 2 3 4 5 6 7 8 9 10
R260
1K
0603
R258
100K
0603
U50
74LV244
SSOP20
2 4 6 811131517 119
181614129 7 5 3 2010
A0A1A2A3A4A5A6A7
G1G2
Y0Y1Y2Y3Y4Y5Y6Y7
VCC
GND
R262
NB
+C134
33uF/6V
3528
C150
100nF
0603
X9
Connector 8pin
RJ45
1 2 3 4 5 6 7 8
+C130
33uF/6V
3528
+C135
33uF/6V
3528
R235
75
+C136
33uF/6V
3528
R556
1K
R234
75
+C137
33uF/6V
3528
U48
CON8A
LED4
1 3 5 7
2 4 6 8
R236
330
+C138
33uF/6V
3528
R237
330
R238
330
R239
330
J96
CON3
JUMPER3
1 2 3
C151
100nF
0603
R263
NB
U47
HY93LC46
2 1 5
3 4 8 6
SKCS
GND
DI
DO
VCC
16B
C114
22pF
J93
JUMPER
SMDJUMP2
C113
22pF
R226
560
0603
R225
680
0603
U45
H1012
H1012
16
14
15 1 2
10
12
11
7 5 6
TXP
TXCT
TXN
RXP
RXN
RJTXP
RJTXC
RJTXN
RJRXP
RJRXC
RJRXN
R229
120
U53
74LV244
SSOP20
2 4 6 811131517 119
181614129 7 5 3 2010
A0A1A2A3A4A5A6A7
G1G2
Y0Y1Y2Y3Y4Y5Y6Y7
VCC
GND
+C131
33uF/6V
3528
R
DESIGN by Felix Kunz
DESIGNCHECK:
RELEASED by:
VIS:
VIS:
VIS:
Date:
Date:
Date:
R230
120
R231
75
+C133
33uF/6V
3528
R232
75
J91
JUMPER
SMDJUMP2
J69
CON2
JUMPER2
1 2
Y125MHZ
R233
0
U46
82559_YBGA
BGA196
N7
M7 P6P5
N5
M5 P4
N4P3
N3N2
M1M2M3 L1L2
K1E3
D1D2D3C1B1B2B4A5B5B6
C6C7 A8B8
M4 L3
F3
C4
H3 F2 J3
A4F1 J1
G1 C3C2 A2
H1
G3 H2
G13
K13
N8
P12
A11A3A7E1K3
N6
G6 H5H6H7
C10
G14
K12
N12P8B3B7E2K2
M6 N1E5E6E7E8E9
E10F5F6J2
F7F8F9F10
G7G8G9G10
H9H10
D4D5D6D7D8D11
E4E11
F4F11
G11
H11
L6
L11
H8J5J6J7J8J9J10
K5K6K7K8K9K10
G5K4K11
L4L5L9L10
J11
E12
G2
A12
C11
B11
C13
C14
E13
E14
P9M10
N10
P10
M11
M12
N13
P13
N14
M13
M14
L12
L13
L14
K14
J12
J13
J14
H12
H13
H14
G12
F12
F13
F14
P7N9M8M9A13
B14
B13
N11
P11
B9A9A6
C5
C8C12
P2
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
CBE0
CBE1
CBE2
CBE3
DEVSEL
FRAME
GNT#
IDSEL
IRDY#
PAR
PCLK
PREQ#
RST#
SERR#
STOP#
TRDY#
IRQA#
CVCC
CVCC
CVCC
CVCC
CVCC
CVCC
SVCC
SVCC
SVCC
SVCC
PVCC
PVCC
PVCC
PVCC
CGND
CGND
CGND
CGND
CGND
CGND
CGND
SGND
SGND
SGND
SGND
SGND
SGND
SGND
PGND
PGND
PGND
PGND
PGND
PERR#
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VIO
LILED
ACTLED
SPEEDLED
TDP
TDN
RDP
RDN
FA16
FA15
FA14
FA13
FA12
FA11
FA10
FA9
FA8
FA7
FA6
FA5
FA4
FA3
FA2
FA1
FA0
FD7
FD6
FD5
FD4
FD3
FD2
FD1
FD0
EECS
FLCS/AEN
FLOE
FLWE
TEST
RBIAS10
RBIAS100
X1OSC
X2OSC
ISOLATE#
ALTRST#
PME#
WOL
CLKRUN#
VREF
VCCPP
R224
10K
0603
X11
CON50
25X2RM2
1 2 3 4 5 6 7 8 9 1011121314151617181920212223242526272829303132333435363738394041424344454647484950
R223
10K
0603
J94
JUMPER
SMDJUMP2
R219
NB
0603
R222
330
R220
10K
R221
10K
R227
62K
+C149
33uF/6V
3528
R228
1K
U51
74LV244
SSOP20
2 4 6 811131517 119
181614129 7 5 3 2010
A0A1A2A3A4A5A6A7
G1G2
Y0Y1Y2Y3Y4Y5Y6Y7
VCC
GND
U107
SI4425DY
8SOP150
1 2 3 4
8 7 6 5
S S S G
D D D D
J63
CON2
JUMPER2
1 2
+C148
33uF/6V
3528
R548
10K
0603
+C147
33uF/6V
3528
J83
CON3
JUMPER3
1 2 3
R549
100K
0603
LAN0
LAN1
P0P1P2P3P4P5P6P7P8P9
LP
P10
P11
P12
P13
P14
P15
P16
P17
P18
P19
P20
P21
P22
P23
SHFCLK
M FLM
ENAVDD
ENAVEE
ENABKL
VGAR
VGAG
VGAB
VGAH
VGAV
A_D[0..31]
FRAME-
PCIRST-
PAR
PERR-
STOP-
DEVSEL-
TRDY-
IRDY-
C_BE0-
C_BE1-
C_BE2-
C_BE3-
REQ1-
GNT1-
PIRQA-
SERR-
LID
HDLED
LETX
LERX
PCI_CLK0
P24
P25
P26
P27
P28
P29
P30
P31
P32
P33
P34
P35
HDLED2
SUSC-
SUSC-
INT_LRX+
INT_LTX-
INT_LTX+
INT_LRX-
RES5
RES3
RES4
RES2
RES1
DIGITAL-LOGIC AG SM480 Integration manual V1.6
50
6.7 SM486PCX- EK On the following pages are the schematics for the SM486PCX- EK.
DIGITAL-LOGIC AG SM480 Integration manual V1.6
51
PE1
HD
0
KSI6
LP
|a5.SCH
IRQ
5
DSK
CH
G
SA2
KSO
B
CO
RXP
SD8
P15X
U20
MAX211
7 6 20 21 8 5 26 22 19
2 3 1 28 9 4 27 23 18
11
13
12
14
1024172515
16
TI1
TI2
TI3
TI4
RO
1R
O2
RO
3R
O4
RO
5
TO1
TO2
TO3
TO4
RI1
RI2
RI3
RI4
RI5
VCC
V+
C1+
C1-
GNDENV-
SDC2+
C2-
ABOE
EXT.
GND
GND
RES
DR
V
SD2
P1D
0SA
15
SD4
LED
C
KSO
14
WD
OG
SA13
SA18
AMC
L
SA0
AEN
AUTO
1
P11X
P12X
TXD
V2
SA16
TXD
1
J81
CON3JUMPER31 2 3
RXN
SLEEP
DC
D2
P15X
TXD
P14
SD14
SA17
BBVD1
ROMRD
P1 M
GND
PE1
SA14
EPD
I
SPK
KSI4
MTR
0
RD
MTR
X
KSO
2
LED
S
KSO
B
RTS
2
-DAC
K2
PGP0
IRQ
14
SD4
R23
10K
INTEGRATEONLY
AS
ALTERNATIV
TO
THE
GND
SELE
CT1
SA6
HD
10
MSD
AT
KSI2
TC
R19
10K
TX5VRX5V
TXN
VGAH
SD4
CO
RXN
SA11
R25
10K
R44
22K
J78
CON3JUMPER31 2 3
AVPP2
VCC
STR
1
SA5
ACK1
DAS
P-
P17
P22
P11
J45
CON21 2
ABVD1
GND
VCC
SA15
RES
DR
V
BL2
RD
MTR
X
IOC
16
DC
D1
R216
1K
MASTER
-IOW
HD
6
RES
U
P13X KS
O15
CAR
DSE
L
VCC
PAN
SA15
BVPP2
P3
DOSCS
GND
GND
VCC
SA0
ACIN
DO
SCS
P12X
DSR
V1
TXDP
P5
VCC
HD
1
LED
N
TXD
BMC
L
RD
ATA
RX5
V
P1
J37
CON84X2HEAD1 2 3 4 5 6 7 8
12
D1
LED GREEN
R17
10K
C19
470nF
GND
VCC
VCC
AUTO
1
SA9
DIR
BVC
C3E
N
KSO
7
KSO
10
WG
ATE
TXD
TX5V
P13
SA17
IRQ
15
AVPP
1
P23
CORXP
GND
GND
TXD
2
SA8
KSO
14
DTR
1
R11
1K
R43
1k
J4
CON84X2HEAD1 2 3 4 5 6 7 8
P1D0
P1D
6
DC
D
SD13
BALE
CTS
V1
AMC
H
BIOSCS
IDE
AUTO
CS
TCSL
CTI
N1
P1D
2KB
CLK
SA12
P14X
LED
S
P14X
WR
PT
IRQ
10
SA10
R32
1k
ABWE
IFIRQ5NOT
USED,
REMAPPABLE
VCC
GND
P16X
RIN
G0
TXD
P
P12
LAN2
GND
GND
P1D
4
SA18
DR
V1
KSO
2
LED
N
RO
MW
R
IRQ
14
RXD
V1
AVPP
2
VCC
IRQ
5
MTR
1AR
DY
DC
DV2
P21
C14
470nF
SD[0..15]
KSI1
BMC
H
KSO
C
P13X
SA22
-IOW
SA11
TP1
TPTP
1X
-IOW
SA19
KSI7
SD12
P8
SA16
R8
1K
R217
33
P16FLM
GND
GND
SD13
-DAC
K2
KSO
9
-IOW
AVC
C
R28
10K
AWP
GND
SCLT
1D
SR1
IRQ
12
NR
ESD
RV
AVPP
1
IRQ
5
OSC SD
4
SA12
R16
10K
FLASHDISK
VCC
GND
SA17
HD
1
DR
V0
BRD
Y
KSI1
LAN
0
DSR
V2
SSOP28
GND
GND
GND
VCC
-IOR
EXTD
OS
SD10
SD5
DSK
CH
G
LED
NU
M
P3
SA1
AVCC3EN
FLASHDISKFROM
M-SYSTEMS4M
TO72MMAY
BEUSED
GND
VCC3
BVPP
2
KSO
8KS
O6
PGP0
RXD
V2
C112
100nF
BBVD2
SA2
RXD
2
HD
8
BBVD
2
AWP
RO
MW
R
LAN
2
SD14
CTS
V2
SD2
MSC
LK
R15
10K
R20
10K
C16
470nF
GND
VCC
RXD
1
BIO
SCS
-IOW
P10X
AEN
U4A
7406
12
VCC
GND
INIT
1
TRK0
SA16
SD3
KSO
A
AVPP
2
KSO
1
R13
1K
VCC
VCC
GND
GND
RO
MC
S
SD3
MSD
AT
RD
ATA
HD
3
SD9
LETX
IRQ
11
CTS
1
C17
470nF
COM2
DR
Q1
HD
4
HD
15
KSO
5
STEP
KSI4
KSO
E
IRQ
12
SD11
DTR
V1
TXD
V1
TX5V
V12
GND
VCC
AREG
SA2
INT.
EXTD
OS
KSI6
SD0
BREG
P0
LAN0
GND
VCC
VCC3
SA0
AUTO
1
IDE7
HC
S0BM
CH
ABVD
2AR
EG
KSI4
DC
DV1
R1
330
P11
ENAVEE
GND
SA10
SA21
-IOR
-IOR
ABW
AIT
KSO
E
LED
SCR
DR
Q2
P19
P7
AWP
P8
VCC
GND GND
STR
1
IRQ
7
SA12
SA1
LED
PAD
SA25
J15
S480BCON240X0635S
A1 A2 A3 A4 A5 A6
B1 B2 B3 B4 B5 B6A7 A8 A9 A1
0A1
1A1
2A1
3A1
4A1
5A1
6A1
7A1
8A1
9A2
0A2
1A2
2A2
3A2
4A2
5A2
6A2
7A2
8A2
9A3
0A3
1A3
2A3
3A3
4A3
5A3
6A3
7A3
8A3
9A4
0
B7 B8 B9 B10
B11
B12
B13
B14
B15
B16
B17
B18
B19
B20
B21
B22
B23
B24
B25
B26
B27
B28
B29
B30
B31
B32
B33
B34
B35
B36
B37
B38
B39
B40
A81
A82
A83
A84
A85
A86
A87
A88
A89
A90
A91
A92
A93
A94
A95
A96
A97
A98
A99
A100
A101
A102
A103
A104
A105
A106
A107
A108
A109
A110
A111
A112
A113
A114
A115
A116
A117
A118
A119
A120
B81
B82
B83
B84
B85
B86
B87
B88
B89
B90
B91
B92
B93
B94
B95
B96
B97
B98
B99
B100
B101
B102
B103
B104
B105
B106
B107
B108
B109
B110
B111
B112
B113
B114
B115
B116
B117
B118
B119
B120
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
A78
A79
A80
B41
B42
B43
B44
B45
B46
B47
B48
B49
B50
B51
B52
B53
B54
B55
B56
B57
B58
B59
B60
B61
B62
B63
B64
B65
B66
B67
B68
B69
B70
B71
B72
B73
B74
B75
B76
B77
B78
B79
B80
STR
OBE
-AU
TO-
ERR
OR
-IN
IT-
SLC
TIN
-PD
ATA
0
DC
D1
DSR
1R
XD1
RTS
1TX
D1
CTS
1PD
ATA
1PD
ATA
2PD
ATA
3PD
ATA
4PD
ATA
5PD
ATA
6PD
ATA
7PA
CK
NO
WPB
US
YPP
APE
REN
DPS
ELEC
TKE
Y_D
ATA
KEY_
CLO
CK
MO
USE
_CLO
CK
MO
USE
_DAT
AG
ND
IDE_
D0
IDE_
D1
IDE_
D2
IDE_
D3
IDE_
D4
IDE_
D5
IDE_
D6
IDE_
D7
IDE_
D8
IDE_
D9
IDE_
D10
IDE_
D11
IDE_
D12
IDE_
D13
IDE_
D14
IDE_
D15
IDE_
PCS0
-ID
E_PC
S1-
DTR
1R
I1D
CD
2D
SR2
RXD
2R
TS2
TXD
2C
TS2
DTR
2R
I2F_
IND
EXF_
DR
V1F_
CH
NG
F_M
OT1
F_D
IRF_
SETP
F_W
DAT
AF_
WG
ATE
F_TR
K00
F_W
PF_
RD
ATA
F_H
EAD
F_D
RV0
F_M
OT0
RES
U/P
WBT
N#
IDE_
RES
ET-
SLEE
P/LI
D#
USB
_P0+
USB
_P0-
IDE_
A0
IDE_
A1
IDE_
A2
IDE_
RD
YLC
D_D
32
LCD
_D24
/CD
3LC
D_D
25/D
S3LC
D_D
26/R
X3LC
D_D
27/R
T3LC
D_D
28/T
X3LC
D_D
29/C
T3LC
D_D
30/D
T3LC
D_D
31/R
I3LA
N_C
D+
LAN
_CD
-3.
3VLA
N_T
X+LA
N_T
X-LA
N_R
X+
LAN
_RX
-SS
TAT2
/BL2
FLAC
S_IN
SUSA
/LAN
0SU
SB/L
AN1
SUSC
/LAN
2VG
A_G
REE
NVG
A_B
LUE
VGA_
RED
LCD
_VE
EG
ND
LCD
_FLM
LCD
_D12
LCD
_D13
LCD
_D14
LCD
_D15
LCD
_D16
LCD
_D17
LCD
_D18
LCD
_D19
LCD
_D20
LCD
_D21
LCD
_D22
LCD
_D23
LCD
_BLK
LCD
_VC
C
USB
_P1+
USB
_P1-
OC
0O
C1
S/LA
22S/
LA23
SA24
/PER
R-
SA25
I2C
_DAT
AI2
C_C
LOC
K3.
3VM
ASTE
R-
IOC
HK
MC
C_D
ASP
MC
C_D
IAG
MC
C_S
ELE
FLAC
S_O
UT
RES
3/VD
DA
RES
4/VD
DC
SSTA
T1/B
L1VG
A_G
ND
VGA
_VS
VGA_
HS
LCD
_VD
DLC
D_S
HFC
LKLC
D_L
PLC
D_D
0LC
D_D
1LC
D_D
2LC
D_D
3LC
D_D
4LC
D_D
5LC
D_D
6LC
D_D
7LC
D_D
8LC
D_D
9LC
D_D
10LC
D_D
11LC
D_M
CO
RE_
VCC
IDE_
PDAC
K-ID
E_PD
RQ
IDE_
PIR
QID
E_PI
OR
-ID
E_PI
OW
-VC
CPC
I_AD
0PC
I_AD
1PC
I_AD
2PC
I_AD
3PC
I_AD
4PC
I_AD
5PC
I_AD
6PC
I_AD
7PC
I_AD
8PC
I_AD
9PC
I_AD
10PC
I_AD
11PC
I_AD
12PC
I_AD
13PC
I_AD
14PC
I_AD
15PC
I_C
BE0
PCI_
CBE
1PC
I_C
BE2
PCI_
CBE
3VC
CPC
I_C
LK0
PCI_
REQ
0PC
I_R
EQ1
PCI_
REQ
2PC
I_R
EQ3
PGP1
_OU
TPC
I_FR
AME-
PCI_
TRD
YPC
I_D
EVSE
LPC
I_SE
RR
PGP0
_OU
TR
ESE
T_IN
AC_I
NPU
T
IR_T
XIR
_RX
LCD
_P33
LCD
_P34
LCD
_P35
BATT
ERY
PCI_
AD16
PCI_
AD17
PCI_
AD18
PCI_
AD19
PCI_
AD20
PCI_
AD21
PCI_
AD22
PCI_
AD23
PCI_
AD24
PCI_
AD25
PCI_
AD26
PCI_
AD27
PCI_
AD28
PCI_
AD29
PCI_
AD30
PCI_
AD31
PCI_
INTA
PCI_
INTB
PCI_
INTC
PCI_
INTD VC
CPC
I_C
LK1
PCI_
GN
T0PC
I_G
NT1
PCI_
GN
T2PC
I_G
NT3
VCC
PCI_
IRD
YPC
I_ST
OP
PCI_
PAR
PCI_
LOC
KPC
I_R
ESET
DR
Q7
DAC
K7
MAY
BEREMAPPEDTO11OR
9
VCC
V12
VCC
P1D
7
KSO
C
LED
C
KSI7
IND
EX
SD11
IRQ
11
SA13
R26
10K
U13
74ABT244SSOP20
2 4 6 8 11 13 15 17 1 19
18 16 14 12 9 7 5 3
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1G 2G
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
LERX
P6
SMART
INTERNAL
FLASHDISK.
GND
VCC3
GND
P1D
0SA
4
ERR
OR
1
P15X
KBD
AT
AMC
H
VGAR
SD6
IRQ
5
SD6
SA5
ICD
IR
U19
MAX211
7 6 20 21 8 5 26 22 19
2 3 1 28 9 4 27 23 18
11
13
12
14
1024172515
16
TI1
TI2
TI3
TI4
RO
1R
O2
RO
3R
O4
RO
5
TO1
TO2
TO3
TO4
RI1
RI2
RI3
RI4
RI5
VCC
V+
C1+
C1-
GNDENV-
SDC2+
C2-
|a3.sch
SD7
SD15
XRES
ET
DTR
2
P2
BUSY
1
BUSY
1
HD
SEL
LED
CAP
BIO
SCS
RXN W
RM
TRX
SA12
RIV
1
P18
COTXN
LPT
GND
VCC
MSC
LK
IDE7
KSO
D
SMEM
R
J9
IDE44
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
J80
STAR-7DQMB-111PSPEAKER1 2 U5
74HC405116SOP150
13 14 15 12 1 5 2 4 6 11 10 9
3 16 8 7
X0 X1 X2 X3 X4 X5 X6 X7 INH
A B C
X
VCC
GN
DVE
E
P22VGAG
RESDRV
VCC
SELE
CT2
SD14
LED
CA
P
J8
DB9MDB9M
59483726110 11
P15
COCOP
GND
SD1
SD[0
..15]
R127
10K
J36
CON3JUMPER31 2 3
TOUSEASIRQ11ORIRQ15
VCC
GND
VCC
SYSC
LKD
TR1
BVPP
2
VGAB
VGAV
GND
GND
GND
FLAC
S
IND
EX
STE
P
HD
9
SD11
KSO
4
RTS
RXD
2
SD10
RIV
1
R45
22K
LAN1
GND
GND
DR
V0
SA10
R22
10K
C18
470nF
SD4
P1D
3
SD14
KBC
LKR
TS
LED
CAR
DSE
L
IRQ
7
U3A
74HCT04
12
AUTOBIOSSWITCH
VCC
P1D
5
DSK
CH
G
SD1
AEN
INIT
1
SD15
SA5
HD
14
SA19
SYSC
LK
P15
BVPP1
CORXN
VCC
SD12
HD
12
BCD
IOC
16
SA17
VGAG
FLM
P4
SD0
J13
DB25DB25F
13 25 12 24 11 23 10 22 9 21 8 20 7 19 6 18 5 17 4 16 3 15 2 14 1
GND
VCC
ARST
KSO
A
CO
TXN
KBLE
D
SD7
SD3
RTS
V1
VCC
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B11
B12
B13
B14
B15
B16
B17
B18
B19
B20
B21
B22
B23
B24
B25
B26
B27
B28
B29
B30
B31
B32
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
C0
C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
C11
C12
C13
C14
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C16
C17
C18
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12 11 10 9 8 7 6 5 27 26 23 25 4 28 29 3 2 30 1
13 14 15 17 18 19 20 21 31 24 22 32 16
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10
A11
A12
A13
A14
A15
A16
A17
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D02
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2A1
3A1
4A1
5A1
6A1
7A1
8A1
9A2
0A2
1A2
2A2
3A2
4A2
5A2
6A2
7A2
8A2
9A3
0A3
1A3
2A3
3A3
4A3
5A3
6A3
7A3
8A3
9A4
0A4
1A4
2A4
3A4
4A4
5A4
6A4
7A4
8A4
9A5
0A5
1A5
2A5
3A5
4A5
5A5
6A5
7A5
8A5
9A6
0A6
1A6
2A6
3A6
4A6
5A6
6A6
7A6
8A6
9A7
0A7
1A7
2A7
3A7
4A7
5A7
6A7
7A7
8A7
9A8
0A8
1A8
2A8
3A8
4A8
5A8
6A8
7A8
8A8
9A9
0A9
1A9
2A9
3A9
4A9
5A9
6A9
7A9
8A9
9A1
00A1
01A1
02A1
03A1
04A1
05A1
06A1
07A1
08A1
09A1
10A1
11A1
12A1
13A1
14A1
15A1
16A1
17A1
18A1
19A1
20
B7 B8 B9 B10
B11
B12
B13
B14
B15
B16
B17
B18
B19
B20
B21
B22
B23
B24
B25
B26
B27
B28
B29
B30
B31
B32
B33
B34
B35
B36
B37
B38
B39
B40
B41
B42
B43
B44
B45
B46
B47
B48
B49
B50
B51
B52
B53
B54
B55
B56
B57
B58
B59
B60
B61
B62
B63
B64
B65
B66
B67
B68
B69
B70
B71
B72
B73
B74
B75
B76
B77
B78
B79
B80
B81
B82
B83
B84
B85
B86
B87
B88
B89
B90
B91
B92
B93
B94
B95
B96
B97
B98
B99
B100
B101
B102
B103
B104
B105
B106
B107
B108
B109
B110
B111
B112
B113
B114
B115
B116
B117
B118
B119
B120
VCC
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SA18
SA17
SA16
SA15
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SA12
SA11
SA10
SA9
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SA7
SA6
SA5
SA4
SA3
SA2
SA1
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MA2
MA3
MA4
MA5
MA6
MA7
MA8
MA9
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LA18
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SD9
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SD12
SD13
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DESIGNbyFelix
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DESIGNCHECK:
RELEASED
by:
VIS:
VIS:
VIS:
Date:
Date:
Date:
R35
1k
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IRQ
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SMAR
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6
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R24
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CON3015x2RM2
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
DIGITAL-LOGIC AG SM480 Integration manual V1.6
52
RXP
THIS
DESIGN
IS
ONLYA
PROPOSITION.
LER
XLA
N1
LP
ENAV
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12
D11
1N4148
VGAG
+
C101
10uF
THIS
DOCUMENTISISSUEDTOYOU
ALONE.
VEE
P18
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P4
VGAG
TXP
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1
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TXP
P2
P10
M
SHFC
LK
P22
STORE
THIS
DOCUMENTINA
LOCKED
CABINET.
10BASE-2
VGAB
P6
RXN
P13
R192
1KP2 P6
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V2.3
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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
P18P19
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AND
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COCON
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D
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1 2 3 4 5 16 15 14 12
8 6 9 11
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DESIGNbyFelixKunz
DESIGNCHECK:
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VIS:
VIS:
VIS:
Date:
Date:
Date:
P23
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DIGITAL-LOGIC AG SM480 Integration manual V1.6
53
VCC
XX
1
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Rev
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VCC
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EXTCS
U7
32PLCC SOCKET & 29F040PLCC32R
12 11 10 9 8 7 6 5 27 26 23 25 4 28 29 3 2 22 24 1 31 30
13 14 15 17 18 19 20 21
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10
A11
A12
A13
A14
A15
A16
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U44
HSDL1001HSDL1001
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IS
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LOCHLOCH35
1X
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R
DESIGN
by
Felix
Kunz
DESIGNCHECK:
RELEASED
by:
VIS:
VIS:
VIS:
Date:
Date:
Date:
SD7
0.9A
SD6
C108
100nF0603
DIGITAL-LOGIC AG SM480 Integration manual V1.6
54
SA12
AVC
C3
BRST
DO
NOT
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OF
IT
VCC
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ICD
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SA15
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74ABT245SSOP20
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18 17 16 15 14 13 12 11
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RETURN
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AT
ANY
TIME.
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INDUCTOR
THE
FUNCTION
AND
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2 3 4 5 6 7 8 9 19 1
18 17 16 15 14 13 12 11
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18 17 16 15 14 13 12 11
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BCD
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1
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JEIDA41
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 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68
GN
DD
3D
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R84
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R
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SA11
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J20
JEIDA41
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 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68
GN
DD
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4D
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6D
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THISDOCUMENT
IS
ISSUED
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SMAR
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6 EV
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Wed
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Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
GND
SA10
SA11
SA16
AVC
CX
AWP
AD7
BBVD
2
BD10
SD2
BVPP
1
R74
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BD1
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SD8
SD10
SA22
SA25
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1K
TP2
TPTP
1X
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VCC
SD4
SD[0..15]
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VCC
BD3
BGPI
SA[0..25]
SD3
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CX
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2 3 4 5 6 7 8 9 19 1
18 17 16 15 14 13 12 11
A1 A2 A3 A4 A5 A6 A7 A8 G DIR
B1 B2 B3 B4 B5 B6 B7 B8
DOCUMENTUNATTENDED!
SA12
SA17
ABVD
1
AD11
AD15
SA23
C47
10nF
U33B
74HCT08
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SA24
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SA9
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22uF/16V
BBVD1ABOE
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2
AWAI
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SD12
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AVPP
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74HCT08
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R71
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GND
ACD
2
BD7
AD2
BVPP2
DIGITAL-LOGICAGSECRET
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SD10
GND
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BD6
BD11
SD10
ABO
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ICD
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SA15
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SD13
SD12
SA11
AMC
H
AMC
H
CC
C
GND
SA7
BD15
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VPP
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1K
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+
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10uF
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TP3
TPTP
1X
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SA3
AMC
H
C46
2.2nF
-IOR
STORE
THIS
DOCUMENTIN
ALOCKED
CABINET.
AD3
AMC
L
BVPP
2
BIN
PA
SA19
AD0
BD14
SA24
SA20
SD5
SD6
AD12
-IOR
SA25
U36
MAX732
2 16 7 8 9
13 12 11 14 6 3 5
SHD
VCC
GN
DG
ND
GN
D
LX LX LX VO CC
VREF SS
BD2
-IOR
-IOW
BDR
V3
AVC
C
VCC
SA8
AGPI
VCC
VCC
R
DESIGN
byFelixKunz
DESIGNCHECK:
RELEASED
by:
VIS:
VIS:
VIS:
Date:
Date:
Date:
ARD
Y
SA10
BVPP
1
AIN
PA
BMCL
BMC
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AD14
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SA23
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G2
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1
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1K
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SA18
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SD11
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1K
GND
GND
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SD15
HI=A>B=WRITE
GND
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SA2
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R82
1K
U47
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2 43651 8 7
G1
G2
S2D
D2
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DD
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1
THISDOCUMENT
IS
THEPROPERTY
OF
DIGITAL-LOGIC
AG
ABW
AIT
BD5
SD4
SA[0
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H
SA21
ARST
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ABW
E
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L
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BD13
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1
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2
SA13
BVC
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VCC
AD2
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L
AEN
AVPP
1
BVC
C3
AEN
DO
NOT
TRANSFER
IT
TO
OTHER
PERSON.
BD2
R73
1K
ABVD
2
AD3
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L
SA13
SD7
VCC
ABO
ESD
1
SA8
BWP
SD4
R85
100K
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SA22
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SD15
AVPP
2
SA21
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BVPP
1
AMCL
BVPP
SA6
BD4
SA20
SLEE
PN
THISDESIGN
IS
ONLY
APROPOSITION.
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SA9
ABW
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R72
1K
R92
1K
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SA24
AREG
ABVD
1
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1
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SA21
BDR
V3
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SD[0
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BD14
BIN
PA
SD14
U3D
74HCT0414SOP150
98
BVPP
1N
GND
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ARST
AD11
U35
MAX780
1 2 3 4 5 6 7 8 9 10 11 12
24 23 22 21 20 19 18 17 16 15 14 13
C2
C1
WR
AVPP
1AV
PP0
BVPP
1BV
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AVC
C1
AVC
C0
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GN
D
VPPI
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CIN
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PIBG
PI
ADR
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RV5
BDR
V3
BVCC
VCC
SD2
SA5
AWAI
T
AVC
CX
C48
100nF
BD8
SA2
BCD
1
BREG
VCC3
AIN
PA
SD5
SA16
SA19
R68
1K
CONFIDENTALDOCUMENT
SD7
BD0
GND
BWAI
T
BD12
ABVD
2
BCD
2
VCC
AD4
SD0
SD6
SA14
SD13
AD15
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74HCT08
123
AVPP1
AD12
SA9
BVPP
R88
100K
ABVD1
-IOW
SA3
SD14
BREG
DIGITAL-LOGIC
TAKESNO
RESPONIBILITY
FOR
BVPP
AVPP
2
SA25
R90
100K
DIGITAL-LOGIC AG SM480 Integration manual V1.6
55
7 INDEX
A
AC97 CODEC 46 ATX 45
B
BUS 13
C
Coprocessor 12
D
DesignIn 15 Dog 13
E
EMI / EMC 14 external DRAM 43 external IDE 44
F
Fast IrDA 33 Floppy disk 13
I
IDE interface 13 interfaces 13 IrDA 24, 30, 31, 32
M
Mechanical dimensions 15, 18, 19
P
PCI Assignments 39 Power Supply 13
S
schematics 50 Schematics 40, 41 Signal Lines 33 Signaldefinition 35, 36 SM480BUS 26 smart480 bus 20 SODIMM 40 Specifications 12, 14, 37 Suspend mode 38