Fuji Electric Micrex-SX Series User Manual

High-speed multi-range analog module 8/6/4ch voltage/current input/output

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USER'S MANUAL

High-speed Multi-range Analog Module

8Ch Voltage Input

8Ch Current Input

8Ch Voltage Output

8Ch Current Output

4Ch Voltage Output

4Ch Current Output

6Ch Input/Output

series

<Type: NP1AXH8V-MR>

<Type: NP1AXH8I-MR>

<Type: NP1AYH8V-MR>

<Type: NP1AYH8I-MR>

<Type: NP1AYH4V-MR>

<Type: NP1AYH4I-MR>

<Type: NP1AWH6-MR>

FEH206b

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Page 1 series USER’S MANUAL High-speed Multi-range Analog Module 8Ch Voltage Input <Type: NP1AXH8V-MR> 8Ch Current Input <Type: NP1AXH8I-MR> 8Ch Voltage Output <Type: NP1AYH8V-MR> 8Ch Current Output <Type: NP1AYH8I-MR> 4Ch Voltage Output <Type: NP1AYH4V-MR> 4Ch Current Output <Type: NP1AYH4I-MR> 6Ch Input/Output <Type: NP1AWH6-MR> FEH206b...
Page 2 * This manual is structured such that you can consult it, whether you use SX-Programmer Expert (D300win ) or SX-programmer standard (Standard loader). * In addition to the above manuals, the following Fuji Electric FA Components & Systems Co., Ltd. site offers various manuals and technical documents associated with MICREX-SX.
Page 3 Safety Precautions Be sure to read the "Safety Precautions" thoroughly before using the module. Here, the safety precautions items are classified into "Warning" and "Caution". Warning : Incorrect handling of the device may result in death or serious injury. Caution : Incorrect handling of the device may result in minor injury or physical damage.
Page 4 Do not attempt to repair the module by yourself, but contact your Fuji Electric agent. When replacing the batteries, correctly and securely connect the battery connectors, otherwise, fire, accident or failure might occur.
Page 5 Revision *Manual No. is shown at lower right on the cover. Printed on *Manual No. Revision contents Sep. 2002 FEH206 First edition Jun. 2004 FEH206a Operations when using SX-Programmer Standard were added. Specifications of Analog Input/Output Module (type: NP1AWH6-MR) were added. Apr.
Page 6: Table Of Contents
Contents Preface Safety Precautions Revisions Contents Page Section 1 General ..................1-1 1-1 List of Modules ..........................1-1 1-2 Supported Versions of Program Loader ..................1-1 Section 2 Specifications ................2-1 2-1 General Specifications ........................2-1 2-2 Performance Specifications ......................2-2 2-2-1 8ch voltage input module ........................
Page 7 Contents Page Section 5 Wiring ..................5-1 5-1 Wiring of Analog Input Module ....................5-1 5-1-1 Terminal arrangement ........................5-1 5-1-2 Wiring example ........................... 5-2 5-2 Wiring of Analog Output Module ....................5-3 5-2-1 Terminal arrangement ........................5-3 5-2-2 Wiring example ........................... 5-4 5-3 Wiring of Analog Input/Output Module ..................
Page 8: Section 1 General
Section 1 General 1-1 List of Modules Analog modules listed below are described in this manual. Analog voltage input Analog current input Analog voltage output Analog current output Type 0 to 5V, 1 to 5V, 4 to 20mA, 0 to 20mA, 0 to 5V, 1 to 5V, 0 to 20mA, 4 to 20mA 0 to 10V, -10 to 10V...
Page 9: Section 2 Specifications
Section 2 Specifications 2-1 General Specifications Item Specification Physical Operating ambient 0 to + 55 environmental temperature conditions Storage (transportation) -20 to 70 temperature Relative humidity 20 to 95%RH, no condensation Pollution degree 2 (no condensation) Corrosion immunity Free from corrosive gases. Not stained with organic solvents Corrosive gas Free from corrosive gases.
Page 10: Performance Specifications
Section 2 Specifications 2-2 Performance Specifications 2-2-1 8ch voltage input module Item Specification Type NP1AXH8V-MR No. of input points Analog input range 0 to 5 V 1 to 5 V 0 to 10 V -10 to 10 V Input impedance 1 MΩ...
Page 11: 8Ch Voltage Output Module
Section 2 Specifications 2-2 Performance Specifications 2-2-3 8ch voltage output module Item Specification Type NP1AYH8V-MR No. of output points Analog output range 0 to 5 V 1 to 5 V 0 to 10 V -10 to 10 V External load resistance Min.
Page 12: 4Ch Voltage Output Module
Section 2 Specifications 2-2 Performance Specifications 2-2-5 4ch voltage output module Item Specification Type NP1AYH4V-MR No. of output points Analog output range 0 to 5 V 1 to 5 V 0 to 10 V -10 to 10 V External load resistance Min.
Page 13: 6Ch Input/Output Module
Section 2 Specifications 2-2 Performance Specifications 2-2-7 6ch input/output module Item Specification Type NP1AWH6-MR No. of input points Analog input range 0 to 5V, 1 to 5V, 0 to 10V, -10 to 10V 0 to 20mA, 4 to 20mA, -20 to 20mA 250 Ω...
Page 14: Conversion Characteristics
Section 2 Specifications 2-3 Conversion Characteristics 2-3-1 Conversion characteristics of analog voltage input Output range Digital input range 0 to 5 V 0 to 16000 0 to 10000 1 to 5 V 0 to 16000 0 to 10000 0 to 10 V 0 to 16000 0 to 10000 -10 to 10 V...
Page 15 Section 2 Specifications 2-3 Conversion Characteristics 3) Characteristic curve for the input range of 0 to 10 V Digital output value (INT type) Gain value (10250) 16400 (10000) 16000 (Note) Practicable digital output range Offset value -0.25 Analog input voltage (V) 10 10.25 -400 (-250) 4) Characteristic curve for the input range of -10 to 10 V...
Page 16: Conversion Characteristics Of Analog Current Input
Section 2 Specifications 2-3 Conversion Characteristics 2-3-2 Conversion characteristics of analog current input Input range Digital output range 4 to 20 mA 0 to 16000 0 to 10000 0 to 20 mA 0 to 16000 0 to 10000 -20 to 20 mA -8000 to 8000 0 to 10000 1) Characteristic curve for the input range of 4 to 20 mA...
Page 17 Section 2 Specifications 2-3 Conversion Characteristics 3) Characteristic curve for the input range of -20 to 20 mA Digital output value (INT type) Gain value (10125) 8200 (10000) 8000 (Note) Practicable digital output range -20.5 -20 Analog input current (mA) 20 20.5 -8000 (0) -8200 (-125)
Page 18: Conversion Characteristics Of Analog Voltage Output
Section 2 Specifications 2-3 Conversion Characteristics 2-3-3 Conversion characteristics of analog voltag output Output range Digital input range 0 to 5 V 0 to 16000 0 to 10000 1 to 5 V 0 to 16000 0 to 10000 0 to 10 V 0 to 16000 0 to 10000 -10 to 10 V...
Page 19 Section 2 Specifications 2-3 Conversion Characteristics 3) Characteristic curve for the output range of 0 to 10 V Analog output voltage (V) Gain value 10.25 Practicable analog output range Offset value (-250) -400 Digital input value (INT type) 16000 -0.25 16400 (Note) (10000)
Page 20: Conversion Characteristics Of Analog Current Output
Section 2 Specifications 2-3 Conversion Characteristics 2-3-4 Conversion characteristics of analog current output Output range Digital input range 4 to 20 mA 0 to 16000 0 to 10000 0 to 20 mA 0 to 16000 0 to 10000 1) Characteristic curve for the output range of 4 to 20 mA Analog output current (mA) Gain value 20.4...
Page 21: Functional Specifications
Section 2 Specifications 2-4 Functional Specifications 2-4-1 Analog input module functions (1) Switch batch setting function With the operation setting switches provided on the module rear panel, it is possible to set the following items for all the channels in a batch: Operation range and the unit for digital conversion Moving average execution times (can be selected from 1, 2, 4 and 8 times).
Page 22: Analog Output Module Functions
Section 2 Specifications 2-4 Functional Specifications 2-4-2 Analog output module functions (1) Switch batch setting function With the operation setting switches provided on the module rear panel, it is possible to set operation range and the unit for digital input value. When the unit of digital input value is set to %, the module operates, regarding Lower limit value of range: 0.00%, Upper limit value of range: 100.00%...
Page 23: Analog Input/Output Module Functions
Section 2 Specifications 2-4 Functional Specifications 2-4-3 Analog input/output module functions (1) Switch batch setting function With the operation setting switches provided on the module rear panel, it is possible to set operation range. For analog input, it can be set for 4 channels in a batch; for analog output, 2 channels in a batch. Note 1: If the Switch Batch Setting function is enabled after scaling values or other parameter have been changed from the parameter setting window, the changed parameters are not reflected on operation and the parameters return to the default values.
Page 24: Names And Functions
Section 2 Specifications 2-5 Names and Functions 2-5-1 Analog input module (NP1AXH8V-MR/NP1AXH8I-MR) (1) Names 1) Status indication LED 2) Operation setting 4) Version seal 3) Detachable switches terminal block Specification name plate Front Rear (2) Functions 1) Status Indication LED Indicates the current status of the analog input module.
Page 25 Section 2 Specifications 2-5 Names and Functions 2) Operation setting switches These switches are used to set input range and moving average execution times. “Average” switch: Used to set a same value of moving average execution times for all channels. In Software Set Range Operation mode, the setting of this switch is ignored, and instead the initial value is used for operation.
Page 26: Analog Output Module (Np1Ayh8V-Mr, Np1Ayh8I-Mr, Np1Ayh4V-Mr, Np1Ayh4I-Mr)
Section 2 Specifications 2-5 Names and Functions 2-5-2 Analog output module (NP1AYH8V-MR, NP1AYH8I-MR, NP1AYH4V-MR, NP1AYH4I-MR) (1) Names <Analog 8ch output module> 1) Status indication LED 4) Version seal 2) Operation setting SETTING 3) Detachable switches terminal block Specification name plate Front Rear <Analog 4ch output module>...
Page 27 Section 2 Specifications 2-5 Names and Functions (2) Functions 1) Status indication LED Indicates the current status of the analog output module. Symbol Color Description Green Lights when the module is operating normally. Blinks while connecting to SX bus. Lights when the module is abnormal. SETTING Green Blinks while gain or offset value is being adjusted.
Page 28 Section 2 Specifications 2-5 Names and Functions 3) Detachable terminal block M3 20-pole detachable terminal block (M3 10-pole for 4ch output modules). For terminal arrangement, refer to “5-2-1 Terminal arrangement”. For wiring, be sure to use crimp type terminals and surely tighten them (tightening torque: 0.5 to 0.7 N-m.) 4) Version seal Versions of the hardware and firmware of the module are indicated on this seal.
Page 29: Analog Input/Output Module (Np1Awh6-Mr)
Section 2 Specifications 2-5 Names and Functions 2-5-3 Analog input/output module (NP1AWH6-MR) (1) Names 1) Status indication LED 2) Operation setting 4) Version seal 3) Detachable switches terminal block Specification name plate Front Rear (2) Functions 1) Status Indication LED Indicates the current status of the analog input/output module.
Page 30 Section 2 Specifications 2-5 Names and Functions 2) Operation setting switches These switches are used to set input/output range. When input/output range is set with these switches, the same range is set for input and output channels. It is impossible to set input range differently for individual channels. Switch No.
Page 31: Dimensions
Section 2 Specifications 2-6 Dimensions (Unit: mm) 2-23...
Page 32: Section 3 System Configuration
3-1-1 Mounting position To use these modules, they need to be connected to the SX bus of MICREX-SX series SPH or to the link (remote I/O) of I/O master module. Their mounting position on the base board is as follows.
Page 33: Section 4 Software Interface
Section 4 Software Interface 4-1 Analog Input Module NP1AXH8V-MR (voltage input module) and NP1AXH8I-MR (current input module) occupy 12 words of I/O area (input: 8 words, output: 4 words). 4-1-1 Memory allocation in Switch Batch Setting mode Moving average execution times for conversion operation is set with the “Average” switch (upper side switch on the module rear panel), and operation range is set with the “Range”...
Page 34: Memory Allocation In Software Set Range Operation Mode
Section 4 Software Interface 4-1 Analog Input Module 4-1-2 Memory allocation in Software Set Range Operation mode In Software Set Range Operation mode, memory allocation differs between when operating in A/D conversion mode (during normal operation) and when operating in parameter mode. <When operating in A/D conversion mode>...
Page 35 Section 4 Software Interface 4-1 Analog Input Module (1) Digital output value/status register (offset address: +0 to +7) When this module is in A/D conversion mode, digital output values and/or statuses are stored in the registers of offset address +0 to +7. * When using D300win, assign INT type variables to these registers.
Page 36 Section 4 Software Interface 4-1 Analog Input Module (3) Parameter type setting status register (offset address +1) This register stores the information of what parameter is now being written or read by the module. * When using D300win, assign a WORD type variable to this register. If you access by the bit, assign a BOOL type variable to each bit.
Page 37 Section 4 Software Interface 4-1 Analog Input Module <Conversion enable/disable, the unit of digital output value> (offset address +2) Flag name Description 0 to 7 Unused Channel 1 Conversion enable/disable OFF: Enable, ON: Disable Channel 2 Conversion enable/disable Channel 3 Conversion enable/disable Channel 4 Conversion enable/disable Channel 5 Conversion enable/disable Channel 6 Conversion enable/disable...
Page 38 Section 4 Software Interface 4-1 Analog Input Module <Moving average execution times setting> (offset address +4) Flag name Description 0 (L) Moving average execution times is indicted by a combination Channel 1 of ON/OFF status of two bits. Moving average execution times 1 (H) 2 (L) Channel 2...
Page 39 Section 4 Software Interface 4-1 Analog Input Module 3) When offset/gain adjustment mode is activated When parameter mode is activated (module status register = 30001(7531h)) and bit 6 of the parameter type setting status register is set ON, the status of offset/gain adjustment is indicated. For this, the digital output values of the 5 channels starting with specified channel, EEPROM writing completion flag, and offset/gain value indication flag are displayed.
Page 40 Section 4 Software Interface 4-1 Analog Input Module (6) Parameter setting data register (offset address +9 to +11) When bit 7 of the parameter type setting register (offset address +8) is set ON, module status (offset address +0) becomes “30001” (INT type) and “parameter mode” is activated. The set values of “operation parameter write”...
Page 41 Section 4 Software Interface 4-1 Analog Input Module <Moving average execution times> (offset address +11) Flag name Description 0 (L) Moving average execution times is set by a combination of Channel 1 ON/OFF status of two bits. Moving average execution times 1 (H) 2 (L) Channel 2...
Page 42 Section 4 Software Interface 4-1 Analog Input Module 2) When scaling parameter write mode is activated For scaling, data is set in the locations shown below. * When using D300win, assign INT type variables to these registers. 15(F) Offset value Gain value Unused (fixed to 0 (zero)) <Scaling>...
Page 43 Section 4 Software Interface 4-1 Analog Input Module <Procedure for scaling> 1) Set ON bit 7 of the parameter type setting register to activate parameter mode. (Make sure that module status is “30001”.) 2) Input gain and offset values to the parameter setting data register, and set ON bit 5 and bit 8 (in the case of channel 1) of the parameter type setting register.
Page 44 Section 4 Software Interface 4-1 Analog Input Module 3) When offset/gain adjustment mode is activated For offset/gain adjustment, data is set in the locations shown below: * When using D300win, assign INT type variables to these registers. 15(F) First channel No. to monitor Free (fixed to 0 (zero)) OFF: Offset value At the rising edge at which...
Page 45 Section 4 Software Interface 4-1 Analog Input Module <Example 2 of gain/offset adjustment> Offset and gain values for the range of -10 to 10 V. Digital output value (INT type) Gain value 8200 8000 Practicable digital output range -10.25 -10 Analog input voltage (V) 10 10.25 -8000 (0)
Page 46: Analog Output Module
Section 4 Software Interface 4-2 Analog Output Module NP1AYH8V-MR (voltage output module) and NP1AYH8I-MR (current output module) occupy 12 words of I/O area (input: 4 words, output: 8 words); NP1AYH4V-MR (voltage output module) and NP1AYH4I-MR (current output module) occupy 8 words of I/O area (input: 4 words, output: 4 words).
Page 47 Section 4 Software Interface 4-2 Analog Output Module (1) Module status register (offset address +0) Operation information and RAS information of this module are stored in this register. * When using D300win, assign a WORD type variable to this register. If you access by the bit, assign a BOOL type variable to each bit.
Page 48: Memory Allocation In Software Set Range Operation Mode
Section 4 Software Interface 4-2 Analog Output Module 4-2-2 Memory allocation in Software Set Range Operation mode In Software Set Range Operation mode, memory allocation differs between when operating in D/A conversion mode (during normal operation) and when operating in parameter mode. <When operating in D/A conversion mode>...
Page 49 Section 4 Software Interface 4-2 Analog Output Module (1) Module status (offset address +0) Operation information and RAS information of this module are stored in this register. This register is common to D/A conversion mode and parameter mode. * When using D300win, assign a WORD type variable to this register. If you access by the bit, assign a BOOL type variable to each bit.
Page 50 Section 4 Software Interface 4-2 Analog Output Module (3) Digital input values of channels 1 to 8 (offset address +4 to +11) The digital values to undergo D/A conversion are stored in these memory areas. Just after the system is powered up, 0 V or 0 mA is output.
Page 51 Section 4 Software Interface 4-2 Analog Output Module (5) Parameter read data register (offset address +2 to +7) In “operation parameter read mode”, “scaling parameter read mode” or “offset/gain adjustment mode”, the content of the setting for the corresponding mode is stored in this register. 1) When operation parameter read mode is activated When parameter mode is activated (when the value of the status register is “30001”) and bit 0 (zero) of the changeover command status register is set ON, the status of the operation parameter is stored in this memory area.
Page 52 Section 4 Software Interface 4-2 Analog Output Module 3) When offset/gain adjustment mode is activated When parameter mode is activated (when bit 15 of the module status register is set ON) and bit 6 of the parameter type setting status register is set ON, the status of offset/gain adjustment is indicated. For this, the status of EEPROM writing completion flag, voltage or current up/down status, and which of offset and gain values is now indicated are displayed.
Page 53 Section 4 Software Interface 4-2 Analog Output Module (7) Parameter type setting register (offset address +5) Parameter type and channel number for reading/writing parameters are set in this register. * When using D300win, assign a WORD type variable to this register. If you access by the bit, assign a BOOL type variable to each bit.
Page 54 Section 4 Software Interface 4-2 Analog Output Module (8) Parameter setting data register (offset address +6, +7) When a value in the range from “30000” to “32767” (INT type) is input to the mode changeover register (offset address +4), bit 15 of the module status register (offset address +0) is set ON, and “parameter mode”...
Page 55 Section 4 Software Interface 4-2 Analog Output Module <Initial value of scaling for each output range> Output range Initial value of scaling Available range of scaling (See note.) 0 to 5 V 0 to 16000 0 to 25000 1 to 5 V 0 to 16000 0 to 25000 0 to 10 V...
Page 56 Section 4 Software Interface 4-2 Analog Output Module <Procedure for scaling> 1) Input “30000” (INT type) to the mode changeover register (offset address +4) to activate parameter mode. (Make sure that bit 15 of the module status register is set ON.) 2) Input gain and offset values to the parameter setting data register, and set ON bit 5 and bit 8 (in the case of channel 1) of the parameter type setting register.
Page 57 Section 4 Software Interface 4-2 Analog Output Module Offset and gain values for the range of -10 to 10 V. Analog output voltage (V) Gain value 10.25 Practicable analog output range -8200 -8000 Digital input value (INT type) 8000 8200 -10.25 Offset value <Offset/gain adjustment procedure>...
Page 58: Analog Input/Output Module
Section 4 Software Interface 4-3 Analog Input/Output Module NP1AWH6-MR occupies 8 words of I/O area (input: 4 words, output: 4 words). 4-3-1 Memory allocation in Switch Batch Setting mode Offset address 15(F) Channel 1 Digital output value / Status Channel 2 Digital output value / Status This module to CPU module Channel 3 Digital output value / Status Channel 4 Digital output value / Status...
Page 59: Memory Allocation In Software Set Range Operation Mode
Section 4 Software Interface 4-3 Analog Input/Output Module 4-3-2 Memory allocation in Software Set Range Operation mode In Software Set Range Operation mode, memory allocation differs between when operating in A/D conversion mode (during normal operation) and when operating in parameter mode. <When operating in conversion mode>...
Page 60 Section 4 Software Interface 4-3 Analog Input/Output Module (1) Digital output value/status register (offset address: +0 to +3) When this module is in conversion mode, digital output values and/or statuses are stored, in the registers of offset address +0 to +3. * When using D300win, assign INT type variables to these registers.
Page 61 Section 4 Software Interface 4-3 Analog Input/Output Module (4) Parameter type setting status register (offset address +1) This register stores the information of what parameter is now being written or read by the module. * When using D300win, assign a WORD type variable to this register. If you access by the bit, assign a BOOL type variable to each bit.
Page 62 Section 4 Software Interface 4-3 Analog Input/Output Module 2) When scaling parameter read mode is activated 15(F) Offset value Gain value * When using D300win, assign INT type variables to these registers. 3) When operation range parameter read mode is activated Analog input operation range 15(F) Unused (fixed to 0 (zero))
Page 63 Section 4 Software Interface 4-3 Analog Input/Output Module (6) Parameter setting request (offset address +4) When parameters are set, input a value in the range from “30000” to “32767” to this register. Make sure that the status register (offset address +0) is “30001” and then set parameters. (7) Parameter type setting register (offset address +5) Parameter type and channel number for reading/writing parameters are set in this register.
Page 64 Section 4 Software Interface 4-3 Analog Input/Output Module (8) Parameter setting data register (offset address +6 and +7) When a value in the range from “30000” to “32767” is input to the parameter setting request register (offset address +4), the status register (offset address +0) becomes “30001”, and “parameter”...
Page 65 Section 4 Software Interface 4-3 Analog Input/Output Module <Example of scaling> Set values Gain: 4000 Digital output value Digital output value Offset: -1000 (INT type) (INT type) Gain value Gain value 4125 16400 4000 16000 Analog input Analog input current (mA) current (mA) 20 20.4 20 20.4...
Page 66 Section 4 Software Interface 4-3 Analog Input/Output Module Note 1: Scaling is enabled only when the operation setting switch on the module rear panel is set to “Soft Set Range Operation mode”. In fixed range operation mode, scaling is disabled. Note 2: Over range is fixed to “(Gain value - Offset value) x 0.025 + Gain value”.
Page 67 Section 4 Software Interface 4-3 Analog Input/Output Module 3) When offset/gain adjustment mode is activated For offset/gain adjustment, data is set in the locations shown below: * When using D300win, assign INT type variables to these registers. 15(F) Channel No. to monitor Free (fixed to 0 (zero)) For analog input Analog input...
Page 68 Section 4 Software Interface 4-3 Analog Input/Output Module <Example 2 of gain/offset adjustment> Offset and gain values for the range of -10 to 10 V. Digital output value (INT type) Gain value 8200 8000 Practicable digital output range -10.25 -10 Analog input voltage (V) 10 10.25 -8000 (0)
Page 69 Section 4 Software Interface 4-3 Analog Input/Output Module <Analog output Offset/gain adjustment> In this mode, offset value and/or gain value can finely be adjusted for individual channel. Offset value: Means the lower limit value of the range span. When this value is adjusted, the conversion characteristic curve moves parallel in vertical direction.
Page 70 Section 4 Software Interface 4-3 Analog Input/Output Module <Offset/gain adjustment procedure> Offset is adjusted first. 1) Input “30000” to the parameter setting request register to activate the parameter mode. (Make sure that the status register is “30001”.) 2) Set ON bit 7 of the parameter type setting register to activate offset/gain adjustment mode. 3) Set ON the bit for the channel to be adjusted (the corresponding bit of bits 12 or 13 of the parameter type setting register).
Page 71: Section 5 Wiring
Section 5 Wiring 5-1 Wiring of Analog Input Module 5-1-1 Terminal arrangement <NP1AXH8V-MR> <NP1AXH8I-MR> Terminal No. Terminal No. Channel 1 Channel 1 Channel 2 Channel 2 Channel 3 Channel 3 Channel 4 Channel 4 Channel 5 Channel 5 Channel 6 Channel 6 Channel 7 Channel 7...
Page 72: Wiring Example
Section 5 Wiring 5-1 Wiring of Analog Input Module 5-1-2 Wiring example The analog input modules shall be wired according to the figure below, using shielded twisted pair cables. Analog input module Shielded twisted pair cable Terminal No. V+/I+ Analog output device V-/I- V+/I+...
Page 73: Wiring Of Analog Output Module
Section 5 Wiring 5-2 Wiring of Analog Output Module 5-2-1 Terminal arrangement <NP1AYH8V-MR> <NP1AYH8I-MR> Terminal No. Terminal No. Channel 1 Channel 1 Channel 2 Channel 2 Channel 3 Channel 3 Channel 4 Channel 4 Channel 5 Channel 5 Channel 6 Channel 6 Channel 7 Channel 7...
Page 74: Wiring Example
Section 5 Wiring 5-2 Wiring of Analog Output Module 5-2-2 Wiring example The analog output modules shall be wired according to the figure below, using shielded twisted pair cables. Shielded twisted pair cable Analog input module Terminal No. V+/I+ Analog Device V-/I- V+/I+ Analog Device...
Page 75: Wiring Of Analog Input/Output Module
Section 5 Wiring 5-3 Wiring of Analog Input/Output Module 5-3-1 Terminal arrangement Terminal No. Channel 1 COM1 Channel 2 COM2 Channel 3 COM3 Channel 4 COM4 Channel 5 COM5 Channel 6 COM6...
Page 76: Wiring Example
Section 5 Wiring 5-3 Wiring of Analog Input/Output Module 5-3-2 Wiring example The analog input/output module shall be wired according to the figure below, using shielded twisted pair cables. Shielded twisted pair cable Analog input/output module Terminal No. Analog output device COM1 When current is input, Analog...
Page 77: Appendix 1 Offset/Gain Adjustment
Appendix 1 Offset/Gain Adjustment <D300win> Appendix 1-1 Offset/Gain Adjustment of Analog Input Module <Offset/gain adjustment> In this mode, offset value and/or gain value can finely be adjusted for individual channel. Offset value: Means the lower limit value of the range span. When this value is adjusted, the conversion characteristic curve moves parallel in vertical direction.

Page 78 Appendix 1 Offset/Gain Adjustment <D300win> Appendix 1-1 Offset/Gain Adjustment of Analog Input Module 2) Offset is adjusted first. Set ON bit 7 and bit 6 of the parameter type setting register (offset address +8) to activate offset/gain adjustment mode. Bit 6 of the parameter type setting status register (offset address +1) is set ON, indicating that offset/gain adjustment mode is activated.
Page 79 Appendix 1 Offset/Gain Adjustment <D300win> Appendix 1-1 Offset/Gain Adjustment of Analog Input Module 4) Apply a voltage (or a current) that corresponds to the offset value to the terminal of the channel that is to be adjusted. Set ON bit 0 (zero) of the parameter setting data register (offset address +0) to write the offset adjustment value in the module internal EEPROM.
Page 80 Appendix 1 Offset/Gain Adjustment <D300win> Appendix 1-1 Offset/Gain Adjustment of Analog Input Module 6) When offset/gain adjustment mode is activated, offset adjustment value can be monitored. Input the first channel number of the channels that are to be monitored to the parameter setting data register (offset address +9), and the statuses of offset values for 5 channels will be displayed in the fields for offset addresses +3 to +7 of the parameter read data register.
Page 81 Appendix 1 Offset/Gain Adjustment <D300win> Appendix 1-1 Offset/Gain Adjustment of Analog Input Module 8) Apply a voltage (or a current) that corresponds to the gain adjustment value to the terminal. Set ON bit 0 (zero) of offset address +10 of the parameter type setting register to write gain adjustment value in the module internal EEPROM.
Page 82: Appendix 1-2 Offset/Gain Adjustment Of Analog Output Module
Appendix 1 Offset/Gain Adjustment <D300win> Appendix 1-2 Offset/Gain Adjustment of Analog Output Module <Offset/gain adjustment> In this mode, offset value and/or gain value can finely be adjusted for individual channel. Offset value: Means the lower limit value of the range span. When this value is adjusted, the conversion characteristic curve moves parallel in vertical direction.
Page 83 Appendix 1 Offset/Gain Adjustment <D300win> Appendix 1-2 Offset/Gain Adjustment of Analog Output Module <Offset/gain adjustment with SX Control Utility of D300win> 1) Start SX Control Utility to monitor the input/output areas of the analog output module that is to be adjusted. Input/output status of analog output module (of 8ch specification)
Page 84 Appendix 1 Offset/Gain Adjustment <D300win> Appendix 1-2 Offset/Gain Adjustment of Analog Output Module 3) Set ON bit 6 of the parameter type setting register (offset address +5) to activate offset/gain adjustment mode, and set ON the bit for the channel that is to be adjusted (the corresponding one of bits 8 to 15 of the parameter type setting register). Channel 8 Channel 7 Channel 6 Channel 5 Channel 4 Channel 3 Channel 2 Channel 1 4) With an external device, etc.
Page 85 Appendix 1 Offset/Gain Adjustment <D300win> Appendix 1-2 Offset/Gain Adjustment of Analog Output Module 5) After the completion of offset adjustment, set ON bit 0 (zero) of the parameter setting data register (offset address +6) to write the offset adjustment value in the module internal EEPROM. When bit 0 (zero) of offset address +2 is set ON, the writing of EEPROM is completed.
Page 86 Appendix 1 Offset/Gain Adjustment <D300win> Appendix 1-2 Offset/Gain Adjustment of Analog Output Module 7) After the completion of gain adjustment, set ON bit 0 (zero) of the parameter setting data register (offset address +6) to write the gain adjustment value in the module internal EEPROM. Confirm the completion of EEPROM writing, in the same way as explained for offset adjustment.
Page 87: Appendix 2 Offset/Gain Adjustment
Appendix 2 Offset/Gain Adjustment <SX-Programmer Standard> Appendix 2-1 Offset/Gain Adjustment of Analog Input Module <Offset/gain adjustment> In this mode, offset value and/or gain value can finely be adjusted for individual channel. Offset value: Means the lower limit value of the range span. When this value is adjusted, the conversion characteristic curve moves parallel in vertical direction.

Page 88 Appendix 2 Offset/Gain Adjustment <SX-Programmer Standard> Appendix 2-1 Offset/Gain Adjustment of Analog Input Module 2) Offset is adjusted first. Set ON bit 7 and bit 6 of the parameter type setting register (offset address +8) to activate offset/gain adjustment mode. Bit 6 of the parameter type setting status register (offset address +1) Make sure that module is set ON, indicating that offset/gain adjustment mode is activated.
Page 89 Appendix 2 Offset/Gain Adjustment <SX-Programmer Standard> Appendix 2-1 Offset/Gain Adjustment of Analog Input Module 4) Apply a voltage (or a current) that corresponds to the offset value to the terminal of the channel that is to be adjusted. Set ON bit 0 (zero) of the parameter setting data register (offset address +0) to write the offset adjustment value in the module internal EEPROM.
Page 90 Appendix 2 Offset/Gain Adjustment <SX-Programmer Standard> Appendix 2-1 Offset/Gain Adjustment of Analog Input Module 6) When offset/gain adjustment mode is activated, offset adjustment value can be monitored. Input the first channel number of the channels that are to be monitored to the parameter setting data register (offset address +9), and the statuses of offset values for 5 channels will be displayed in the fields for offset addresses +3 to +7 of the parameter read data register.
Page 91 Appendix 2 Offset/Gain Adjustment <SX-Programmer Standard> Appendix 2-1 Offset/Gain Adjustment of Analog Input Module 8) Apply a voltage (or a current) that corresponds to the gain adjustment value to the terminal. Set ON bit 0 (zero) of offset address +10 of the parameter type setting register to write gain adjustment value in the module internal EEPROM.
Page 92: Appendix 2-2 Offset/Gain Adjustment Of Analog Output Module
Appendix 2 Offset/Gain Adjustment <SX-Programmer Standard> Appendix 2-2 Offset/Gain Adjustment of Analog Output Module <Offset/gain adjustment> In this mode, offset value and/or gain value can finely be adjusted for individual channel. Offset value: Means the lower limit value of the range span. When this value is adjusted, the conversion characteristic curve moves parallel in vertical direction.
Page 93 Appendix 2 Offset/Gain Adjustment <SX-Programmer Standard> Appendix 2-2 Offset/Gain Adjustment of Analog Output Module <Offset/gain adjustment with SX Control Utility of D300win> 1) Connect a loader to a PLC online to monitor the input/output areas of the analog input module that is to be adjusted. Input/output status of analog output module (of 8ch specification) 2) Offset is adjusted first.
Page 94 Appendix 2 Offset/Gain Adjustment <SX-Programmer Standard> Appendix 2-2 Offset/Gain Adjustment of Analog Output Module 4) With an external device, etc. connected to the terminal of the channel to be adjusted, observe output voltage or current value. First, in the condition that bit 15 of the parameter setting data register (offset address +6) is set OFF, adjust output value by setting ON and OFF bit 8 (output value Down) and bit 9 (output value Up).
Page 95 Appendix 2 Offset/Gain Adjustment <SX-Programmer Standard> Appendix 2-2 Offset/Gain Adjustment of Analog Output Module 7) After the completion of gain adjustment, set ON bit 0 (zero) of the parameter setting data register (offset address +6) to write the gain adjustment value in the module internal EEPROM. Confirm the completion of EEPROM writing, in the same way as explained for offset adjustment.
Page 96 Mitsui Sumitomo Bank Ningyo-cho Bldg., 5-7, Nihonbashi Odemma-cho, Chuo-ku, Tokyo 103-0011, Japan Phone: +81-3-5847-8011 Fax: +81-3-5847-8172 http://www.fujielectric.co.jp/fcs/eng/ Information in this manual is subject to change without notice.

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Fuji Electric Micrex-SX Series User Manual

Section 1 General

Contents

List of Modules

Supported Versions of Program Loader

Section 2 Specifications

General Specifications

Performance Specifications

Conversion Characteristics

Functional Specifications

Names and Functions

Dimensions

Section 3 System Configuration

Mounting on the Base Board

Section 4 Software Interface

Analog Input Module

Analog Output Module

Analog Input/Output Module

Section 5 Wiring

Wiring of Analog Input Module

Wiring of Analog Output Module

Wiring of Analog Input/Output Module

Appendix 1 Offset/Gain Adjustment <D300Win

Appendix 1-1 Offset/Gain Adjustment of Analog Input Module

Appendix 1-2 Offset/Gain Adjustment of Analog Output Module

Appendix 2 Offset/Gain Adjustment <SX-Programmer Standard

Appendix 2-1 Offset/Gain Adjustment of Analog Input Module

Appendix 2-2 Offset/Gain Adjustment of Analog Output Module

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