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Panasonic FP7 Series User Manual

Programmable controller thermocouple multi-analog input unit / rtd input unit
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WUME-FP7TCRTD-04
2022.12
panasonic.net/id/pidsx/global
Programmable Controller
FP7 Thermocoupl e Mul t i - anal o g Input Uni t / FP7 RTD Input Uni t
User's Manual

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  • Page 1 Programmable Controller FP7 Thermocoupl e Mul t i - anal o g Input Uni t / FP7 RTD Input Uni t User’s Manual WUME-FP7TCRTD-04 2022.12 panasonic.net/id/pidsx/global...
  • Page 2 (MEMO) WUME-FP7TCRTD-04...
  • Page 3 Types of Manual ● There are different types of users manual for the FP7 series, as listed below. Please refer to a relevant manual for the unit and purpose of your use. ● The manuals can be downloaded from our website: https://industrial.panasonic.com/ac/e/...
  • Page 4 ● Do not undertake construction (such as connection and disconnection) while the power supply is on. It could lead to an electric shock. ● If the equipment is used in a manner not specified by the Panasonic, the protection provided by the equipment may be impaired.
  • Page 5 Handling Precautions ■ In this manual, the following symbols are used to indicate safety information that must be observed. Indicates an action that is prohibited or a matter that requires caution. Indicates an action that must be taken. Indicates supplemental information. Indicates details about the subject in question or information useful to remember.
  • Page 6 (MEMO) WUME-FP7TCRTD-04...

  • Page 7: Table Of Contents

    Table of Contents 1 Unit Functions and Restrictions............1-1 1.1 Unit Functions and How They Work ...........1-2 1.1.1 Functions of Unit ................1-2 1.1.2 Unit Type and Product Number............1-3 1.2 Restrictions on Combinations of Units ..........1-4 1.2.1 Restrictions on Power Consumption ..........1-4 1.2.2 Applicable Versions of Unit and Software ........
  • Page 8 6.1.2 Time Average ................... 6-3 6.1.3 Moving Average ................6-3 6.2 Offset/Gain Processing ...............6-5 6.3 Scale Conversion (AFP7TC8 Voltage/Current Range Only) ....6-7 6.4 Comparison for Upper and Lower Limits ..........6-8 6.5 Holding max./min. values..............6-11 6.6 Disconnection Detection (AFP7TC8) ..........6-14 6.7 Disconnection Detection (AFP7RTD8) ..........6-16 6.8 Configuration by Programming ............6-17 7 What to Do If an Error Occurs .............7-1 7.1 What to Do If an Error Occurs (Analog Input) ........7-2...

  • Page 9: Unit Functions And Restrictions

    1 Unit Functions and Restrictions 1.1 Unit Functions and How They Work ...........1-2 1.1.1 Functions of Unit ................1-2 1.1.2 Unit Type and Product Number............1-3 1.2 Restrictions on Combinations of Units ..........1-4 1.2.1 Restrictions on Power Consumption ..........1-4 1.2.2 Applicable Versions of Unit and Software ........

  • Page 10: Unit Functions And How They Work

    1.1 Unit Functions and How They Work 1.1 Unit Functions and How They Work 1.1.1 Functions of Unit V or I ■ Analog input control is available in combination with the CPU unit. ● Temperature data measured by a thermocouple or resistance temperature detector (RTD) is converted as digital values.

  • Page 11: Unit Type And Product Number

    1.1 Unit Functions and How They Work Function Specifications This function compares acquired data with the upper limit and lower limit and turns Upper/lower limit value ON the upper limit relay or lower limit relay if the acquired data exceeds the upper comparison setting limit value or lower limit value.

  • Page 12: Restrictions On Combinations Of Units

    1.2 Restrictions on Combinations of Units 1.2 Restrictions on Combinations of Units 1.2.1 Restrictions on Power Consumption The internal current consumption of the unit is as follows. Make sure that the total current consumption is within the capacity of the power supply with consideration of all other units used in combination with this unit.

  • Page 13: Names And Functions Of Parts

    2 Names and Functions of Parts 2.1 Thermocouple Multi-analog Input Unit and RTD Input Unit ....2-2 WUME-FP7TCRTD-04...

  • Page 14: Thermocouple Multi-Analog Input Unit And Rtd Input Unit

    2.1 Thermocouple Multi-analog Input Unit and RTD Input Unit 2.1 Thermocouple Multi-analog Input Unit and RTD Input Unit ■ Names and Functions of Parts (1) Operation monitor LED LED name Contents color Blue Lit when the CPU unit is turned ON. Lit when the configuration settings are beyond the allowable range or A/D ERROR conversion is not possible.

  • Page 15: Wiring

    3 Wiring 3.1 Wiring of Terminal Block ..............3-2 3.1.1 Terminal Block, Suitable Wires and Tools ........3-2 3.1.2 Wiring ....................3-3 3.2 Connection of Thermocouple Multi-analog Input Unit......3-5 3.2.1 For Thermocouple Input..............3-5 3.2.2 For Voltage Input................3-6 3.2.3 For Current Input................3-6 3.3 Connection of RTD Input Unit .............3-8 3.4 Connection of CPU Unit Function Earth ..........3-9 WUME-FP7TCRTD-04...

  • Page 16: Wiring Of Terminal Block

    3.1 Wiring of Terminal Block 3.1 Wiring of Terminal Block 3.1.1 Terminal Block, Suitable Wires and Tools ■ Supplied terminal block and suitable wires A screw-down connection type is used for the terminal block. Use the following suitable wires for the wiring. Terminal block socket Phoenix Contact model No.

  • Page 17: Wiring

    3.1 Wiring of Terminal Block Pressure welding tool for pole terminals Phoenix Contact model No. Manufacturer Part number Product No. Phoenix Contact CRIMPFOX 6 1212034 3.1.2 Wiring ■ Wiring method Insert a screwdriver between the terminal block and the case, and remove the terminal block.
  • Page 18 3.1 Wiring of Terminal Block Tightening the terminal block ● When tightening the terminals of the terminal block, use a screwdriver (Phoenix Contact, Product No. 1205037) with a blade size of 0.4 x 2.5 (Part No. SZS 0,4x2,5). ● The tightening torque should be 0.22 to 0.25 N·m. Precautions on wiring The following precautions should be observed, to avoid broken or disconnected wires.

  • Page 19: Connection Of Thermocouple Multi-Analog Input Unit

    3.2 Connection of Thermocouple Multi-analog Input Unit 3.2 Connection of Thermocouple Multi-analog Input Unit 3.2.1 For Thermocouple Input ■ Wiring Diagram and Internal Circuit Diagram ■ Terminal layout (Note 1) Do not connect anything to N.C terminals. ● Connect wires in accordance with the polarity of he thermocouple. Also, when extending the signal line of the thermocouple, use the compensating lead wire for the used thermocouple.

  • Page 20: For Voltage Input

    3.2 Connection of Thermocouple Multi-analog Input Unit 3.2.2 For Voltage Input ■ Wiring Diagram and Internal Circuit Diagram ■ Terminal layout (Note 1) Do not connect anything to N.C terminals. ● Use double-core twisted-pair shielded wires. It is recommended to ground them. However, depending on the conditions of the external noise, it may be better not to ground the shielding.
  • Page 21 3.2 Connection of Thermocouple Multi-analog Input Unit ■ Terminal layout (Note 1) Do not connect anything to N.C terminals. ● Use double-core twisted-pair shielded wires. It is recommended to ground them. However, depending on the conditions of the external noise, it may be better not to ground the shielding. ●...

  • Page 22: Connection Of Rtd Input Unit

    3.3 Connection of RTD Input Unit 3.3 Connection of RTD Input Unit ■ Wiring Diagram and Internal Circuit Diagram ■ Terminal layout (Note 1) Do not connect anything to N.C terminals. ● For copper wires for wiring, use thick wires having insulation performance of JISC3307 and JISC3401 or equivalents to prevent a large increase in the electric resistance.

  • Page 23: Connection Of Cpu Unit Function Earth

    3.4 Connection of CPU Unit Function Earth 3.4 Connection of CPU Unit Function Earth For using the TC Multi-analog Input Unit (AFP7TC8) or RTD Input Unit (AFP7RTD8), ground the function earth of the CPU unit. ■ When using the CPU unit while supplying 24 V DC power ●...
  • Page 24 (MEMO) 3-10 WUME-FP7TCRTD-04...

  • Page 25: Unit Settings And Data Reading

    4 Unit Settings and Data Reading 4.1 Confirming the I/O Number Allocations and Starting Word Number...4-2 4.1.1 Occupied I/O Area and I/O Allocation ..........4-2 4.1.2 Confirming Allocation of I/O Numbers..........4-4 4.2 Configuration Settings.................4-6 4.2.1 Unit Configuration ................4-6 4.2.2 Unit Setting and Conversion Processing Time.........

  • Page 26: Confirming The I/O Number Allocations And Starting Word Number

    4.1 Confirming the I/O Number Allocations and Starting Word Number 4.1 Confirming the I/O Number Allocations and Starting Word Number 4.1.1 Occupied I/O Area and I/O Allocation ● Input data is allocated to the external input relay areas (WX). ● To the I/O areas of the thermocouple multi analog input unit and RTD input unit, an area to set optional functions and an area to reset errors are allocated.
  • Page 27 4.1 Confirming the I/O Number Allocations and Starting Word Number ■ Input contact (Optional functions/Error flag area) I/O number Name Description CH0 CH1 CH2 CH3 CH4 CH5 CH6 CH7 Disconnection ON with disconnection detected and detection X110 OFF with disconnection restored. (Note 2)(Note 3) flag Upper limit...

  • Page 28: Confirming Allocation Of I/O Numbers

    4.1 Confirming the I/O Number Allocations and Starting Word Number I/O number Name Description CH0 CH1 CH2 CH3 CH4 CH5 CH6 CH7 OFF to turn OFF the upper limit Comparison comparison relay (Xn1) and lower execution relay limit comparison relay (Xn2). Not used Do not use.
  • Page 29 4.1 Confirming the I/O Number Allocations and Starting Word Number The selected unit is now registered in the I/O map. WUME-FP7TCRTD-04...

  • Page 30: Configuration Settings

    4.2 Configuration Settings 4.2 Configuration Settings 4.2.1 Unit Configuration The settings for the unit such as input range, channels to be converted and optional functions are specified in the configuration menu of tool software. ■ Setting method The following procedure describes the process when the thermocouple multi-analog input unit or RTD input unit has been already allocated in the I/O map.
  • Page 31 4.2 Configuration Settings Group Setting item Settings Default -100 to +100 mV 0 to +20 mA Current +4 to +20 mA Pt100-1 (-100.0 to 200.0°C) Pt100-2 (-200.0 to 650.0°C) Range setting Pt100-1 JPt100-1 (-100.0 to 200.0°C) (RTD unit) (-100.0 to 200.0°C) JPt100-2 (-200.0 to 650.0°C) Pt1000 (-100.0 to 100.0°C) Not execute/No.

  • Page 32: Unit Setting And Conversion Processing Time

    4.2 Configuration Settings 4.2.2 Unit Setting and Conversion Processing Time Conversion time varies with the configuration setting conditions. ■ Unit's conversion process cycle time ● The unit's conversion time is determined by the number of channels that the conversion process is executed. ●...

  • Page 33: Reading Analog Input Data

    4.3 Reading Analog Input Data 4.3 Reading Analog Input Data 4.3.1 Reading Analog Input Data ■ Basic operation of analog input processing (1) Receiving analog input The input part of the unit receives analog input data from the thermocouple, RTD or external devices.

  • Page 34: Data Acquisition Timing

    4.4 Data Acquisition Timing 4.4 Data Acquisition Timing ■ Input conversion processing time of the unit Conversion processing time varies with the range and the number of channels in use. The conversion execution/non-execution channel function can save the conversion time for channels that do no execute conversion processing.
  • Page 35 4.4 Data Acquisition Timing Example of 1-channel conversion Analog signal of ch0 Converts ch0 repeatedly. Processing in the analog input part I/O refresh Processing in the CPU unit Data of ch0 to be read in the CPU unit WUME-FP7TCRTD-04 4-11...
  • Page 36 (MEMO) 4-12 WUME-FP7TCRTD-04...

  • Page 37: Conversion Characteristics Of Analog Input

    5 Conversion Characteristics of Analog Input 5.1 Input Conversion Characteristics (AFP7TC8)........5-2 5.1.1 Thermocouple Input Range ............. 5-2 5.1.2 Voltage Input Range ................ 5-4 5.1.3 Current Input Range ................ 5-6 5.2 Input Conversion Characteristics (AFP7RTD8) ........5-7 5.2.1 RTD Input Range ................5-7 WUME-FP7TCRTD-04...

  • Page 38: Input Conversion Characteristics (Afp7Tc8)

    5.1 Input Conversion Characteristics (AFP7TC8) 5.1 Input Conversion Characteristics (AFP7TC8) 5.1.1 Thermocouple Input Range ■ Conversion characteristics graph ■ When exceeding the rated range ● Up to the lower limit -15°C and the upper limit +15°C of the range, reference values for which the conversion accuracy is not assured are indicated.
  • Page 39 5.1 Input Conversion Characteristics (AFP7TC8) Converted Range Input value Remarks value +1215°C or For the unit Ver. 1.0, the upper limit of the range is +12150 more +750°C. -285°C or less -2850 Thermocouple type +415°C or +4150 more -285°C or less -2850 Thermocouple type +1315°C or...

  • Page 40: Voltage Input Range

    5.1 Input Conversion Characteristics (AFP7TC8) 5.1.2 Voltage Input Range ■ -10 V to +10 V DC input (0.32 mV, 1/62500) Conversion characteristics graph Table of A/D converted values Input voltage (V) Digital value +31250 +25000 +18750 +12500 +6250 -6250 -12500 -18750 -25000 -31250...
  • Page 41 5.1 Input Conversion Characteristics (AFP7TC8) ■ 1 V to 5 V DC input (0.16mV, 1/25000) Conversion characteristics graph Table of A/D converted values Input voltage (V) Digital value +25000 +18750 +12500 +6250 Instruction References When exceeding the rated range A/D converted Input voltage (V) value +5 V or more...

  • Page 42: Current Input Range

    5.1 Input Conversion Characteristics (AFP7TC8) 5.1.3 Current Input Range ■ 0 mA to 20 mA DC input (0.64 A, 1/31250) Conversion characteristics graph Table of A/D converted values Input current (mA) Digital value +31250 +25000 +18750 +12500 +6250 When exceeding the rated range Input current (mA) Digital value 20 mA or more...

  • Page 43: Input Conversion Characteristics (Afp7Rtd8)

    5.2 Input Conversion Characteristics (AFP7RTD8) 5.2 Input Conversion Characteristics (AFP7RTD8) 5.2.1 RTD Input Range ■ Conversion characteristics graph ■ When exceeding the rated range ● Up to the lower limit -15 °C and the upper limit +15 °C of the range, reference values which the conversion accuracy is not assured are indicated.
  • Page 44 5.2 Input Conversion Characteristics (AFP7RTD8) ■ Conversion characteristics graph ● Up to the lower limit -15 °C and the upper limit +15 °C of the range, reference values which the conversion accuracy is not assured are indicated. ● When exceeding the upper limit of the range +30°C, converted values are"30000".( For Pt1000, the upper limit of the range is +20 °C or more.)...

  • Page 45: Optional Settings

    6 Optional settings 6.1 Average Processing Settings..............6-2 6.1.1 Number of Averaging Times ............6-2 6.1.2 Time Average ................... 6-3 6.1.3 Moving Average ................6-3 6.2 Offset/Gain Processing ...............6-5 6.3 Scale Conversion (AFP7TC8 Voltage/Current Range Only) ....6-7 6.4 Comparison for Upper and Lower Limits ..........6-8 6.5 Holding max./min.

  • Page 46: Average Processing Settings

    6.1 Average Processing Settings 6.1 Average Processing Settings 6.1.1 Number of Averaging Times ■ Overview of functions ● Analog input data sampled by the unit is averaged and stored as digital values. ● If the "number of averaging time" is set, analog input data items acquired will be stored in unit memory (UM) as digital values when the number of analog input data items reaches the set number of averaging times.

  • Page 47: Time Average

    6.1 Average Processing Settings 6.1.2 Time Average ■ Overview of functions ● Analog input data sampled by the unit is averaged and stored as digital values. ● If "time average" is set, analog input data items acquired will be stored in unit memory (UM) as digital values when the acquisition period of the analog input data items reaches the set averaging time.
  • Page 48 6.1 Average Processing Settings ● If "moving average" is set, analog input data items acquired will be stored in unit memory (UM) as digital values when the number of analog input data items reaches the set number of moving average times. ●...

  • Page 49: Offset/Gain Processing

    6.2 Offset/Gain Processing 6.2 Offset/Gain Processing ■ Overview of functions ● Offset value (added correction) and gain value (magnification correction) adjustments are made to store processed data in the I/O area. Analog input Analog post- Offset processing Gain processing data processing data ●...
  • Page 50 6.2 Offset/Gain Processing Name Default Setting range and description Setting range: +9000 to +11000 (0.9x to 1.1x: Specified with a signed integer) ● The offset value is corrected to a value corresponding to the resolution of the input range of the original value regardless of the setting of scale conversion.

  • Page 51: Scale Conversion (Afp7Tc8 Voltage/Current Range Only)

    6.3 Scale Conversion (AFP7TC8 Voltage/Current Range Only) 6.3 Scale Conversion (AFP7TC8 Voltage/Current Range Only) ■ Overview of functions ● This function makes it possible to convert values to an easy-to-use data range. Analog input data acquired in a range between preset minimum and maximum values is scale converted and stored in the I/O area.

  • Page 52: Comparison For Upper And Lower Limits

    6.4 Comparison for Upper and Lower Limits 6.4 Comparison for Upper and Lower Limits ■ Overview of functions This function compares acquired data with the upper limit and lower limit and turns ON the upper limit relay or lower limit relay if the acquired data exceeds the upper limit value or lower limit value.
  • Page 53 6.4 Comparison for Upper and Lower Limits *2 Upper limit X111 X131 X151 X171 X191 X211 X231 X251 comparison relay *3 Lower limit X112 X132 X152 X172 X192 X212 X232 X252 comparison relay *4 Comparison X113 X133 X153 X173 X193 X213 X233 X253...
  • Page 54 6.4 Comparison for Upper and Lower Limits Y103 (CH0): Controls upper/lower limit ( ( ) ) < > comparison function. Upper/Lower R0 ON: limit comparison execution relay Comparison execution R1 ON: Y103 Turns OFF comparison < > ( ( ) ) execution relay.

  • Page 55: Holding Max./Min. Values

    6.5 Holding max./min. values 6.5 Holding max./min. values ■ Overview of functions This function maintains the maximum and minimum values of acquired data. Holds the maximum and minimum digital conversion values when the maximum/minimum value hold setting is enabled, and stores the values in provided unit memories for each channel. ●...
  • Page 56 6.5 Holding max./min. values Unit memory Name Default Data range and description No. (Hex) UM 00177 UM 00178 UM 00179 UM 0017A The acquired maximum value will be held when the maximum UM 0017B and minimum value hold function is used. Holding min.
  • Page 57 6.5 Holding max./min. values Y105 < > ( ( ) ) (CH0): Controls max./min. Max./Min. hold hold function. execution relay ON : Execute Y105 OFF: Not execute < > ( ( ) ) Max./Min. hold execution relay X115 (CH0): Copies max. value MV.SS S1:UM00170 to DT0...

  • Page 58: Disconnection Detection (Afp7Tc8)

    6.6 Disconnection Detection (AFP7TC8) 6.6 Disconnection Detection (AFP7TC8) ■ Overview of functions This function is to announce an error with the disconnection detection flag if the result of input does not reach a certain value while thermocouple input, voltage input range of +1 to +5 V or current input range of +4 to +20 mA is set in the thermocouple multi-analog input unit.
  • Page 59 6.6 Disconnection Detection (AFP7TC8) ■ I/O allocation The I/O numbers in the timing chart and program are shown on the condition that the starting word number of the unit is "10". Actual I/O numbers allocated to the analog input unit are determined by the starting word number.

  • Page 60: Disconnection Detection (Afp7Rtd8)

    6.7 Disconnection Detection (AFP7RTD8) 6.7 Disconnection Detection (AFP7RTD8) ■ Overview of functions This function is to warn of the error state by converting to a digital value in the range (K30000) which is different from the values converted in the normal state when the disconnection is detected in the RTD input unit.

  • Page 61: Configuration By Programming

    6.8 Configuration by Programming 6.8 Configuration by Programming ■ Overview of functions ● The thermocouple multi-analog input unit and the RTD input unit make it possible to overwrite configuration information by programming. ● The configuration information is refreshed by writing "55AA" to unit memory UM 00028 after the value is stored in the unit memory where a desired parameter is set.
  • Page 62 (MEMO) 6-18 WUME-FP7TCRTD-04...

  • Page 63: What To Do If An Error Occurs

    7 What to Do If an Error Occurs 7.1 What to Do If an Error Occurs (Analog Input) ........7-2 7.1.1 Failure in Reading Input Data ............7-2 7.1.2 Unstable Input Conversion Value............. 7-2 7.1.3 No Proper Conversion Values Obtained with Current Input..... 7-2 WUME-FP7TCRTD-04...

  • Page 64: What To Do If An Error Occurs (Analog Input)

    7.1 What to Do If an Error Occurs (Analog Input) 7.1 What to Do If an Error Occurs (Analog Input) 7.1.1 Failure in Reading Input Data ● Check again that I/O allocations are correct. ● Check again the connection of the terminal block. ●...

  • Page 65: Specifications

    8 Specifications 8.1 Specifications..................8-2 8.1.1 General Specifications ..............8-2 8.1.2 Specifications of Thermocouple Multi-Analog Input Unit (AFP7TC8)..................8-2 8.1.3 Specifications of RTD Unit (AFP7RTD8) ......... 8-5 8.2 I/O Number Allocation.................8-7 8.3 List of Unit Memories ................8-10 8.4 List of Detailed Specifications of Unit Memories.........8-12 8.5 Dimensions ..................8-17 WUME-FP7TCRTD-04...

  • Page 66: General Specifications

    8.1 Specifications 8.1 Specifications 8.1.1 General Specifications Item Specifications Operating ambient 0°C to +55°C temperature Storage ambient -40°C to +70°C temperature Operating ambient 10 to 95% RH (at 25°C, no condensation) humidity Storage ambient 10 to 95% RH (at 25°C, no condensation) humidity Breakdown Between analog input terminal channels...
  • Page 67 8.1 Specifications Item Specifications (Note 6) K1: -100.0 to 600.0°C / K2: -200.0 to 1370.0°C (Note 6) J1: -100.0 to 400.0°C / J2: -200.0 to 1200.0°C T: -270.0 to 400.0°C N: -270.0 to 1300.0°C Thermocouple R: 0.0 to 1760.0°C (Resolution: S: 0.0 to 1760.0°C 0.1°C) B: 0.0 to 1820.0°C...
  • Page 68 8.1 Specifications Item Specifications Weight (main unit) 145 g Consumption current 80mA or less (Note 1) The full scale (F.S.) in terms of accuracy in a voltage ranging from 1 to 5 V DC and of a current ranging from 4 to 20 mA are 0 to 5 V DC and 0 to 20 mA, respectively. (Note 2) The indication accuracy when set to high-speed mode is ±0.3% (at 0 to 55°C.

  • Page 69: Specifications Of Rtd Unit (Afp7Rtd8)

    8.1 Specifications High-speed mode: 5 ms Normal mode: 25 ms conversion conversion Measurement temperature Thermoc Ambient Ambient ouple (Note 1) range Ambient temperature 0 temperature temperature 0 to to 55°C 25°C 55°C 200.0 0.0°C ±0.15% ±0.3% ±1.00% 1000.0°C ±0.1% ±0.3% ±0.30% PLII 1390.0°C...
  • Page 70 8.1 Specifications Item Specifications Holding max./min. values Possible to make settings on a channel-by-channel basis Disconnection detection Available External connection method Connection terminal block connection Weight (main unit) 145 g Consumption current 65mA or less (Note 1) If highly accurate temperature data is necessary, use the temperature data about 30 minutes after the unit was powered on.

  • Page 71: I/O Number Allocation

    8.2 I/O Number Allocation 8.2 I/O Number Allocation ■ Input contact I/O area Name Default Description number CH0 Analog conversion data CH0 Optional function flag CH1 Analog conversion data CH1 Optional function flag CH2 Analog conversion data CH2 Optional function flag Analog conversion data area CH3 Analog conversion Digital conversion values corresponding to analog...
  • Page 72 8.2 I/O Number Allocation I/O number Name Description CH0 CH1 CH2 CH3 CH4 CH5 CH6 CH7 Upper/Lower limit Turns ON when the upper limit/lower X113 limit comparison function is Comparison executed. execution flag X114 Not used Do not use. Max./Min. Turns ON when the max./min.
  • Page 73 8.2 I/O Number Allocation I/O number Name Description CH0 CH1 CH2 CH3 CH4 CH5 CH6 CH7 Error flag reset Resets an error flag. relay (Note 1) The I/O numbers in the table indicate offset addresses. The I/O numbers actually allocated are the numbers based on the starting word number allocated to the unit.

  • Page 74: List Of Unit Memories

    8.3 List of Unit Memories 8.3 List of Unit Memories These are operation memories for accessing the "monitor area" and "configuration area" of the unit. When the mode of the CPU unit changes from PROG. to RUN, the configuration information set by the tool software will be stored. For performing the configuration with user programs, refer to "6.8 Configuration by Programming".
  • Page 75 8.3 List of Unit Memories Unit memory number (Hex.) Setting monitor item Power frequency setting UM 00071 Conversion time setting UM 00072 Conversion processing UM 000C0 UM 000D0 UM 000E0 UM 000F0 Range setting UM 000C1 UM 000D1 UM 000E1 UM 000F1 Average processing Function setting 1...

  • Page 76: List Of Detailed Specifications Of Unit Memories

    8.4 List of Detailed Specifications of Unit Memories 8.4 List of Detailed Specifications of Unit Memories ■ Common to all channels Unit memory Name Default Setting range and description No. (Hex) This is used to rewrite configuration information using a user program.
  • Page 77 8.4 List of Detailed Specifications of Unit Memories Unit memory Name Default Setting range and description No. (Hex) 0016h Thermocouple input R (0.0 to 1760.0°C) 0017h Thermocouple input S (0.0 to 1760.0°C) 0018h Thermocouple input B (0.0 to 1820.0°C) 0019h Thermocouple input E (-270.0 to 1000.0°C) 001Ah Thermocouple input PLII (0.0 to 1390.0°C)
  • Page 78 8.4 List of Detailed Specifications of Unit Memories Unit memory Name Default Setting range and description No. (Hex) Function used Settings Number of No. of averaging times: 2 to 60000 [times] UM 000C4 Averaging UM 000D4 Times UM 000E4 Time Average Average time: 200 to 60000 [ms] UM 000F4 Moving...
  • Page 79 8.4 List of Detailed Specifications of Unit Memories Unit memory Name Default Setting range and description No. (Hex) UM 000E9 UM 000F9 UM 0008A UM 0009A UM 000AA Upper limit Set the upper limit to turn OFF the output flag at the time of using UM 000BA comparison the upper/lower limit comparison function.
  • Page 80 8.4 List of Detailed Specifications of Unit Memories Unit memory No. Name Default Data range and description (Hex) UM 0017C UM 0017D UM 0017E UM 0017F (Note 1) The unit memory numbers in the above table are listed for CH0 to CH7 in numerical order. 8-16 WUME-FP7TCRTD-04...

  • Page 81: Dimensions

    8.5 Dimensions 8.5 Dimensions (Unit: mm) WUME-FP7TCRTD-04 8-17...
  • Page 82 (MEMO) 8-18 WUME-FP7TCRTD-04...
  • Page 83 Record of changes The manual number can be found at the bottom of the manual cover. Date Manual No. Record of Changes Apr. 2014 WUME-FP7TCRTD-01 1st Edition Apr. 2016 WUME-FP7TCRTD-02 2nd Edition ● Thermocouple input temperature range changed (available from unit Ver. 1.1) K2: -200 to +1000°C →...
  • Page 84 [Scope of warranty] In the event that Panasonic Industrial Devices SUNX confirms any failures or defects of the Products by reasons solely attributable to Panasonic Industrial Devices SUNX during the warranty period, Panasonic Industrial Devices SUNX shall supply the replacements of the Products, parts or replace and/or repair the defective portion by free of charge at the location where the Products were purchased or delivered to your premises as soon as possible.
  • Page 85 (MEMO) WUME-FP7TCRTD-04...
  • Page 86 Panasonic Industry Co., Ltd. Panasonic Industrial Devices SUNX Co., Ltd. https://panasonic.net/id/pidsx/global Please visit our website for inquiries and about our sales network. Panasonic Industrial Devices SUNX Co., Ltd. 2022 December,2022 WUME-FP7TCRTD-04...

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