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MELSEC-Q

5 UTILITY PACKAGE (SW0D5C-QADU-E)

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.

(3) Adjustment of the offset and gain values

(a) Set the analog input value for the offset value

Add the voltage or current that will determine the offset value to the channel

to be set.

(b) Select the channel for which the offset value is to be adjusted

Make the selection from the offset/gain setting channel field, and then click

on the Select test button.

Add the voltage or current that will determine the gain value to the channel

to be set.

(d) Select the channel for which the gain value is to be adjusted

Make the selection from the offset/gain setting channel field, and then click

on the Select test button.

(e) To set the offset/gain for more than one channel, repeat steps (a) to (d).

(4) Write the offset/gain setting values to the module

Write the offset/gain settings to the module after completing the settings for all

channels using the user range setting. Note that if settings are written while

offset/gain settings are incomplete, the status at that point will be written to the

module.

(a) Write to the A/D conversion module

Select "Write requested" from the setting value field for the offset/gain

setting write request, and then click on the Select test button.

(b) Confirm execution of write operation

Confirm that the current value field display for the offset/gain module write

request changes from "Write request" to "No write request".

Confirm that the ERROR LED for the A/D conversion module is off. If the

ERROR LED is lit, click on Close , check the error code on the monitor

screen, and then perform the offset/gain settings again.

Summary of Contents for Q64AD

Page 1: ...Analog Digital Converter Module User s Manual Mitsubishi Programmable Logic Controller Q64AD Q68ADV Q68ADI SW0D5C QADU E...

Page 2: ...jury or physical damage Note that the CAUTION level may lead to a serious consequence according to the circumstances Always follow the instructions of both levels because they are important to persona...

Page 3: ...emoving the module Not doing so may cause damage to the module Do not directly touch the conductive area or electronic components of the module Doing so may cause malfunction or failure in the module...

Page 4: ...o may cause malfunction Switch all phases of the external power supply off when cleaning or retightening the terminal screws and module installation screws Not doing so may cause failure or malfunctio...

Page 5: ...al Version SH 080028 B 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 responsib...

Page 6: ...formance specifications list 3 1 3 1 2 I O conversion characteristic 3 2 3 1 3 Accuracy 3 5 3 2 Function List 3 6 3 2 1 A D conversion methods 3 6 3 2 2 Maximum and minimum values hold function 3 8 3...

Page 7: ...Operation 5 4 5 3 1 How to perform common utility package operations 5 4 5 3 2 Operation overview 5 7 5 3 3 Starting the intelligent function module utility 5 9 5 4 Initial Setting 5 11 5 5 Automatic...

Page 8: ...al terms Description of the abbreviation general terms A D conversion module General term for Q64AD Q68ADI Q68ADV Personal computer IBM PC AT or upwardly compatible computer with Windows 95 or higher...

Page 9: ...uct name Quantity Q64AD Q64AD Model Analog Digital Conversion Module 1 Q68ADV Q68ADV Model Analog Digital Conversion Module 1 Q68ADI Q68ADI Model Analog Digital Conversion Module 1 Utility package for...

Page 10: ...els all of which are current input 2 High speed conversion Conversion is performed at a high speed of 80 s channel Also the temperature drift compensation function can be performed using a processing...

Page 11: ...1 2 MELSEC Q 1 OVERVIEW MEMO...

Page 12: ...owed for the CPU used 3 Loading slot The module can be loaded in any slot position in the standard base or expansion base However a power shortage may occur depending on the combination with other ins...

Page 13: ...2 2 MELSEC Q 2 SYSTEM CONFIGURATION MEMO...

Page 14: ...characteristics Maximum resolution Ambient temperature 25 5 C 0 1 Accuracy Full scale accuracy Ambient temperature 0 to 55 C With temperature drift compensation 0 3 With no temperature drift compensa...

Page 15: ...ffset 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...

Page 16: ...to 10 V 0 V 10 V 0 to 4000 2 5 mV User range setting 1 1 4000 to 4000 Figure 3 1 Voltage input characteristic POINT 1 Do not input an analog input voltage of more than 15 V The input elements may be d...

Page 17: ...mA 0 mA 20 mA 0 to 4000 5 A User range setting 1 1 4000 to 4000 Figure 3 2 Current input characteristic POINT 1 Do not input an analog input current of more than 30 mA A breakdown may result due to o...

Page 18: ...utput 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 4000 400...

Page 19: ...version accuracy 2 The temperature drift compensation function can be performed at A D conversion time for all channels 160 s 3 2 1 A D conversion methods There are two A D conversion methods sampling...

Page 20: ...with the temperature drift compensation function on set the average time to 3 ms or more If the time is set to 2 ms or less the average number of times becomes less than 3 and it causes the digital ou...

Page 21: ...O signal Signal direction CPU A D conversion module Signal direction CPU A D conversion module Device No Input Signal name Device No Output Signal name X00 Module READY Y00 X01 Temperature drift compe...

Page 22: ...ondition setting request Y9 ON OFF when the setting for A D conversion enable disable buffer memory address 0 Un G0 is changed 2 When the operating condition setting completed flag X9 is OFF A D conve...

Page 23: ...ettings Channel change request YB Offset gain setting mode Offset gain specifications buffer memory addresses 22 and 23 Un G22 and Un G23 Channel change completed flag XB XE A D conversion completed f...

Page 24: ...ettings are registered in the A D conversion module 2 See the XA column for ON OFF timing See Section 4 6 for offset gain settings YB Channel change request 1 This turns ON when changing the channel f...

Page 25: ...ng process setting R W 21H 33 CH2 Minimum value R W AH 10 A D conversion completed flag R 22H 34 CH3 Maximum value R W BH 11 CH1 Digital output value R 23H 35 CH3 Minimum value R W CH 12 CH2 Digital o...

Page 26: ...the Q64AD information for b4 to b15 is fixed at 0 and for the Q68ADV I information for b8 to b15 is fixed at 0 0 A D conversion enabled 1 A D conversion disabled When the channels used for A D convers...

Page 27: ...13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 b0 CH8 CH7 CH6 CH5 CH4 CH3 CH2 CH1 Time number of times specification 1 Average time 0 Average number of times Averaging processing channel specification 1 Av...

Page 28: ...r the Q64AD information for b4 to b15 is fixed at 0 and for the Q68AD information for b8 to b15 is fixed at 0 CH8 CH7 CH6 CH5 CH4 CH3 CH2 CH1 0 0 0 0 0 0 0 0 1 A D conversion completed 0 A D conversio...

Page 29: ...red 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 b15 to...

Page 30: ...or CH5 to CH8 are invalid 5 See Section 4 6 for the details of the offset gain settings b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 b0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 CH8 CH7 CH6 CH5 CH4 CH3 CH...

Page 31: ...3 18 MELSEC Q 3 SPECIFICATIONS MEMO...

Page 32: ...s from entering the module during wiring Do not remove this film until the wiring is complete Before operating the system be sure to remove the film to provide adequate ventilation 5 Tighten the termi...

Page 33: ...t gain setting If user range settings are used perform the offset and gain settings see Section 4 6 Use the utility package Initial setting and automatic refresh setting The program can be simplified...

Page 34: ...20mA C H 8 C H 7 I I I I C H 6 C H 5 I I I I A G C H 2 C H 1 I I I I 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 1...

Page 35: ...number Q64AD Q68ADV Q68ADI 1 V V I 2 V CH1 V CH1 I 3 I V I 4 CH1 SLD CH2 V CH2 I 5 V V I 6 V CH3 V CH3 I 7 I V I 8 CH2 SLD CH4 V CH4 I 9 V V I 10 V CH5 V CH5 I 11 I V I 12 CH3 SLD CH6 V CH6 I 13 V V I...

Page 36: ...ernating current and external input signals for Q64AD and Q68ADV I in order to avoid A C surges and induction effects 2 Do not mount the cables close to or bundle them with the main circuit line a hig...

Page 37: ...sted 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 b...

Page 38: ...tive for 0 V input when only the side is open on a wire 4 Always use a ground In addition ground the FB of the power supply module 3 Q68ADI GND I A G 4 1 Shielded 3 ANALOG GND 15 V 15 V 2 250 FG I 1 U...

Page 39: ...input range Input range setting value 4 to 20 mA 0H 1 0 to 20 mA 1H Switch 1 Input range setting H CH4CH3CH2CH1 1 to 5 V 2H 0 to 5 V 3H 10 to 10 V 4H 0 to 10 V 5H User range setting FH Switch 2 Input...

Page 40: ...ts Start XY Enter the start I O number for the A D conversion module b Switch setting for intelligent function module screen Click on Switch setting on the I O assignment setting screen to display the...

Page 41: ...ss 23 Un G23 to 0 Turn the channel change request YB to ON Set the channel change request YB to ON Verify that the channel change completed flag XB is ON Adjust other channels YES NO Set the channel c...

Page 42: ...ignals for the A D conversion module are X Y0 to X YF Channel selection M0 Offset setting M1 Gain setting M2 Channel change command M3 Offset gain setting value write command to the module M4 M0 Switc...

Page 43: ...4 12 MELSEC Q 4 SETUP AND PROCEDURES BEFORE OPERATION MEMO...

Page 44: ...changes to the RUN status Section 5 4 Automatic Refresh Settings 1 1 Sets automatic refresh for the A D conversion module buffer memory 2 The buffer memory that was set for automatic refresh is automa...

Page 45: ...rly display while the intelligent function module utility is being used due to a lack of system resources If this occurs close the intelligent function module utility first and then GPPW program comme...

Page 46: ...nimum 3 MB Free space For execution Virtual memory Minimum 10 MB Display 800 600 pixels or higher resolution Operating system Microsoft Windows 95 Microsoft Windows 98 Microsoft Windows NT Workstation...

Page 47: ...the window Tab Moves between controls in the window Ctrl Used in conjunction with the mouse when multiple cells are selected in the selection test Alt Deletes the character where the cursor is positio...

Page 48: ...parameter file of the project to be created using GPPW Project Program Parameter PLC Parameter Network Parameter Intelligent Function Module Parameter b Steps 1 to 3 shown in Figure 5 1 are performed...

Page 49: ...n in the monitor test screen The text files can be utilized to create user documents QCPU RUN ERR USER BAT BOOT RS 232 USB Q25HCPU MODE A GPPW QADU Disk Project Project A A B Personal computer A Indic...

Page 50: ...nt 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 screen...

Page 51: ...8 MELSEC Q 5 UTILITY PACKAGE SW0D5C QADU E Online Monitor test Select monitor test module screen Monitor test screen See Section 5 5 Enter Start I O No then select Package name and Module model name...

Page 52: ...to be performed can be started from this screen Startup procedure Tools Intelligent function utility Start Setting screen Explanation of items 1 How to start each screen a Starting initial setting St...

Page 53: ...dule selection screen Read from PLC Reads the intelligent function module parameters from the CPU module Write to PLC Writes the intelligent function module parameters to the CPU module POINT 1 Saving...

Page 54: ...bled and the A D conversion method for each channel 2 Explanation of command buttons Make text file Outputs the screen display in text file format End setup Confirms the setting data and ends the oper...

Page 55: ...er word count Displays the number of words to transfer the CPU device from the head device fixed at one word Transfer direction indicates that data is written from the device to the buffer memory indi...

Page 56: ...atic refresh settings are stored in the intelligent function module parameters After the automatic refresh settings are written to the CPU module they are validated by performing STOP RUN STOP RUN ope...

Page 57: ...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 Packa...

Page 58: ...5 15 MELSEC Q 5 UTILITY PACKAGE SW0D5C QADU E Operating condition setting Offset gain setting 1...

Page 59: ...screen currently displayed and returns to the previously displayed screen POINT If the selection test operation is performed while deleting the setting value using the Delete key the setting value fi...

Page 60: ...to be set d Select the channel for which the gain value is to be adjusted Make the selection from the offset gain setting channel field and then click on the Select test button e To set the offset gai...

Page 61: ...5 18 MELSEC Q 5 UTILITY PACKAGE SW0D5C QADU E MEMO...

Page 62: ...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 oc...

Page 63: ...veraging 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 3 Writing the intel...

Page 64: ...tic refresh to D101 to D103 after A D conversion is completed X11 X0 X0E Module READY A D conversion completed flag Read digital values MOV D12 D102 CH2 Digital output MOV D13 D103 CH3 Digital output...

Page 65: ...re A D conversion enabled T0 H0 K1 K2 K50 Set the average number of times for CH2 to 50 times T0 H0 K1 K3 K1000 Set the average time for CH3 to 1000 ms T0 H0 K1 K9 H604 Specify averaging processing Y9...

Page 66: ...ion enabled Set the average number of times for CH2 to 50 times Set the average time for CH3 to 1000 ms Specify averaging processing Y9 SET Operating condition setting request Y9 99 Operating conditio...

Page 67: ...6 6 MELSEC Q 6 PROGRAMMING MEMO...

Page 68: ...average time setting value for buffer memory addresses 1 to 8 Un G1 to Un G8 is outside the range of 2 to 5000 ms indicates the incorrectly specified channel number Reset the average time setting to a...

Page 69: ...on the base unit to see if the power supply capacity is adequate Has a watchdog timer error occurred Reset the PLC CPU and verify that it is lit If the RUN LED does not light even after doing this th...

Page 70: ...in settings Is the input range setting correct Check buffer memory addresses 20 and 21 Un G20 and Un G21 in GPPW system monitor If the input range setting is incorrect redo the GPPW intelligent functi...

Page 71: ...es using Module s detailed information The error code stored in memory address 19 Un G19 of the A D conversion module buffer is displayed in the latest error code field shown in the figure below When...

Page 72: ...R I V V SLD FG A D 0 10V 0 20mA C H 1 C H 2 I V V SLD I V V SLD C H 3 C H 4 I V V SLD A G 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 2 Q68ADV 90 3 55 98 3 86 27 4 1 08 Q68ADV RUN ERROR C H 4 C H 3 V...

Page 73: ...ELSEC Q APEENDIX 3 Q68ADI 27 4 1 08 90 3 55 98 3 86 Q68ADI RUN ERROR C H 4 C H 3 I I I I FG A D 0 20mA 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 C H 8 C H 7 I I I I C H 6 C H 5 I I I I A G C H 2 C...

Page 74: ...ror flag 3 10 External dimension diagram App 1 External wiring 4 6 G Gain value 3 2 GPPW A 7 H Handling precautions 4 1 I I O assignment setting 4 8 I O characteristics 3 1 Input range 3 16 4 8 Instal...

Page 75: ...lligent function module 4 8 T Temperature drift compensation function 3 6 Temperature drift compensation flag 3 9 Text file 5 6 Transfer setup 5 10 Troubleshooting 7 1 U Uninstall 5 2 Module READY 3 9...

Page 76: ...Index 3 MEMO...

Page 77: ...ation of production 1 Mitsubishi shall accept onerous product repairs for seven 7 years after production of the product is discontinued Discontinuation of production shall be notified with Mitsubishi...

Page 78: ...of International Trade and Industry for service transaction permission Specifications subject to change without notice HEAD OFFICE MITSUBISHI DENKI BLDG MARUNOUCHI TOKYO 100 8310 TELEX J24532 CABLE M...

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