APOLLO 120 /150 IV 12.1”/15.0” or 15.
Copyright Notice This document is copyrighted 2003 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.
Unpacking After unpacking the APOLLO 120/150 IV carton, check and see if the following items are included and in good condition. u u APOLLO IV main system x Accessories - Power cord (90o) x - External FDD cable (optional) x - External 5V/12V DC power cable (optional) x - Utilities & drivers & user manual CD diskette x (for touchscreen drivers, please download the updated drivers from the following website http://www.3m.com or http://www.elotouch.com or http://www.eturbotouch.
Important Safety Precautions Before getting started, read these instructions and save them for later reference. 1. 2. 3. Turn off the computer before cleaning. Clean with a damp or dry cloth only. Do not spray any liquid cleaner on screen directly. 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.
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.
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 ........................
4. I/O CONNECTION ........................................ 4-29 4.1. 4.2. 4.3. 4.4. 4.5. 4.6. 4.7. 4.8. 4.9. 4.10. 4.11. 4.12. 4.13. 4.14. PARALLEL PORT .......................................... 4-30 COM PORTS X 4 ........................................ 4-31 100/10 BASE-T ETHERNET (RJ-45)................ 4-33 VGA INTERFACE ......................................... 4-33 PS/2 KEYBOARD INTERFACE........................... 4-34 PS/2 MOUSE INTERFACE ............................... 4-34 EXTERNAL FDD (DB-15) ..
6. SYSTEM MOTHERBOARD & I/O BOARD ........ 6-67 6.1. APOLLO IV MOTHERBOARD .......................... 6-68 6.1.1. General Information ............................. 6-68 6.1.2. Specifications....................................... 6-69 6.1.3. Locating Jumpers & Connectors.............. 6-71 6.1.4. Jumpers & Jumper Setting..................... 6-72 6.1.4.1. DOC 2000 Address Setting (JP2)....... 6-73 6.1.4.2. Clear CMOS (JP12).......................... 6-73 6.1.4.3. COM 2 232/422/485 Setting.............
6.2. APOLLO IV I/O BOARD .............................. 6-86 6.2.1. Locating Jumpers & Connectors.............. 6-86 6.2.2. Jumpers & Jumper Setting..................... 6-87 6.2.2.1. JP1: Keyboard Power Select ............ 6-87 6.2.2.2. COM port Power Selection ................ 6-87 6.2.3. Connectors & Pin Assignment................. 6-88 6.2.3.1. KB1: PS/2 Keyboard Connector ........ 6-89 6.2.3.2. KBMS: PS/2 Mouse ......................... 6-89 6.2.3.3. COM1, COM2, COM4: DB-9 ............. 6-89 6.2.3.4.
7. AWARD BIOS SETUP .................................... 7-95 7.1. AWARD BIOS............................................ 7-96 7.2. CONTROL KEY DEFINITION ............................. 7-97 7.3. GETTING HELP ........................................... 7-98 7.3.1. Main Menu........................................... 7-98 7.4. AWARD BIOS SETUP ................................. 7-98 7.4.1. AWARD BIOS Setup Main Menu.............. 7-98 7.4.2. Standard CMOS Features..................... 7-100 7.4.3.
User Manual version 2305 1. INTRODUCTION This chapter provides background information and detail specification on the APOLLO 120/150 IV.
User Manual version 2305 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.
User Manual version 2305 1.2. What Covers in this Manual This handbook contains most information you need to set up and use the APOLLO IV 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 IV.
User Manual version 2305 Appendix A details the 12.1”/15.0” or 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.
User Manual version 2305 1.3. Specifications APOLLO IV: 12.1”/15.0” or 15.1” TFT Intel ® Celeron/Pentium IV Plastic-housing Panel PC with Versatile Stand design SYSTEM Flat Panel u u APOLLO 120: Viewing angle 12.1” color TFT, 800*600 100 Luminance (cd/m2) Simultaneous mode APOLLO 150: Viewing angle Luminance (cd/m2) 150 or above yes 15.0”/15.1” color TFT, 1024*768 120 250/200 or above, optional high-luminance model yes Simultaneous mode CPU (Socket 478) u u u Intel Pentium IV mPGA 2.26GHz-3.
User Manual version 2305 Standard I/O u 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 u u u u Parallel Port*1: supports SPP/EPP/ECP External FDD Interface*1 +5V/+12V DC-out*1 PS/2 Keyboard Interface*1 u u u u u u PS/2 Mouse Interface*1 DIO: Input*2, output*2 USB port*2 supporting USB 2.
User Manual version 2305 Audio Function u Full duplex and independent sample rate converter for audio recording & playback u Supports Microsoft DirectSound u u u u 3D positional audio effects Hi-performance, mixed-signal, stereo MIC-In, Speaker-Out, Line-In Pin header for CD-audio in Hardware Monitor Monitoring processor & system Monitoring 5VSB, VBAT, 1.5V, 3.
User Manual version 2305 PERIPHERAL & STORATE DEVICES Touchscreen (optional, sharing COM3) u u 12.1”/15.1” analog resistive type with RS-232 controller 12.1”/15.1” capacitive type with RS-232 controller u 12.1”/15.1” surface acoustic wave type (SAW) Power Supply u ATX 200W, input range: 100~240V/5A @60Hz, 200~240V/2.
User Manual version 2305 MECHANICAL & ENVIRONMENTAL Construction u u Inside: Heavy-duty steel Outside: Fire-proof resilient ABS/PC plastic Color (standard) u u Beige Black Dimension (chassis only, unit: mm) u u APOLLO 120: 368*321*116.5 (L*W*D); 334.7*284.21 (for panel mount) APOLLO 150: 406*360*129 (L*W*D); 384*284.
User Manual version 2305 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.
User Manual version 2305 1.4.2. APOLLO 150 The APOLLO 150’s chassis size is shown below. This does not include the dimension of the stand.
User Manual version 2305 2-12 APOLLO 120/150 IV
User Manual version 2305 2.
User Manual version 2305 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” & 15.0” or 15.1”. 12.1”/ 15.
User Manual version 2305 2.1.2.
User Manual version 2305 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. 4 2 1 A B C 4 J A. COM 4 D. VGA PORT G. PS/2 MOUSE K D E 2 L M N O HI P C. VR BRIGHTNESS K. SPEAKER-OUT M. MIC-IN N. ETHERNET (RJ-45) P. USB*2 L. 2-16 G 1 B. J. EXTERNAL FDD E. COM 1 H. +5/12V DC-OUT F COM 2 F. PRINTER PORT I. PS/2 KEYBOARD LINE-IN O.
User Manual version 2305 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 u PS/2 or AT keyboard or wireless keyboard PS/2 or serial mouse 2.2.1. Installation Procedures The APOLLO system can be powered an AC electrical outlet (100~240V/5A @60Hz, 200~240V/2.5A @50Hz).
User Manual version 2305 2.2.2. Running the BIOS Setup If you are a commercial user, the APOLLO 120/150 IV 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 IV system have been changed. 3.
User Manual version 2305 2.2.3. Operating System and Driver Installation The APOLLO IV 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.
User Manual version 2305 3-20 APOLLO 120/150 IV
User Manual version 2305 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.
User Manual version 2305 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.
User Manual version 2305 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.
User Manual version 2305 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.
User Manual version 2305 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.
User Manual version 2305 FIGURE 3-5: APOLLO 150 VESA FIGURE 3-6 3-26 HOLES FIGURE 3-7 APOLLO 120/150 IV
User Manual version 2305 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.
User Manual version 2305 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.
User Manual version 2305 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.
User Manual version 2305 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.
User Manual version 2305 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.
User Manual version 2305 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.
User Manual version 2305 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.
User Manual version 2305 4.5. 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. 4.6. 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.
User Manual version 2305 4.7. 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.
User Manual version 2305 4.8. +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 IV 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.
User Manual version 2305 4.10. DIO (Digital Input & Output) The APOLLO IV 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.
User Manual version 2305 The Digital I/O is of TTL interface. software programming.
User Manual version 2305 4.11. 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.
User Manual version 2305 5-40 APOLLO 120/150 IV
User Manual version 2305 5. HARDWARE INSTALLATION AND UPGRADE This chapter overviews the installation of the APOLLO IV’s internal components and devices. This chapter is for service engineers not for the end user.
User Manual version 2305 The APOLLO 120/150 IV consists of a socket 478 Celeron/ Pentium ® IV multimedia motherboard with an adequate CPU and relevant DDR 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.
User Manual version 2305 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. APOLLO 120 ¥D Åé ²Õ «~ APOLLO 120 -± ª² OÕ «~ APOLLO 120 LCD²Õ «~ CDROM-FDD²Õ «~ ½cÅé ¥D ¾÷ ªµ O´ ½t¤ù 302*148*0.35 PC620 ¼Ò ²Õ A1.0 POWER CABLE ¤j4P-¤p4P*2-2P 180mm MODULE APOLLO RISER A1.
User Manual version 2305 The following diagram shows the system major parts that make up the APOLLO 150 main system. APOLLO 150 ¥D Åé ²Õ «~ APOLLO 150 -± ªO ²Õ «~ APOLLO 150 LCD²Õ «~ CDROM-FDD²Õ «~ ½cÅé ¥D ¾÷ ªO µ´ ½t¤ù 302*148*0.35 PC620 ¼Ò ²Õ A1.0 POWER CABLE ¤j4P-¤p4P*2-2P 180mm MODULE APOLLO RISER A1.0 RISER CARD¸É ±j±ì POWER ²Õ «~ «á µ¡ µL ¤Õ ÅK ¤ù MODULE M2210 A1.
User Manual version 2305 5.2. Installing the CPU The APOLLO IV can adapt Socket 478 Intel Celeron or Pentium IV CPU. Upgrading the CPU can increase the system performance. The APOLLO’s motherboard provides one 478-pin ZIF socket (Socket 478). 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.
User Manual version 2305 5.3. Installing the DDR Memory Module The APOLLO 120/150 IV system control board provides 1 x 184-pin DDR socket, able to support DDR memory from 128MB up to 1GB. To install the memory module, follow the instructions below. 1. 2. Find the 184 pin DDR socket on the motherboard There are two white eject levers at each end of the DDR socket. Push them outward until they separate from the two vertical posts. 3.
User Manual version 2305 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 DDR 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 DDR installation). 1. The lower side of the chassis has a rectangle opening at the bottom of the chassis.
User Manual version 2305 5.5. Touch Controller Assembly If a touchscreen 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 be 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.
User Manual version 2305 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 one FTS 3*5 screw. 3.
User Manual version 2305 5.7. Touchscreen or Front Bezel Assembly The APOLLO is able to accommodate Elo analog resistive touch or Intelli (SAW) touch or 3M 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.
User Manual version 2305 APOLLO 120 -± ª² OÕ «~ 12" -± ªO ²Õ ¥ó 12" ¾ó ½¦ À£ ±ø (¥ª ¥k) 12" ¾ó ½¦ À£ ±ø (¤W ¤U ) 12.1"ELO TOUCH ¹qªý ¦¡ ELO 12.1"À£ ±ø (¥ª ¥ k) ELO 12.1"À£ ±ø (¤W ¤U ) ªẃ Ö À£ ±ø 185*5*1 mm ¥ª ¥kPE ªẃ Ö À£ ±ø 250*5*1 mm ¤W ¤U PE FIGURE 5-6: APOLLO 120 FRONT BEZEL ASSEMBLY APOLLO 150 -± ª² OÕ «~ 15" -± ªO ²Õ ¥ó 15" ¾ó ½¦ À£ ±ø 232*5*2(¥ª ¥k) 15" ¾ó ½¦ À£ ±ø 318*5*2(¤W ¤U ) 15.0"ELO TOUCH ¹qªý ¦¡ ELO 15.0"À£ ±ø (¥ª ) ELO 15.0"À£ ±ø (¤W ¤U ) ELO 15.
User Manual version 2305 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. APOLLO 120 1. Refer to Figure 5-8. There are two LCD brackets (2) & (3) used to fix to the LCD panel (1) to the LCD holder (11) from the up & down sides. 2.
User Manual version 2305 APOLLO 150 1. Refer to Figure 5-9. The standard LCD used in APOLLO 150 is either 15.1” TTL LG 151X2 or 15” LVDS Chi Mei M150X3-L01 or their equivalent. The assembly of TTL LCD differs from that of the LVDS LCD. 2. Fix the LCD panel (1) to the LCD holder (9) with four PMS 3*8 screws. For the TTL LCD, LM151X2 or its equivalent, as the motherboard onboard display is an LVDS controller, to connect the onboard LVDS controller to the LCD, an LVDS receiver board is needed.
User Manual version 2305 12. 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 connected to the 2-pin header on the IR/LED board.
User Manual version 2305 13. 12" LCD ²Õ «~ 12.1"LCD PANEL 12"LCD©T ©w ¬[¤U 12"LCD ©T ©w ¬[¤W 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¤ù 120*26.7*0.35 12"«eÅK ªO 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¤ù 168*39*0.
User Manual version 2305 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 8 FMS 3*6 screws. 2.
User Manual version 2305 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 or a 3-in-1 COMBO unit 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.
User Manual version 2305 9. There is a 4-pin CD audio-in cable to be plugged to CD1 on the motherboard. Connect the other end of the CD-Audio cable (6) to the 4-pin black pin connector on the CD-ROM board. 10. Connect the other end of the FDD cable to the FDD1 on the motherboard. 11. Fix the whole unit to the chassis and fix them together with 3 FMS 3*5 screws. CDROM/FDD ²Õ «~ ºÏ ¾÷ ªþ ¥ó slim CDROM CDROM ¶¡ ¹¬ j 2W.5mm MODULE CDROM-FDD CDROM CABLE 150mm SOUND CABLE P/H 2.
User Manual version 2305 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. FDD cable 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.
User Manual version 2305 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 FMS screws (3*5).
User Manual version 2305 POWER ²Õ «~ POWER©T ©w ¬[ POWER©T ©w ¬[ªþ ¥ó -2 POWER SUPPLY §ù̈¹ SOFT SWITCH 120mm POWER©T ©w ¬[ª þ ¥ó -1(AC-AC) The power cable coming out from the cutout and connected to the MB’s ATX power connector.
User Manual version 2305 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.
User Manual version 2305 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.
User Manual version 2305 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.
User Manual version 2305 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.
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User Manual version 2305 6. SYSTEM MOTHERBOARD & I/O BOARD The system controller used in the APOLLO IV system is a special-design Intel Socket 478 Celeron/Pentium ® IV 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.
User Manual version 2305 6.1. APOLLO IV Motherboard This section provides background information and detail specification on the APOLLO 120/150 IV system engine, PC 710. Sections include: ² General Information ² Features ² Specification ² Board placement & Dimension 6.1.1. General Information The PC 710 is an Intel Pentium IV (Socket 478) multimedia ATX motherboard with LCD/VGA controller, Ethernet 100/10, AC97 sound, and IDE flash disk.
User Manual version 2305 6.1.2. Specifications PC 710: Multimedia Socket 478 Intel Pentium IV Motherboard with XGA, LCD, Ethernet & Audio Interface u CPU: Intel Socket 478 • Intel Pentium IV mPGA 2.26GHz-3.06GHz/533MHz • Intel Pentium IV mPGA 1.8GHz-2.4GHz/400MHz • Intel Celeron mPGA 1.7GHz-2.
User Manual version 2305 u Display • LVDS controller • Supports 2-channel LVDS LCD, resolution up to 1600x1200 u u • 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 Audio Function • Full duplex and independent sample rate converter for audio recording & playback • Supports Microsoft DirectSound • 3D positional audio
User Manual version 2305 6.1.3. Locating Jumpers & Connectors The following figure helps you to locate the jumpers and connectors on the motherboard.
User Manual version 2305 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.
User Manual version 2305 6.1.4.1. DOC 2000 Address Setting (JP2) 1-2 D000 3-4 D800 6.1.4.2. Clear CMOS (JP12) 1-2 Normal 2-3 Clear CMOS 6.1.4.3. COM 2 232/422/485 Setting COM 2 is a RS-232/422/485 serial port. JP7, 8, 9, 10, 11 and JP14 determine the specific port type. RS-232 RS-422 RS-485 JP7 1-2 2-3 2-3 JP8 1-2 2-3 2-3 JP9 1-2 2-3 2-3 JP10 1-2 2-3 2-3 JP11 1-2 2-3 2-3 JP14 1-2 3-4 5-6 6.1.4.4. SW1: LCD Display Resolution Select SW1 is to select LCD resolution.
User Manual version 2305 6.1.5. Connectors & Pin Assignment The table below lists the function of each connector on the PC 710. Their corresponding pin assignments will be shown in the following sections.
User Manual version 2305 6.1.5.1. ATXP1: ATX Power connector ATXP1 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.
User Manual version 2305 6.1.5.3. CD1: CD Audio IN Pin # Signal 1 Left channel 2 CD GND 3 CD GND 4 Right channel 1 4 6.1.5.4. JP15: Power LED & Suspend LED Pin # Signal 1 Power LED+ 2 Power LED- 3 ACPI LED+ 4 ACPI LED- 6.1.5.5.
User Manual version 2305 6.1.5.6. J1: Power LED & KB Pin # Signal Pin # Signal 1 VCC 2 VCC 3 HDD LED 4 LAN LED 5 IR TX 6 IRRX 7 KEY 8 CIRRX 9 BACKLIGHT 10 CTRL INPUT BACKLIGHT CTRL OUTPUT 11 GND 12 GND 13 SPK-LO 14 SPK-RO 15 SPK-LN 16 SPK-RN 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 6.1.5.7. SW1: ATX Power ON/OFF & Reset Pin # Signal 1 Power ON/OFF 2 GND 6.1.5.8.
User Manual version 2305 6.1.5.9.
User Manual version 2305 6.1.5.10. INV1: LCD Inverter Connector Pin # Signal 1 Backlight ADJ 2 GND 3 Backlight Enable 4 12V 1 4 6.1.5.11.
User Manual version 2305 6.1.5.12. IDE1/IDE2: Primary/Secondary HDD The PC 710 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.
User Manual version 2305 6.1.5.13.
User Manual version 2305 6.1.5.14. SCSI 2: KB/MS/VGA/LAN USB/EXT.
User Manual version 2305 6.1.5.15. CN4: PCI/ISA Expansion Slot The PC 710 provides an ISA/PCI slot for ISA and PCI device expansion.
User Manual version 2305 CN4: PCI/ISA Slot Connector Pin Assignment Pin Signal Pin Signal Pin Signal Pin Signal F1 GND B1 GND E1 GND A1 IOCHK F2 GND B2 ISARST E2 GND A2 SD7 F3 INTB B3 VCC E3 INTC A3 SD6 F4 INTA B4 IRQ9 E4 INTD A4 SD5 F5 VCC B5 -5V E5 VCC A5 SD4 F6 KEY B6 DRQ2 E6 KEY A6 SD3 F7 VCC B7 -12V E7 VCC A7 SD2 F8 PCICLK1 B8 OWS E8 PCIRST A8 SD1 F9 GND +12V E9 GNT0 A9 SD0 B9 F10 GNT3 B10 GND E10 REQ0 A10 IORDY F11 GND
User Manual version 2305 To continue … Pin Signal Pin Signal Pin Signal Pin Signal F29 DEVSEL B29 VCC E29 CBE2 A29 SA2 F30 LOCK B30 OSC E30 TRDY A30 SA1 F31 PERR B31 GND E31 STOP A31 SA0 H1 SERR D1 MEMCS16 G1 NC C1 SBHE H2 AD15 D2 IOCS16 G2 NC C2 LA23 H3 AD14 D3 IRQ10 G3 CBE1 C3 LA22 H4 AD12 D4 IRQ11 G4 PAR C4 LA21 H5 GND D5 IRQ12 G5 GND C5 LA20 H6 KEY D6 IRQ15 G6 KEY C6 LA19 H7 GND D7 IRQ14 G7 GND C7 LA18 H8 AD10 D8 DACK0 G8
User Manual version 2305 6.2. APOLLO IV I/O Board All the onboard I/O signal of the APOLLO motherboard is connected to an I/O board via 2 SCSI cables for external device connection. This section provides jumper definition and connector signal of the I/O board. 6.2.1. Locating Jumpers & Connectors The following figure helps you to locate the jumpers and connectors on the motherboard.
User Manual version 2305 6.2.2. Jumpers & Jumper Setting The table below lists the function of each jumper. The related jumper settings are shown in the coming sections. JP1 Keyboard Connector power selection JP2 COM1 Pin 9 power selection JP3 COM2 Pin 9 power selection JP4 COM4 Pin 9 power selection 6.2.2.1. JP1: Keyboard Power Select 1-2 SB5V 2-3 +5V 6.2.2.2.
User Manual version 2305 6.2.3. Connectors & Pin Assignment The table below lists the function of each connector on the I/O board. Their corresponding pin assignments will be shown in the following sections.
User Manual version 2305 6.2.3.1. KB1: PS/2 Keyboard Connector Pin # Signal 1 KBDATA 2 NC 3 GND 4 SB5V 5 KBCLK 6 NC 6.2.3.2. KBMS: PS/2 Mouse Pin # Signal 1 MSDATA 2 NC 3 GND 4 5V 5 MSCLK 6 NC 6.2.3.3.
User Manual version 2305 6.2.3.4. CN1: DC Power Output Pin # Signal Pin # Signal 1 GND 5 +5V 2 GND 6 +12V 3 +5V 7 GND 4 +12V 8 GND 6.2.3.5. LPT1: D-SUB-25 Parallel Port Pin # Signal Pin # Signal 1 STRB# 14 AFD# 2 DATA 0 15 ERROR# 3 DATA 1 16 INIT# 4 DATA 2 17 SLINT# 5 DATA 3 18 GND 6 DATA 4 19 GND 7 DATA 5 20 GND 8 DATA 6 21 GND 9 DATA 7 22 GND 10 ACK# 23 GND 11 BUSY 24 GND 12 PE 25 GND 13 SLCT 6.2.3.6.
User Manual version 2305 6.2.3.7. FDD1: External FDD Connector Pin # Signal Pin # Signal Pin # Signal 1 RWC# 6 WP# 11 RDATA# 2 INDEX# 7 TRAK0# 12 HEAD# 3 MOA# 8 WE# 13 DSKCHG# 4 DSA# 9 WD# 14 GND 5 DIR# 10 STEP# 15 GND 6.2.3.8. J11: USB 1, USB2 Connector USB1 Pin # Signal USB2 Pin # Signal 1 USBVCC 1 USBVCC 2 Data- 2 Data- 3 Data+ 3 Data+ 4 GND 4 GND 6.2.3.9.
User Manual version 2305 6.2.3.11. MIC1 Pin # Signal 1 Vref 2 NC 3 GND 4 MIC IN 5 GND 6.2.3.12. LINE 1 Pin # Signal 1 Right CHI 2 GND 3 GND 4 Left CH 5 GND 6.2.3.13.
User Manual version 2305 6.2.3.14.
User Manual version 2305 6.2.3.15. SCSI 2: KB/MS/VGA/LAN USB/EXT.
User Manual version 2305 7. AWARD BIOS SETUP The chapter describes how to set up BIOS configuration.
User Manual version 2305 7.1. Award BIOS The Award BIOS ROM builds in a setup program, which allows the users to modify the basic system configuration such as the current date and time or the type of peripheral devices attached to the computer. Under the following conditions, the CMOS settings are to be changed¡ G 1. The system is starting for the first time 2. The hardware devices attached to the systems have been changed 3. The CMOS memory has lost power and the configuration information has been erased.
User Manual version 2305 7.2.
User Manual version 2305 7.3. Getting Help 7.3.1. Main Menu The on-line description of the highlighted setup function is displayed at the bottom of the screen. Press to pop up a small help window that describes the appropriate keys to use and the possible selections for the highlighted item. To exit the Help Window, press . 7.4. AWARD BIOS Setup 7.4.1. AWARD BIOS Setup Main Menu Power on the computer and press immediately to run the AWARD BIOS setup.
User Manual version 2305 u STANDARD CMOS SETUP: This setup page includes all the items in standard compatible BIOS. u ADVANCED BIOS FEATURES: This setup page includes all the items of Award special enhanced features. u ADVANCED CHIPSET FEATURES: This setup page includes all the items of chipset special features. u INTEGRATED PERIPHERALS: This setup page includes all onboard peripherals. u POWER MANAGEMENT SETUP: This setup page includes all the items of Green function features.
User Manual version 2305 7.4.2. Standard CMOS Features If the STANDARD CMOS FEATURE is selected from the main menu, the screen below will appear. This menu allows the users to configure the system components such as date, time, hard disk drive, floppy disk drive and display type. The system BIOS will automatically detect the memory size; therefore no setting is needed. Phoenix - Award BIOS Setup Utility Standard CMOS Features Date (mm: dd: yy) Thu. Jan.
User Manual version 2305 u DATE The date format is , . day The day, from Sun to Sat, determined by the BIOS and is display-only month The month, Jan. through Dec. date The date, from 1 to 31 (or the maximum allowed in the month) year The year, from 1994 through 2079 u TIME The times format in . The time is calculated base on the 24-hour military-time clock. For example, 1 p.m. is 13:00:00.
User Manual version 2305 u DRIVE A TYPE / DRIVE B TYPE The category identifies the types of floppy disk drive A or drive B that has been installed in the computer. None No floppy drive installed 360K, 5.25" 5.25 inch PC-type standard drive; 360K byte 1.2M, 5.25" 5.25 inch AT-type high-density drive; 1.2M bytes (3.5 inch when 3 Mode is Enabled). 720K, 3.5" 3.5 inch double-sided drive; 720K byte 1.44M, 3.5" 3.5 inch double-sided drive; 1.44M byte 2.88M, 3.5" 3.5 inch double-sided drive; 2.
User Manual version 2305 7.4.3. Advanced BIOS Features If the ADVANCED BIOS FEATURES option is selected from the main menu, the screen below will appear. The following sample screen consists of the default values for PC 710.
User Manual version 2305 u VIRUS WARNING Allow you to choose the VIRUS Warning feature for IDE Hard Disk boot sector protection. If this function is enabled and someone attempt to write data into this area, BIOS will show a warning message on screen and alarm beep. Enabled Activates automatically when the system boots up causing a warning message to appear when anything attempts to access the boot sector or hard disk partition table.
User Manual version 2305 u QUICK POWER ON SELF TEST This category speeds up Power On Self Test (POST) after you power up the computer. If it is set to Enable, BIOS will shorten or skip some check items during POST. Enabled Enable quick POST Disabled Normal POST u FIRST/SECOND/THIRD/OTHER BOOT DEVICE The BIOS attempts to load the operating system from the devices in the sequence selected in these items. The Choice: Floppy, LS/ZIP, HDD, SCSI, CDROM & Disabled.
User Manual version 2305 u TYPEMATIC RATE (CHARS/SEC) Sets the number of times a second to repeat a key stroke when you hold the key down. The choice: 6, 8, 10, 12, 15, 20, 24 & 30. u Typematic Delay (Msec) Sets the delay time after the key is held down before it begins to repeat the keystroke. The choice: 250, 500, 750 & 1000. u SECURITY OPTION Select whether the password is required every time the system boots or only when you enter setup.
User Manual version 2305 7.4.4. Advanced Chipset Features If the ADVAMCED CHIPSET FEATURES option is selected from the main menu, the screen below will appear. The following sample screen consists of the default values for PC 710.
User Manual version 2305 u TURBO MODE u MEMORY FREQUENCY FOR u SYSTEM BIOS CACHEABLE: Selecting Enabled allows caching of the system BIOS ROM at F0000h-FFFFFh, resulting in better system performance. However, if any program writes to this memory area, a system error may result. The choice: Enabled or Disabled. u VIDEO BIOS CACHEABLE Select Enabled allows caching of the Video RAM, resulting in better system performance. However, if any program writes to this memory area, a system error may result.
User Manual version 2305 7.4.5. Integrated Peripherals If the INTEGRATED PERIPHERALS option is selected from the main menu, the screen below will appear. The following sample screen consists of the default values for PC 710.
User Manual version 2305 u INTERNAL PCI/IDE This chipset contains an internal PCI IDE interface with support for two IDE channels. The choice: Primary, Secondary or Both. u IDE PRIMARY MASTER/SLAVE PIO The four IDE PIO (Programmed Input/ Output) fields let you set a PIO mode (0-4) for each of the four IDE devices that the onboard IDE interface supports. Modes 0 through 4 provide successively increased performance. In Auto mode, the system automatically determines the best mode for each device.
User Manual version 2305 u FLASH ROM WRITE u ONBOARD LAN FUNCTION u INIT DISPLAY FIRST This item allows you to decide to active which bus first (PCI Slote or Onboard/AGP). The choice: PCI Slot or Onboard/AGP u IDE HDD BLOCK MODE: Block mode is also called block transfer, multiple commands, or multiple sector read/write. If your IDE hard drive supports block mode (most new drives do), select Enabled for automatic detection of the optimal number of block read/write per sector the drive can support.
User Manual version 2305 u PWRON AFTER PWR-FAIL: u DIO PORT ADDRESS: The choice: 200, 208 or Disabled.
User Manual version 2305 7.4.6. Power Management Setup If the POWER MANAGEMENT SETUP option is selected from the main menu, the screen below will appear. The following sample screen consists of the default values for PC 710.
User Manual version 2305 7.4.7. PnP/PCI Configuration If the PNP/PCI CONFIGURATION option is selected from the main menu, the screen below will appear. The following sample screen consists of the default values for PC 710.
User Manual version 2305 u RESET CONFIGURATION DATA Normally, you leave this field Disabled. Select Enabled to reset Extended System Configuration Data (ESCD) when you exit Setup if you have installed a new add-on and the system reconfiguration has caused such a serious conflict that the operating system can not boot. The choice: Enabled or Disabled. u RESOURCE CONTROLLED BY The Award Plug and Play BIOS has the capacity to automatically configure all of the boot and Plug and Play compatible devices.
User Manual version 2305 7.4.8. PC Health Status The PC HEALTH STATUS auto detects the system’s temperature, voltage and fan speed. Phoenix - Award BIOS Setup Utility PC Health Status Shutdown Temperature (Disabled) Current System Temp. Item Help Menu Level Current CPU1 Temp. VCore (From VID) VCore (V) VCC1.5 (V) VCC3.3 (V) VIO 3.
User Manual version 2305 7.4.9. Frequency Voltage Control This setup page is for the CPU, DDR and PCI frequency setting.
User Manual version 2305 7.4.10. Load Fail-Safe Defaults The default values of the LOAD FAIL-SAFE DEFAULTS indicates the most appropriate value of the system parameters that the system would be in safe configuration.
User Manual version 2305 7.4.11. Load Optimized Defaults The default values of the LOAD OPTIMIZED DEFAULTS indicates the most appropriate value of the system parameters that the system would be in best performance configuration.
User Manual version 2305 7.4.12. User Password The USER PASSWORD is used to set the password. To change the password, select this option from the main menu and press . If the CMOS does not work properly or the USER PASSWORD option is selected for the first time, then a default password is stored in the ROM. The following message will appear on the screen; Enter Password Press .
User Manual version 2305 7.4.13. Save and Exit Setup If the SAVE & EXIT SETUP option is selected, the values entered the setup utilities will be saved in the chipset’s CMOS memory. When the system is turned on every time, the CPU will check the CMOS to compare the CMOS data to see whether it matches the system. These data are very important for the system operation.
User Manual version 2305 7.4.14. Exit Without Saving If the EXIT WITHOUT SAVING option is selected and is pressed, you will exit the Setup program without saving any new values. The CMOS will still keep the old values.
User Manual version 2305 8. SOFTWARE & DRIVERS INSTALLATION The chapter introduces the PC 710 onboard VGA, Ethernet, Audio and the respective drivers and installation. .
User Manual version 2305 8.1. System Chipset Drivers The system chipset used on PC 710 is Intel 845G. The chipset drivers for different operating systems are stored under PanelPC & Motherboard/Drivers & Utilities/PC 7x0 & Panel PC (Socket 478, Celeron_P4)/inf For updated system drivers, please have them downloaded the following website http://www.intel.com 8.2. IDE Acceleration Drivers The PC 710 is able to support UDMA IDE. To extend this functionality, the UDMA acceleration needs to be installed first.
User Manual version 2305 8.3. Ethernet Drivers The PC 710 provides a 10/100 Base T fast Ethernet. The PC 710 Ethernet drive diskette or CD diskette contains the following drivers; Realtek RTL8100B Ethernet drivers for ² Windows 95/95OSR2 ² Windows 98 ² Windows 2000 ² Windows NT ² ² Windows ME Windows XP For the Ethernet drivers, please download the updated drivers from the following website http://www.realtek.com.
User Manual version 2305 8.4. PC 710 AGP XGA By integrating an advanced hardware 2D/3D GUI engine and 64-bit graphic display interface, the PC 710 can deliver AGP 4X performance and memory bandwidth of up to 1GB. It adopts Share System Memory architecture which can flexibly utilize the frame buffer size up to 64MB.
User Manual version 2305 8.5. Audio Setup The PC 710 audio driver diskette contains the following drivers; Realtek ALC202A audio drivers for ² Windows 95/95OSR2 ² Windows 98 ² Windows 2000 ² Windows NT ² Windows ME ² Windows XP For the audio drivers, please download the updated drivers from the following website http://www.realtek.com.
User Manual version 2305 8.6.
User Manual version 2305 8.7. Driver Installation To install the Ethernet, VGA, Audio and Touchscreen drivers, find the drivers from the correct directory and execute the execution files.
User Manual version 2305 Appendix A: LCD Specification A-1. APOLLO 120 LCD The standard display used for the APOLLO 120 is a TORISAN 12.1” TFT active matrix color liquid display (LCD) module; its model no. is MXS121022010 or its equivalent. It composes of LCD panel, driver ICs, control circuit and backlight. By applying 6 bit digital data, 800x600, 260K-color images are displayed on the 12.1” diagonal screen. Input power voltage is single 3.3V for LCD driving. A-1-2.
User Manual version 2305 A-2. THE LCDS FOR APOLLO 150 The standard display used for the APOLLO 150 is either LG 15.1” TFT LCD, LM151X2 or its equivalent or a Chi Mei 15” TFT LCD, M150X3-L01 or its equivalent. A-2-1: 15.1” LG LM151X2 The LM151X2 is a TTL interface 15.1” TFT active matrix color liquid display. It comprises amorphous silicon TFT attached to each signal electrode, a driving circuit and a backlight. This LCD has a built-in backlight with inverter. The 38 cm (15.
User Manual version 2305 A-2-1: 15” Chi Mei M150X3-L01 The LM150X3_L01 is a 15.0” TFT Liquid Crystal Display module with 4 CCFL backlight units and 20 pins LVDD interface. This moulde supports 1024*768 XGA mode and can display 16.2M. The optimum viewing angle is at 6 o’clock direction. A-2-2-1. SPECIFICATION Inverter backlight is not included in this LCD module. General specifications are summarized in the following: ITEM SPECIFICATION Display Area (mm) 304.1 (H) x 228.15 (V) (15.
User Manual version 2305 B: DiskOnChip Installation The APOLLO 120/150 IV is equipped with an internal flash disk which can emulate a floppy disk drive by adapting DiskOnChip memory chips from 2MB to 144MB capacity, and the flash disk is fully compatible with floppy disk format of MS-DOS system. To install a DiskOnChip memory to the provided socket, follow the instructions below; 1. Make sure the computer is turned off 2. Insert the DiskOnChip memory device into the onboard socket.
User Manual version 2305 C: System I/O Ports Address range (Hex) 000-01F 020-021 022-023 040-05F 060-06F 070-07F 080-09F 0A0-0BF 0C0-0DF 0F0 0F1 0F8-0FF 1F0-1F8 200-207 443 143 208 2E8 2F8-2FF 300-31F 330-331 360-36F 378-37F 380-38F 3A0-3AF 3B0-3BF 3C0-3CF 3D0-3DF 3E8 3F0-3F7 3F8-3FF 8-134 Device DMA controller Interrupt controller 1, master Chipset address 8254 timer 8024 keyboard controller Real time clock, non-maskable interrupt mask (NMI) DMA page register Interrupt controller 2 DMA controller Clear ma
User Manual version 2305 C: Wake-On-LAN The Wake-On-LAN is a remote management tool with the advantage to reduce system management workload. It provides the capability to remotely power on the client computers supporting Wake-On-LAN by simply sending a “wake up packet”. After powering up the client systems, the user is able to monitor the remote systems’ status and to upload or download files to or from the clients.
User Manual version 2305 3. Wake up Packet To use the AMD’s Magic Packet, program installation is not needed. Just open the MAGPAC.EXE, then the following screen will pop up. The remote computer can be waken up by selecting the MAGIC PACKETS¢ @ POWER ON ONE HOST as shown below. Do not change the IP BROADCAST ADDRESS. The DESTINATION ETHERNET ADDRESS is to be filled in with the Ethernet card’s MAC address.
User Manual version 2305 To obtain the Ethernet card MAC, under Windows 9x, just enter START\RUN to open the winipcfg.exe, then the following screen will pop up. If the OS is Windows NT 4.0 or 2000 or XP, then you need to enter DOS mode to run ipconfig.exe to obtain the MAC. The adapter address is the LAN card’s MAC address. 4. After obtaining all the above information, the remote computer can be powered on now. Now you can use Desktop On Call or other remote software to control the remote computer.
User Manual version 2305 D: First MB Memory Map Address range (Hex) Device F000h-FFFFh System ROM CC00h-EFFFh Unused C000h-CBFFh Expansion ROM B800h-BFFFh CGA/EGA/VGA text B000h-B7FFh Unused A000h-AFFFh EGA/VGA graphics 0000h-9FFFh Base memory D000-D7FFH DiskOnChip(Default) 8-138 APOLLO 120/150 IV
User Manual version 2305 E: Power Supply The APOLLO 120/150 IV can either accommodate an AC power supply or a DC power supply. E-1: AC POWER SUPPLY The AC power supply used in the APOLLO 120/150 IV system is a 200 watts 1U ATX power supply, ENP-0620. It is a dual output switching power supply specially designed for the APOLLO IV system.
User Manual version 2305 E-1-4: OUTPUT SPECIFICATIONS Voltage Regulator Min. load Max. load Peak load +3.3V +/-5% 1.0A 14A -- +5V +/-5% 3.0A 21A 22A +12V +/-5% 1.0A 10A 13A -5V +/-10% 0A 0.5A -- -12V +/-10% 0A 1.0A -- +5Vsb +/-5% 0A 3.
