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MELSEC-Q Series Temperature Input Unit (Q64TD)

MELSEC-Q Series Temperature Input Unit (Q64TD)
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Product Description

A temperature input unit for the versatile MELSEC-Q series

Temperature-sensing Resistance Input Unit Q64RD Specifications

Number of Channels 4 channels
Output Temperature Conversion Value 16-bit signed binary (-2,000 to 8,500: value rounded to first decimal place×multiplied by 10)
32-bit signed binary (-200,000 to 850,000: value rounded to third decimal place×multiplied by 1,000)
Scaling Value 16-bit signed binary
Compatible Resistance Temperature Detector Pt100, JPt100
Temperature Measuring Range Pt100 -200 to 850°C
JPt100 -180 to 600°C
Range Switching Pt100 -20 to 120°C / -200 to 850°C
JPt100 -20 to 120°C / -180 to 600°C
Precision (Precision With Respect to Maximum Value of Selected Range) Ambient Temperature: 25±5°C ±0.08%
Ambient Temperature: 0 to 55°C ±0.25%
Resolution 0.025°C
Output Current for Temperature Detection 1 mA
Conversion Speed 40 ms / channel
Number of Analog Input Points 4 points (4 channels)
Insulation Method Between temperature-sensing resistance input and sequencer power supply: opto-isolator
Between temperature measuring resistor input channels: non-insulated
Dielectric Strength Between platinum resistance temperature detector input and sequencer power supply: 1,780 V AC rms / 3 cycles (altitude 2,000 m)
Insulation Resistance Between platinumtemperature-sensing resistance input and sequencer power supply: 10 MΩor more at 500 V DC
Disconnection Detection Yes (Independently for each channel)
External Wiring Connection Method 18-point screw terminal block (M3 screw)
Number of Occupied Inputs/Outputs 16 points (I/O assignment: intelligent 16 points)
5 V DC Internal Current Consumption 0.60 A
External Dimensions Height (H) 98 mm
Width (W) 27.4 mm
Depth (D) 90 mm
Weight 0.17 kg

Inter-Channel Insulated Temperature-sensing Resistance Input Unit Q64RD-G Specifications

Number of Channels 4 channels
Output Temperature Conversion Value 16-bit signed binary (-2,000 to 8,500: value rounded to first decimal place×multiplied by 10)
32-bit signed binary (-200,000 to 850,000: value rounded to third decimal place×multiplied by 1,000)
Scaling Value 16-bit signed binary
Compatible Resistance Temperature Detector Pt100, JPt100, Ni100
Temperature Measuring Range Pt100 -200 to 850°C
JPt100 -180 to 600°C
Ni100 -60 to 180°C
Range Switching Pt100 -20 to 120°C / 0 to 200°C / -200 to 850°C
JPt100 -20 to 120°C / 0 to 200°C / -180 to 600°C
Ni100 -
Precision (Precision With Respect to Maximum Value of Selected Range) Reference Precision ±Within 0.04%
Temperature Coefficient Pt100/JPt100 (-20 to 120°C) ±70 ppm/°C (±0.0070%/°C)
Pt100/JPt100 (0 to 200°C) ±65 ppm/°C (±0.0065%/°C)
Pt100/JPt100 (-200 to 850°C) ±50 ppm/°C (±0.0050%/°C)
Ni100 (-60 to 180°C) ±70 ppm/°C (±0.0070%/°C)
Resolution 0.025°C
Output Current for Temperature Detection 1 mA
Conversion Speed 40 ms / channel
Number of Analog Input Points 4 points (4 channels)
Insulation Method Between temperature-sensing resistance input and sequencer power supply: opto-isolator insulation
Between temperature-sensing resistance input channels: transformer insulation
Dielectric Strength Between temperature-sensing resistance input and sequencer power supply, between temperature measuring resistor input channels: 1,780 V AC rms / 3 cycles (altitude 2,000 m)
Insulation Resistance Between resistance temperature detector input and sequencer power supply, between resistance temperature detector input channels: 10 MΩor more at 500 V DC
Disconnection Detection Yes (Independently for each channel)
External Wiring Connection Method 18-point screw terminal block (M3 screw)
Number of Occupied Inputs/Outputs 16 points (I/O assignment: intelligent 16 points)
5 V DC Internal Current Consumption 0.62 A
External Dimensions Height (H) 98 mm
Width (W) 27.4 mm
Depth (D) 112 mm
Weight 0.20 kg

Thermocouple Input Unit Q64TD Specifications

Number of Channels 4 channels
Output Temperature Conversion Value 16-bit signed binary (-2,700 to 18,200: value rounded to first decimal place×multiplied by 10)
Scaling Value 16-bit signed binary
Compliant Standard for Thermocouple JIS C1602-1995
Accuracy of Temperature Measuring Range Thermocouple Type Temperature Measuring Range Conversion accuracy (ambient operating temperature 25±5°C)
Temperature characteristics (per 1°C change in ambient operating temperature)
Maximum temperature error at ambient temperature of 55°C
Effect per 1Ωof wiring resistance
B 0 to 600°C -
600 to 800°C Conversion accuracy: ±3.0°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±13.0°C
Effect per 1Ωof wiring resistance: 0.009°C/Ω
800 to 1,700°C Conversion accuracy: ±2.5°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±12.5°C
Effect per 1Ωof wiring resistance: 0.008°C/Ω
1,700 to 1,820°C -
R -50 to 0°C -
0 to 300°C Conversion accuracy: ±2.5°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±12.5°C
Effect per 1Ωof wiring resistance: 0.011°C/Ω
300 to 1,600°C Conversion accuracy: ±2.0°C
Temperature characteristics: ±0.3°C
Maximum temperature error at ambient temperature of 55°C: ±9.5°C
Effect per 1Ωof wiring resistance: 0.006°C/Ω
1,600 to 1,760°C -
S -50 to 0°C -
0 to 300°C Conversion accuracy: ±2.5°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±12.5°C
Effect per 1Ωof wiring resistance: 0.011°C/Ω
300 to 1,600°C Conversion accuracy: ±2.0°C
Temperature characteristics: ±0.3°C
Maximum temperature error at ambient temperature of 55°C: ±9.2°C
Effect per 1Ωof wiring resistance: 0.006°C/Ω
1,600 to 1,760°C -
K -270 to -200°C -
-200 to 0°C Conversion accuracy: ±0.5°C or±0.5% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.2% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±11.0°C
Effect per 1Ωof wiring resistance: 0.004°C/Ω
0 to 1,200°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±9.0°C
Effect per 1Ωof wiring resistance: 0.002°C/Ω
1,200 to 1,370°C -
E -270 to -200°C -
-200 to 0°C Conversion accuracy: ±0.5°C or ±0.5% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.15% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±8.5°C
Effect per 1Ωof wiring resistance: 0.003°C/Ω
0 to 900°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±6.75°C
Effect per 1 Ω of wiring resistance: 0.001°C/Ω
900 to 1,000°C -
J -210 to -40°C -
-40 to 750°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±5.625°C
Effect per 1Ωof wiring resistance: 0.002°C/Ω
750 to 1,200°C -
T -270 to -200°C -
-200 to 0°C Conversion accuracy: ±0.5°C or±0.5% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.1% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±6.0°C
Effect per 1Ωof wiring resistance: 0.004°C/Ω
0 to 350°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±2.625°C
Effect per 1Ωof wiring resistance: 0.002°C/Ω
350 to 400°C -
N -270 to -200°C -
-200 to 0°C Conversion accuracy: ±0.5°C or±0.5% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.2% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±11.0°C
Effect per 1Ωof wiring resistance: 0.006°C/Ω
0 to 1,250°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±9.375°C
Effect per 1Ωof wiring resistance: 0.003°C/Ω
1,250 to 1,300°C -
Cold Contact Temperature Compensation Accuracy ±1.0°C
Overall Accuracy (Overall accuracy) = (Conversion accuracy) + (Temperature characteristics)×(Ambient operating temperature change) + (Cold contact temperature compensation accuracy)
*Ambient operating temperature change: Ambient operating temperature outside the range of 25±5°C
Resolution B, R, S, N: 0.3°C
K, E, J, T: 0.1°C
Conversion Speed 40 ms / channel
Number of Analog Input Points 4 points (4 channels + Cold contact compensation channel)
Insulation Method Between thermocouple input and sequencer power supply: transformer insulation
Between thermocouple input channels: transformer insulation
Between cold contact compensation input (Pt100) and sequencer power supply: non-insulated
Dielectric Strength Between thermocouple input and sequencer power supply, between thermocouple input channels: 1,780 V AC rms / 3 cycles (altitude 2,000 m)
Insulation Resistance Between thermocouple input and sequencer power supply: 100 MΩor more at 500 V DC
Between thermocouple input channels: 10 MΩor more at 500 V DC
Disconnection Detection Yes (Independently for each channel)
External Wiring Connection Method 18-point screw terminal block (M3 screw)
Number of Occupied Inputs/Outputs 16 points (I/O assignment: intelligent 16 points)
5 V DC Internal Current Consumption 0.50 A
External Dimensions Height (H) 98 mm
Width (W) 27.4 mm
Depth (D) 112 mm
Weight 0.25 kg

Inter-Channel Insulated Temperature-sensing Resistance Input Unit Q68RD3-G Specifications

Number of Channels 8 channels
Output Temperature Conversion Value 16-bit signed binary (-2,000 to 8,500)
Scaling Value 16-bit signed binary
Compatible Resistance Temperature Detector Pt100, JPt100, Ni100
Temperature Measuring Range Pt100 -200 to 850°C
JPt100 -180 to 600°C
Ni100 -60 to 180°C
Conversion Accuracy Pt100 -200 to 850°C ±0.8°C (Ambient Temperature: 25±5°C)
±2.4°C (Ambient Temperature: 0 to 55°C)
-20 to 120°C ±0.3°C (Ambient Temperature: 25±5°C)
±1.1°C (Ambient Temperature: 0 to 55°C)
0 to 200°C ±0.4°C (Ambient Temperature: 25±5°C)
±1.2°C (Ambient Temperature: 0 to 55°C)
JPt100 -180 to 600°C ±0.8°C (Ambient Temperature: 25±5°C)
±2.4°C (Ambient Temperature: 0 to 55°C)
-20 to 120°C ±0.3°C (Ambient Temperature: 25±5°C)
±1.1°C (Ambient Temperature: 0 to 55°C)
0 to 200°C ±0.4°C (Ambient Temperature: 25±5°C)
±1.2°C (Ambient Temperature: 0 to 55°C)
Ni100 -60 to 180°C ±0.4°C (Ambient Temperature: 25±5°C)
±1.2°C (Ambient Temperature: 0 to 55°C)
Resolution 0.1°C
Output Current for Temperature Detection 1.0 mA or less
Conversion Speed 320 ms / 8 channels
Number of Analog Input Points 8 points (8 channels)
Insulation Method Between temperature-sensing resistance input and sequencer power supply, between temperature-sensing resistance input channels: transformer insulation
Dielectric Strength Between temperature-sensing resistance input and sequencer power supply: 500 V AC rms for 1 minute
Between temperature measuring resistor input channels: 1,000 V AC rms for 1 min
Insulation Resistance Between resistance temperature detector input and sequencer power supply, between resistance temperature detector input channels: 10 MΩor more at 500 V DC
Disconnection Detection Yes (Independently for each channel)
External Wiring Connection Method   40-pin connector
Compatible Connector A6CON1, A6CON2, A6CON4 (sold separately)
Number of Occupied Inputs/Outputs 16 points (I/O assignment: intelligent 16 points)
5 V DC Internal Current Consumption 0.54 A
External Dimensions Height (H) 102 mm
Width (W) 27.4 mm
Depth (D) 130 mm
Weight 0.20 kg

Inter-Channel Insulated Thermocouple Input Unit Q68TD-G-H01 Specifications

Number of Channels 8 channels
Output Temperature Conversion Value 16-bit signed binary (-2,700 to 18,200)
Scaling Value 16-bit signed binary
Compliant Standard for Thermocouple JIS C1602-1995, IEC60584-1(1995), IEC60584-2(1982)
Accuracy of Temperature Measuring Range Thermocouple Type Temperature Measuring Range Conversion accuracy (ambient operating temperature 25±5°C)
Temperature characteristics (per 1°C change in ambient operating temperature)
Maximum temperature error at ambient temperature of 55°C
B 0 to 600°C -
600 to 800°C Conversion accuracy: ±3.0°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±13.0°C
800 to 1,700°C Conversion accuracy: ±2.5°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±12.5°C
1,700 to 1,820°C -
R -50 to 0°C -
0 to 300°C Conversion accuracy: ±2.5°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±12.5°C
300 to 1,600°C Conversion accuracy: ±2.0°C
Temperature characteristics: ±0.3°C
Maximum temperature error at ambient temperature of 55°C: ±9.5°C
1,600 to 1,760°C -
S -50 to 0°C -
0 to 300°C Conversion accuracy: ±2.5°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±12.5°C
300 to 1,600°C Conversion accuracy: ±2.0°C
Temperature characteristics: ±0.3°C
Maximum temperature error at ambient temperature of 55°C: ±9.5°C
1,600 to 1,760°C -
K -270 to -200°C -
-200 to 0°C Conversion accuracy: ±0.5°C or±0.5% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.2% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±11.0°C
0 to 1,200°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±9.0°C
1,200 to 1,370°C -
E -270 to -200°C -
-200 to 0°C Conversion accuracy: ±0.5°C or ±0.5% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.15% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±8.5°C
0 to 900°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±6.75°C
900 to 1,000°C -
J -210 to -40°C -
-40 to 750°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±5.625°C
750 to 1,200°C -
T -270 to -200°C -
-200 to 0°C Conversion accuracy: ±0.5°C or±0.5% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.1% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±6.0°C
0 to 350°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±2.625°C
350 to 400°C -
N -270 to -200°C -
-200 to 0°C Conversion accuracy: ±0.5°C or±0.5% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.2% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±11.0°C
0 to 1,250°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±9.375°C
1,250 to 1,300°C -
Cold Contact Temperature Compensation Accuracy ±1.0°C
Overall Accuracy (Overall accuracy) = (Conversion accuracy) + (Temperature characteristics)×(Ambient operating temperature change) + (Cold contact temperature compensation accuracy)
*Ambient operating temperature change: Ambient operating temperature outside the range of 25±5°C
Resolution B, R, S, N: 0.3°C
K, E, J, T: 0.1°C
Sampling Cycle 320 ms / 8 channels
Conversion Speed 320 ms / 8 channels
Number of Analog Input Points 8 points (8 channels + cold contact compensation channel)
Insulation Method Between thermocouple input channel and sequencer power supply: transformer insulation
Between thermocouple input channels: transformer insulation
Between cold contact compensation channel and sequencer power supply: non-insulated
Dielectric Strength Between thermocouple input channel and sequencer power supply: 500 V AC rms for 1 minute
Between thermocouple input channels: 1,000 V AC rms for 1 minute
Insulation Resistance Between thermocouple input channel and sequencer power supply, between thermocouple input channels: 10 MΩor more at 500 V DC
Disconnection Detection N/A
External Wiring Connection Method   40-pin connector
Compatible Connector A6CON1, A6CON2, A6CON4 (sold separately)
Number of Occupied Inputs/Outputs 16 points (I/O assignment: intelligent 16 points)
5 V DC Internal Current Consumption 0.49 A
External Dimensions Height (H) 98 mm
Width (W) 27.4 mm
Depth (D) 90 mm
Weight 0.18 kg

Inter-Channel Insulated Thermocouple Input Unit Q68TD-G-H02 Specifications

Number of Channels 8 channels
Output Temperature Conversion Value 16-bit signed binary (-2,700 to 18,200)
Scaling Value 16-bit signed binary
Compliant Standard for Thermocouple JIS C1602-1995, IEC60584-1(1995), IEC60584-2(1982)
Accuracy of Temperature Measuring Range Thermocouple Type Temperature Measuring Range Conversion accuracy (ambient operating temperature 25±5°C)
Temperature characteristics (per 1°C change in ambient operating temperature)
Maximum temperature error at ambient temperature of 55°C
B 0 to 600°C -
600 to 800°C Conversion accuracy: ±3.0°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±13.0°C
800 to 1,700°C Conversion accuracy: ±2.5°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±12.5°C
1,700 to 1,820°C -
R -50 to 0°C -
0 to 300°C Conversion accuracy: ±2.5°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±12.5°C
300 to 1,600°C Conversion accuracy: ±2.0°C
Temperature characteristics: ±0.3°C
Maximum temperature error at ambient temperature of 55°C: ±9.5°C
1,600 to 1,760°C -
S -50 to 0°C -
0 to 300°C Conversion accuracy: ±2.5°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±12.5°C
300 to 1,600°C Conversion accuracy: ±2.0°C
Temperature characteristics: ±0.3°C
Maximum temperature error at ambient temperature of 55°C: ±9.5°C
1,600 to 1,760°C -
K -270 to -200°C -
-200 to 0°C Conversion accuracy: ±0.5°C or±0.5% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.2% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±11.0°C
0 to 1,200°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±9.0°C
1,200 to 1,370°C -
E -270 to -200°C -
-200 to 0°C Conversion accuracy: ±0.5°C or ±0.5% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.15% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±8.5°C
0 to 900°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±6.75°C
900 to 1,000°C -
J -210 to -40°C -
-40 to 750°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±5.625°C
750 to 1,200°C -
T -270 to -200°C -
-200 to 0°C Conversion accuracy: ±0.5°C or±0.5% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.1% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±6.0°C
0 to 350°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±2.625°C
350 to 400°C -
N -270 to -200°C -
-200 to 0°C Conversion accuracy: ±0.5°C or±0.5% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.2% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±11.0°C
0 to 1,250°C Conversion accuracy: ±0.5°C or±0.25% of the measured temperature, whichever is greater
Temperature characteristics: ±0.06°C or ±0.02% of the measured temperature, whichever is greater
Maximum temperature error at ambient temperature of 55°C: ±9.375°C
1,250 to 1,300°C -
Cold Contact Temperature Compensation Accuracy ±1.0°C
Overall Accuracy (Overall accuracy) = (Conversion accuracy) + (Temperature characteristics)×(Ambient operating temperature change) + (Cold contact temperature compensation accuracy)
*Ambient operating temperature change: Ambient operating temperature outside the range of 25±5°C
Resolution B, R, S, N: 0.3°C
K, E, J, T: 0.1°C
Sampling Cycle 20 ms / 8 channels
Conversion Speed 640 ms / 8 channels
Number of Analog Input Points 8 points (8 channels + cold contact compensation channel)
Insulation Method Between thermocouple input channel and sequencer power supply: transformer insulation
Between thermocouple input channels: transformer insulation
Between cold contact compensation channel and sequencer power supply: non-insulated
Dielectric Strength Between thermocouple input channel and sequencer power supply: 500 V AC rms for 1 minute
Between thermocouple input channels: 1,000 V AC rms for 1 minute
Insulation Resistance Between thermocouple input channel and sequencer power supply, between thermocouple input channels: 10 MΩor more at 500 V DC
Disconnection Detection Yes (Independently for each channel)
External Wiring Connection Method   40-pin connector
Compatible Connector A6CON1, A6CON2, A6CON4 (sold separately)
Number of Occupied Inputs/Outputs 16 points (I/O assignment: intelligent 16 points)
5 V DC Internal Current Consumption 0.65 A
External Dimensions Height (H) 102 mm
Width (W) 27.4 mm
Depth (D) 130 mm
Weight 0.22 kg

Inter-Channel Insulated Thermocouple / Microvoltage Input Unit Q64TDV-GH Specifications

Number of Channels 4 channels
Output Temperature Conversion Value 16-bit signed binary (-2,700 to 18,200: value rounded to first decimal place×multiplied by 10)
Scaling Value 16-bit signed binary
Microvoltage Conversion Value 16-bit signed binary (-25,000 to 25,000)
Compliant Standard for Thermocouple JIS C1602-1995
Accuracy of Temperature Measuring Range Thermocouple Type Temperature Measuring Range Conversion accuracy (ambient operating temperature 25±5°C)
Temperature characteristics (per 1°C change in ambient operating temperature)
Maximum temperature error at ambient temperature of 55°C
Effect per 1Ωof wiring resistance
B 0 to 600°C -
600 to 800°C Conversion accuracy: ±4.0°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±14.0°C
Effect per 1Ωof wiring resistance: 0.011°C/Ω
800 to 1,700°C Conversion accuracy: ±3.5°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±13.5°C
Effect per 1Ωof wiring resistance: 0.010°C/Ω
1,700 to 1,820°C -
R -50 to 0°C -
0 to 300°C Conversion accuracy: ±4.0°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±14.0°C
Effect per 1Ωof wiring resistance: 0.013°C/Ω
300 to 1,600°C Conversion accuracy: ±3.5°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±13.5°C
Effect per 1Ωof wiring resistance: 0.008°C/Ω
1,600 to 1,760°C -
S -50 to 0°C -
0 to 300°C Conversion accuracy: ±4.0°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±14.0°C
Effect per 1Ωof wiring resistance: 0.013°C/Ω
300 to 1,600°C Conversion accuracy: ±3.5°C
Temperature characteristics: ±0.4°C
Maximum temperature error at ambient temperature of 55°C: ±13.5°C
Effect per 1Ωof wiring resistance: 0.008°C/Ω
1,600 to 1,760°C -
K -270 to -200°C -
-200 to 0°C Conversion accuracy: ±2.0°C
Temperature characteristics: ±0.25°C
Maximum temperature error at ambient temperature of 55°C: ±8.25°C
Effect per 1Ωof wiring resistance: 0.005°C/Ω
0 to 200°C Conversion accuracy: ±1.5°C
Temperature characteristics: ±0.25°C
Maximum temperature error at ambient temperature of 55°C: ±7.75°C
Effect per 1Ωof wiring resistance: 0.002°C/Ω
200 to 1,200°C Conversion accuracy: ±2.0°C
Temperature characteristics: ±0.25°C
Maximum temperature error at ambient temperature of 55°C: ±8.25°C
Effect per 1Ωof wiring resistance: 0.002°C/Ω
1,200 to 1,370°C -
E -270 to -200°C -
-200 to 200°C Conversion accuracy: ±1.5°C
Temperature characteristics: ±0.15°C
Maximum temperature error at ambient temperature of 55°C: ±5.25°C
Effect per 1Ωof wiring resistance: 0.003°C/Ω
200 to 900°C Conversion accuracy: ±2.0°C
Temperature characteristics: ±0.15°C
Maximum temperature error at ambient temperature of 55°C: ±5.75°C
Effect per 1Ωof wiring resistance: 0.001°C/Ω
900 to 1,000°C -
J -210 to -40°C -
-40 to 200°C Conversion accuracy: ±1.5°C
Temperature characteristics: ±0.15°C
Maximum temperature error at ambient temperature of 55°C: ±5.25°C
Effect per 1Ωof wiring resistance: 0.002°C/Ω
200 to 750°C Conversion accuracy: ±2.0°C
Temperature characteristics: ±0.15°C
Maximum temperature error at ambient temperature of 55°C: ±5.75°C
Effect per 1Ωof wiring resistance: 0.002°C/Ω
750 to 1,200°C -
T -270 to -200°C -
-200 to 0°C Conversion accuracy: ±2.0°C
Temperature characteristics: ±0.1°C
Maximum temperature error at ambient temperature of 55°C: ±4.5°C
Effect per 1Ωof wiring resistance: 0.004°C/Ω
0 to 350°C Conversion accuracy: ±1.5°C
Temperature characteristics: ±0.1°C
Maximum temperature error at ambient temperature of 55°C: ±4.0°C
Effect per 1Ωof wiring resistance: 0.002°C/Ω
350 to 400°C -
N -270 to -200°C -
-200 to 0°C Conversion accuracy: ±2.5°C
Temperature characteristics: ±0.25°C
Maximum temperature error at ambient temperature of 55°C: ±8.75°C
Effect per 1Ωof wiring resistance: 0.007°C/Ω
0 to 200°C Conversion accuracy: ±2.0°C
Temperature characteristics: ±0.25°C
Maximum temperature error at ambient temperature of 55°C: ±8.25°C
Effect per 1Ωof wiring resistance: 0.003°C/Ω
200 to 1,250°C Conversion accuracy: ±2.5°C
Temperature characteristics: ±0.25°C
Maximum temperature error at ambient temperature of 55°C: ±8.75°C
Effect per 1Ωof wiring resistance: 0.002°C/Ω
1,250 to 1,300°C -
Cold Contact Temperature Compensation Accuracy ±1.0°C
Overall Accuracy (Overall accuracy) = (Conversion accuracy) + (Temperature characteristics)×(Ambient operating temperature change) + (Cold contact temperature compensation accuracy)
*Ambient operating temperature change: Ambient operating temperature outside the range of 25±5°C
Resolution B: 0.7°C
R, S: 0.8°C
K, T: 0.3°C
E: 0.2°C
J: 0.1°C
N: 0.4°C
Microvoltage Input Input Range -100 to +100 mV (Input resistance 2 MΩor more)
Accuracy ±0.2 mV (ambient operating temperature: 25±5°C)
±0.8 mV (ambient operating temperature: 0 to 55°C)
Resolution 4μ V
Absolute Maximum Input ±5 V
Sampling Cycle 20 ms / channel
Conversion Speed Sampling cycle×3
Number of Analog Input Points 4 points (4 channels + Cold contact compensation channel)
Insulation Method Between thermocouple input / microvoltage input and sequencer power supply: transformer insulation
Between thermocouple input / microvoltage input channels: transformer insulation
Between cold contact compensation input (Pt100) and sequencer power supply: non-insulated
Dielectric Strength Between thermocouple input / microvoltage input and sequencer power supply, between thermocouple input / microvoltage input channels:
1,780 V AC rms / 3 cycles (altitude 2,000 m)
Insulation Resistance Between thermocouple input / microvoltage input and sequencer power supply: 100 MΩor more at 500 V DC
Between thermocouple input / microvoltage input channels: 10 MΩor more 500 V DC
Disconnection Detection Yes (Independently for each channel)
External Wiring Connection Method 18-point screw terminal block (M3 screw)
Number of Occupied Inputs/Outputs 16 points (I/O assignment: intelligent 16 points)
5 V DC Internal Current Consumption 0.50 A
External Dimensions Height (H) 98 mm
Width (W) 27.4 mm
Depth (D) 112 mm
Weight 0.25 kg
Part Number
Q64TD
Part NumberPriceMinimum Order Qty.Volume DiscountDays to ShipSố ngày giao hàngNumber of Input Points (Number of Input CH) Input I/F (Input Target) Heater Burnout Detection Function Sampling Cycle (Temperature Control) Channel-to-channel isolation Terminal shape Temperature Conversion Speed

12,730,000 VND

1 Piece(s) Quote 4Thermocouple-Insulation18-point terminal block40ms/1ch

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Basic InformationThông tin cơ bản

Type Temperature control Representative Standard CE / UL

Please check the type/dimensions/specifications of the part Q64TD in the MELSEC-Q Series Temperature Input Unit series.Vui lòng kiểm tra kiểu/kích thước/thông số kỹ thuật của phần Q64TD trong chuỗi MELSEC-Q Series Temperature Input Unit.

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