UNO-1150/UNO-1150E GX2 400MHz Fanless, DIN-rail Mounted Embedded Automation Computer with 2 x LAN, 2 x USB, 3 x COM, and Audio and PCI-104 User Manual
Copyright Notice The documentation and the software included with this product are copyrighted 2009 by Advantech Co., Ltd. All rights are reserved. Advantech Co., Ltd. reserves the right to make improvements in the products described in this manual at any time without notice. No part of this manual may be reproduced, copied, translated or transmitted in any form or by any means without the prior written permission of Advantech Co., Ltd.
Product Warranty (2 years) Advantech warrants to you, the original purchaser, that each of its products will be free from defects in materials and workmanship for two years from the date of purchase. This warranty does not apply to any products which have been repaired or altered by persons other than repair personnel authorized by Advantech, or which have been subject to misuse, abuse, accident or improper installation.
CE This product has passed the CE test for environmental specifications when shielded cables are used for external wiring. FCC Class A This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment.
Safety Instructions 1. Read these safety instructions carefully. 2. Keep this User's Manual for later reference. 3. Disconnect this equipment from any AC outlet before cleaning. Use a damp cloth. Do not use liquid or spray detergents for cleaning. 4. For plug-in equipment, the power outlet socket must be located near the equipment and must be easily accessible. 5. Keep this equipment away from humidity. 6. Put this equipment on a reliable surface during installation.
-10° C (14° F) OR ABOVE 60° C (140° F). THIS COULD DAMAGE THE EQUIPMENT. THE EQUIPMENT SHOULD BE IN A CONTROLLED ENVIRONMENT. 16. CAUTION: DANGER OF EXPLOSION IF BATTERY IS INCORRECTLY REPLACED. REPLACE ONLY WITH THE SAME OR EQUIVALENT TYPE RECOMMENDED BY THE MANUFACTURER, DISCARD USED BATTERIES ACCORDING TO THE MANUFACTURER'S INSTRUCTIONS. The sound pressure level at the operator's position according to IEC 7041:1982 is no more than 70 dB (A).
Contents Chapter 1 UNO-1150 Overview ....................................... 2 1.1 1.2 1.3 1.4 1.5 Chapter Chapter Introduction ....................................................................... 2 Hardware Specifications ................................................... 2 Safety Precautions ............................................................. 4 UNO-1150 Series .............................................................. 4 Chassis Dimensions..............................................
A.10 A.11 A.12 RS-422/485 Signal Pull High/Low Settings.................... 38 Enhanced IDE Connector (CN2) .................................... 39 SATA Data Connector (CN100) .....................................
CHAPTER 1 UNO-1150 Overview Sections include: • Introduction • Hardware Specifications • Safety Precautions • UNO-1150 Series • Chassis Dimensions
Chapter 1 UNO-1150 Overview 1.1 Introduction UNO-1150 is an DIN-rail mounted Embedded Automation Computer, which provides several serial communication ports and Ethernet interfaces. UNO1150 is designed with a compact size, small footprint, and help to saves space with its front accessible and DIN-rail design. With rich OS and driver support, such as Windows XP embedded, WinCE 6.0, and even embedded Linux.
• USB interface: USB OpenHCI, Rev. 1.0 compliant USB specification version 1.1 compliant • Ethernet Port: Dual 10/100Base-T Ethernet - LAN chip: Realtek 8100CL chipset supports - LED on the front side • Storage SSD: 1 x internal type I/II CompactFlash slot inside the chassis HDD: 2.5" SATA HDD bracket (Only for UNO-1150E) • PC/104: Slot PCI-104 slot, supports 3.
1.3 Safety Precautions The following sections tell how to make each connection. In most cases, you will simply need to connect a standard cable. All of the connector pin assignments are shown in Appendix A. Warning!! Always disconnect the power cord from your chassis when you are working on it. Do not connect while the power is on. A sudden rush of power can damage sensitive electronic components. Only experienced electronics personnel should open the chassis.
1.5 Chassis Dimensions Figure 1.
Figure 1.
CHAPTER 2 Hardware Functionality Sections include: •UNO-1150 Peripherals •COM1: RS-232 Interfaces •COM2~3: RS-232/422/485 Interfaces •LAN: Ethernet Connector •Power Connector •LED Indicators •PS/2 Keyboard and Mouse Connector •Universal Serial Bus Connectors •VGA: VGA Display Connector •RESET: Reset Button •Audio •PCI-104 Voltage Selection
Chapter 2 Hardware Functionality 2.1 UNO-1150 Peripherals The following figures show the connectors on UNO-1150 and UNO1150E. Information in this chapter is applied to both UNO-1150 and UNO-1150E. Therefore, in this chapter, we just mention UNO-1150 to represent the series product.The following sections give you detailed information about function of each peripheral. Figure 2.1: UNO-1150 Front View Figure 2.
Figure 2.3: UNO-1150E Front View Figure 2.
2.2 COM1: RS-232 Interfaces The UNO-1150 offers one standard RS-232 serial communication interface port on COM1. Please refer to A.2 for pin assignments. 2.3 COM2~COM3: RS-232/422/485 Interfaces The UNO-1150 offers two RS-232/422/485 serial communication interface ports, and they are COM2 and COM3. Both port can be configured individually to either RS-232, RS422/485 by using on-board jumpers. Please refer to A.3 for pin assignments and Table 2.1 lists the default setting of each port. Table 2.
2.3.4 RS-232/422/485 Selection COM2 and COM3 support 9-wire RS-232, RS-422 or RS-485 interfaces, and you can set corresponding jumpers to select serial ports as RS-232 or RS-422/485 interfaces shown in Table 2.2. Please note to reset the system to adapt this configuration change The system detects RS-422 or RS-485 signals automatically in RS-422/ 485 mode. Table 2.
2.3.5 Terminal Resistor Setup for RS-422/485 The onboard termination resistor (120 Ohm) for COM2/COM3 can be used for long distance transmission or device matching. (Default Open.) Each terminal resistor responds to different channels for RS-422/485. Usually, these resistors are needed for both ends of the communication wires and the value of the resistors should match the characteristic impedance of the wires used. Table 2.3: Terminal Resistor Settings COM port Switch No.
2.3.6 RS-485 Auto Flow & RS-422 Master/Slave Mode You can set the “Auto Flow Control” mode of RS-485 or “Master/Slave” mode of RS-422 by using the SW2 DIP switch for each RS-422/485 port. In RS-485, if the switch is set to “Auto”, the driver automatically senses the direction of the data flow and switches the direction of transmission. No handshaking is necessary. In RS-422, if DIP switch is set to “On,” the driver is always enabled, and always in high or low status. Table 2.
2.4 LAN: Ethernet Connector The UNO-1150 is equipped with two Realtek RTL8100CL Ethernet LAN controllers that are fully compliant with IEEE 802.3u 10/100Base-T CSMA/CD standards. The Ethernet port provides a standard RJ-45 jack onboard, and LED indicators on the front side to show its Link (Yellow LED) and Active (Green LED) status. Please refer to A.4 for its pin assignments. 2.
2.8 Universal Serial Bus Connectors The USB connector is used for connecting any device that conforms to the USB interface. Many recent digital devices conform to this standard. The USB interface supports Plug & Play, which enables you to connect or disconnect a device whenever you want without turning off the computer. The UNO-1150 provides two connectors with USB interfaces, which gives complete Plug & Play and hot swapping for up to 127 external devices.
2.12 PCI-104 Connectors (UNO-1150E) UNO-1150E supports up to two PCI-104 cards. The cards will be installed on connector noted CN3-A. Please check your PCI-104 card support voltage to adjust the jumper on CN4. Table 2.5: PCI-104 Voltage Jumper Settings Voltage Jumper close position setting +5V 1-2 +3.3V 2-3 Jumper Setting (+3.3V) example: closed 2-3 Figure 2.
CHAPTER 3 Initial Setup Sections include: • CompactFlash Installation • PCI-104 Card Installation (UNO-1150E) • Hard Drive Installation (UNO-1150E) • Chassis Grounding • Power Connection • BIOS Setup and System Assignments
Chapter 3 Initial Setup 3.1 CompactFlash Card Installation The procedure for installing a CompactFlash card into the UNO-1150/ UNO-1150E is as follows, please follows these steps carefully. Although the outside appearance of the UNO-1150E is different from the figures shownbelow, the procedure is the same. 1. Remove the power. 2. Unscrew six screws from UNO-1150 indicated below.
3. Remove the rear cover. 4. Plug a CompactFlash card with user’s OS and application program into a CompactFlash card slot on board. 5. Screw back the rear cover and the six screws.
3.2 PCI-104 Card Installation (Only for UNO-1150E) The procedure for installing a PCI-104 card into the UNO-1150E is shown as following step. 1. Remove the power. 2. Unscrew six screws from UNO-1150E indicated below.
3. Remove the rear cover. 4. Find 2 metal spacer from accessory bag, and screw tight on the location indicated arrow in the below picture. (Note: There were spacers soldered on the daughter board already). Normally you will also get some hexagon spacer from your PCI-104 card packing. Use and screw those spacers on the location indicated black shown in below picture. 5. Please refer to section 2.12 for PCI-104 card voltage setting before install the PCI-104 card.
6. Stack the PCI-104 card and related cables. 7. Screw the rear cover and the six screws. Now you are done with the PCI-104 card installation. Note: You can use two PCI-104 cards at the same time while you don't use a hard drive. Using a hard drive will limit the number of PCI-104 cards allowed to one only.
3.3 Hard Drive installation (Only for UNO-1150E) The procedure for installing a hard drive into the UNO-1150E is shown as following step. 1. Remove the power. 2. Unscrew six screws from UNO-1150E indicated below. 3. Remove the rear cover. Please refer to Section 3.1 & 3.2 for the instruction to open the cover. 4. Take four screws from the rear cover to lose the hard drive bracket. 5. Connect the SATA cable and SATA power cable. Make sure the cable will not lose.
6. Turn the hard drive bracket and align with the screw hole on the rear cover. Use the four screws taken from step 4 and screw the bracket and the rear cover tight. 7. Connect the other end of SATA cable on the board which the arrow indicated in below picture. 8. Screw the rear cover and the six screws. 9. For user who tried to plug other SATA device, please note the UNO-1150E SATA power connector doesn't support 12V power.
3.4 Chassis Grounding Please connect the chassis ground of UNO-1150 with "EARTH". Figure 3.1: Chassis Grounding Connection 3.5 Power Connection Connect the UNO-1150 to a 10 ~ 30 VDC power source. The power source can either be from a power adapter or an in-house power source. 3.6 BIOS Setup and System Assignments UNO-1150 uses the Advantech SOM-2354 CPU module. For UNO-1150 BIOS setup and system assignments, you can refer to SOM-2354’s Chapter 4 “Award BIOS Setup” and Appendix A “System Assignments”.
3.7 DIN-rail Mounting Setup Please follow the below steps to mount the UNO-1150 on the DIN-Rail. 1. Screw the provided DIN-Rail Kit on the rear side of UNO-1150 as the diagram shown below. 2. Hang the UNO-1150 to the DIN-Rail with angle of inclination about 30 degree. 3. Let UNO-1150 down straight to slide over the Rail smoothly. Note: To get the UNO-1150 down from the Rail, push the device top to down then pull the bottom of the device to let it off the Rail smoothly.
3.8 Wallmounting Setup Please follow the below steps to mount the UNO-1150 on the wall. 1. Screw the provided Wall Mounting Kit on the rear side of UNO1150 as the diagram shown below. 2. Mount the device on the wall by the 2 pairs hooking hole provided by the Wallmounting Kit.
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APPENDIX A Pin Assignments This appendix shows the UNO-1150 pin assignments •Board Connectors and Jumpers •RS-232 Serial Port (COM 1) •RS-232/422/485 Serial Port (COM2~3) •Ethernet RJ-45 Connector •Power Screw Terminal •PS/2 Keyboard and Mouse Connector •USB Connector •VGA Display Connector •CompactFlash Master/Slave Jumper Setting •Enhanced IDE Connector •SATA Data Connector
Appendix A Pin Assignments A.1 Board Connectors and Jumpers There are connectors and jumpers on the UNO-1150 board. The following sections tell you how to configure the UNO-1150 hardware setting. Figure A-1 and figure A-2 show the locations of UNO-1150 connectors and jumpers. Figure A.
Table A.
Figure A.2: Connector & Jumper Locations (UNO-1150E) Table A.2: Connectors & Jumpers (UNO-1150E only) CN3-A PCI-104 card connector CN5 Mini PCI card connector CN4 Jumper of PCI-104 card voltage selection (+3.
A.2 RS-232 Serial Port (COM1) Table A.
A.3 RS-232/422/485 Serial Port (COM2~COM3) Table A.4: RS-232/422/485 Serial Ports Pin RS-232 RS-422 RS-485 1 DCD Tx- DATA- 2 RxD Tx+ DATA+ 3 TxD Rx+ NC 4 DTR Rx- NC 5 GND GND GND 6 DSR NC NC 7 RTS NC NC 8 CTS NC NC 9 RI NC NC A.4 Ethernet RJ-45 Connector (LAN1~LAN2) Table A.
A.5 Power Screw Terminal (CN8) Table A.6: Phoenix Power Connector Pin Assigns Pin Signal Name 1 VIN ( 10 ~ 36 VDC ) 2 GND 3 Field Ground A.6 PS/2 Keyboard and Mouse Connector (CN10) Table A.7: 6 5 3 4 2 1 Table A.
A.7 USB Connector (CN13) Table A.9: USB Connector Pin Assignments Pin Signal Name Cable Color 1 VCC Red 2 DATA- White 3 DATA+ Green 5 GND Black A.8 VGA Display Connector (CN15) Table A.10: VGA Adaptor Cable Pin Assignments Pin Signal Name Pin Signal Name 1 RED 9 EDID Power 2 GREEN 10 GND 3 BLUE 11 NC 4 NC 12 NC 5 GND 13 H-SYNC 6 GND 14 V-SYNC 7 GND 15 NC 8 GND Chipset The UNO-1150 uses a AMD CS5535 chipset for its SVGA controller.
A.9 CompactFlash Master/Slave & Hard Drive Settings Note: Please check your storage device configuration settings carefully while using storage device. UNO-1150 has one internal Compact Flash card slot which supports Compact Flash type I (3mm thick) and type II (5 mm thick) cards. The CompactFlash interface uses a primary IDE channel, which can be set as the master or slave device by changing the setting of SW7. Table A.
A.10 RS-422/485 Signal Pull High/Low Settings (SW3/SW5/SW8/SW9) Table A.13: Terminal Resistor Settings COM Switch Pin Related Line Setting Description COM2 SW3 1 Data- (RS-485) Tx- (RS-422) * ON Pull low to GND (4.7K Ohm) OFF Open 2 Data+ (RS-485) Tx+ (RS-422) * ON Pull high to 5V (4.7K Ohm) OFF Open * ON Pull low to GND (4.7K Ohm) OFF Open * ON Pull high to 5V (4.7K Ohm) OFF Open * ON Pull low to GND (4.7K Ohm) OFF Open * ON Pull high to 5V (4.
A.11 Enhanced IDE Connector (CN2) Table A.
A.12 SATA Data Connector (CN100) Table A.