Panasonic FP0 RTD Unit Technical Manual Download Page 7 | Manualshive

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Panasonic FP0 RTD Unit Technical Manual Download Page 7

Unit Outline

FP0 RTD Unit

2

For further information, see page 13, I/O Allocation and Sample Programs.

1.4 Part Names and Functions

F

P

0

-R

T

D

6

1

5

4

3

2

FP0 RTD unit, front and left views

1. Input range setting switch

DIP switches to change between the input ranges (RTD types).

For further information, see page 4, Input Range Setting Switch

2. RTD input terminal block (9-pin)

Manufactured by Phoenix Contact Co. Model No: MC1.5/9-ST-3.5 (Product No.: 1840434).

Suitable wires

Size

Nominal cross-sectional area

AWG# 28 to 16

0.08 mm

2

to 1.25mm

2

3. Expansion connector

Connects the expansion unit to the internal circuit of the control unit.

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Summary of Contents for FP0 RTD Unit

Page 1: ...Programmable Controller Technical Manual FP0 RTD Unit ACGM0159V14EN 2021 05 industry panasonic eu ...

Page 2: ...tation even if advised of the possibility of such damages Please direct support matters and technical questions to your local Panasonic representative Panasonic Electric Works Europe AG PEWEU Caroline Herschel Straße 100 85521 Ottobrunn Germany Tel 49 89 45 354 1000 LIMITED WARRANTY If physical defects caused by distribution are found Panasonic Electric Works Europe AG will replace repair the prod...

Page 3: ... following symbols may be used in this manual Contains important additional information Contains an illustrative example of the previous text section Indicates that a step by step procedure follows Indicates where you can find additional information on the subject at hand ...

Page 4: ...sion Characteristics 6 4 1 Pt100 6 4 2 Pt1000 8 4 3 Ni1000 10 4 4 Resistor 11 5 I O Allocation and Sample Programs 13 5 1 I O Numbers 13 5 2 Programming with FPWIN Pro 16 5 3 Programming with FPWIN GR 17 5 3 1 RTD Types Pt100 Pt1000 Ni1000 17 5 3 2 RTD Type Resistor 18 6 When an Error Occurs 19 6 1 Troubleshooting 19 6 2 Digital Value When Out Of Measuring Range 19 7 Specifications 20 8 Dimensions...

Page 5: ...TD unit might change the temperature data temporarily A draft air created e g by a cooling fan built into the control panel and blowing on the FP0 RTD unit will lower accuracy Avoid any kind of draft Programming Between power ON and the first valid conversion data the digital value will be 8191 or 16383 When programming be sure not to use the data obtained during this period When the RTD is broken...

Page 6: ...0 0 80 00 80 00 328 0 572 0 80 00 80 00 Ni1000 30 0 150 0 30 00 80 00 22 0 302 0 22 00 80 00 Resistor measurement ranges available RTD Type Ω Resolution 1 Ω Resolution 0 1 Ω Resistor 20 2200 20 0 1630 0 Conversion to degrees Celsius or degrees Fahrenheit possible The temperature data measured using the sensor is converted to degrees Celsius or degrees Fahrenheit inside the FP0 RTD unit Broken RTD ...

Page 7: ...ch DIP switches to change between the input ranges RTD types For further information see page 4 Input Range Setting Switch 2 RTD input terminal block 9 pin Manufactured by Phoenix Contact Co Model No MC1 5 9 ST 3 5 Product No 1840434 Suitable wires Size Nominal cross sectional area AWG 28 to 16 0 08 mm2 to 1 25mm2 3 Expansion connector Connects the expansion unit to the internal circuit of the con...

Page 8: ...the DIN rail by one touch operation The DIN rail attachment lever is also used for installing the unit to the slim 30 type mounting plate AFP0803 5 Expansion hook Used to secure expansion units Please refer to the CPU hardware manuals for details on connecting and wiring expansion units ...

Page 9: ...ttings are read once when the CPU is turned on To change the settings the CPU must be turned off Input range setting switch OFF ON OFF ON OFF ON OFF ON CH0 CH1 CH2 Ni1000 Pt1000 Pt100 1 2 OFF ON OFF ON OFF ON OFF ON CH3 CH4 CH5 Ni1000 Pt1000 Pt100 3 4 OFF ON OFF ON 5 1s 0 1s Mode switch Resistor Mode switch Resistor Sampling cycle Mode switch ...

Page 10: ...FP0 RTD Unit Wiring 5 3 Wiring Wiring method CH0 CH4 CH3 CH2 CH1 CH5 Input line wiring Keep a distance of more than 100mm between the input line and the power line high voltage line ...

Page 11: ... resolution 0 1K 0 1 F 2000 5000 8191 200 0 500 0 C Input value Converted value 3280 8000 8191 328 0 800 0 F Input value Converted value A D conversion table Analog input value C Digital output value Analog input value F Digital output value 200 0 2000 328 0 3280 500 0 5000 800 0 8000 Processing if the input value range is exceeded Analog input value C Digital output value Analog input value F Dig...

Page 12: ...lue A D conversion table Analog input value C Digital output value Analog input value F Digital output value 80 00 8000 80 00 8000 80 00 8000 80 00 8000 Processing if the input value range is exceeded Analog input value C Digital output value Analog input value F Digital output value 80 01 or less 8191 80 01 or less 8191 80 01 or more 80 01 or more RTD broken RTD broken ...

Page 13: ...572 0 F Input value Converted value A D conversion table Analog input value C Digital output value Analog input value F Digital output value 200 0 2000 328 0 3280 300 0 3000 572 0 5720 Processing if the input value range is exceeded Analog input value C Digital output value Analog input value F Digital output value 200 1 or less 8191 328 1 or less 8191 300 1 or more 572 1 or more RTD broken RTD br...

Page 14: ...lue A D conversion table Analog input value C Digital output value Analog input value F Digital output value 80 00 8000 80 00 8000 80 00 8000 80 00 8000 Processing if the input value range is exceeded Analog input value C Digital output value Analog input value F Digital output value 80 01 or less 8191 80 01 or less 8191 80 01 or more 80 01 or more RTD broken RTD broken ...

Page 15: ... 302 0 F Input value Converted value A D conversion table Analog input value C Digital output value Analog input value F Digital output value 30 0 300 22 0 220 150 0 1500 302 0 3020 Processing if the input value range is exceeded Analog input value C Digital output value Analog input value F Digital output value 30 1 or less 8191 22 1 or less 8191 150 1 or more 302 1 or more RTD broken RTD broken ...

Page 16: ...alog input value C Digital output value Analog input value F Digital output value 30 00 3000 22 00 2200 80 00 8000 80 00 8000 Processing if the input value range is exceeded Analog input value C Digital output value Analog input value F Digital output value 30 01 or less 8191 22 01 or less 8191 80 01 or more 80 01 or more RTD broken RTD broken 4 4 Resistor Input range 20 to 2200 resolution 1 20 22...

Page 17: ...e Digital output value 19 or less 16383 2201 or more Resistor broken Input range 20 0 to 163 0 resolution 0 1 200 16383 16300 20 0 1630 0 Input value Converted value A D conversion table Analog input value Digital output value 20 0 200 1630 0 16300 Processing if the input value range is exceeded Analog input value Digital output value 19 9 or less 16383 1630 1 or more Resistor broken ...

Page 18: ...t used Always install the FP0 RTD unit the farthest to the right of the control unit With the setup illustrated above the I O data is allocated as in the table below Expansion unit no 1 Expansion unit no 2 Expansion unit no 3 Input channel CH0 2 4 WX2 WX4 WX6 CH1 3 5 WX3 WX5 WX7 Output WY2 WY4 WY6 Example for address assignment The figure below shows the conversion data for the different channels ...

Page 19: ...nsion no 1 When the conversion data is negative the data from WX2 and WX3 is represented as two s complement bits C to F of WX2 and bits C to D of WX3 will be 1 After saving the channel information the conversion data switch flags need to be masked They must be converted to 00 when the data is positive and to 11 when it is negative As resistor data is only positive bit 0 to bit F for WX2 and bit 0...

Page 20: ...wn in the programming examples on the following pages Assignment of outputs Y20 Y27 Off On Y20 C F Y21 CH0 0 1 C F CH0 0 01 C F Y22 CH1 0 1 C F CH1 0 01 C F Y23 CH2 0 1 C F CH2 0 01 C F Y24 CH3 0 1 C F CH3 0 01 C F Y25 CH4 0 1 C F CH4 0 01 C F Y26 CH5 0 1 C F CH5 0 01 C F Y27 Always off Always off Y28 Y2F Unused ...

Page 21: ...gInput_FP0_RTD_INT and Unit_AnalogInput_FP0_RTD_REAL to read data from the input channels They can be used for all RTD types Pt100 Pt1000 Ni1000 and Resistor You can find the function blocks in the FP tool library For details on how to use the function blocks refer to the description of each function block in the online help of Control FPWIN Pro ...

Page 22: ...stalled as expansion unit no 1 in data registers DT0 to DT5 The data for CH0 and CH1 to be read The data for CH2 and CH3 to be read The data for CH4 and CH5 to be read CH0 data DT0 CH2 data DT2 CH4 data DT4 When CH1 data is positive DT1 When CH1 data is negative DT1 When CH3 data is positive DT3 When CH3 data is negative DT3 When CH5 data is positive DT5 When CH5 data is negative DT5 For further i...

Page 23: ...rature data for CH0 to CH5 of the FP0 RTD unit installed as expansion unit no 1 in data registers DT0 to DT5 The data for CH0 and CH1 to be read The data for CH2 and CH3 to be read The data for CH4 and CH5 to be read CH0 data DT0 CH2 data DT2 CH4 data DT4 CH1 data DT1 CH3 data DT3 CH5 data DT5 For further information see page 13 I O Allocation and Sample Programs ...

Page 24: ...It specifies the allowed temperature range and the RTD type 3 Use the programs described above For further information see page 4 Input Range Setting Switch and page 13 I O Allocation and Sample Programs 6 2 Digital Value When Out Of Measuring Range When the input of the FP0 RTD unit is out of the measuring range the following digital values are displayed Pt100 C F Pt1000 C F Ni1000 C F Resistor R...

Page 25: ... humidity 30 RH to 85 RH no condensing Storage humidity 30 RH to 85 RH no condensing Vibration resistance 10Hz to 55Hz 1 cycle min double amplitude of 0 75mm for 10 min on 3 axes toward X Y and Z directions Shock resistance 98m s2 for 4 times on 3 axes toward X Y and Z directions Noise immunity 1000V P P with pulse widths 50ns and 1µs using noise simulator Operating conditions Free from corrosive ...

Page 26: ...o 8000 Pt1000 Resolution 0 1 200 0 to 300 0 C 328 0 to 572 0 F 2000 to 3000 3280 to 5720 Resolution 0 01 80 00 to 80 00 C 80 00 to 80 00 F 8000 to 8000 8000 to 8000 Ni1000 Resolution 0 1 30 0 to 150 0 C 22 0 to 302 0 F 300 to 1500 220 to 3020 Resolution 0 01 30 00 to 80 00 C 22 00 to 80 00 F 3000 to 8000 2200 to 8000 Resistor Resolution 1 20 to 2200 20 to 2200 Resolution 0 1 20 0 to 1630 0 200 to ...

Page 27: ...hen the RTD is broken the digital value will change to 8191 or 16383 Use a program to avoid risks resulting from a broken RTD A broken RTD needs to be replaced 3 Until conversion data is ready after the initial startup the digital value shows 8191 or 16383 These are not temperature data Program in such a way that these values are not interpreted as temperature data 4 These are the settings of the ...

Page 28: ...FP0 RTD Unit Dimensions 23 8 Dimensions 30 90 mm 4 5 3 5 60 10 FP0 RTD6 ...

Page 29: ......

Page 30: ... 1 FPWIN GR Programming 17 FPWIN Pro Programming 16 Function block 16 I I O allocation 13 I O numbers 13 Input channels 13 21 Input range 21 Input range setting switch 2 4 Input output points 22 Insulation method 22 M Measurement ranges 1 Mode switch 4 N Ni1000 Conversion characteristics 10 Measurement range 1 Noise immunity 20 O Operating conditions 20 Operating humidity 20 Operating temperature ...

Page 31: ...RTD types 1 S Sampling cycle 21 Shock resistance 20 Specifications 20 Storage humidity 20 Storage temperature 20 T Troubleshooting 19 V Vibration resistance 20 W Weight 20 Wires 2 Wiring 5 ...

Page 32: ...t 2006 Update company name and Web site ACGM0159V12END Dec 2006 Minor restructuring in preparation for localization ACGM0159V13END Dec 2008 Minor errors corrected vibration resistance parameter 0 75mm under conversion data switch flag behavior of WX2 and WX3 ACGM0159V14END May 2021 Update company name and Web site ...

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