ACLD-9182 16 Channel Opto-isolated Digital Input Board
@ Copyright 1996 All Rights Reserved. Manual edition 01, January 1996 The information in this document is subject to change without prior notice in order to improve reliability, design and function and does not represent a commitment on the part of the manufacturer. In no event will the manufacturer be liable for direct, indirect, special, incidental, or consequential damages arising out of the use or inability to use the product or documentation, even if advised of the possibility of such damages. This document contains proprietary information protected by copyright. All rights are reserved. No part of this manual may be reproduced by any mechanical, electronic, or other means in any form without prior written permission of the manufacturer. Trademarks ACLD-9182 is registered trademarks of ADLink Technology Inc., PCLD-782 is a trademark of Advantech Co., Ltd. IBM PC is a registered trademark of International Business Machines Corporation. Intel is a registered trademark of Intel Corporation. Other product names mentioned herein are used for identification purposes only and may be trademarks and/or registered trademarks of their respective companies.
Contents How to Use This Guide...ii 1. Introduction...1 1.1 Features...1 1.2 Applications...2 1.3 Specifications...2 2. Installation...3 2.1 What You Have...3 2.2 Unpacking...4 2.3 ACLD-9182's Layout...5 2.4 Connector Pin Assignment...6 2.5 Input Mode Setting...7 Appendix A. Customize the Current Limit Resistor...8 Product Warranty/Service...9 Contents i
How to Use This Guide This manual is designed to help you use the ACLD-9182. The manual describes how to modify various settings on the ACLD-9182 card to meet your requirements. It is divided into five chapters: Chapter 1, "Introduction," gives an overview of the product features. applications, and specifications. Chapter 2, "Installation," describes how to install the ACLD-9182. The layout of ACLD-9182 is shown, the connector pin assignment and input mode selection - AC or DC input signal are specified. Appendix A, "Customize the Current Limit Resistor," describes how to replace the current limit resistors, if you want to get higher voltage than 24V. ii How to Use This Guide
1 Introduction The ACLD-9182 opto-isolated D/I board provide 16 opto-isolated digital inputs which can be used by any ACL series digital input board with D/I channels on 20-pin flat ribbon connectors. It is a good solution for preventing floating potential and ground loop problems. Each input channel has a red LED to reflect it's ON/OFF status. If the input voltage is high, the LED will be lit, otherwise the LED is off. Each input channel is jumper selectable to either AC or DC input, also, the users do not need to care the polarity. 1.1 Features The ACLD-9182 16 channel opto-isolated D/I board provides the following advanced features: 16 Opto-Isolated digital input channels Build-in screw terminals for wiring Threshold adjustable for isolated input mode On board LEDs to reflect the input logic status Compatible with Advantech's PCL-782 Introduction 1
1.2 Applications : Industrial ON/OFF control Laboratory automation Alarm Control Motor starter control Digital signal control Switch status monitoring 1.3 Specifications: Input channels 16 Opto-coupler PC-814 Input current 50 ma max. for DC input Input voltage 0~24VDC or AC 50 ~1,000 Hz Logic high : > 2.0 V Input impedence 1.2 K Ohm Isolation Voltage 1,000V channel-to-channel and channel-to-ground Input Signal AC or DC, polarity-free( don't care polarity) Connector 20-Pin Flat Ribbon Cable Connector Screw Terminal 5mm wiring spacing, 18-22 AWG Indication Display 16 red LEDs Size 20.5 cm ( 8.06") x 11.43 cm (4.5") 2 Introduction
2 Installation This chapter describes how to install the ACLD-9182. At first, the contents in the package and unpacking information that you should be careful are described. The jumpers and switches setting for the ACLD-9182's base address and digital input channel configuration (Isolated or Non-isolated) are also specified. 2.1 What You Have In addition to this User s Manual, the package includes the following items: ACLD-9182 16-channel Opto-isolated D/I Board one 1-meter 20-pin flat cable assembly If any of these items is missing or damaged, contact the dealer from whom you purchased the product. Save the shipping materials and carton in case you want to ship or store the product in the future. Installation 3
2.2 Unpacking Your ACLD-9182 card contains sensitive electronic components that can be easily damaged by static electricity. The card should be done on a grounded anti-static mat. The operator should be wearing an anti-static wristband, grounded at the same point as the anti-static mat. Inspect the card module carton for obvious damage. Shipping and handling may cause damage to your module. Be sure there are no shipping and handing damages on the module before processing. After opening the card module carton, exact the system module and place it only on a grounded anti-static surface component side up. Again inspect the module for damage. Press down on all the socketed IC's to make sure that they are properly seated. Do this only with the module place on a firm flat surface. Note : DO NOT APPLY POWER TO THE CARD IF IT HAS BEEN DAMAGED. You are now ready to install your ACLD-9182. 4 Installation
2.3 ACLD-9182's Layout +12V JP16 JP 8 GND +5V +15- JP15 JP 7 GND +7- +14- +13- +12- JP14 JP13 JP 6 JP 5 +6- +5- +4- +11- JP12 JP 4 +3- +10- +9- +8- JP11 JP10 JP3 JP2 +2- +1- +0- JP9 JP1 TB2 CN1 TB1 Figure 2.1 Installation 5
2.4 Connector Pin Assignments The relationship between connector CN1's pins( shown in figure 2.2 below), terminal blocks(tb1 & TB2), LED's, and their related jumpers are shown in the following table ( Table 2.1): DI 0 DI 2 DI 4 DI 6 DI 8 DI 10 DI 12 DI 14 GND +5V 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 DI 1 DI 3 DI 5 DI 7 DI 9 DI 11 DI 13 D115 GND +12V Figure 2.2 Pin Assignment of CN1 CN1 PIN NO. TB1 & TB2 LABEL LED NO. RELATED JUMPER 1(DI 0) TB1 0+,0-0 JP0 2(DI 1) TB1 1+,1-1 JP1 3(DI 2) TB1 2+,2-2 JP2 4(DI 3) TB1 3+,3-3 JP3 5(DI 4) TB1 4+,4-4 JP4 6(DI 5) TB1 5+,5-5 JP5 7(DI 6) TB1 6+,6-6 JP6 8(DI 7) TB1 7+,7-7 JP7 9(DI 8) TB2 8+,8-8 JP8 10(DI 9) TB2 9+,9-9 JP9 11(DI 10) TB2 10+,10-10 JP10 12(DI 11) TB2 11+,11-11 JP11 13(DI 12) TB2 12+,12-12 JP12 14(DI 13) TB2 13+,13-13 JP13 15(DI 14) TB2 14+,14-14 JP14 16(DI 15) TB2 15+,15-15 JP15 17(GND) TB1 GND 18(GND) TB1 GND 19(+5V) TB2 +5V ** 20(+12V) ** TB2 +12V Table 2.1 6 Installation
** Pin-20 (+12V) depends on the output form digital input connector, such as ACL-8111, ACL-8112 are +12V, and ACL-7120 is strobe signal. 2.5 Input Mode Setting There are 16 jumpers (JP0...JP15) associated with each digital input channel for configuring the channel as AC or DC input. The digital input channels and their corresponding jumpers is shown in the following Table 2.2. D/I Channel Jumpers D/I Channel Jumpers 0 JP0 8 JP8 1 JP1 9 JP9 2 JP2 10 JP10 3 JP3 11 JP11 4 JP4 12 JP12 5 JP5 13 JP13 6 JP6 14 JP14 7 JP7 15 JP15 Table 2.2 Each channel comes equipped with a jumpers for either AC or DC selection. Input Signal Selection Jumper JP0 ~ JP15 AC Input DC Input (Default) Figure 2.3 Installation 7
Appendix A. Customize the Current Limit Resistor The ACLD-9182 contains 16 identical opto-isolated control input channels. The circuit diagram of the isolated input channel is shown below. The digital input is first routed through a photo-coupler (PC- 814), so that the connection are not polarity sensitive whether used on AC or DC voltage. In addition, a single-pole filter with a time constant about 5ms is used to filter when the AC inputs passed through. 1.2k Ω V IN IF Ri 4N-35 (opto-isolator) The normal input voltage range for high state is 3 to 24VAC or DC. The normal input range can be extended by changing the resister (Ri) to limit the current (IF)through the PC-814( opto-isolator to about 10mA. The exact resister value to replace the original resister Ri (1.2K Ω) can be calculated by the following formulas. Vin = IF X Ri Pw = Vin X IF For example, if the input voltage is 110V, then the Ri should be replace by Ri = 110 (V) / 0.01 (A) = 11 KW Pw = 110 (V) X 0.01 (A) = 1.1 W 8 Customize the Current Limit Resistor
Product Warranty/Service Seller warrants that equipment furnished will be free form defects in material and workmanship for a period of one year from the confirmed date of purchase of the original buyer and that upon written notice of any such defect, Seller will, at its option, repair or replace the defective item under the terms of this warranty, subject to the provisions and specific exclusions listed herein. This warranty shall not apply to equipment that has been previously repaired or altered outside our plant in any way as to, in the judgment of the manufacturer, affect its reliability. Nor will it apply if the equipment has been used in a manner exceeding its specifications or if the serial number has been removed. Seller does not assume any liability for consequential damages as a result from our products uses, and in any event our liability shall not exceed the original selling price of the equipment. The equipment warranty shall constitute the sole and exclusive remedy of any Buyer of Seller equipment and the sole and exclusive liability of the Seller, its successors or assigns, in connection with equipment purchased and in lieu of all other warranties expressed implied or statutory, including, but not limited to, any implied warranty of merchant ability or fitness and all other obligations or liabilities of seller, its successors or assigns. The equipment must be returned postage-prepaid. Package it securely and insure it. You will be charged for parts and labor if you lack proof of date of purchase, or if the warranty period is expired. Product Warranty/Service 9