Apollo 150, 120 User Manual

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APOLLO 120 /150 III

12.1”/15.1” TFT Intel® Celeron/Pentium® III

Plastic-housing Panel PC with

Versatile

Stand design

User’s Manual (Version 2207)

This document is copyrighted 2002 by the Manufacturer. The information provided in this document has been carefully checked and is accurate at the time of publication. However, the Manufacturer assumes no responsibility for any infringements of patents or other rights of third parties that may result from its use.

No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form of or via any means without the prior written permission of the Manufacturer. Further, this publication and features described herein are subject to change without notice.

Trademarks

All brand and product names used for identification in this document are trademarks or registered trademarks of their respective companies.

Unpacking

After unpacking the APOLLO 120/150 III carton, check and see if the following items are included and in good condition.

u APOLLO III main system x 1 u Accessories

- Power cord (90o) x 1

- External FDD cable (optional) x 1

- External 5V/12V DC power cable (optional) x 1

- Utilities & drivers & user manual CD diskette x 1

(for touchscreen drivers, please download the updated drivers from the following website

http://www.3m.com or http://www.elotouch.com

- Base knob with rubber cushion x 1

- Panel mounting kit (optional) x 1 set

Make sure that all of the items listed above are present. If any of the above items is missing, contact your dealer immediately.

Warranty

All products manufactured by the Manufacturer. are warranted against defective materials and workmanship for one year starting from the date of delivery to the original purchaser. However, warranty or service will not be extended if 1). the product is repaired, modified or altered unless such repair, modification or alteration is authorized by the Manufacturer; or 2). the product serial number or warranty label is defaced or missing; or 3). the product is not properly used.

Important Safety Precautions

Before getting started, read these instructions and save them for later reference.

1. Turn off the computer before cleaning. Clean with a damp or dry cloth only. Do not spray any liquid cleaner on screen directly.

2. The power outlet socket used to plug in the computer power cord must be located near the system and easily accessible. Do not use outlets on the same circuit of the systems that regularly switched on and off.

3. Make sure the voltage of the power source is correct before connecting the computer to the power outlet.

4. If the computer is sharing an extension cord with other devices, make sure the total ampere rating of the devices plugged into the extension cord does not exceed the cord’ s ampere rating.

5. Do not expose the power cord, extension cord and power outlet to moisture.

6. Install the computer on a reliable surface to prevent damage caused by dropping.

7. This computer is not equipped with an operating system. An operating system must be loaded first before installing any software into the computer.

8. Disconnect the power cord from the computer before any installation. Make sure both the computer and the external devices are turned off. The sudden surge of power may ruin any sensitive components. Also make sure the computer is properly grounded.

9. During installation of any internal components, be sure to ground yourself to keep from any static charge. Most electronic components are sensitive to the static electric charge. Use a grounding wrist strap and place all electronic components in any static-shielded devices.

10. The openings on the computer enclosure are for the cabin ventilation to prevent the computer from overheating. DO NOT COVER THE OPENINGS.

11. The brightness of the flat panel display will decrease with use. However, hours of use will vary depending on the application environment.

12. If the computer is equipped with a touch panel, avoid using sharp objects to operate the touch panel. Scratches on the touch panel may cause mal-calibration or non-function to the panel.

13. The LCD panel display is not subject to shock or vibration. When assembling the computer, make sure it is securely installed.

Table of Contents

1. INTRODUCTION............................................. 1-1

1.1. GENERAL INFORMATION ..................................1-2

1.2. WHAT COVERS IN THIS MANUAL.........................1-3

1.3. SPECIFICATIONS...........................................1-5

1.4. DIMENSIONS .............................................1-10

1.4.1. APOLLO 120 ........................................1-10

1.4.2. APOLLO 150 ........................................1-11

2. USING THE SYSTEM.....................................2-13

2.1. IDENTIFYING THE SYSTEM..............................2-14

2.1.1. Front View...........................................2-14

2.1.2. Side Views...........................................2-15

2.1.3. I/O Outlets..........................................2-16

2.2. SYSTEM SETUP FOR THE FIRST-TIME USE ............2-17

2.2.1. Installation Procedures..........................2-17

2.2.2. Running the BIOS Setup .......................2-18

2.2.3. Operating System and Driver Installation 2-19

3. VERSATILE STANDING & MOUNT OPTIONS . 3-21

3.1. VERSATILE STAND .......................................3-22

3.1.1. Standing Upright..................................3-22

3.1.2. 45 to 900 Free Standing ........................3-22

3.1.3. Fixed Standing.....................................3-23

3.1.4. Cable Management...............................3-24

3.2. WALL MOUNTING AND MOBILE APPLICATIONS.......3-25

3.3. PANEL MOUNTING .......................................3-27

3.4. KIOSK INTEGRATION ..................................3-28

4. I/O CONNECTION........................................ 4-29

4.1. PARALLEL PORT ..........................................4-30

4.2. COM PORTS X 4 ........................................4-31

4.3. 100/10 BASE-T ETHERNET (RJ-45)................4-33

4.4. VGA INTERFACE.........................................4-33

4.5. 2

DISPLAY GRAPHIC SUPPORT MODE...............4-34

4.5.1. When System Memory Clock = 66MHz....4-34

4.5.1.1. Single Display Mode........................4-35

4.5.1.2. Mirror Display Output Mode..............4-36

4.5.1.3. Multiple Display Output Mode ...........4-37

4.5.2. When System Memory Clock = 100MHz ..4-38

4.5.2.1. Single Display Mode........................4-38

4.5.2.2. Mirror Display Output Mode..............4-39

4.5.2.3. Multiple Display Output Mode ...........4-40

4.5.3. When System Memory Clock = 133MHz ..4-41

4.5.3.1. Single Display Mode........................4-42

4.5.3.2. Mirror Display Output Mode..............4-43

4.5.3.3. Multiple Display Output Mode ...........4-44

4.6. PS/2 KEYBOARD INTERFACE...........................4-45

4.7. PS/2 MOUSE INTERFACE...............................4-45

4.8. EXTERNAL FDD (DB-15) .............................4-46

4.9. +5V/12V DC-OUT ....................................4-47

4.10. VR BRIGHTNESS CONTROL ............................4-47

4.11. DIO (DIGITAL INPUT & OUTPUT) ....................4-48

4.12. AUDIO INTERFACE (LINE-IN, MIC-IN, SPK-OUT) .4-50

4.13. USB PORTS..............................................4-50

4.14. IR KEYBOARD SENSOR (OPTIONAL) ..................4-50

4.15. AC/DC INLET/POWER SWITCH .......................4-50

5. HARDWARE INSTALLATION AND UPGRADE. 5-51

5.1. RECOGNIZING THE SYSTEM MAJOR PARTS ...........5-53

5.2. INSTALLING THE CPU...................................5-55

5.3. INSTALLING THE SDRAM MEMORY MODULE ........5-56

5.4. MOTHERBOARD ASSEMBLY .............................5-57

5.5. TOUCH CONTROLLER ASSEMBLY .......................5-58

5.6. HDD MODULE ASSEMBLY ..............................5-59

5.7. TOUCHSCREEN OR FRONT BEZEL ASSEMBLY .........5-60

5.8. LCD MODULE ASSEMBLY...............................5-62

5.9. CD-ROM/DVD-ROM/FDD MODULE ASSEMBLY ..5-66

5.9.1. Internal CD-ROM/FDD Assembly ............5-66

5.9.2. External FDD Connection.......................5-68

5.10. POWER MODULE ASSEMBLY ............................5-69

5.11. EXPANSION OUTLETS & RISER CARD ASSEMBLY....5-71

5.12. BACK PANEL ASSEMBLY.................................5-72

5.13. STAND MODULE ASSEMBLY.............................5-73

6. SYSTEM MOTHERBOARD & I/O BOARD........ 6-75

6.1. APOLLO III MOTHERBOARD..........................6-76

6.1.1. General Information .............................6-76

6.1.2. Specifications.......................................6-77

6.1.3. Locating Jumpers & Connectors..............6-79

6.1.4. Jumpers & Jumper Setting.....................6-80

6.1.4.1. DOC 2000 Address Setting (JP1).......6-81

6.1.4.2. Clear CMOS (JP2) ...........................6-81

6.1.4.3. 232/485 Setting (JP5,6,7,8,9 & 10) ..6-81

6.1.5. Connectors & Pin Assignment.................6-82

6.1.5.1. PWR3: ATX Power connector ............6-83

6.1.5.2. J2: CD Audio IN.............................6-84

6.1.5.3. J7: HDD LED & ACPI LED & SMI........6-84

6.1.5.4. J8: IR / CIR Connector ....................6-84

6.1.5.5. J9: Power LED & KB ........................6-85

6.1.5.6. SW1: ATX Power ON/OFF & Reset .....6-85

6.1.5.7. COM3............................................6-85

6.1.5.8. LCD1: LCD Connector......................6-86

6.1.5.9. INV1: LCD Inverter Connector.........6-87

6.1.5.10. FDD1: FDD connector.....................6-87

6.1.5.11. IDE1/IDE2: Primary/Secondary HDD.6-88

6.1.5.12. SCSI 1: PRT Port/Serial Port/DIO Port6-89

6.1.5.13. SCSI 2: KB/MS/VGA/LAN USB/FDD...6-90

6.1.5.14. CN4: PCI/ISA Expansion Slot............6-91

6.2. APOLLO III I/O BOARD ..............................6-94

6.2.1. Locating Jumpers & Connectors..............6-94

6.2.2. Jumpers & Jumper Setting.....................6-95

6.2.2.1. JP1: Keyboard Power Select ............6-95

6.2.2.2. COM port Power Selection................6-95

6.2.3. Connectors & Pin Assignment.................6-96

6.2.3.1. KB1: PS/2 Keyboard Connector ........6-97

6.2.3.2. KBMS: PS/2 Mouse .........................6-97

6.2.3.3. COM1, COM2, COM4: DB-9 .............6-97

6.2.3.4. CN1: DC Power Output...................6-98

6.2.3.5. LPT1: D-SUB-25 Parallel Port............6-98

6.2.3.6. CRT1: VGA (D-SUB 15 Pin) ..............6-98

6.2.3.7. FDD1: External FDD Connector.......6-99

6.2.3.8. J11: USB 1 , USB2 Connector.........6-99

6.2.3.9. DIO1: RJ-11 Connector ...................6-99

6.2.3.10. LAN1: RJ-45 Ethernet Connector ......6-99

6.2.3.11. MIC1........................................... 6-100

6.2.3.12. LINE 1......................................... 6-100

6.2.3.13. SPK 1.......................................... 6-100

6.2.3.14. SCSI 1: PRT/Serial Port/DIO Port.... 6-101

6.2.3.15. SCSI 2: KB/MS/VGA/LAN USB/FDD. 6-102

7. AWARD BIOS SETUP.................................. 7-103

7.1. AWARD BIOS..........................................7-104

7.2. CONTROL KEY DEFINITION........................... 7-105

7.3. GETTING HELP .........................................7-106

7.3.1. Main Menu......................................... 7-106

7.4. AWARD BIOS SETUP ............................... 7-106

7.4.1. AWARD BIOS Setup Main Menu............7-106

7.4.2. Standard CMOS Features.....................7-108

7.4.3. Advanced BIOS Features..................... 7-111

7.4.4. Advanced Chipset Features..................7-115

7.4.5. Integrated Peripherals ........................ 7-121

7.4.6. Power Management Setup...................7-125

7.4.7. PnP/PCI Configuration.........................7-129

7.4.8. PC Health Status ................................ 7-131

7.4.9. Frequency Voltage Control................... 7-132

7.4.10. Load Fail-Safe Defaults .......................7-134

7.4.11. Load Optimized Defaults......................7-135

7.4.12. User Password ...................................7-136

7.4.13. Save and Exit Setup ...........................7-137

7.4.14. Exit Without Saving............................7-138

8. SOFTWARE & DRIVERS INSTALLATION ..... 8-139

8.1. ETHERNET DRIVERS................................... 8-140

8.2. PC 610 AGP XGA................................... 8-141

8.3. AUDIO SETUP .......................................... 8-142

8.4. DRIVER INSTALLATION................................ 8-143

9. TOUCHSCREEN........................................... 9-145

9.1. MICROTOUCH TOUCH DRIVER INSTALLATION......9-146

9.1.1. Two types of MicroTouch touchscreens..9-146

9.1.2. TouchWare–the MicroTouch Software.... 9-147

9.1.3. Installing TouchWare .......................... 9-149

9.1.4. Uninstalling TouchWare.......................9-151

9.1.5. Calibrate the MicroTouch Touchscreen .. 9-152

9.1.6. Getting More Information .................... 9-153

9.2. ELO TOUCHSCREEN DRIVER INSTALLATION ........9-154

9.2.1. System Requirements......................... 9-154

9.2.2. About Elo Software............................. 9-155

9.2.3. Installation........................................9-156

9.2.4. Installing MonitorMouse for Win 95.......9-161

9.2.5. Installing MonitorMouse for Win NT.......9-165

9.2.6. Getting More Information .................... 9-167

APPENDIX .....................................................9-168

A: LCD SPECIFICATION.........................................9-168

B: DISKONCHIP INSTALLATION.............................. 9-171

C: WAKE-ON-LAN ..............................................9-173

D: FIRST MB MEMORY MAP.................................... 9-176

E: POWER SUPPLY................................................9-177

User Manual version 2007

1. INTRODUCTION

This chapter provides background information and detail specification on the APOLLO 120/150 III. Sections in this chapter include:

u General Information u What covers in this Manual u Specification u Dimension

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1.1. General Information

The information revolution which started from the mid ’90 inaugurated a new competitive era where consumercomputing technology was exploited to business operation quicker than ever before. Many enterprises from our life related industries such as POS, POI, KIOSK, Banking,

Medical to the high-tech Telecom, Aerospace, Semiconductor … etc. all are eager or forced to automate

their industries with PCs in order to thrive in this new age. For their industrial automation, there is one thing in common, i.e. space is always a premium and system stability is always a must in their environmental applications.

The APOLLO 120/150 is a 12.1"/15.1" TFT Intel Celeron/Pentium III/Pentium IV plastic-housing multimedia panel PC system. With a 150W ATX power supply as its engine, the APOLLO is a genuine P4 panel PC designed for high performance multimedia application. Featuring with versatile stand design for different environmental applications, the APOLLO itself can be used as a ready-to-play system by connecting to necessary peripherals. By integrating the APOLLO system to the special designed HERCULUS KIOSK, the complete system is widely used for KIOSK integration. It also provides 2 sets of VESA holes for market-available swing arms for mobile application. Also with the availability of both AC and DC systems, the APOLLO is the best turnkey solution platform for any system integration.

In terms of panel size, the APOLLO has 12.1” and 15.1” systems. In terms of system engine, the APOLLO also have two versions, one APOLLO III, Celeron/Pentium III system and the other APOLLO IV, Pentium IV system. To upgrade the system, simply replace the motherboard.

Fully configurable and with its sleek outlook, the APOLLO is an ideal platform for any space-constricted application.

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1.2. What Covers in this Manual

This handbook contains most information you need to set up and use the APOLLO III system. You do not need to read everything in this handbook to use the system.

For a quick start, see the following chapter summaries;

Chapter 1 (the current chapter) provides background

information and detail specification on the APOLLO 120/150 III.

Chapter 2 identifies the APOLLO III system exterior

components and provides instructions to help you to use the system as soon as possible.

Chapter 3 details the panel PC’s various standing and

mounting options by graphical illustrations.

Chapter 4 provides the procedures to connect external

devices to the I/O interface

Chapter 5 helps you to recognize the APOLLO system

internal components. It also provides the installation procedures including LCD, touchscreen, power supply module, CPU, system memory, FDD, HDD and CD-ROM drive.

Chapter 6 provides detail information of the jumper settings

and connector signals of the system control board.

Chapter 7 explains the AWARD BIOS setup. Chapter 8 introduces the Ethernet, XGA and audio drivers. Chapter 9 details the procedures to install the touchscreen

software drivers under DOS and Windows operation

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Appendix A details the 12.1”/15.1” LCD specifications. Appendix B introduces the DiskOnChip installation. Appendix C introduces the Wake-On-LAN feature. Appendix D explains the first MB memory map. Appendix E provides the specifications for the built-in power

supply.

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1.3. Specifications

APOLLO: 12.1”/15.1” TFT Intel® Celeron/Pentium® III &

Pentium IV Plastic-housing Panel PC with

Versatile Stand design

SYSTEM

Flat Panel

u APOLLO 120: 12.1” color TFT, 800*600 Viewing angle 100

Luminance (cd/m2) 150 or above

Simultaneous mode yes u APOLLO 150: 15.1” color TFT, 1024*768 Viewing angle 120

Luminance (cd/m2) 200 or above, optional

high-luminance model

Simultaneous mode yes

CPU (Socket 370)

u Intel Pentium III FCPGA 1GHz/133MHz u Intel Pentium III FCPGA 650-933/133MHz u Intel Pentium III FCPGA 500E-850E/100MHz u Intel Celeron FCPGA 800MHz-1.10GHz/100MHz u Intel Celeron FCPGA 533AMHz-766MHz/66MHz u Intel Celeron PPGA 300A-533MHz/66MHz

System Chipset

u SiS 630ST

System BIOS

u Award PnP Flash BIOS

System Memory

u 1*168pin DIMM socket supporting SDRAM up to 512MB

L2 Cache

u CPU built-in

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Standard I/O

- Serial ports*4: COM 1, 2 & 4 with +5V/12 power output on pin #9, COM 3 internal type reserved for touchscreen, COM2 RS-232/485 jumper selectable

- Parallel Port*1: supports SPP/EPP/ECP

- External FDD Interface*1

- +5V/+12V DC-out*1

- PS/2 Keyboard Interface*1

- PS/2 Mouse Interface*1

- DIO: Input*2, output*2

- USB Interface*2

- VGA Interface*1

- Brightness VR*1

- Speaker-out, MIC-in, Line in

Ethernet

u 100/10 Base-T Ethernet with RJ-45 phone jack u Supports WAKE-ON-LAN

Watchdog Timer Display

u Integrated 2D/3D graphics engine, 4X AGP u Share system memory architecture able to utilize the

display memory size up to 64MB

u Supporting LCD/VGA dual display mode (under

Windows 98 and Windows ME and Windows XP)

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Audio Function

u Full duplex and independent sample rate converter for

audio recording & playback

u Supports Microsoft DirectSound u 3D positional audio effects u Hi-performance, mixed-signal, stereo u MIC-In, Speaker-Out, Line-In u Pin header for CD-audio in

Hardware Monitor

u Monitoring processor & system u Monitoring 5VSB, VBAT, 1.5V, 3.3V, +5V, +12V, -12V, and

processor voltages

u Monitoring processor, chassis fan speeds u Controlling processor and chassis fan speed and failure

alarm

u Automatic fan on/off control u Read back capability that displays temperature, voltage

and fan speed

u Supporting Intel processor thermal diode output (real

processor temperature)

Expansion Slot

- PCI*2 or PCI*1 + ISA*1

- Expansion card size (L*W)

- PCI card: max. 190*120 mm

- ISA card max. 190*120 mm if no internal FDD is

installed; 170*120 mm if internal FDD is installed

Front Bezel

- LED indicators for HDD, LAN, POWER

- Motion sensor or IrDA receiver or Wireless keyboard

receiver (optional)

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PERIPHERAL & STORATE DEVICES

Touchscreen (optional, sharing COM3)

u 12.1”/15.1” analog resistive type with RS-232 controller u 12.1”/15.1” capacitive type with RS-232 controller u 12.1”/15.1” surface acoustic wave type (SAW)

Power Supply

u ATX 150W, input range: 100~240V/5A @60Hz,

200~240V/2.5A @50Hz

u DC 150W, 20~28VDC, 40~56VDC or DC 200W, 36~72VDC

(optional)

Speakers

u Water-proof speakers*2

CD-ROM or CD-RW or DVD-ROM

u Slim type*1 (optional) or u External type via USB

Floppy Disk Drive

u Slim type*1 (optional) or u Via external FDD or u External type via USB

Hard Disk Drive

u 3.5" HDD*1 (optional)

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MECHANICAL & ENVIRONMENTAL

Construction

u Inside: heavy-duty steel u Outside: fire-proof resilient ABS/PC plastic

Color (standard)

u Beige u Black

Dimension (chassis only, unit: mm)

u APOLLO 120: 368*321*116.5 (L*W*D);

334.7*284.21 (for panel mount)

u APOLLO 150: 406*360*129 (L*W*D);

384*284.2 (for panel mount)

Mounting

u Panel mount with mounting kits u Wall mount with swing arm: standard VESA mounting

holes (75*75 mm)

Versatile Stand

u 45~90o free standing u Avocado-shape holes for fixed standing u Cable Management design

§ Specifications are subject to change without notice.

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1.4. Dimensions

1.4.1. APOLLO 120

The APOLLO 120’s chassis size is shown below. This does not include the dimension of the stand. This does not include the dimension of the stand.

Figure 1-1: APOLLO 120 DIMENSION

APOLLO 120/150 III

User Manual version 2007

1.4.2. APOLLO 150

The APOLLO 150’s chassis size is shown below. This does not include the dimension of the stand.

Figure 1-2: APOLLO 150 DIMENSION

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APOLLO 120/150 III

User Manual version 2007

2. USING THE SYSTEM

u Identifying the APOLLO system u System setup for the first-time use

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12.1”/ 15.1” LCD on outlet

Cable management

2.1. Identifying the System

Before getting started, take a moment to familiarize yourself with the system and the I/O arrangement of the APOLLO 120/150.

2.1.1. Front View

When the APOLLO 120/150 is put upright on the desktop with the provided pedestal, its front view appears as below.

The illustrations of the APOLLO 120/150 may differ slightly because the APOLLO system series has two different LCD size:

12.1” & 15.1”.

& touchscreen

Side door for two PCI/ISA expansi

Speaker

Versatile stand for

desktop standing

Wireless KB sensor or Motion sensor or IrDA

FDD drive &

CD-ROM drive

Fire-proof

resilient plastic

covers

APOLLO 120/150 III

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2.1.2. Side Views

The left side of the panel PC appears as below:

Side door for two PCI/ISA

expansion outlet

Cable management cutout

Screw holes for peripheral

device attachment

Base covers +pedestal = versatile stand

Floppy disk drive

CD-ROM

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2.1.3. I/O Outlets

When you turn around the APOLLO system, you will find the power switch and all the I/O ports are located at the rear cover of the panel PC.

A. COM 4 B. EXTERNAL FDD C. COM 2 D. VGA PORT E. COM 1 F. PRINTER PORT G. PS/2 MOUSE H. +5/12V DC-OUT I. PS/2 KEYBOARD J. VR BRIGHTNESS K. SPEAKER-OUT L. LINE-IN M. MIC-IN N. ETHERNET (RJ-45) O. 2-CHANNEL DIO P. USB*2

4 2 1

A B C D E F G H I

4 2 1

J K L M N O

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2.2. System Setup for the First-time Use

To set up the APOLLO 120/150 for the first-time use, you should have the following items ready. The items are either in the accessory box or available in any computer stores.

u 110V or 220V power cord u PS/2 or AT keyboard or wireless keyboard u PS/2 or serial mouse

2.2.1. Installation Procedures

The APOLLO system can be powered either by an AC electrical outlet (100~240V/5A @60Hz, 200~240V/2.5A @50Hz) or by DC power source (20~28VDC or 40~56VDC or 36~72VDC). If the system is to be powered up by AC power, be sure to use the right power cord (110V or 220V) for connection.

1. Connect the female end of the power cord to the AC inlet located at the rear bottom side of the panel PC.

2. Connect the 3-pin male end of the power cord to an electrical outlet.

3. Connect a PS/2 keyboard or an AT keyboard to keyboard port. If you are using an AT keyboard, you need an adapter (AT to PS/2 KB) for this connection.

4. Connect the PS/2 mouse to the PS/2 mouse port. If you are using a serial mouse, it can be connected to the COM port.

5. Turn on the main switch on the power supply if there is one.

6. Power on the panel PC by switching the power switch located at the rear bottom side.

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User Manual version 2207

2.2.2. Running the BIOS Setup

If you are a commercial user, the APOLLO 120/150 III should have been properly set up and configured by your dealer. You may still find it necessary to change the system configuration information. In this case, you need to run the system’s BIOS setup program.

Under the following conditions, the CMOS settings are to be changed.

1. The system is starting for the first time.

2. The hardware devices attached to the APOLLO III system

have been changed.

3. The CMOS memory has lost power and the configuration

information has been erased.

The BIOS setup program is stored in ROM, which can be accessed by pressing <DEL> key on the keyboard immediately when the system is powered on.

In order to retain the specified setup information when the system power is turned off, the system setup information is stored in a battery-backed CMOS RAM. The battery is to ensure the settings will not be erased when the computer is turned off or reset. When the computer is powered on again, the system will read the settings stored in the CMOS RAM and compare them to the equipment check conducted during the power on self-test (POST). If any error or mismatch occurs, an error message will be shown on the screen and the computer will be prompted to run the setup program.

To change the BIOS setup, please refer to Chapter 7 for more information.

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User Manual version 2007

2.2.3. Operating System and Driver Installation

The APOLLO III system is not equipped with an operating system when delivered from the original manufacturer. If you are a commercial user, the system is likely to have been pre-installed proper operating system and software drivers by your dealer or system integrator.

If the system is not pre-installed with any system OS and drivers or you intend to install your preferred ones, there are several ways to load OS and software into the system.

1. Via the external FDD or internal FDD

2. Via the CD-ROM

3. Via Ethernet: You can boot up the system via Ethernet

bootrom (optional) and download system OS or software from the network.

Recent releases of operating systems always include setup programs that load automatically and guide you through the installation. You can also refer to your OS user manual for instructions on formatting or partitioning the hard disk drive before any software installation.

The APOLLO III system provides the following utility drivers stored in the CD-ROM diskette or utilities diskettes;

² Ethernet utilities ² VGA utilities ² Audio drivers ² Touchscreen drivers

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3. VERSATILE STANDING & MOUNTING OPTIONS

The APOLLO 120/150 is designed for universal standing and mounting to fit into various environmental applications. This chapter highlights the steps of different mounting options with graphical illustrations. Sections include

u Versatile Stand u Wall Mounting u Panel Mounting

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3.1. Versatile Stand

The APOLLO comes with a versatile and functional stand, able to fit into different environmental application.

3.1.1. Standing Upright

Compact in its size, all-in-one in its design along with its industrial-grade reliability, the APOLLO system standing upright is the best replacement for a desktop computer. When the APOLLO is to stand upright, the two base back covers can either be assembled or not to be assembled to the pedestal.

However, if the APOLLO system is to stand upright while the touchscreen is also frequently used, then it is suggested that the two base back covers and another knob are assembled with the pedestal to prevent possible wobbling when the touchscreen is being used.

3.1.2. 45 to 900 Free Standing

The sleek and sturdy pedestal assembled with the two cable management covers enables the APOLLO system to endure the long-time operation in any public sectors. By swiveling the knob on the left side of the base cover and pulling the base up and down, the angle can be adjusted from 45 to 900.

FIGURE 3-1: APOLLO’S VERSATILE STANDING OPTIONS

Cable management cover

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3.1.3. Fixed Standing

At the bottom side of the big pedestal, there are two avocado-shape holes which are used to fix the APOLLO to the table with screws. When the APOLLO is fixed to the table, the angle from the main system to the table can be adjusted from 45 to 900 by swiveling the knob on the left side of the base cover and pulling the base up and down.

Cable management cutout

Avocadoshape holes

FIGURE 3-2: APOLLO PEDESTAL KIT

The following figure illustrates the distance between the avocado holes.

APOLLO °ò®y¼Ò²Õ

©³®yÅKªO HINGE (¥ª) with LOCK HINGE (¥k) APOLLO 120/150 Âà¶b-×¹¢¤U»\ Âà¶b¤ä¬[ APOLLO 120/150 Âà¶b-×¹¢¤W»\ APOLLO 120/150 ¶ì½¦©³®y

FIGURE 3-3: APOLLO PEDESTAL BASE AVOCADO HOLES

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3.1.4. Cable Management

The APOLLO’s pedestal is not only a versatile stand but a functional stand able to manage the system cabling.

1. The rectangle-shape opening (Fig. 3-2) at the bottom

side of the big pedestal can act as a cable management cutout. All the cables connecting to the I/O ports can come out from this opening, then down to the table.

2. The two base back covers (Fig. 3-1) can act as a set of

cable management covers. All the cables connecting to the I/O ports come down in the covers, then out from this opening at the rear side of the base.

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3.2. Wall Mounting and Mobile Applications

The APOLLO system provides 1 set of VESA mounting holes, 75*75mm on the rear side of the chassis. System integrators can design their special wall mount brackets per the two sets of VESA holes or obtain market-available swing arms for wall mounting, table mounting or mobile applications.

FIGURE 3-4: APOLLO 120 VESA HOLES

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FIGURE 3-5: APOLLO 150 VESA HOLES

FIGURE 3-6 FIGURE 3-7

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3.3. Panel Mounting

The APOLLO system provides a set of optional mounting brackets for system panel mounting. The following figures illustrate the way to use the brackets for panel mounting.

FIGURE 3-8

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FIGURE 3-9

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3.4. KIOSK Integration

The APOLLO system can also be integrated to a KIOSK cabinet to make a ready-to-play KIOSK terminal. The following is an example of APOLLO KIOSK. It is a flexible and robust device that can be mounted virtually anywhere and in any forms including tabletop, pedestal, pole and wall mounting.

FIGURE 3-10: APOLLO KIOSK ILLUSTRATION

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4. I/O CONNECTION

This chapter describes the APOLLO system I/O ports and how to use the I/O interface to connect to external devices.

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The I/O interfaces located at the rear side of the chassis are used to connect external peripheral devices, such as a mouse, a keyboard, a monitor, serial devices or parallel printer…etc. Before any connection, make sure that the computer and the peripheral devices are turned off.

4 2 1

FIGURE 4-1

4.1. Parallel Port

The APOLLO 120/150 can support the latest EPP and ECP parallel port protocols. It can be used to connect to a wide array of printers, ZIP drive, parallel scanner and any other parallel devices. The printer interface on the APOLLO 120/150 III is a 25-pin female D-SUB connector. To connect any parallel device, follow the steps below:

1. Turn off the system and the parallel devices.

2. Plug in the male connector of the parallel device to the

25-pin female D-SUB connector and fasten the retaining screws.

3. Turn on the system and the attached parallel devices.

4. Refer to the parallel device’s manual for instruction to

configure the operation environment to recognize the new attached devices.

5. You may need to run the CMOS setup to change the

hardware device setup.

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4.2. COM Ports x 4

The APOLLO 120/150 features with four onboard COM ports. COM 1, 2 & 4 are D-SUB serial ports located at the rear side of the chassis, ready to connect to a wide range of serial devices. COM 3 is internal serial port reserved for touchscreen for internal connection. COM1, COM3 and COM4 are RS-232 and COM2 is RS-232/422/485, selected via jumper setting. For COM 2 RS-232/422/485 selection, please refer to SEC. 6.1.2.

COM 1, 2 & 4 are equipped with +5V/+12V power capabilities on pin 9, providing easy accommodation to a broad range of serial devices.

The COM port 5V/12 power is selected via jumper setting on the IO board. The IO is the signal board attached to the rear panel with 2 SCSI cables linking to the system motherboard to connect the onboard signal out to the external I/O ports.

Please refer to SEC. 6.2.2 for 5V/12 power selection.

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If a touchscreen module is installed, for factory default setting, its controller will occupy COM3.

COM1, 2 & COM4 are all D-SUB 9-pin connectors. To connect to any serial device; follow the procedures below;

1. Turn off the APOLLO system and the serial devices.

2. Attach the interface cable of the serial device to the 9-pin

D-SUB serial connector. Be sure to fasten the retaining screws.

3. Turn on the computer and the attached serial devices.

4. Refer to the serial device’s manual for instruction to

configure the operation environment to recognize the new attached devices.

5. If the serial device needs specified IRQ or address, you

may need to run the CMOS setup to change the hardware device setup.

If the COM2 is to be set to RS-422/485 for long distance transmission, the related onboard jumpers have to be set correctly first. Refer to section 6.1.4.3 for the RS-232/422/485 jumper settings.

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4.3. 100/10 Base-T Ethernet (RJ-45)

The APOLLO 120/150 provides a 100/10 Base-T NE2000 compatible Ethernet (RJ-45) interface. For network connection, follow the instructions below.

1. Turn of the APOLLO system and the Ethernet hubs.

2. Plug in one end of cable of a 100/10 Base-T hub to the

system’s RJ-45 phone jack. The pin assignment of the RJ-45 is listed as follow;

RJ-45 Connector Pin Assignment

Pin Description

1 2 3 6 others

2 3 4 5 6 7

RJ-45

Tx+ (data transmission positive) Tx- (data transmission negative) Rx+ (data reception positive) Rx- (data reception negative) No use

4.4. VGA Interface

The APOLLO 120/150 has a 15-pin analog RGB connector located at the rear side of the chassis. It can support its own LCD display and an expansion CRT or analog monitor at the same time. The connection to an analog monitor is an easy plug-in of the VGA D-SUB 15-pin connector to the RGB interface.

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4.5. 2nd Display Graphic Support Mode

The APOLLO can support SINGLE DISPLAY MODE and DUAL DISPLAY

MODE. For dual display mode, it can support MIRROR MODE

(same screen) or MULTIPLE-MONITOR MODE (different screens).

PLEASE NOTE THAT THE MULTIPLE-MONITOR MODE ONLY WORKS WHEN

THE OPERATING SYSTEM IS WINDOWS 98 OR WINDOWS ME OR

WINDOWS XP.

The APOLLO itself is onboard with an AGP LCD/VGA controller. When dual display mode is activated, it can support a LCD panel (digital TTL) and a CRT or an analog monitor at either mirror mode or multiple-monitor mode.

The following sections describe all the graphic support modes based on system memory clock frequency (66MHz, 100MHx and 133MHz). All these tables apply only to video memory size is equal or larger than 8MB.

4.5.1. When System Memory Clock = 66MHz

The following tables contain all graphic support modes under the following condition and are classified under three output modes (single mode, mirror mode and multiple-monitor mode).

System memory clock = 66MHz Memory bus width = 64 bit Video memory size = 8MB or above

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4.5.1.1. Single Display Mode

Resolution Bpp

640*480 8 60, 72, 75, 85, 100, 120, 160, 200 60, 70, 75 16 60, 72, 75, 85, 100, 120, 160, 200 60, 70, 75 32 60, 72, 75, 85, 100, 120, 160 60, 70, 75 800*600 8 56, 60, 72, 75, 85, 100, 120, 160 60, 70, 75 16 56, 60, 72, 75, 85, 100, 120, 160 60, 70, 75 32 56, 60, 72, 75, 85, 100, 120 60, 70, 75 1024*768 8 43, 60, 70, 75, 85, 100, 120 60, 70, 75 16 43, 60, 70, 75, 85, 100, 120 60, 70, 75 32 43, 60, 70, 75 1280*1024 8 43, 60, 75, 85 60 16 43, 60, 75, 85 32 43 1600*1200 8 60, 65, 70, 75, 85 16 60 32 1920*1440 8 60 16 32

CRT1 LCD

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56, 60, 72, 75, 85, 100,

43, 60, 70, 75, 85, 100,

4.5.1.2. Mirror Display Output Mode

When LCD is selected as secondary display at mirror mode:

Resolution Bpp CRT1 at mirror mode LCD at mirror mode

640*480 8 60, 72, 75, 85, 100,

16 60, 72, 75, 85, 100,

32 60, 72, 75, 85, 100 60 800*600 8

32 1024*768 8

16 32

60, 70, 75

120, 160, 200

60, 70, 75

120, 160, 200

60, 70, 75

120, 160

60, 70, 75

120

60, 70, 75

120

APOLLO 120/150 III

4.5.1.3. Multiple Display Output Mode

56, 60, 72, 75, 85, 100,

43, 60, 70, 75, 85, 100,

When LCD is selected as secondary display at multiple-monitor mode:

Resolution Bpp CRT1 at MM mode LCD at MM mode

640*480 8 60, 72, 75, 85, 100,

16 60, 72, 75, 85, 100,

32 60, 72, 75, 85, 100 60 800*600 8

32 56, 60 1024*768 8

16 43, 60, 70, 75 32 43 1280*1024 8 43, 60, 75, 85 16 43 32 1600*1200 8 60, 65 16 32

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60, 70, 75

120, 160, 200

60, 70, 75

120, 160, 200

60, 70, 75

120, 160

60, 70, 75

120

60, 70, 75

120

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4.5.2. When System Memory Clock = 100MHz

The following tables contain all graphic support modes under the following condition and are classified under three output modes (single mode, mirror mode and multiple-monitor mode).

System memory clock = 100MHz Memory bus width = 64 bit Video memory size = 8MB or above

4.5.2.1. Single Display Mode

Resolution Bpp

640*480 8 60, 72, 75, 85, 100, 120, 160, 200 60, 70, 75 16 60, 72, 75, 85, 100, 120, 160, 200 60, 70, 75 32 60, 72, 75, 85, 100, 120, 160, 200 60, 70, 75 800*600 8 56, 60, 72, 75, 85, 100, 120, 160 60, 70, 75 16 56, 60, 72, 75, 85, 100, 120, 160 60, 70, 75 32 56, 60, 72, 75, 85, 100, 120, 160 60, 70, 75 1024*768 8 43, 60, 70, 75, 85, 100, 120 60, 70, 75 16 43, 60, 70, 75, 85, 100, 120 60, 70, 75 32 43, 60, 70, 75, 85, 100 60, 70, 75 1280*1024 8 43, 60, 75, 85 60 16 43, 60, 75, 85 60 32 43, 60 1600*1200 8 60, 65, 70, 75, 85 16 60, 65, 70, 75, 85 32 1920*1440 8 60 16 60 32

CRT1 LCD

APOLLO 120/150 III

4.5.2.2. Mirror Display Output Mode

56, 60, 72, 75, 85, 100,

43, 60, 70, 75, 85, 100,

When LCD is selected as secondary display at mirror mode:

Resolution Bpp CRT1 at mirror mode LCD at mirror mode

640*480 8 60, 72, 75, 85, 100,

16 60, 72, 75, 85, 100,

32 60, 72, 75, 85, 100,

800*600 8

32 56, 60, 72, 75, 85 60 1024*768 8

User Manual version 2007

60, 70, 75

120, 160, 200

60, 70, 75

120, 160, 200

60, 70, 75

120, 160

60, 70, 75

120, 160

60, 70, 75

120, 160

60, 70, 75

120

60, 70, 75

120

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56, 60, 72, 75, 85, 100,

43, 60, 70, 75, 85, 100,

4.5.2.3. Multiple Display Output Mode

When LCD is selected as secondary display at multiple-monitor mode:

Resolution Bpp CRT1 at MM mode LCD at MM mode

640*480 8 60, 72, 75, 85, 100,

16 60, 72, 75, 85, 100,

32 60, 72, 75, 85, 100,

800*600 8

32 56, 60, 72, 75, 85 60 1024*768 8

32 43, 60 1280*1024 8 43, 60, 75, 85 16 43, 60, 75 32 1600*1200 8 60, 65, 70, 75, 85 16 32 1920*1440 8 60 16 32

60, 70, 75

120, 160, 200

60, 70, 75

120, 160, 200

60,70, 75

120, 160

60, 70, 75

120, 160

60, 70, 75

120, 160

60, 70, 75

120

60, 70, 75

120

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4.5.3. When System Memory Clock = 133MHz

The following tables contain all graphic support modes under the following condition and are classified under three output modes (single mode, mirror mode and multiple-monitor mode).

System memory clock = 133MHz Memory bus width = 64 bit Video memory size = 8MB or above

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4.5.3.1. Single Display Mode

Resolution Bpp

640*480 8 60, 72, 75, 85,

16 60, 72, 75, 85,

32 60, 72, 75, 85,

800*600 8 56, 60, 72, 75,

16 56, 60, 72, 75,

32 56, 60, 72, 75,

1024*768 8 43, 60, 70, 75,

16 43, 60, 70, 75,

32 43, 60, 70, 75,

1280*1024 8 43, 60, 75, 85 60 16 43, 60, 75, 85 60 32 43, 60, 75, 85 60 1600*1200 8 60, 65, 70, 75,

16 60, 65, 70, 75,

32 60 1920*1440 8 60 16 60 32

CRT1 LCD

60, 70, 75 100, 120, 160, 200

60, 70, 75 85, 100, 120, 160

60, 70, 75 85, 100, 120

APOLLO 120/150 III

4.5.3.2. Mirror Display Output Mode

56, 60, 72, 75, 85, 100,

43, 60, 70, 75, 85, 100,

When LCD is selected as secondary display at mirror mode:

Resolution Bpp CRT1 at mirror mode LCD at mirror mode

640*480 8 60, 72, 75, 85, 100,

16 60, 72, 75, 85, 100,

32 60, 72, 75, 85, 100,

800*600 8

1024*768 8

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60, 70, 75

120, 160, 200

60, 70, 75

120, 160, 200

60, 70, 75

120, 160, 200

60, 70, 75

120, 160

60, 70, 75

120, 160

60, 70, 75

120

60, 70, 75

120

60, 70, 75

120

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56, 60, 72, 75, 85, 100,

43, 60, 70, 75, 85, 100,

4.5.3.3. Multiple Display Output Mode

When LCD is selected as secondary display at multiple-monitor mode:

Resolution Bpp CRT1 at MM mode LCD at MM mode

640*480 8 60, 72, 75, 85, 100,

16 60, 72, 75, 85, 100,

32 60, 72, 75, 85, 100,

800*600 8

1024*768 8

32 43, 60, 70, 75 1280*1024 8 43, 60, 75, 85 16 43, 60, 75, 85 32 43 1600*1200 8 60, 65, 70, 75, 85 16 60, 65 32 1920*1440 8 60 16 32

60, 70, 75

120, 160, 200

60, 70, 75

120, 160, 200

60,70, 75

120, 160, 200

60, 70, 75

120, 160

60, 70, 75

120, 160

60, 70, 75

120

60, 70, 75

120

60, 70, 75

120

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4.6. PS/2 Keyboard Interface

The APOLLO provides a standard PS/2 keyboard connector located at the rear panel. If the user would like to use AT keyboard, then an adapter to connect the PS/2 KB to AT KB is needed.

4.7. PS/2 Mouse Interface

The APOLLO system has one PS/2 mouse connector located at the rear side. A simple plug-in will make the connection.

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1 0

out connector when an external floppy

4.8. External FDD (DB-15)

The APOLLO 120/150 provides two ways to connect to a floppy disk drive to fit into specific environmental applications:

1. Internal FDD

2. External FDD If the FDD is frequently used, it is suggested to use an

internal floppy disk drive. If the drive is used only for system installation or maintenance, then, an external device can fulfill this need and is more economical. Please note that if an internal floppy disk drive already exists, no external floppy drive can be used.

The APOLLO external FDD interface is a 15-pin D-sub connector located at the rear side of the chassis. An external FDD cable is provided to connect a standard 3.5” FDD to the system. Its pin position and pin assignment are listed as follows.

Pin # Signal Pin #

1 DELSEL 2 -INDEX 3 -MTR1 4 -DVR1 5 -DIR 13 -DSKCHG 6 -WP 14 +5V 7 -TRKO 8 -WG

The APOLLO system is equipped with a +5V/12V DC-out connector to provide 5V power to drive the external floppy disk drive. Use the provided FDD power cable to connect the floppy drive to the 5V DCdrive is attached to the system.

9 -WD 10 -STEP 11 -RD 12 -HDSEL

15 +12V

Signal

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4.9. +5V/12V DC-Out

The APOLLO system provides a +5V/12V DC-out connector. It is used to provide necessary power source for some external devices. For example, if the APOLLO III system is to be housed in a KIOSK cabinet which requests extra cooling fan for heat dispensing, then the fan power cable can be attached to 5V/12V DC-out to obtain power from the computer directly. If an external floppy disk drive is attached to the system, it will need +5V power source from the system. A power cable for the external floppy disk drive is already provided for this connection. For other devices, you might need to make your own power cable for the connection.

4.10. VR Brightness Control

The APOLLO system provides a VR control to adjust the brightness of the LCD. The VR control is with a “+” shape cutout on it. You will need a “+” shape screwdriver to adjust it for display brightness control.

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4.11. DIO (Digital Input & Output)

The APOLLO III provides 2-channel digital input and output that can be used for the system’s simple automation control needs. The digital I/O can be configured to control the opening of a cash drawer or to sense the warning signal of an uninterrupted power system (UPS) or to do the store security control.

The DIO port address and pin definition is listed below;

I/O Port address: 208H

Read: SD0, SD1 Write: SD4, SD5

IO 208H(READ)

IO 206H(READ)

74LS244

VCC5

1A11Y1 1A21Y2 1A31Y3 1A41Y4 2A12Y1 2A22Y2 2A32Y3 2A42Y4

GND

218 416 614 812 119 137 155 173

-IOR206H

1920

2GVDD

SD0 IN_0 SD1 IN_1

OUT_0

4.7K

VCC5

OUT_1

4.7K

IN_0

IN_1

MOSFET N

SD4 SD5

-IOW206H

VCC12

DIO1

RJ11

1 2 3 4 5 6

IO 208H(WRITE)

IO 206H(WRITE)

13 14 17 18

3 4 7 8

D1 D2 D3 D4 D5 D6 D7 D8

CLK CLR

74LS273

1 2 3 4 5 6

VCC

GND

Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q8

DIO1 RJ11

2 5 6 9 12 15 16 19

20 10

OUT_0 OUT_1

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The Digital I/O is of TTL interface. It is controlled via software programming.

Digital I/O Programming

Input/output address: 208H In_Data 0~3=SD0~SD1 Out_Data 0~3 SD4~SD7

EXAMPLE: 10 REM Digital I/O example program 20 X = INP (&H208) REM INPUT Digital I/O port

for 4 bit

30 X = OUT (&H208) REM OUTPUT Digital I/O port

for 4 bit 60 END 100 Return

Port 208H Definition

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4.12. Audio Interface (Line-in, MIC-in, SPK-out)

The audio interface contains three jacks, microphone-in, line-in and speaker-out.

The microphone-in jack is used to record sound or voice by connecting to an external microphone. The line-in jack is used to input audio from an external audio device such as a CD player, tape recorder or a radio. The speaker-out jack is to output the audio to external devices such as speakers or earphones. The audio device can be directly attached to the jacks. Please note that the audio driver has to be installed first before using any audio device.

4.13. USB Ports

The APOLLO 120/150 III also provides two USB ports to connect to external USB devices. A simple plug-in of the USB device interface cable to the USB port will make the connection. Before using the USB devices, remember to install the device driver first.

4.14. IR Keyboard Sensor (optional)

The APOLLO III features with an optional IR keyboard sensor. The IR KB sensor containing wireless KB firmware is located at the front bezel. To use the wireless keyboard, please note that the APOLLO III IrKB sensor on the front bezel and the wireless keyboard sensor have to face each other at the same horizontal level and the distance of the IR transceiver and receiver should not exceed 1 meter.

4.15. AC/DC Inlet/Power Switch

For APOLLO 120/150 III AC system, it can operate in the input range from 100 ~ 240 volts, 50 ~ 60 Hz. For DC system, the input range can be from 18V to 72V with different power supply.

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5. HARDWARE INSTALLATION AND UPGRADE

This chapter overviews the installation of the APOLLO III’s internal components and devices. Sections include:

u The exploded diagram u Motherboard assembly u LCD module assembly u HDD module assembly u CD-ROM/FDD assembly u Power module assembly u Expansion slots

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The APOLLO 120/150 III consists of a Celeron/ Pentium® III multimedia motherboard with an adequate CPU and relevant SDRAM on it. The system control board and other internal devices such as expansion card, HDD and power supply are already housed in a plastic rear cover. The system’s performance depends on the installed CPU and the capacity of the system memory and hard disk drive. In some circumstances, you might intend to upgrade or maintain the system. By removing the rear cover and the metal covers, the internal components such as CPU, SDRAM, HDD, internal FDD, CD-ROM and power supply can be easily accessed for maintenance and upgrade.

The APOLLO is composed of 9 major modules. The installation procedure is also listed as below.

1. Motherboard module

2. HDD module

3. LCD module

4. Front bezel module

5. CD-ROM module

6. Power supply module

7. Expansion slot module

8. Back panel module

9. Stand module

To disassemble the system module for maintenance, the procedure is from step 9 to 1.

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EXPLODED DIAGRAM

5.1. Recognizing the System Major Parts

In terms of LCD size, the APOLLO has two models, one 12.1” and the other 15.1”. The assembly of the two models is basically the same except the LCD assembly. The following diagram highlights the system major parts that make up the APOLLO 120 main system.

FIGURE 5-1: APOLLO 120

APOLLO 120 ¥DÅé²Õ«~

APOLLO 120 -±ªO²Õ«~ APOLLO 120 LCD²Õ«~ CDROM-FDD²Õ«~ ½cÅé ¥D¾÷ªOµ´½t¤ù302*148*0.35 PC620 ¼Ò²Õ A1.0

POWER CABLE ¤j4P-¤p4P*2-2P 180mm

MODULE APOLLO RISER A1.0 RISER CARD¸É±j±ì POWER ²Õ«~ «áµ¡ µL¤ÕÅK¤ù MODULE M2210 A1.0 TOUCH COM3 CABLE 80mm HDD ²Õ«~ ÅK¥ó«á»\²Õ«~ APOLLO 120¶ì½¦«á»\

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The following diagram shows the system major parts that make up the APOLLO 150 main system.

APOLLO 150 ¥DÅé²Õ«~

APOLLO 150 -±ªO²Õ«~ APOLLO 150 LCD²Õ«~ CDROM-FDD²Õ«~ ½cÅé ¥D¾÷ªOµ´½t¤ù302*148*0.35 PC620 ¼Ò²Õ A1.0

POWER CABLE ¤j4P-¤p4P*2-2P 180mm

MODULE APOLLO RISER A1.0 RISER CARD¸É±j±ì POWER ²Õ«~ «áµ¡ µL¤ÕÅK¤ù MODULE M2210 A1.0 TOUCH COM3 CABLE 80mm HDD ²Õ«~ ÅK¥ó«á»\²Õ«~ APOLLO 150¶ì½¦«á»\

FIGURE 5-2: APOLLO 150 EXPLODED DIAGRAM

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5.2. Installing the CPU

The APOLLO III can adapt Socket 370 Intel Celeron or Pentium III CPU. Upgrading the CPU can increase the system performance. When Pentium III 1GB 133MHz is used with the system, it is suggested to attach another system cooling fan at the right side of the system compartment to prevent the system from overheating.

The APOLLO’s motherboard provides one 370-pin ZIF socket (Socket 370). The CPU must come with a CPU fan with a heat sink on to avoid overheating.

To install a CPU or upgrade a new CPU, follow the instructions below.

1. If there is an existing CPU on the socket, remove the CPU

cooling fan first. Then remove the CPU by pulling the lever out a little and raising it, then lifting out the existing CPU from the socket.

2. To insert the CPU into the socket, the notch on the corner

of the CPU (the corner with golden dot) should point toward the end of the socket lever. If the insertion of the CPU to the socket is not easy, check whether the CPU pins correspond with the holes on the socket.

3. After insert the CPU into the socket, pull the lever down to

make sure the CPU is in place.

4. The CPU cooling fan comes with a 3-pin power cable.

Connect the power cable to the 3-pin power connector on the motherboard.

5. There are two white clips on the CPU socket. Make sure

the cooling CPU fan clips click into place.

3-pin CPU fan power connector

CPU socket

APOLLO 120/150 III

FIGURE 5-3

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5.3. Installing the SDRAM Memory Module

The APOLLO 120/150 III system control board provides 1 x 168-pin DIMM socket, able to support SDRAM memory from 32MB up to 512MB. To install the memory module, follow the instructions below.

1. Find the 168 pin DIMM socket on the motherboard

2. There are two white eject levers at each end of the DIMM

socket. Push them outward until they separate from the two vertical posts.

3. Holding the memory module with the notch on the upper

right corner, then insert the memory module into the DIMM socket at 90° angle.

4. Push the two eject levers toward the vertical posts until

they click into place. The memory module is now upright.

The system is able to auto detect the new memory size and there is no need to change the system configuration after installation.

Make sure that the memory module you are using can handle the specified SDRAM MHz. Inadequate memory module will make the computer unable to boot up.

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5.4. Motherboard Assembly

The motherboard is the first component to be assembled to the system compartment. Follow the steps below to assemble the motherboard to the system chassis. Make sure the CPU with cooling fan and SDRAM are already properly installed to the motherboard before the motherboard is attached to the system chassis. (Refer to Sec. 5-2 and 5-3 for CPU and SDRAM installation).

1. The lower side of the chassis has a rectangle opening at

the bottom of the chassis. Make the lower side of the chassis to be near you.

2. From your point of view, the motherboard module is to be

installed to the lower side of the system compartment.

3. Tape the motherboard insulator (5) (Fig. 5-1 & 5-2 (5)) to

the motherboard (6) first. The insulator is to separate the electronic components on the reverse side of the motherboard from the metal compartment to prevent short circuitry caused during system operation.

4. Fix the motherboard (6) to the chassis with 7 round-head

anti-fallen 3*6 screws.

5. The IR/LED cable (Fig. 5-7 (7) & Fig. 5-8 (5)) has to go

through the rectangle opening located at the bottom side of the chassis, then connected to motherboard’s J7, the HDD LED & ACPI LED & SMI connector.

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5.5. Touch Controller Assembly

If a touch screen is integrated with the system, the touchscreen controller is to be installed right after the installation of the motherboard.

For easy maintenance in the future, the controller is to installed to a bracket rather than to the system compartment directly. From your point of view, there is a rectangle opening at the left upper side of the chassis. Insert the touch controller bracket to the opening and retain it to the chassis with 2 flat-head 3*5 screws.

For easy assembly, the related cables are to be connected first.

1. The touchscreen cable Fig. 5-1. (14) is a 10 pin to 10 pin

flat cable. One end is connected to the touchscreen controller first.

2. There is a 2 pin (black & red) cable to provide the power

source for the touchscreen. Connect one end to the controller.

3. Connect the other end of the 10-pin to 10 pin flat cable to

the onboard COM 3 header connector and connect the other end of the 2 pin power cable to the motherboard’s PWR1.

4. Fix the touchscreen controller (13) to the bracket with 2

3*6 screws.

5. Fold both cables properly.

6. Make sure the two screws at the outward upper side of the

chassis are also properly fixed.

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5.6. HDD Module Assembly

The APOLLO provides enough space to build in a 3.5” hard disk drive in the system compartment. The following steps show the way to install an internal hard disk drive.

1. Make the chassis lower side near you. Now, from your

point of view, the 3.5" HDD module is to be installed to the right upper side of the system compartment.

2. Refer to Figure 5-4. Fix the hard disk drive (1) to the HDD

bracket (3) with 2 flat-head screws.

3. Connect the one end of the 40-pin IDE cable (2) to hard

disk drive.

4. There are two clips at the bottom of the compartment used

to hold the HDD module to the system compartment. Insert the HDD module to the compartment and clip it into place. Fix the HDD module to the chassis with one 3*5 flat-head screw outside of the right upper side of the chassis.

5. Make sure the other end of the 40 pin IDE cable is

connected to the motherboard IDE 1 connector.

HDD ²Õ«~

HDD HDD CABLE 220mm HDD ¬[

FIGURE 5-4: HDD INSTALLATION

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5.7. Touchscreen or Front Bezel Assembly

The APOLLO is able to accommodate Elo analog resistive touch or Intelli (SAW) touch or MicroTocu capacitive touchscreen. PLEASE NOTE THAT WHEN DIFFERENT TOUCH MODULE IS

INSTALLED, DIFFERENT TOUCHSCREEN METAL BRACKETS ARE NEEDED.

YOU CAN NOT REPLACE ONE TYPE OF TOUCH PANEL WITH THE OTHER

WITHOUT CHANGING THE TOUCHSCREEN METAL BRACKETS USED TO HOLD THE TOUCH PANEL TO THE FRONT BEZEL.

The following steps illustrate the ways to assemble the toucshcreen to the front bezel.

1. There are 4 rubber slips which are already one-side taped

with glue. Glue the 4 slips to the gutters located at the back side of the plastic front bezel. The 4 rubber slips act as cushions to absorb the pressure when the touchscreen is fixed to the front bezel with screws.

2. There are 4 metal brackets used to fix the touchscreen to

the front bezel. The metal brackets have to be taped with soft tapes as shown on Figure 5-6 (7) & (8).

3. Then, fix the touchscreen to the front bezel with the 4

metal brackets with screws. The soft tapes are used to absorb the pressure when the metal brackets fix the touchscreen to the front bezel.

If no toushcreen is installed, there are two options. One is to put a resilient glass instead. The advantage of putting a resilient glass is to protect the LCD panel.

The other option is to fix 4 bronze sticks (5 mm) to the LCD bracket to push the LCD panel forward to make up the gap between the LCD and the front bezel. But when using this way, two screw holes on the front bezel need to be cut to prevent LCD mechanism interference to the front bezel.

FIGURE 5-5: APOLLO W/O TOUCH

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User Manual version 2007

APOLLO 120 -±ªO²Õ«~

12" -±ªO²Õ¥ó 12" ¾ó½¦À£±ø(¥ª¥k) 12" ¾ó½¦À£±ø(¤W¤U)

12.1"ELO TOUCH ¹qªý¦¡ ELO 12.1"À£±ø(¥ª¥k) ELO 12.1"À£±ø(¤W¤U) ªw´ÖÀ£±ø 185*5*1 mm ¥ª¥kPE ªw´ÖÀ£±ø 250*5*1 mm ¤W¤UPE

FIGURE 5-6: APOLLO 120 FRONT BEZEL ASSEMBLY

FIGURE 5-7: APOLLO 120 FRONT BEZEL ASSEMBLY

APOLLO 150 -±ªO²Õ«~

15" -±ªO²Õ¥ó 15" ¾ó½¦À£±ø232*5*2(¥ª¥k) 15" ¾ó½¦À£±ø318*5*2(¤W¤U)

15.0"ELO TOUCH ¹qªý¦¡ ELO 15.0"À£±ø(¥ª) ELO 15.0"À£±ø(¤W¤U) ELO 15.0"À£±ø(¥k) ªw´ÖÀ£±ø 185*5*1 mm ¥ª¥kPE ªw´ÖÀ£±ø 250*5*1 mm ¤W¤UPE

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5.8. LCD Module Assembly

Figure 5-8 and 5-9 illustrate the way to assemble the APOLLO’s LCD module.

The LCD does not fix to the main system directly. Rather, it is to be fixed to a LCD holder, then to the main system. The assembly of APOLLO 120 LCD module slightly differs from that of APOLLO 150.

1. For APOLLO 120, there are two LCD brackets (Fig. 5-8 (2)

& (3)) used to fix to the LCD panel to the LCD holder (11) from the up & down sides. Fix the two brackets to the LCD holder first.

2. Fix the LCD panel to the LCD holder with four 3*8

screws.

3. Attach the insulator to the invertor.

4. The invertor cable for APOLLO 120 is a 4-pin to 4-pin

cable and for APOLLO 150 is a 4-pin to 7-pin cable with wafer connectors at both sides. Connect the one end of the invertor cable to invertor first. The other end is for later connection to the onboard INV1.

5. Connect the pink-white high voltage wires from the LCD

the invertor.

6. The invertor for (Fig. 5-8 (9)) APOLLO 120 is to be fixed

at the right middle side of the LCD holder with the up side down and for APOLLO 150 (Fig. 5-8 (7)) is at the reverse side of the LCD holder later after the LCD module is to be installed to the system..

There are other accessories to be put on the LCD module.

1. Fix 6 bronze sticks (15 mm) to the lower sides of the LCD

holder. Fix the IR/LED board to the LCD holder with two 3*6 screws.

2. The two speakers (Fig. 5-8 (6)) are to be fixed to the right

and left sides of the IR/LED board. The speaker wires are to be connect to the 2-pin header on the IR/LED board.

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12" LCD ²Õ«~

LCD CABLE DFP41-50P 330mm

MODULE APOLLO LED A1.0 SPEAKER LED CABLE 120mm

12"INVERTER MOLEX P-HRS4P 220mm

INVERTER 12.1"TORISAN

12"INVERTERµ´½t¤ù120*26.7*0.35

12"«eÅKªO

FIGURE 5-8: APOLLO 120 LCD MODULE ASSEMBLY

15" LCD ²Õ«~

15.0" LCD PANEL

LCD CABLE DFP41-50P 330mm

MODULE APOLLO LED A1.0 SPEAKER LED CABLE 120mm 15"µ´½t¤ù168*39*0.35 INVERTER 15"

15" INVERTER MOLEX 4P-JAE7P 220mm

15"«eÅKªO

FIGURE 5-9: APOLLO 150 LCD MODULE ASSEMBLY

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User Manual version 2207

After finishing the LCD module installation, the module is to be assembled to the front bezel module, then to the chassis with the motherboard and touch controller already on.

1. Use special air blower to blow any dust between the LCD

and touchscreen before the two modules are assembled together. Retain the LCD module and the front bezel module together with six 3*6 screws.

2. The LCD cable is 41-pin to 50-pin cable with around 30

cm in its length. Insert the 41-pin end into the opening at the back side of the LCD holder and have it firmly plugged to the LCD connector located at the rear side of the LCD panel.

3. Install the whole front bezel module with LCD already on

to the system chassis with the motherboard, touchscreen controller and HDD module already on.

4. The LCD cable is already at the rear side of the LCD holder

through the cutout. Make sure the 50 pin end is to go through the rectangle opening at the rear side of the system chassis. PLEASE NOTE THAT THERE IS A BROWN WIRE

SWINGING OUTSIDE OF THE 50 PIN END. THIS BROWN WIRE IS ONLY TO BE WITH 12.1” SYSTEM. TAPE THE BROWN WIRE TO THE CABLE TO PREVENT IT FROM SWING AROUND TO CAUSE POSSIBLE SHORT CIRCUIRTRY.

5. Connect the LCD cable to the 50 pin LCD header

connector on the motherboard. SPECIAL ATTENTION NEEDS TO

BE PAID WHEN PLUGGING THE LCD CABLE TO THE LCD HEADER CONNECTOR ON THE MOTHERBOARD. ON THE 50 PIN END, PIN #1 IS MARKED WITH A WHITE POINT. MAKE SURE PIN 1 OF THE ONBOARD LCD CONNECTOR MATCH PIN 1 OF THE CABLE ANY WRONG PLUGGING OR SHIFTED PLUGGING WILL DAMAGE THE LCD PANEL OR LEAD TO MAL-FUNCTION.

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6. The touchscreen 5-pin flat cable should go through the

rectangle opening at the upper left side of the LCD holder, then connect to the touchcreen controller.

7. For APOLLO 150, the invertor now is to be fixed to the left

outward side of the chassis and have the invertor cable go into the chassis through the cutout. Connect the other end of the invertor cable to the motherboard’s INV1.

8. Connect the other end of the IR/LED cable to the IR/LED

board.

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5.9. CD-ROM/DVD-ROM/FDD Module Assembly

The APOLLO provides enough space to accommodate a CD-ROM or CD-RW or DVD-ROM and a floppy disk drive. The CD-ROM or DVD-ROM drive used in the APOLLO 120/150 is not the common 5.25” drive seen in computer stores. Rather, it is a slim type drive widely used in notebook computers.

The APOLLO 120/150 can connect to an external floppy disk drive or an internal slim type floppy disk drive, depending on the system requirement.

Please note that either an external floppy disk drive or internal floppy disk drive can be used.

5.9.1. Internal CD-ROM/FDD Assembly

The following steps show the ways to install an internal CD-ROM or DVD-ROM and floppy disk drive.

1. Make the chassis’ lower side near you. Now, from your

point of view, the CD-ROM/FDD module is to be installed on the left side of the chassis.

2. Refer to Figure 5-10. Attach the CD-ROM board (4) to the

slim CD-ROM (2) and fix them together with 2 screws.

PLEASE NOTE THAT THE 2 SCREWS NEED TO BE INCASED WITH 2

PLASTIC WASHERS (3) TO PREVENT SHORT CIRCUITRY.

1. Insert the CD-ROM module to the CD-ROM/FDD bracket (9)

and fix them together with 2 screws.

2. There is a 40-pin CD-ROM cable. Connect one end to the

CD-ROM board.

3. Attach one end of the 26-pin FDD flat cable (8) to the slim

floppy disk drive (7) first.

4. Insert the FDD module to the CD-ROM/FDD bracket and fix

them together with 2 flat-head screws.

5. There is a small metal bracket (1) used to firmly fix the

CD-ROM and FDD modules to the CD-ROM/FDD bracket. This small bracket is to prevent the CD-ROM/FDD from moving when installed to the FDD/CD-ROM bracket.

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6. Connect the 40-pin end of the CD-ROM cable to the

motherboard IDE 2 connector.

7. There is a 4 pin CD audio-in cable to be plugged on the

motherboard. Connect the other end of the CD-Audio cable (6) to the 4 black pin connector on the CD-ROM board.

8. Connect the other end of.

9. Fix the whole unit to the chassis and fix them together with

3 flat-head 3*5 screws.

CDROM/FDD ²Õ«~

ºÏ¾÷ªþ¥ó slim CDROM CDROM ¶¡¹j¬W2.5mm MODULE CDROM-FDD CDROM CABLE 150mm SOUND CABLE P/H 2.54 120mm slim FDD FDD ³n±Æ26pin 130mm ºÏ¾÷¬[

RISER B

FIGURE 5-10: CD-ROM/FDD MODULE ASSEMBLY

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FDD cable

5.9.2. External FDD Connection

1. Use the provided 15-34 pin FDD cable

(see below figure) to connect to the system's 15-pin FDD D-sub connector located at the rear side of the cover.

2. Connect the other end (34 pin) of the FDD cable to a

standard 3.5” FDD. Match pin 1 of the FDD and pin 1 of the cable.

3. To drive the floppy disk drive, it will need 5V power.

Connect the provided FDD power cable to the floppy disk drive to the +5V/12V DC-out connector to obtain 5V power for the device.

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5.10. Power Module Assembly

The power supply is to be integrated with the power brackets before it is installed to the panel PC system. The following diagram shows the steps to assemble the ATX power module. For the specification of the power supply, please refer to APPENDIX.

1. Refer to Figure 5-11. Attach the power fix bracket (2) to

the power supply (3) and fix them together with 2 flat-head screws (3*5). This small bracket is used to prevent the power supply from moving around in the power bracket.

2. Insert the power supply to power bracket (1) and fix them

together with four 3*5 screws.

3. Manage all the power cables from the power supply

properly.

4. Insert the power switch (4) to power bracket (5). The

other end of the switch cable is to be connected to the 2-pin POWER ON switch, SW1 on the motherboard.

5. Plug the ATX power cable to the ATX power connector,

PWR 3 on the motherboard.

6. Connect the big 4P end of the power cable to the HDD.

7. Connect the small 4P end the CD-ROM board.

8. The power module is to be installed to the system right on

the top of the CD-ROM/FDD module.

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The power cable coming out from the cutout and connected to the MB’s ATX power connector.

POWER ²Õ«~

FIGURE 5-11: APOLLO AC POWER MODULE

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5.11. Expansion Outlets & Riser Card Assembly

The APOLLO 120/150 provides PCI/ISA expansion slots for system expansion. Via the specially designed riser card, the system can accommodate either two PCI or one PCI plus one ISA expansion cards; all the connectors of the expansion card will come out from the expansion outlet on the left side of the chassis for further cable connection.

The expansion outlet bracket has to be installed to the system before plugging the riser card to the motherboard PCI/ISA expansion slot.

1. When the system is reverse with the rear side facing you

and lower side near you, the expansion outlets are located at the right upper side of the chassis.

2. Install the expansion window (Fig. 5-1 (11))

to the chassis and fix them together with 2 flat-head screws.

3. If no expansion card is plugged to the riser card, seal the

expansion outlets with the 2 metal slips located inside the expansion outlet.

4. The riser card (8) is to be fixed with the metal bracket (9)

with two flat-head screws first. Then, plug the riser card to the onboard PCI/ISA slot. Make sure the riser card is firmly plugged to the motherboard to prevent any bad connection.

Due to the internal space limitation, the expansion card can not exceed 190*120 (L*W) mm if no internal FDD is installed. However if an internal FDD is installed, the ISA card can not exceed 170*120 mm.

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5.12. Back Panel Assembly

The back panel module is the last module to be integrated to the APOLLO main system before the plastic housing is to be installed to the system.

1. On the I/O board, there are 6 D-SUB connectors with 2

bronze sticks on each side. Remove the 12 bronze sticks.

2. Insert the I/O board to the I/O bracket (2) and fix them

together with the 12 bronze sticks. Fix them again with 2 screws on the other side.

3. Fix the complete I/O module to the metal back panel (1)

five flat-head 3*5 screws.

4. Connect one end of the 2 68-pin SCSI cables (Fig. 5-12

(4)) to the I/O board (3). Via the 2 SCSI cables, all the onboard I/O signals are converted to the I/O board for device cable connection.

5. Connect the other end of the two SCSI cables to the SCSI

1 and SCSI 2 connectors on the motherboard.

6. Fix the back panel module to the main system.

7. Fix a stand bracket at the bottom side of the chassis with

2 screws.

APOLLO ÅK¥ó«á»\²Õ«~

ÅK¥ó«á»\ I/O »\ MODULE APOLLO IO A1.0 SCSI 68P-SCSI 68P L:180mm

FIGURE 5-12: APOLLO BACK MODULE ASSEMBLY

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5.13. Stand Module Assembly

The APOLLO system comes with a versatile stand composing of one big pedestal and one set of cable management covers. The following figure illustrates the steps to make up the APOLLO stand.

1. Refer to Fig. 5-13. Fix the two hinges to the hinge bracket

(5). Then fix the unit to the metal base (1). Please note that the two hinges are different. The right side is used to fix the hinge knob. Note that there are two avocado-shape holes on the metal base. The two avocado holes are used to fix the stand to the table for special application.

2. Insert the stand bottom cover (4) to the hinge module and

fix them together with four flat-head 3*6 screws.

3. Fix the plastic upper cover (6) to the hinge bracket with 2

screws.

4. Insert the whole base unit to the base plastic cover (7)

and fix them together with screws to make the complete unit a pedestal.

5. Insert the hinge knob (2) to the pedestal.

APOLLO °ò®y¼Ò²Õ

©³®yÅKªO HINGE (¥ª) with LOCK HINGE (¥k) APOLLO 120/150 Âà¶b-×¹¢¤U»\ Âà¶b¤ä¬[ APOLLO 120/150 Âà¶b-×¹¢¤W»\ APOLLO 120/150 ¶ì½¦©³®y

FIGURE 5-13: APOLLO PEDESTAL ASSEMBLY

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To assemble the stand module (Fig. 5-14 (1)) to the main system (2), simply tighten the two units together with 4 screws from the base. Then, install the two base back covers (4 & 5) to the unit as shown below. There is an additional knob in the accessory. If touchscreen is to be used with the system, it is suggested that the additional knob is to be assembled to the system to prevent the system from wobbling. By swiveling the knob and pulling the base up and down, the angle can be fixed at 45 to 900.

¥DÅé »P °ò®y²Õ¥ß

FIGURE 5-14: APOLLO STAND TO MAIN SYSTEM ASSEMBLY

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6. SYSTEM MOTHERBOARD & I/O BOARD

The system controller used in the APOLLO III system is a special-design Celeron/Pentium® III multimedia motherboard. All the onboard signal is connected to an I/O board via 2 SCSI cables for external device connection. This chapter provides jumper definition and connector signal of the motherboard and the I/O board.

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6.1. APOLLO III Motherboard

This section provides background information and detail specification on the APOLLO 120/150 III system engine, PC

610. Sections include:

² General Information ² Features ² Specification ² Board placement & Dimension

6.1.1. General Information

The PC 610 is an Intel Celeron/Pentium III (Socket 370) multimedia ATX motherboard with LCD/VGA controller, Ethernet 100/10, AC97 sound, and IDE flash disk. By integrating single chip, SiS630ST, the PC 610 provides a high performance/low cost desktop solution.

Highly integrated, the PC 610 can adapt Intel Celeron (66/100MHz) and Pentium III (100/133MHz) CPU. Onboard features include four serial ports, one multi–mode Parallel ports, a floppy drive controller and a PS/2 keyboard PS/2 mouse interface. The built-in high speed PCI IDE controller supports both PIO and ATA 100 mode. Up to four IDE devices can be connected, including large hard disks, CD-ROM drives and other IDE devices. The full PC functionality coupled with its multi-I/Os stand ready to accommodate a wide range of PC peripherals. The full PC functionality coupled with its multi-I/Os stand ready to accommodate a wide range of PC peripherals. Compact in size and with its highly integrated multimedia and networking functions, the PC 610 is the most powerful PC engine to build any small footprint all-in-one PC system for integration into any space-constricted embedded applications.

Fully configurable and with its modular design, the PC 610 is an ideal platform for any consumer computing applications where space is a premium.

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6.1.2. Specifications

PC 610: Multimedia Intel Celeron/Pentium III Motherboard

with XGA, LCD, Dual display, Ethernet & Audio Interface

u CPU: Intel Socket 370

• Intel Pentium III FCPGA 1GHz/133MHz

• Intel Pentium III FCPGA 650-933/133MHz

• Intel Pentium III FCPGA 500E-850E/100MHz

• Intel Celeron FCPGA 800MHz-1.10GHz/100MHz

• Intel Celeron FCPGA 533AMHz-766MHz/66MHz

• Intel Celeron PPGA 300A-533MHz/66MHz

u Main Chipset: SiS630ST u System BIOS: Award PnP Flash BIOS u System Memory: 1 x 168 pin DIMM sockets

supporting SDRAM up to 512MB

u L2 Cache: CPU built-in u Standard I/O

• Serial ports x 4

• Parallel port x 1

• ATA 100/66 IDE x 2: supports up to 4 IDE devices

• FDD x 1: supports up to 2 floppy disk drives

• PS/2 Keyboard Interface x 1

• Internal Keyboard Interface x 1

• PS/2 Mouse Interface x 1

• USB Interface x 2

u IrDA: 5-pin header with CIR support u Ethernet

• 100/10 Base-T Ethernet

• Support WAKE-ON-LAN

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u Display

• LCD controller

• Integrated 2D/3D graphics engine, 4X AGP

• Share system memory architecture able to utilize

the display memory size up to 64MB

• Maximum resolution for video chipset: 640x480, 800x600, 1024x768, 1280x1024, 1600x1200, 1920x1200, True-color

• Supporting LCD/VGA dual display mode (under Windows 98, Windows ME and Windows XP)

u Audio Function

• Full duplex and independent sample rate converter for audio recording & playback

• Supports Microsoft DirectSound

• 3D positional audio effects

• Hi-performance, mixed-signal, stereo

• MIC-In, Speaker-Out, Line-In

• Pin header for CD-audio in

u Hardware Monitor

• Monitoring processor & system

• Monitoring 5VSB, VBAT, 1.5V, 3.3V, +5V, +12V,

-12V, and processor voltages

• Monitoring processor, chassis fan speeds

• Controlling processor and chassis fan speed and

failure alarm

• Automatic fan on/off control

• Read back capability that displays temperature,

voltage and fan speed

• Supporting Intel processor thermal diode output (real processor temperature)

u Expansion Bus: PCI/ISA x 1 u Power: ATX power

u Dimension: 300*146 mm (L*W)

Specifications are subject to change without notice. 6-

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6.1.3. Locating Jumpers & Connectors

The following figure helps you to locate the jumpers and

connectors on the motherboard.

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6.1.4. Jumpers & Jumper Setting

The table below lists the function of each jumper. The related jumper settings are shown in the coming sections.

Jumper

JP1 DOC Address Selection JP2 Clear CMOS JP5 COM2 RS-232/422/485 selection JP6 COM2 RS-232/422/485 selection JP7 COM2 RS-232/422/485 selection

JP8 COM2 RS-232/422/485 selection JP9 COM2 RS-232/422/485 selection JP10 COM2 RS-232/422/485 selection

Description

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User Manual version 2007

6.1.4.1. DOC 2000 Address Setting (JP1)

1-2 D000 3-4 D800

6.1.4.2. Clear CMOS (JP2)

1-2 Clear CMOS 3-4 Normal

6.1.4.3. COM 2 232/422/485 Setting (JP5,6,7,8,9 & 10)

COM 2 is a RS-232/422/485 serial port. JP5, 6, 7, 8, 9 and JP10 determine the specific port type.

RS-232 RS-422 RS-485 JP5 1-2 2-3 2-3 JP6 1-2 2-3 2-3 JP7 1-2 2-3 2-3 JP8 1-2 2-3 2-3 JP9 1-2 2-3 2-3 JP10 1-2 3-4 5-6

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6.1.5. Connectors & Pin Assignment

The table below lists the function of each connector on the PC

610. Their corresponding pin assignments will be shown in the following sections.

Connector Description PWR1 Power Connector For Touch Screen PWR2 Power Connector For CD-ROM PWR3 ATX Power Connector J2 CD Audio In J7 HDD LED & ACPI LED & SMI J8 IR/CIR connector J9 KB/Mouse/Speaker/LED Connector SCSI 1 I/O Connector SCSI 2 I/O Connector FAN1 CPU FAN Connector FAN2 System FAN Connector SW1 ATX Power ON/OFF LCD LCD Connector INV1 LCD Inverter connector FDD1 FDD connector IDE1 Primary IDE connector IDE2 Primary IDE connector COM3 Serial Port 3 (For Touch Screen)

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User Manual version 2007

6.1.5.1. PWR3: ATX Power connector

PWR 3 is a standard ATX power connector. This connector is provided to connect to an ATX power supply. The plug of the power supply will only insert in one orientation due to the different hole size. Find the proper orientation and push down the power connector firmly to make sure the pins are aligned. Its pin assignments are listed below:

Pin # Signal Pin # Signal

1 3.3V 11 3.3V 2 3.3V 12 -12V 3 GND 13 GND 4 +5V 14 PSON# 5 GND 15 GND 6 +5V 16 GND 7 GND 17 GND 8 PWROK 18 -5V 9 SB5V 19 +5V

10 +12V 20 +5V

1 10

11 20

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6.1.5.2. J2: CD Audio IN

Pin # Signal

1 Left channel 2 CD GND 3 CD GND 4 Right channel

6.1.5.3. J7: HDD LED & ACPI LED & SMI

Pin # Signal

1 HDD LED+ 2 HDD LED3 ACPI LED+ 4 ACPI LED5 SMI 6 GND

6.1.5.4. J8: IR / CIR Connector

IR CIR

Pin # Signal Pin # Signal

1 5V 6 NC 2 NC 7 CIRRX 3 IRRX 8 5V (CIR) 4 GND 9 GND 5 IRTX 10 NC

APOLLO 120/150 III

User Manual version 2007

6.1.5.5. J9: Power LED & KB

Pin #

1 VCC 2 VCC 3 HDD LED 4 LAN LED 5 IR TX 6 GND 7 NC 8 NC 9 (BLK_CTRL1) 10 (BLK_CTRL2 11 GND 12 GND 13 SPK-LO 14 SPK-RO 15 SPK-LN 16 SPK-LN 17 GND 18 GND 19 EXT.KBDAT 20 INT.KBDAT 21 EXT.KBCLK 22 INT.KBCLK 23 EXT.MSDAT 24 INT.MSDAT 25 EXT.MSCLK 26 INT.MSCLK

6.1.5.6. SW1: ATX Power ON/OFF & Reset

Pin #

1 Power ON/OFF 2 GND

6.1.5.7. COM3

COM 3 is an internal RS-232 reserved for touchscreen. Its corresponding pin assignment is listed as below;

Pin # Signal Pin # Signal

1 DCD 2 DSR 3 RXD 4 RTS 5 TXD 6 CTS 7 DTR 8 RI 9 GND 10 NC

Signal Pin # Signal

Signal

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6.1.5.8. LCD1: LCD Connector

Pin # Signal Pin # Signal

1 5V 2 5V

3 GND 4 GND

5 3.3V 6 3.3V

7 VBCAD 8 VBCTL0

9 P00 (B0) 10 P01 (B1)

11 P02 (B2) 12 P03 (B3) 13 P04 (B4) 14 P05 (B5) 15 P06 (B6) 16 P07 (B7) 17 P08 (G0) 18 P09 (G1) 19 P10 (G2) 20 P11 (G3) 21 P12 (G4) 22 P13 (G5) 23 P14 (G6) 24 P15 (G7) 25 P16 (R0) 26 P17 (R1) 27 P18 (R2) 28 P19 (R3) 29 P20 (R4) 30 P21 (R5) 31 P22 (R6) 32 P23 (R7) 33 GND 34 GND 35 SHFCLK 36 FLM 37 DE / M 38 LP 39 GND 40 GND 41 VBCTL1 42 VBCLK 43 GND 44 SSYNC 45 GND 46 VBHCLK 47 ENVB 48 PCIRST# 49 ENEXTPLK 50 INTA#

APOLLO 120/150 III

User Manual version 2007

6.1.5.9. INV1: LCD Inverter Connector

Pin # Signal

1 Backlight ADJ 2 GND 3 Backlight Enable 4 12V

6.1.5.10. FDD1: FDD connector

Pin # Signal Pin # Signal

1 VCC 2 INDEX# 3 VCC 4 DSA# 5 VCC 6 DSKCHG# 7 NC 8 NC 9 NC 10 MOA# 11 NC 12 DIR# 13 RWC# 14 STEP# 15 GND 16 WD# 17 GND 18 WE# 19 GND 20 TRAK0# 21 GND 22 WP# 23 GND 24 RDATA# 25 GND 26 HEAD#

1 4

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2 40

6.1.5.11. IDE1/IDE2: Primary/Secondary HDD

The PC 610 provides 2 sets of 40-pin IDE connectors. The built-in high speed PCI IDE controller supports both PIO and ATA 100 mode. Up to four IDE devices can be connected, including large hard disks, CD-ROM drives and other IDE devices. Their corresponding pin assignments are listed below;

Pin # Signal Pin # Signal

1 RESET# 2 GND 3 DATA 7 4 DATA 8 5 DATA 6 6 DATA 9 7 DATA 5 8 DATA10

9 DATA 4 10 DATA11 11 DATA 3 12 DATA12 13 DATA 2 14 DATA13 15 DATA 1 16 DATA14 17 DATA 0 18 DATA15 19 GND 20 NC 21 IDEREQ 22 GND 23 IOW# 24 GND 25 IOR# 26 GND 27 ICHRDY# 28 GND 29 DACK 30 GND 31 IDEIRQ 32 NC 33 A1 34 LID 35 A0 36 A2 37 IDECS0 38 IDECS1 39 HDD LED 40 GND

APOLLO 120/150 III

User Manual version 2007

6.1.5.12. SCSI 1: Parallel Port/Serial Port/DIO Port

Pin # Signal Pin # Signal

1 GND 35 GND 2 PD0 36 GND 3 PD1 37 RTSA 4 PD2 38 DTRA 5 PD3 39 SOUTA 6 PD4 40 RIA 7 PD5 41 CTSA 8 PD6 42 DSRA 9 PD7 43 SINA 10 STB# 44 DCDA 11 ACK# 45 GND 12 SLIN# 46 RTSB 13 INT# 47 DTRB 14 ERR# 48 SOUTB 15 AFD# 49 RIB 16 SLCT 50 CTSB 17 PE 51 DSRB 18 BUSY 52 SINB 19 GND 53 DCDB 20 IN 0 54 GND 21 IN 1 55 RTSD 22 IN 2 56 DTRD 23 IN 3 57 SOUTD 24 OUT 0 58 RID 25 OUT 1 59 CTSD 26 OUT 2 60 DSRD 27 OUT 3 61 SIND 28 GND 62 DCDD 29 VCC 63 GND 30 VCC 64 +12V 31 VCC 65 +12V 32 VCC 66 +12V 33 VCC 67 +12V 34 VCC 68 +12V

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6.1.5.13. SCSI 2: KB/MS/VGA/LAN USB/EXT. FDD

Pin # Signal Pin # Signal

1 GND 35 GND 2 GND 36 GND 3 HSYNC 37 UV0+ 4 VSYNC 38 UV05 RED 39 UV1+ 6 GREEN 40 UV17 BLUE 41 GND 8 DDCCLK 42 GND 9 DDCDATA 43 GND 10 GND 44 RX+ 11 GND 45 RX12 GND 46 TX+ 13 RWC# 47 TX14 INDEX# 48 GND 15 MOA# 49 GND 16 DSA# 50 GND 17 DIR# 51 LINE IN _R 18 STEP# 52 LINE IN_L 19 WD# 53 MIC 20 WE# 54 HP_R 21 TRAK0# 55 HP_L 22 WP# 56 NC 23 RDATA# 57 GND 24 HEAD# 58 GND 25 DSKCHG# 59 GND 26 GND 60 KBDATA 27 GND 61 KBCLK 28 BACK LIGHT 62 MSDATA 29 NC 63 MSCLK 30 VCC3 64 SB5V 31 VCC3 65 SB5V 32 VCC3 66 SB5V 33 VCC3 67 SB5V 34 VCC 68 SB5V

APOLLO 120/150 III

Apollo 150, 120 User Manual

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