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2

2.1.2 Usable Thermocouples and Measured Temperature Range Accuracies

Usable

Thermo

couple

Type

Measured

Temperature

Range*1

Conversion Accuracy

(At operating ambient

temperature 

25 5

)

Temperature Characteristic

(Per operating ambient

temperature variation of 1 )

Max. Temperature

Error at Ambient

Temperature 55

0 to 600

——— *3

——— *3

——— *3

600 to 800

*2

3.0

13.0

800 to 1700

*2

2.5

0.4

12.5

B

1700 to 1820

——— *3

——— *3

——— *3

-50 to 0

——— *3

——— *3

——— *3

0 to 300

*2

2.5

0.4

12.5

300 to 1600

*2

2.0

0.3

9.5

R

1600 to 1760

——— *3

——— *3

——— *3

-50 to 0

——— *3

——— *3

——— *3

0 to 300

*2

2.5

0.4

12.5

300 to 1600

*2

2.0

0.3

9.5

S

1600 to 1760

——— *3

——— *3

——— *3

-270 to -200

——— *3

——— *3

——— *3

-200 to 0

*2

Larger value of  0.5  and

0.5% of measured

temperature

Larger value of  0.06  and

0.2% of measured

temperature

11.0

0 to 1200

*2

Larger value of  0.5  and

0.25% of measured

temperature

Larger value of  0.06  and

0.02% of measured

temperature

9.0

K

1200 to 1370

——— *3

——— *3

——— *3

-270 to -200

——— *3

——— *3

——— *3

-200 to 0

*2

Larger value of  0.5  and

0.5% of measured

temperature

Larger value of  0.06  and

0.15% of measured

temperature

8.5

0 to 900

*2

Larger value of  0.5  and

0.25% of measured

temperature

Larger value of  0.06  and

0.02% of measured

temperature

6.75

E

900 to 1000

——— *3

——— *3

——— *3

-210 to -40

——— *3

——— *3

——— *3

-40 to 750

*2

Larger value of  0.5  and

0.25% of measured

temperature

Larger value of  0.06  and

0.02% of measured

temperature

5.625

J

750 to 1200

——— *3

——— *3

——— *3

-270 to -200

——— *3

——— *3

——— *3

-200 to 0

*2

Larger value of  0.5  and

0.5% of measured

temperature

Larger value of  0.06  and

0.1% of measured

temperature

6.0

0 to 350

*2

Larger value of  0.5  and

0.25% of measured

temperature

Larger value of  0.06  and

0.02% of measured

temperature

2.625

T

350 to 400

——— *3

——— *3

——— *3

-270 to -200

——— *3

——— *3

——— *3

-200 to 0

*2

Larger value of  0.5  and

0.5% of measured

temperature

Larger value of  0.06  and

0.2% of measured

temperature

11.0

0 to 1250

*2

Larger value of  0.5  and

0.25% of measured

temperature

Larger value of  0.06  and

0.02% of measured

temperature

9.375

N

1250 to 1300

——— *3

——— *3

——— *3

*1: If a value entered from the thermocouple is outside the measured temperature range given in the table, it is

handled as the maximum/minimum value of the measured temperature range.

*2: The accuracies only in the temperature ranges of Class 1 to 3 (shaded areas) in JIS C1602-1995 apply.
*3: Temperature measurement can be made, but accuracy is not guaranteed.

Содержание Q64TD

Страница 1: ...OLLER User s Manual Hardware Q64TD Q64TDV GH Thank you for purchasing the Mitsubishi general purpose programmable logic controller MELSEC Q series Prior to use please read this manual thoroughly and familiarize yourself with the product MODEL Q64TD U H JE MODEL CODE 13JT30 IB NA 0800155 B 0201 MEE 2000 MITSUBISHI ELECTRIC CORPORATION ...

Страница 2: ...d by CAUTION may also be linked to serious results In any case it is important to follow the directions for usage Store this manual in a safe place so that you can take it out and read it whenever necessary Always forward it to the end user DESIGN PRECAUTIONS DANGER Do not write data into the system area of the buffer memory of intelligent function modules Also do not use any prohibited to use sig...

Страница 3: ...or the module resulting in fallout short circuits or malfunction Switch all phases of the external power supply off when mounting or removing the module Not ding so may cause electric shock or 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 WIRING PRECAUTIONS CAUTION Always ground the FG t...

Страница 4: ...t Not doing so will make the module more susceptible to noises surges and inductions REVISIONS The manual number is given on the bottom right of the top cover Print Date Manual Number Revision Nov 2000 IB NA 0800155 A First edition Jan 2002 IB NA 0800155 B Model Q64TDV GH was added Addition Section2 2 Correction About the Manuals Chapter1 Section2 1 Chapter4 Section5 1 Section5 2 Section5 3 Chapte...

Страница 5: ...red temperature range accuracies 2 2 2 Specifications of Q64TDV GH 3 2 2 1 Performance specifications 3 2 2 2 Usable thermocouples and measured temperature range accuracies 5 2 2 3 Micro voltage input range and accuracies 5 3 LOADING AND INSTALLATION 6 3 1 Handling Instructions 6 3 2 Installation Environment 6 4 NAMES AND SETTINGS OF THE PARTS 7 5 WIRING 8 5 1 Wiring Instructions 8 5 2 External Wi...

Страница 6: ...64TDV GH GX Configurator TI SW1D5C QTIU E SH 080141 13JR30 Conformance to the EMC Directive Low Voltage Directive 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 User s Manual Hardware of the PLC CPU to use The CE logo is printed on the rating plate...

Страница 7: ...tage 1780VrmsAC 3 cycles altitude 2000m Insulation resistance Across thermocouple input and earth Across thermocouple input channels 500VDC 100MΩ or more using insulation resistance tester 500VDC 10MΩ or more using insulation resistance tester Wire break detection Yes Each channel independent 3 E 2 PROM write count Max 100 thousand times Number of occupied points 16 points Connection terminals 18 ...

Страница 8: ... value of 0 5 and 0 25 of measured temperature Larger value of 0 06 and 0 02 of measured temperature 6 75 E 900 to 1000 3 3 3 210 to 40 3 3 3 40 to 750 2 Larger value of 0 5 and 0 25 of measured temperature Larger value of 0 06 and 0 02 of measured temperature 5 625 J 750 to 1200 3 3 3 270 to 200 3 3 3 200 to 0 2 Larger value of 0 5 and 0 5 of measured temperature Larger value of 0 06 and 0 1 of m...

Страница 9: ...hannels Across cold junction temperature compensation input Pt100 and earth Transformer insulation Transformer insulation No insulation Dielectric withstand voltage 1780VrmsAC 3 cycles altitude 2000m Insulation resistance Across thermocouple input micro voltage input and earth Across thermocouple input micro voltage input channels 500VDC 100MΩ or more using insulation resistance tester 500VDC 10MΩ...

Страница 10: ... into the buffer memory The conversion speed is a delay time that occurs during sampling processing It is independent of averaging processing Example When two channels are enabled for conversion Conversion speed sampling period 3 20ms 2 channels 3 120ms CH 1 CH 2 Input 1 Conversion speed Conversion processing Buffer memory Input 2 CH 1 CH 2 CH 1 CH 2 CH 1 CH 2 CH 1 CH 2 Input 1 Input 2 Conversion ...

Страница 11: ... 5 25 200 to 900 2 2 0 0 15 5 75 E 900 to 1000 3 3 3 210 to 40 3 3 3 40 to 200 2 1 5 5 25 200 to 750 2 2 0 0 15 5 75 J 750 to 1200 3 3 3 270 to 200 3 3 3 200 to 0 2 2 0 4 5 0 to 350 2 1 5 0 1 4 0 T 350 to 400 3 3 3 270 to 200 3 3 3 200 to 0 2 2 5 8 75 0 to 200 2 2 0 8 25 0 to 1250 2 2 5 0 25 8 75 N 1250 to 1300 3 3 3 1 If a value entered from the thermocouple is outside the measured temperature ra...

Страница 12: ...evention label at its top During wiring do not remove this label For system operation always remove this label to ensure adequate heat dissipation 5 Tighten the mounting and terminal screws of the module within the following ranges Screw Location Tightening Torque Range Module mounting screw M3 screw 36 to 48 N cm Terminal block terminal screw M3 screw 42 to 58 N cm Terminal block mounting screw M...

Страница 13: ...Q64TDV GH Number Name and Appearance Description 1 RUN LED Indicates the operating status of the Q64TD Q64TDV GH On Operating normally Flicker Offset gain setting mode Off 5V power off Watchdog timer error occurrence or module change enabled status during online module change 2 ERR LED Indicates the error status of the Q64TD Q64TDV GH On Error occurrence Flicker Switch setting error Switch 5 was s...

Страница 14: ...inverter s load circuit Not doing so will make the module more susceptible to noises surges and inductions 3 Insulation sleeved crimping terminals cannot be used with the terminal block It is recommended to fit mark tubes or insulation tubes to the wire connection parts of the crimping terminals 5 2 External Wiring 1 Thermocouple RTD Input amplifier CH1 Filter Transformer CH4 Pt100 1 2 1 As cables...

Страница 15: ...er CH4 Pt100 1 2 1 As cables always use shielded conductors Also wire the shielded cables as short as possible 2 Always connect to the earth terminal of the control box SLD SLD FG Input amplifier Input amplifier Filter Transformer Load cell or like Load cell or like ...

Страница 16: ...e B 4 Thermocouple R 5 Thermocouple S 6 Thermocouple N 7 Micro voltage input 8 Switch 1 Input type setting CH4 CH3 CH2 CH1 H Offset gain setting Set value Factory setting 0 User setting 1 Switch 2 Offset gain setting CH4 CH3 CH2 CH1 H Switch 3 Empty Switch 4 H 0H With cold junction temperature compensation 1 to FH Without cold junction temperature compensation 0H Normal mode 1 to FH Offset gain se...

Страница 17: ...H1 CH2 1 2 SLD SLD CH3 CH4 3 4 SLD SLD FG Q64TD 2 0 08 112 4 41 98 3 86 105 4 14 2 0 08 5 0 20 Unit mm in 2 Q64TDV GH 27 4 1 08 Q64TDV GH RUN ERROR 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 R T D CH1 CH2 1 2 SLD SLD CH3 CH4 3 4 SLD SLD FG Q64TDV GH 2 0 08 112 4 41 98 3 86 105 4 14 2 0 08 5 0 20 Unit mm in ...

Страница 18: ... V Spanish Branch Carretera de Rubi 76 80 08190 Sant Cugat del Valles Barcelona Spain Tel 34 935 653135 South Africa Circuit Breaker Industries LTD Private Bag 2016 Isando 1600 Johannesburg South Africa Tel 27 11 928 2000 Hong Kong Ryoden Automation Ltd 10th Floor Manulife Tower 169 Electric Road North Point HongKong Tel 852 2887 8870 China Ryoden International Shanghai Ltd 3F Block5 Building Auto...

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