Mitsubishi Q64AD User Manual
Melsec-q serires analog-digital converter module
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Summary of Contents for Mitsubishi Q64AD
- Page 1 Analog-Digital Converter Module User's Manual Q64AD Mitsubishi Programmable Q68ADV Logic Controller Q68ADI SW0D5C-QADU-E...
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Page 2: Safety Precautions
• SAFETY PRECAUTIONS • (Always read these instructions before using this equipment.) Before using this product, please read this manual and the relevant manuals introduced in this manual carefully and pay full attention to safety to handle the product correctly. The instructions given in this manual are concerned with this product. - Page 3 [INSTALLATION PRECAUTIONS] CAUTION • Use in an environment that meets the general specifications contained in the user's manual of the CPU module. Using this PLC in an environment outside the range of the general specifications may cause electric shock, fire, malfunction, and damage to or deterioration of the product. •...
- Page 4 [STARTING AND MAINTENANCE PRECAUTIONS] CAUTION • Do not disassemble or modify the modules. Doing so could cause failure, malfunction injury or fire. • Switch all phases of the external power supply off when mounting or removing the module. Not doing so may cause failure or malfunction of the module. •...
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Page 5: Revisions
This manual confers no industrial property rights or any rights of any other kind, nor does it confer any patent licenses. Mitsubishi Electric Corporation cannot be held responsible for any problems involving industrial property rights which may occur as a result of using the contents noted in this manual. -
Page 6: Table Of Contents
INTRODUCTION Thank you for purchasing the MELSEC-Q series PLC. Before using the equipment, please read this manual carefully to develop full familiarity with the functions and performance of the Q series PLC you have purchased, so as to ensure correct use. Please forward a copy of this manual to the end user. - Page 7 3.4.9 Offset/gain setting mode (buffer memory addresses 22 and 23: Un\G22 and Un\G23) ....3-17 3.4.10 Maximum and minimum values storage area (buffer memory addresses 30 to 45: Un\G30 to Un\G45) ............3-17 4 SETUP AND PROCEDURES BEFORE OPERATION 4- 1 to 4-12 4.1 Handling Precautions..........................
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Page 8: Conformation To The Emc Directive And Low Voltage Instruction
Conformation to the EMC Directive and Low Voltage Instruction For details on making Mitsubishi PLC conform to the EMC directive and low voltage instruction when installing it in your product, please see Chapter 3, "EMC Directive and Low Voltage Instruction" of the PLC CPU User's Manual (Hardware). -
Page 9: Product Structure
The product structure of this product is given in the table below. Manual Name Product name Quantity Q64AD Q64AD Model Analog-Digital Conversion Module Q68ADV Q68ADV Model Analog -Digital Conversion Module Q68ADI Q68ADI Model Analog -Digital Conversion Module Utility package for SW0D5C-QADU-E Model A/D Conversion Module... -
Page 10: Overview
Q68ADV), and Q68ADI analog-digital conversion module (hereinafter referred to as the Q68ADI), which are used in conjunction with MELSEC-Q Series CPUs. In this manual, the Q64AD, Q68ADV, and Q68ADI are collectively referred to as the A/D conversion modules. 1.1 Features (1) Select the type of module according to the application. - Page 11 1 OVERVIEW MELSEC-Q MEMO 1 - 2...
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Page 12: System Configuration
2 SYSTEM CONFIGURATION MELSEC-Q 2 SYSTEM CONFIGURATION 2.1 Applicable Systems The A/D conversion modules can be used with the following systems. (1) Applicable CPU modules The module can be used with a CPU module that operates in Q mode. Q02CPU, Q02HCPU, Q06HCPU, Q12HCPU and Q25HCPU (2) Number of modules that can be used in one system There is no limit in the number of modules that can be used, as long as the number of I/O points is within the range allowed for the CPU used. - Page 13 2 SYSTEM CONFIGURATION MELSEC-Q MEMO 2 - 2...
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Page 14: Specifications
3 SPECIFICATIONS 3.1 Performance Specifications 3.1.1 Performance specifications list Table 3.1 shows the performance specifications of the A/D conversion modules. Table 3.1 Performance specifications Model name Q64AD Q68ADV Q68ADI Item Analog input points 4 points (4 channels) 8 points (8 channels) -
Page 15: I/O Conversion Characteristic
3 SPECIFICATIONS MELSEC-Q 3.1.2 I/O conversion characteristic The I/O conversion characteristic represents the angle formed by a straight line connecting the "offset value" and "gain value" when the analog signals (voltage or current input) from outside the PLC are converted to digital values. Offset value The offset value denotes the analog input value (voltage or current) that makes the digital output value 0. - Page 16 3 SPECIFICATIONS MELSEC-Q (1) Voltage input characteristic A voltage input characteristic graph is shown in Figure 3.1. Analog input practical range 4095 4000 3) 4) 2000 –96 –2000 –4000 –4096 –15 –10 –5 Analog input voltage (V) Analog input Maximum Number Offset value Gain value...
- Page 17 3 SPECIFICATIONS MELSEC-Q (2) Current input characteristic A current input characteristic graph is shown in Figure 3.2. Analog input practical range 4095 4000 2000 –96 –2000 –4000 –4096 –30 –20 –10 Analog input current (mA) Analog input Maximum Number Offset value Gain value Digital output value range setting...
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Page 18: Accuracy
3 SPECIFICATIONS MELSEC-Q 3.1.3 Accuracy Accuracy is expressed as a full-scale value. For example, the accuracy is ± 0.1% ( ± 4 for digital output value) when the module is used in an ambient temperature of 25 ± 5 °C, and ± 0.3% (± 12 for digital output value) in an ambient temperature of 0 to 55 °C with temperature drift compensation function. -
Page 19: Function List
3 SPECIFICATIONS MELSEC-Q 3.2 Function List Table 3.2 shows the function list of the A/D conversion modules. Table 3.2 Function list Item Function Reference section (1) Specifies whether to enable or disable the A/D conversion for each channel. A/D conversion enable/ Section 3.4.2 (2) By disabling the conversion for the channels that are not used, the disable setting... - Page 20 3 SPECIFICATIONS MELSEC-Q (a) When averaging processing is specified for the set amount of time 1) The number of processing repetitions within the set time differs according to the number of channels used (number of channels for which A/D conversion is enabled) and whether or not temperature-drift compensation is used.
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Page 21: Maximum And Minimum Values Hold Function
3 SPECIFICATIONS MELSEC-Q 3.2.2 Maximum and minimum values hold function (1) The maximum and minimum digital output values for each channel are stored in buffer memory addresses 30 to 45 (Un\G30 to Un\G45). (2) When the operating condition setting completed flag (X09) turns OFF, the values are cleared to 0 and new maximum and minimum values are stored when conversion begins. -
Page 22: Details Of I/O Signals
3 SPECIFICATIONS MELSEC-Q 3.3.2 Details of I/O signals I/O signals for the A/D conversion modules are explained in detail below. (1) Input signals Device No. Signal Name Description (1) When the PLC CPU is powered on or reset, this signal turns on once the preparation for A/D conversion has been completed, and A/D conversion processing is then performed. - Page 23 3 SPECIFICATIONS MELSEC-Q Device No. Signal name Description (1) This is used as an interlock condition for setting the channel change request (YB) to ON/OFF when changing the channel for which the offset/gain settings are to be performed. (2) See Section 4.6 regarding the offset/gain settings. Offset/gain setting mode Offset/gain specifications Channel change...
- Page 24 3 SPECIFICATIONS MELSEC-Q (2) Output signals Device No. Signal name Description (1) This turns ON when A/D conversion is enabled/disabled, or when averaging Operating processing specification, the settings for the average time or number of times (when condition setting averaging processing is specified) is enabled. request (2) See the X9 column for ON/OFF timing.
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Page 25: Buffer Memory
Offset specification Offset/gain setting mode Gain specification 1 When Q64AD is used, buffer memory addresses for CH5 to CH8 become blank. 2 Indicates whether reading and writing to/from a sequence program are enabled. R : Read enabled W : Write enabled... -
Page 26: A/D Conversion Enable/Disable Setting (Buffer Memory Address 0: Un\G0)
A/D conversion enable/disable setting. (See Section 3.2.2.) (3) By default, A/D conversion is enabled for all channels. (4) In the case of the Q64AD module, b4 to b7 (CH5 to CH8) become invalid. b15 b14 b13 b12 b11 b10... -
Page 27: Averaging Processing Setting (Buffer Memory Address 9: Un\G9)
(2) When averaging processing is selected, select average time or average number of times. (3) By default, sampling processing is set for all channels. (4) In the case of the Q64AD module, b4 to b7 and b12 to b15 (CH5 to CH8) are invalid. b15 b14 b13 b12 b11 b10... -
Page 28: A/D Conversion Completed Flag (Buffer Memory Address 10: Un\G10)
(2) When the operating condition setting request (Y9) is set to ON, the flag returns to the default setting of 0 and changes to 1 when A/D conversion is complete. (3) In the case of the Q64AD module, b4 to b7 (CH5 to CH8) are invalid. b15 b14 b13 b12 b11 b10... -
Page 29: Write Data Error Codes (Buffer Memory Address 19: Un\G19)
(2) The setting values for CH1 to CH4 are stored in buffer memory address 20 (Un\G20) and setting values for CH5 to CH8 are stored in buffer memory address 21 (Un\G21). In the case of the Q64AD module, buffer memory address 21 (Un\G21) is invalid. -
Page 30: Offset/Gain Setting Mode (Buffer Memory Addresses 22 And 23: Un\G22 And Un\G23)
Un\G23 to 0). If both are set at the same time, an offset/gain setting mode error (error code 500) occurs. (4) For Q64AD, b4 to b7 (information for CH5 to CH8) are invalid. (5) See Section 4.6 for the details of the offset/gain settings. - Page 31 3 SPECIFICATIONS MELSEC-Q MEMO 3 - 18...
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Page 32: Setup And Procedures Before Operation
4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC-Q 4 SETUP AND PROCEDURES BEFORE OPERATION 4.1 Handling Precautions (1) Do not drop the module or subject it to heavy impact. (2) Do not remove the PCB of the module from its case. Doing so may cause the module to fail. - Page 33 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC-Q 4.2 Setup and Procedures before Operation Start Module mounting Mount the A/D conversion module in the specified slot. Wiring Wire external devices to the A/D conversion module. Intelligent function module switch settings Perform settings using GPPW (see Section 4.5). Use the setting range at the time of factory shipment.
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Page 34: Part Identification Nomenclature
4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC-Q 4.3 Part Identification Nomenclature The name of each part of the A/D conversion module is listed below. Q64AD Q68ADV Q68ADI Q64AD Q68ADV Q68ADI ERROR ERROR ERROR A.G. A.G. A.G. (FG) (FG) (FG) 0-±10V 0-20mA 0-±10V... - Page 35 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC-Q Signal name Terminal number Q64AD Q68ADV Q68ADI V – V – I – V – I – V – V – I – V – I – V – V – I –...
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Page 36: Wiring
Please observe the following precautions for external wiring: (1) Use separate cables for alternating current and external input signals for Q64AD and Q68ADV (I) in order to avoid A/C surges and induction effects. -
Page 37: External Wiring
ANALOG GND 1 Use a twisted two core shielded wire for the power wire. 2 Shows input resistance of Q64AD. 3 If current input, always connect to (V +) and (I +) terminals. 4 "A.G." terminal does not normally require wiring. However, it can be used as GND for compatible equipment ground under the following conditions. - Page 38 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC-Q (2) Q68ADV + 15 V 500 k V – 500 k A.G. – 15 V ANALOG GND 1 Shielded 1 Use a twisted two core shielded wire for the power wire. 2 Shows input resistance of Q68ADV. 3 "A.G."...
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Page 39: Switch Setting For Intelligent Function Module
: Offset/gain setting mode Switch 5 0 : Fixed Depending on the type of module used, the settings for A/D unit input range are shown below. • Q64AD....0 to 5 • Q68ADV ....0 to 5 *1 When the setting is 0 , the input operating range will be 0t o 10V. - Page 40 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC-Q (2) Operating procedure Start the settings with GPPW I/O assignment setting screen. (a) I/O assignment setting screen Set the following for the slot in which the A/D conversion module is mounted. The type setting is required; set other items as needed.
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Page 41: Offset/Gain Settings
4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC-Q 4.6 Offset/Gain Settings Follow the steps below to perform the offset/gain settings. If the utility package is installed, perform the offset/gain settings according to the procedure described in Section 5.6.2. Start Use the intelligent Set the channel change function module switch request (YB) to ON. - Page 42 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC-Q POINT (1) Perform the offset/gain settings in the range that satisfies the conditions specified in Section 3.1.2, (1) and (2). When the setting exceeds this range, the maximum resolution or total accuracy may not be within the range indicated in the performance specification. (2) Perform the offset/gain settings separately for each channel.
- Page 43 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC-Q MEMO 4 - 12...
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Page 44: Utility Package (Sw0D5C-Qadu-E)
5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q 5 UTILITY PACKAGE (SW0D5C-QADU-E) 5.1 Utility Package Functions Table 5.1 shows an overview of the utility package functions. Table 5.1 Utility package (SW0D5C-QADU-E) function list Item Description Reference section (1) Sets the following items that require initial setting. •... -
Page 45: Installing And Uninstalling The Utility Package
5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q 5.2 Installing and Uninstalling the Utility Package For installing and uninstalling SW0D5C-QADU-E, see the GPP Function Software for Windows Package SW D5C-GPPW-E Operating Manual (Startup). 5.2.1 User precautions The following provides the precautions on using the SW0D5C-QADU-E: (1) Important safety information Since SW0D5C-QADU-E is add-on software for GPPW, read "Safety Precautions"... -
Page 46: Operating Environment
5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q 5.2.2 Operating environment This section describes the operating environment of the SW0D5C-QADU-E. Item Peripheral devices Installation (Add-on) Add-on to SW4D5-GPPW-E or later Language Install with SW4D5-GPPW-E Pentium 133 MHz or faster recommended Memory 32 MB or more recommended Free For installation (HD) Minimum 3 MB... -
Page 47: Explanation Of Utility Package Operation
5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q 5.3 Explanation of Utility Package Operation 5.3.1 How to perform common utility package operations (1) Available control keys Special keys that can be used during operation of the utility package and their applications are shown in the table below. Name of key Application Cancels a newly entered value when entering data in a cell. - Page 48 5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q (2) Data to be created with the utility package The data and files shown below that are created with the utility package are also processed using GPPW operation. Figure 5.1 shows which operation processes which data or file. <Intelligent function module parameters>...
- Page 49 5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q <Text file> (a) A text file is created by performing the initial setting or automatic refresh setting, or selecting text file creation in the monitor/test screen. The text files can be utilized to create user documents. GPPW/QADU Disk Project...
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Page 50: Operation Overview
5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q 5.3.2 Operation overview GPPW screen [Tools] – [Intelligent function utility] – [Start] Intilligent function module parameter setting module select screen Enter "Start I/O No.", then select "Package name" and "Module model name". See Section 5.3.3 Initial setting Auto refresh Initial setting screen... - Page 51 5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q [Online] – [Monitor/test] Select monitor/test module screen Enter "Start I/O No.", then select "Package name" and "Module model name". Monitor/test screen See Section 5.5 5 - 8...
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Page 52: Starting The Intelligent Function Module Utility
5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q 5.3.3 Starting the intelligent function module utility [Purpose of setting] Start the intelligent function module utility from GPPW, and display the module selection screen for the intelligent function module utility parameter setting. The screens for performing initial setting, automatic refresh setting and monitor/test module selection (selecting the module for which monitoring/testing is to be performed) can be started from this screen. - Page 53 5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q (3) Menu bar (a) File items With file operation, the intelligent function module parameters for the project opened by GPPW can be processed. [Open file] : Reads the parameter file. [Close file] : Closes the parameter file. If revisions were made, the dialog box asking whether to save the file appears.
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Page 54: Initial Setting
5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q 5.4 Initial Setting [Purpose of setting] The following A/D initial setting parameters are set: • A/D conversion enable/disable setting • Sampling process/averaging process setting • Time/number of times specifying • Average time/average number of times setting By performing these initial settings, the sequence program settings are not required. -
Page 55: Automatic Refresh Settings
5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q 5.5 Automatic Refresh Settings [Purpose of setting] Sets the buffer memory for the A/D conversion module to be automatically refreshed. [Startup procedure] "Start I/O No. " "Package name" "Module model name" Auto refresh [Setting screen] [Explanation of items] (1) Contents of the screen display Model side Buffer size... - Page 56 5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q (2) Explanation of command buttons A file containing the screen contents is created in text file Make text file format. Confirms the setting data and ends the operation. End setup Cancels the setting data and ends the operation. Cancel POINT The automatic refresh settings are stored in the intelligent function module...
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Page 57: Monitor/Test
5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q 5.6 Monitor/Test 5.6.1 Monitor/test screen [Purpose of setting] Buffer memory monitoring/testing, I/O signals monitoring/testing, operating condition setting, offset/gain settings (see Section 5.6.2) are started from this screen. [Startup procedure] Monitor/test module selection screen "Start I/O No. " "Package name"... - Page 58 5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q Operating condition setting Offset/gain setting 5 - 15...
- Page 59 5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q [Explanation of items] (1) Contents of screen display Setting item : The I/O signal or buffer memory names are displayed. Current value : The I/O signal status or current value of buffer memory are monitored. Setting value : Select or enter the data to be written during test operation.
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Page 60: Offset/Gain Setting Operation
5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q 5.6.2 Offset/gain setting operation Perform the offset/gain setting operation in the following sequence. (1) Switch to the offset/gain setting mode Change switch 4 for intelligent function module switch setting to the offset/gain setting mode (see Section 4.5). (2) Switch to the offset/gain setting screen Display the offset/gain setting screen using the operation described in Section 5.6.1. - Page 61 5 UTILITY PACKAGE (SW0D5C-QADU-E) MELSEC-Q MEMO 5 - 18...
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Page 62: Programming
(2) Program conditions This program reads the digital output values that have been A/D converted using CH 1 to CH3 of the Q64AD. CH1 performs sampling processing, CH2 performs averaging processing every 50 times, and CH3 performs averaging processing every 1000 ms. An error code appears in BCD format if a write error occurs. -
Page 63: Programming Example Using The Utility Package
6 PROGRAMMING MELSEC-Q 6.1 Programming Example Using the Utility Package 6.1.1 Operating the utility package (1) Initial setting (see Section 5.4) Set channel 1 to sampling processing, channel 2 to averaging processing for 50 times and channel 3 to averaging processing for 1000 ms. (2) Auto refresh setting (see Section 5.5) Set the digital output values and error codes for CH1 to 3. -
Page 64: Programming Example
6 PROGRAMMING MELSEC-Q 6.1.2 Programming example Digital output value read processing D101 CH1 Digital Read Module output digital READY conversion values completed Transfer digital output values D11 flag to D13 read using automatic D102 refresh to D101 to D103 after A/D CH2 Digital conversion is completed. -
Page 65: Programming Example Without Using The Utility Package
6 PROGRAMMING MELSEC-Q 6.2 Programming Example without Using the Utility Package (1) Programming example using the FROM/TO commands Set the A/D conversion enabled channel (initial setting) CH1 to CH3 are A/D conversion enabled Module READY Set the average number of times for CH2 to 50 times K1000 Set the average time for CH3 to... - Page 66 6 PROGRAMMING MELSEC-Q (2) Programming example using the intelligent function module device (U \G ) Set the A/D conversion enabled channel (initial setting) CH1 to CH3 are A/D conversion enabled Module READY Set the average number of times for CH2 to 50 times K1000 Set the average time for CH3 to 1000 ms...
- Page 67 6 PROGRAMMING MELSEC-Q MEMO 6 - 6...
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Page 68: Troubleshooting
7 TROUBLESHOOTING MELSEC-Q 7 TROUBLESHOOTING The following section explains the types of errors that may occur when the A/D conversion module is used, and how to troubleshoot such errors. 7.1 Error Code List If an error occurs in the A/D conversion module while writing to or reading data from the PLC CPU, the applicable error code is written to buffer memory address 19 (Un\G19). -
Page 69: Troubleshooting
7 TROUBLESHOOTING MELSEC-Q 7.2 Troubleshooting 7.2.1 When the "RUN" LED is flashing or turned off (1) When flashing Check item Corrective action Reset switch 4 of the intelligent function module setting for Is the mode set to the offset/gain setting mode? GPPW to the normal mode (see Section 4.5). -
Page 70: When The Digital Output Values Cannot Be Read
7 TROUBLESHOOTING MELSEC-Q 7.2.3 When the digital output values cannot be read Check item Corrective action Is there any fault with the analog signal lines such as Check for faulty condition of the lines visually and perform a disconnection? continuity check of the signal lines. Is the CPU module in the STOP status? Set the CPU module to the RUN status. -
Page 71: Checking The A/D Conversion Module Status Using Gppw System Monitor
7 TROUBLESHOOTING MELSEC-Q 7.2.4 Checking the A/D conversion module status using GPPW system monitor When the A/D conversion module detail information is selected in GPPW system monitor, error codes and LED status can be checked. (1) Operating GPPW [Diagnostics] [System monitor] "Select A/D conversion module"... -
Page 72: Appendix
APEENDIX MELSEC-Q APPENDIX Appendix 1. External Dimension Diagram (1) Q64AD Q64AD ERROR A.G. (FG) 0-±10V 0-20mA 90 (3.55) 27.4 (1.08) (2) Q68ADV Q68ADV ERROR App. A.G. (FG) 0-±10V 90 (3.55) 27.4 (1.08) Appendix - 1... - Page 73 APEENDIX MELSEC-Q (3) Q68ADI Q68ADI ERROR A.G. (FG) 0-20mA 90 (3.55) 27.4 (1.08) Appendix - 2...
- Page 74 INDEX Absolute maximum input......... 3-1 Gain value ............3-2 Accuracy........... 3-1, 3-5 GPPW ............. A-7 A/D conversion completed flag ....3-10, 3-15 A/D conversion enable/disable setting .. 3-6, 3-13 A/D conversion methods......... 3-6 Handling precautions ........4-1 A/D conversion module........A-7 [ I ] Analog input.............
- Page 75 Part identification nomenclature ..... 4-3 Programming........... 6-1 Q64AD ............. 1-1 Q68ADI ............1-1 Q68ADV............1-1 QCPU (Q mode)..........A-7 Read from PLC..........5-10 RUN LED............A-7 Sampling processing........3-6 Save file ............5-10 Setting ranges ..........3-16 Setup and procedures before operation..4-2 Switch setting for intelligent function module .............
- Page 76 MEMO Index - 3...
- Page 77 1. Gratis Warranty Term and Gratis Warranty Range If any faults or defects (hereinafter “problems”) found to be the responsibility of Mitsubishi occurs during use of the product within the gratis warranty term, the product shall be repaired at no cost via the dealer or Mitsubishi Service Company.
- Page 78 CODE SH(NA)-080055-A(9912)MEE HEAD OFFICE : MITSUBISHI DENKI BLDG MARUNOUCHI TOKYO 100-8310 TELEX : J24532 CABLE MELCO TOKYO NAGOYA WORKS : 1-14 , YADA-MINAMI 5 , HIGASHI-KU, NAGOYA , JAPAN When exported from Japan, this manual does not require application to the Ministry of International Trade and Industry for service transaction permission.