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Summary of Contents for Tamam tadbir MIR 6000 Series
- Page 1 MIR 6000 Controller and Data logger Modules User's Manual...
- Page 2 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 Tamam tadbir Co., Ltd. Information provided in this manual is intended to be accurate and reliable.
- Page 3 MIR-6030A 3-Channel analog input & 6-Channel digital output controller and Data Logger AI channel number 0-10VDC, 0/4-20MA DC , 0-5VDC Input range Output speed (in bps) RS-485 (2-wire) Maximum distance 38.4K 4000 ft. (1200 m.) Accuracy ±0.5% or better Zero drift ±6 μV/ Span drift ±25 ppm/C...
- Page 4 MIR-6030AP 3-Channel analog input & 6-Channel digital output controller and Data Logger, Programmable for time variable set point AI channel number 0-10VDC, 0/4-20MA DC , 0-5VDC Input range Output speed (in bps) RS-485 (2-wire) Maximum distance 38.4K 4000 ft. (1200 m.) Accuracy ±0.5% or better Zero drift...
- Page 5 MIR-6030B 3-Channel Dry,Wet bulb/analog input & 6-Channel digital output controller and data logger for temperature and humidity measurement and control. AI channel number Two PT1000 One 0-10VDC, 0/4-20MA DC , 0-5VDC Inputs 0-100 C Measurement Range 0-100% RH Output speed (in bps) RS-485 (2-wire) Maximum distance 38.4K...
- Page 6 MIR-6030BP 3-Channel Dry,Wet bulb/analog input & 6- Channel digital output controller and data logger for temperature and humidity measurement and control, Programmable for time variable set point AI channel number Two PT1000 Inputs One 0-10VDC, 0/4-20MA DC , 0-5VDC 0-100 C Measurement Range 0-100% RH Output speed (in bps)
- Page 7 MIR-6030C 3-Channel RTD,analog input / 6-Channel digital output controller and Data Logger AI channel number Two PT1000 One 0-10VDC, 0/4-20MA DC , 0-5VDC Inputs 0 to100 C Measurement Range -50 to 50C ,0 to 500C RS-485 (2-wire) Output speed (in bps) Maximum distance 38.4K 4000 ft.
- Page 8 MIR-6030CP 3-Channel RTD,analoge input / 6-Channel digital output controller and Data Logger Programmable for time variable set point systems AI channel number Two PT1000 One 0-10VDC, 0/4-20MA DC , 0-5VDC Inputs 0 to100 C Measurement Range -50 to 50, 0 to 500C RS-485 (2-wire) 38.4K Output speed (in bps)
- Page 9 MIR-6080A 8-Channel analog input monitoring system and Data Recorder AI channel number Input range 0-10VDC, 0/4-20MA DC , 0-5VDC Output speed (in bps) RS-485 (2-wire) Maximum distance 38.4K 4000 ft. (1200 m.) Accuracy ±0.5% or better Zero drift ±6 μV/ Span drift ±25 ppm/C 3000 V...
- Page 10 The modules are designed for supplies power within the range of +15 to +25 V . The power supply ripple must be limited to 5 V peak-to-peak, and the immediate ripple voltage should be maintained between +15 and +25 V 1-2 MIR 6000 Series User’s Manual...
- Page 11 Chapter RS-485 Network The RS-485 network provides lower-noise sensor readings, as modules can be placed much closer to the source. Up to 256 ADAM modules may be connected to an RS-485 multi-drop network by using RS-485 repeater which extends maximum communication distance up to 4,000 ft.
- Page 12 Introduction MIR modules can be mounted on any panels, brackets, rails. They can also be stacked together. The RS-485 network, together with screw-terminal plug connectors, allows for system expansion, reconfiguration, and repair without disturbing field wiring. Protection against the environment MIR modules’...
- Page 13 Installation Guideline...
- Page 14 Installation Guideline This chapter provides guidelines to what is needed to set up and install an MIR network. A quick hookup scheme is provided that lets you configure modules before they are installed in a network. To help you connect MIR modules with sensor inputs, several examples are provided.
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Page 15: Chapter 2 Installation Guideline
Chapter Power supply Operation is guaranteed when using any power supply between +15 and +25 V . Power ripples must be limited to 5 V peak to peak while the immediate voltage in all cases must be maintained between +15 and +25 V . - Page 16 Installation Guideline +15 to +25 VDC Figure 2-1 Power Supply Connections We advise the following standard colors (as indicated on the modules) for each power line: Black Communication Wiring We recommend the use of shielded-twisted-pair cable in the MIR network for reducing interference purpose, but the cable has to comply with the EIA RS-485 standard.
- Page 17 Chapter Notice: User can refer our help file to see more details for explanation of Utility operation. MIR Communication Speed In MIR series, the baud has been configured in 38.4 Kbps for all modules. RS485 Repeater (optional): When communication lines exceed 4000 ft (1200 meter) or more than 32 MIR modules are connected or for line Isolation between two MIR stations, a repeater should be implemented.
- Page 18 Before placing a module in an existing network, the module should be configured. Default Factory Settings Address: 01 (hexadecimal) The basic hook-up for module configuration is shown below. 6000 6000 Figure 2-2 Basic Hook-up of MIR6000 Module to Host Switches 2-6 MIR 6000 Series User’s Manual...
- Page 19 Installation Guideline • Power the MIR module on while shorting the INIT* and GND terminals (See Figure 2-3) or set the INIT switch to “Init” (See Figure 2-4) +15 to 25 VDC Figure 2-3 Grounding the INIT* Terminal • Set controller number through computer . •...
- Page 20 Chapter 2.4 Multiple Module Hookup The Figure below is an example of how MIR modules are connected in a multiple module network: Figure 2-5 Multi-module Connection Chapter 2 installation Guideline 2-11...
- Page 21 Chapter Application Wiring Figure 3-35 MIR6000 Universal Analog Input Wiring Diagram Chapter 3 I/O Modules 3-39...
- Page 22 RS-485 Network...
- Page 23 Commands normally contain the address of the module the host wants to communicate with. The module with the matching address carries out the command and sends its response to the host. E-2 MIR 6000 Series User’s Manual...
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Page 24: Basic Network Layout
Appendix E E.1 Basic Network Layout Daisychain The last module of a segment is a repeater. It is directly connected to the main-wires thereby ending the first segment and starting the next segment. Up to 32 addressable modules can be diasychained . This limitation is a physical one. - Page 25 Figure E-2 Star Structure Random This is a combination of daisychain and hierarchical structure Figure E-3 Random Structure E-4 MIR 6000 Series User’s Manual...
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Page 26: Line Termination
Appendix E E. 2 Line Termination Each discontinuity in impedance causes reflections and distortion. When an impedance discontinuity occurs in the transmission line the immediate effect is signal reflection. This will lead to signal distortion. Specially at line ends this mismatch causes problems. To eliminate this discontinuity terminate the line with a resistor. - Page 27 NOTICE: The recommended wiring method that causes a minimum amount of reflection is daisy chaining where all receivers tap from one transmission line and needs to be terminated only twice. E-6 MIR 6000 Series User’s Manual...