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CIO-RELAY08
CIO-RELAY16
CIO-RELAY24
CIO-RELAY32
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User's Guide
ページ2に含まれる内容の要旨
For Your Notes Table of Contents 1 INTRODUCTION ................................. 1 1.1 ACCESSORIES .................................. 1 2 QUICK START ...................................... 2 2.1 Install the InstaCalTM software ..................... 2 ................................. 3 2.2 Run InstaCalTM 3 HARDWARE INSTALLATION ...................... 4 3.1 Mercury whetted (/M) board special considerations ....... 4 3.2 BASE ADDRESS ................................. 4 3.3
ページ3に含まれる内容の要旨
1 INTRODUCTION For Your Notes The CIO-RELAY16 is a 16 channel relay interface board for ISA bus computers. The board provides 16 Form C (SPDT) relays. The CIO-RELAY08 board is designed for applications that require fewer relays and is identical to the RELAY16 board except that only 8 relays are installed. The CIO-RELAY32 is two CIO-RELAY16s on a sin- gle board while the CIO-RELAY24 is are CIO-RELAY32 with eight of the relays not installed. The /M versions (e.g. CIO-RELAY16/M and CIO-RELAY0
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2 QUICK START 6.2 MERCURY WETTED (/M) VERSIONS POWER CONSUMPTION CIO-RELAY 510 mA + (22 mA per activated relay max) The installation and operation of all four CIO-RELAY series boards is very similar. Throughout this manual we use CIO-RELAY as a generic designation for the CIO- RELAY08, CIO-RELAY16, CIO-RELAY24 and CIO-RELAY32. When required due to the differences in the boards, the specific board name is used. GENERAL SPECIFICATIONS The CIO-RELAY boards are easy to u
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6 SPECIFICATIONS TM 2.2 Run InstaCal TM To run InstaCal in the various forms of Windows, find the file named InstaCal.exe using your file management system and double click your mouse on it. In DOS simply type instacal and press the Enter key. 6.1 CIO-RELAY08, 16, 24 and 32 (standard versions) TM InstaCal Once running, provides four sub-menus (plus exit). POWER CONSUMPTION 1. Select Install (either highlight it and hit enter of double click your +5V supply 510 mA typical plus 22 mA p
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3 HARDWARE INSTALLATION 5.2 FORM C RELAYS (standard versions) Shown here is the schematic for a form C relay as used on the standard CIO- RELAY08, 16, 24 and 32. 3.1 Mercury whetted (/M) board special considerations The Mercury whetted boards must be mounted in the computer such that they will remain within 30 degrees of vertical. Note that installation of these boards in most tower computer cases will require the tower be rested on its side for proper operation. 3.2 BASE ADDRESS The ba
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GND 50 49 +5V HEX FUNCTION HEX FUNCTION 31 NO 48 47 31 CO M RANGE RANGE 31 NC 46 45 30 NO 43 30 NC 30 COM 44 000-00F 8237 DMA #1 2C0-2CF EGA 29 NO 42 41 29 CO M 020-021 8259 PIC #1 2D0-2DF EGA 39 28 NO 29 NC 40 040-043 8253 TIMER 2E0-2E7 GPIB (AT) 28 COM 38 37 28 NC 35 27 CO M 27 NO 36 060-063 8255 PPI (XT) 2E8-2EF SERIAL PORT 27 NC 34 33 26 NO 060-064 8742 CONTROLLER (AT) 2F8-2FF SERIAL PORT 31 26 NC 26 COM 32 CMOS RAM & NMI MASK (AT) 070-071 300-30F PROTOTYPE CARD 29 25 CO
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5 CONNECTING TO RELAYS 4 PROGRAMMING The CIO-RELAY boards are easy to program. Eight bit registers located at the base 5.1 I/O CONNECTOR DIAGRAMS address and the base address plus an offset are written to control relays or can be read The CIO-RELAY08 and CIO-RELAY16 boards use a single 50 pin connector for sig- to determine the state of relays. nal interfacing. The CIO-RELAY24 and CIO-RELAY32 use two 50 pin connectors. The pin-outs of the connector are shown here. In addition to
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For example, to assemble the control byte that will turn on relays 0. 1. 3. 5 and 7 we 4.3 DETAILED RELAY CONTROL I/O MAP can see from the chart below we need to write decimal 171 (hex AB): RELAY HEX ON = 1 WEIGHT DECIMAL ON=1 WEIGHT The following section provides a detailed description of the register map and relay OP7 80 1 80 128 1 128 control registers. OP6 40 0 0 64 0 0 OP5 20 1 20 32 1 32 Base Address +0 (applicable to all CIO-RELAY series boards). OP4 10 0 0 16 0 0 OP3 8 1 8 8 1 8 RELAY