Contec F&eIT Series User Manual
Reed relay output module
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Summary of Contents for Contec F&eIT Series
- Page 1 F&eIT Series Reed Relay Output Module RRY-4(FIT)GY User’s Manual CONTEC CO.,LTD.
- Page 2 Check Your Package Thank you for purchasing the CONTEC product. The product consists of the items listed below. Check, with the following list, that your package is complete. If you discover damaged or missing items, contact your retailer. Product Configuration List - Module [RRY-4(FIT)GY] …1...
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Page 3: Copyright
All relevant issues have been considered in the preparation of this document. Should you notice an omission or any questionable item in this document, please feel free to notify CONTEC CO., LTD. Regardless of the foregoing statement, CONTEC assumes no responsibility for any errors that may appear in this document or for results obtained by the user as a result of using this product. -
Page 4: Table Of Contents
Table of Contents Check Your package ..........................i Copyright ............................ii Trademarks ............................ii Table of Contents ..........................iii Before Using the Product About the Module ..........................1 Features ............................1 Functions ............................2 Functions and control method by controller connected .............. 3 Customer Support .......................... - Page 5 Using the I/O Address Map Starting I/O Address ......................... 15 List of I/O Address Maps ......................... 16 Specifications Common to F&eIT Products ..................17 Product Information ........................17 Data I/O Operations that Directly Access an I/O Port ..............18 Data Output ..........................18 Monitoring the Output Data .......................
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Page 6: Before Using The Product
1. Before Using the Product 1. Before Using the Product This chapter provides information you should know before using the product. About the Module This product is an expansion module (device module) to add a reed relay contact output interface to a variety of controllers. -
Page 7: Functions
1. Before Using the Product Functions General-purpose relay contact output function (relay output for direct access to I/O port) This module is a four-channel relay contact type for writing to an external device. Access to the Module from a controller module is performed through the input port that is specified by means of a Device ID. -
Page 8: Functions And Control Method By Controller Connected
1. Before Using the Product Functions and control method by controller connected The RRY-4(FIT)GY can be connected to a variety of controllers. Supported controllers Micro Controller Unit : CPU-SBxx(FIT)GY I/O Controller Module : CPU-CAxx(FIT)GY Monitoring & Control Server Unit : SVR-MMF2(FIT) Check each controller to which the module can be connected as well as the method of controlling the module when connected to that controller. - Page 9 1. Before Using the Product Control method by controller connected Control using the I/O address map Ο Control using the memory address map Ο FIT Protocol Ο Control via the Windows driver * API-CAP(W32) Ο API-SBP(W32) Ο Control over the web Ο...
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Page 10: Customer Support
You can download updated driver software and differential files as well as sample programs available in several languages. Note! For product information Contact your retailer if you have any technical question about a CONTEC product or need its price, delivery time, or estimate information. Limited One-Year Warranty CONTEC F&eIT products are warranted by CONTEC CO., LTD. -
Page 11: Safety Precautions
Handling Precautions CAUTION Do not modify the module. CONTEC will bear no responsibility for any problems, etc., resulting from modifying this module. Do not use or store the equipment in a hot or cold place, or in a place that is subject to severe temperature changes. - Page 12 1. Before Using the Product To avoid malfunction, please do not change the module switch settings in an unauthorized manner. "Do not operate the device module when the power for the Controller Module is on. To avoid malfunction, please be sure to turn off the power for the Controller Module". If you use this product in a noisy environment, attach ferrite cores to the IO cable to stabilize the operation.
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Page 13: Environment
1. Before Using the Product Environment Use this product in the following environment. If used in an unauthorized environment, the module may overheat, malfunction, or cause a failure. Operating temperature 0 - 50°C Operating Humidity 10 - 90%RH (No condensation) Corrosive gases None Floating dust particles... -
Page 14: Module Nomenclature And Settings
2. Module Nomenclature and Settings 2. Module Nomenclature and Settings Nomenclature of Module Components Figure 2.1. shows the names of module components. In the figure, the indicated switch settings represent factory settings. LED Indicator Device Device ID OUT0(+) OUT0( - ) OUT1(+) OUT1( - ) Interface Connector... -
Page 15: Setting A Device Id
2. Module Nomenclature and Settings Setting a Device ID The controller module distinguishes and keeps track of the modules that are connected to it by assigning device IDs to them. Each module, therefore, should be assigned a unique ID. A Device ID can be assigned in a 0 - 7 range, so that a maximum of eight modules can be distinguished. -
Page 16: Connecting To An External Device
3. Connecting to an External Device 3. Connecting to an External Device Interface Connector How to Connect an Interface Connector When connecting the Module to an external device, you can use the supplied connector plug. To wire each terminal, strip the wire about 9 - 10 mm from the end and insert it into the opening. After inserting the wire, tighten the screw to fasten it. -
Page 17: Signal Layout On The Interface Connector
3. Connecting to an External Device Signal Layout on the Interface Connector The Module can be connected to an external device using a 12-pin connector that is provided on the Module face. Relay contact output 0ch [+] OUT0(+)--- Relay contact output 0ch [-] OUT0(-)--- N.C.--- Unconnection Relay contact output 1ch [+]... -
Page 18: External Output Circuits
3. Connecting to an External Device External Output Circuits Output section The output circuit of the interface unit of this module is illustrated in Figure 3.3. The signal output section is a relay contact type to transmit signals to an external device. The maximum output current rating is 2 A (125 VAC/30 VDC max) per channel. -
Page 19: Connection Example
3. Connecting to an External Device Connection example LED connection example 1.2kΩ OUT0(+) External power supply 5VDC OUT0(-) When "1" is output to a given bit, the corresponding LED "comes on". When "0" is output to the bit, the LED "goes out". Figure 3.4. -
Page 20: Using The I/O Address Map
4. Using the I/O Address Map 4. Using the I/O Address Map Starting I/O Address When connected to a CPU-SBxx(FIT)GY, the RRY-4(FIT)GY can directly receive I/O commands from the controller module. Depending on how the Device ID is set, the I/O addresses indicated below will be used exclusively by the RRY-4(FIT)GY. -
Page 21: List Of I/O Address Maps
4. Using the I/O Address Map List of I/O Address Maps Starting address Input Products Category Rivision Data Rivision Rivision Rivision Rivision (00h) Data 3 Data 2 Data 1 Data 0 Products ID Number (01h) (02h) (13h) Output Group +0 (14h) OUT 3 OUT 2... -
Page 22: Specifications Common To F&Eit Products
Figure 4.3. Product information Revision Data [D3 - D0]: This is product update information, subject to change without notice, that is managed by CONTEC. Product Category [D7 - D4]: This is a module function classification code. For the RRY-4(FIT)GY, the code is "1h". -
Page 23: Data I/O Operations That Directly Access An I/O Port
4. Using the I/O Address Map Data I/O Operations that Directly Access an I/O Port Data Output Starting address Output Output Group +0 OUT 3 OUT 2 OUT 1 OUT 0 (14h) Figure 4.4. Output Port [Starting I/O Address +14h] Data can be output by using the output port [starting I/O address + 14h]. -
Page 24: Examples
4. Using the I/O Address Map Examples Software Mode Flowchart Following is a description of an example where the RRY-4(FIT)GY is installed at device ID: 0. Start Set output data Address: 0x01 data (setting the OUT0 relay contact to ON) is output to "the base address+14h". - Page 25 4. Using the I/O Address Map printf("Output Data %02x\n", outData); RRY-4(FIT)GY...
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Page 26: Using The Memory Address Map
5. Using the Memory Address Map 5. Using the Memory Address Map When connected to a CPU-CAxx(FIT)GY, the RRY-4(FIT)GY can be accessed by a host computer through a network. In addition, the Module can be allocated to the memory controlled by the Controller Module according to a given Device ID. -
Page 27: Module Information Area
5. Using the Memory Address Map Module Information Area A module Information area, which is a 128-byte (80h) area beginning with address 301000h and corresponding to a given Device ID, is where the settings for the given device are written. The starting address can be determined according to the following expression: Starting address = 301000h + 80h x (Device ID) Table 5.1. - Page 28 5. Using the Memory Address Map Module-specific information Module type (category) The RRY-4(FIT)GY belongs to the digital module (01h) category. Module type (serial No.) The RRY-4(FIT)GY is an analog module with a serial No. C (0Ch). Supported functions The RRY-4(FIT)GY supports the basic input function (02h). The basic input data takes analog input values.
- Page 29 5. Using the Memory Address Map Items Common to Modules Module startup register Setting the module startup option (01h) causes the device module to be started. Setting the module startup option when the module is being started causes the module to be restarted.
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Page 30: Module Information Area
5. Using the Memory Address Map Module Information Area The module information area is a 128-byte (80h) area beginning with address 300000h and corresponding to a given Device ID. The area is used to load settings. The starting address can be determined according to the following expression: Starting address = 300000h + 80h x (Device ID) Table 5.2. -
Page 31: Basic Input Data Area
5. Using the Memory Address Map Basic Input Data Area The basic output data area, which is a 128-byte (80h) area beginning with address 305000h, corresponds to a given Device ID. The starting address can be determined according to the following expression: Starting address = 305000h + 80h x (Device ID) Table 5.3. -
Page 32: Examples
5. Using the Memory Address Map Examples Flowchart Following is an example in which the RRY-4(FIT)GY is installed at Device ID :0: Start Address: Reading the address 301000h identifies the module type (category). If the module is a digital I/O module, the module type (category) will Digital I/O be [01h]. - Page 33 5. Using the Memory Address Map /* Information(Common) */ #define FIT_PRODUCT_DIGITAL (0x01) #define FIT_PRODUCT_ANALOG (0x02) #define FIT_PRODUCT_COUNTER (0x03) #define FIT_MODULE_START_OFF (0x00) #define FIT_MODULE_START_ON (0x01) /* Sample */ #define FIT_SAMPLE_IP_ADDRESS "192.168.132.211" #define FIT_SAMPLE_PORT (0x5007) #define FIT_SAMPLE_DEVICE_ID int main(void) DWORD dwIpAddress; DWORD dwVaBase; DWORD dwVaOffset;...
- Page 34 5. Using the Memory Address Map if (byCategory != FIT_PRODUCT_DIGITAL) { printf("Error! Category = %02X(H)\n", byCategory); return 1; /* Read 'Output Channels' */ wStatus = FIT_Read(hHandle, dwVaBase + dwVaOffset + FIT_OUTPUT_CHANNELS, 1, &byOutputChannels); if (wStatus != 0) { printf("Error! FIT_Read = %04X(H)\n", wStatus); return 1;...
- Page 35 5. Using the Memory Address Map RRY-4(FIT)GY...
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Page 36: System Reference
6. System Reference 6. System Reference Block Diagram Interface Connector OUT 0 - OUT 3 Lead Relay Output Data Latch Device ID Control Circuit Stack Connector Figure 6.1. Circuit block diagram RRY-4(FIT)GY... -
Page 37: Specifications
6. System Reference Specifications Table 6.1. Specifications Item Specifications Output section Number of output signal points 4 points Output format Reed relay contact (1 make output) output Relay contact Maximum allowable 125VAC, 30VDC (Max.) specifications voltage Maximum switching 2A (Max.) current Contact resistance 30mΩ... - Page 38 6. System Reference Table 6.2. Installation Environment Requirements Parameter Requirement description Operating temperature 0 - 50°C Storage temperature -10 - 60°C Operating humidity 10 - 90%RH (No condensation) Floating dust particles Not to be excessive Corrosive gases None Line-Noise Line-noise *1 AC line/2kV, Signal line/1kV (IEC1000-4-4Level 3, EN61000-4-4Level resistance Static electricity...
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Page 39: Physical Dimensions
6. System Reference Physical Dimensions (1.2) (1.2) Device OUT0(+) OUT0( - ) OUT1(+) OUT1( - ) OUT2(+) OUT2( - ) OUT3(+) OUT3( - ) RRY- 4 25.2 64.7 [mm] Figure 6.2. Physical dimensions RRY-4(FIT)GY... - Page 41 August 2017 Edition 3-9-31, Himesato, Nishiyodogawa-ku, Osaka 555-0025, Japan https://www.contec.com/ No part of this document may be copied or reproduced in any form by any means without prior written consent of CONTEC CO., LTD. [08252017] [07062004] Management No. A-46-857 [08252017_rev7] Parts No.
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