(!) Since support from Microsoft will end on January 14th, 2020, Windows 7 will be excluded from the recommended environment from December 15th, 2019 on this site. Vì lý do Microsoft kết thúc hỗ trợ cho Windows 7 vào ngày 14/01/2020, Windows 7 sẽ là hệ điều hành không được khuyến khích sử dụng với trang web này từ ngày 15/12/2019.

  • Viewed
    Products
    Sản phẩm
    đã xem
    최근 본
    상품
    查看产品 查看產品
  • My
    Components
    Linh kiện
    của tôi
    나의 부품 我的部件 我的部件
  • Cart
Recently Viewed Products
X
My Components
X
Cart item(s)
X
Loading...
  • [Thông báo] Cập nhật địa chỉ kho tập kết hàng hóa tại khu vực miền Nam của MISUMI Việt Nam. Xem chi tiết.
    [Announcement] Update on warehouse address in the Southern region of MISUIMI Vietnam. See more. 
  • [Cảnh Báo] Thủ Đoạn Lừa Đảo Từ Nhân Viên Giao Hàng – Yêu Cầu Trả Phí Ship. Xem chi tiết.
    [Warning] Fraud Calling from Shipper - Asking to Pay Shipping Fee. See more.

MELSEC-Q Series Temperature Input Unit (Q68TD-G-H02)

MELSEC-Q Series Temperature Input Unit (Q68TD-G-H02)
You can add up to 6 items per a category to the compare list.

Part Number :
    • From :
      10,610,000VND/Unit
  • Order Qty :
  • Total Price :
    ---
  • Days to ship :
    ---

Select part number to Order Now/ Add to Cart

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
Q68TD-G-H02
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

15,916,250 VND

1 Piece(s) Quote 8Thermocouple320ms/8chInsulation40-pin connector640ms/8ch

Loading...Tải…

  1. 1
 

Basic InformationThông tin cơ bản

Type Temperature control Representative Standard CE / UL

Please check the type/dimensions/specifications of the part Q68TD-G-H02 in the MELSEC-Q Series Temperature Input Unit series.Vui lòng kiểm tra kiểu/kích thước/thông số kỹ thuật của phần Q68TD-G-H02 trong chuỗi MELSEC-Q Series Temperature Input Unit.

Products like this...

Part Number
Q64RD
Q64RD-G
Q64TD
Q64TDV-GH
Q68RD3-G
Q68TD-G-H01
Part NumberStandard Unit PriceMinimum order quantityVolume 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

10,610,000 VND

1 Piece(s) Quote 4Temperature Measuring Resistor-Non-Insulated18-point terminal block40ms/1ch

13,791,250 VND

1 Piece(s) Quote 4Temperature Measuring Resistor-Insulation18-point terminal block40ms/1ch

12,730,000 VND

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

12,730,000 VND

1 Piece(s) Quote 4Thermocouple20ms/1chInsulation18-point terminal block(Sampling Cycle × 3)/1 CH

14,253,750 VND

1 Piece(s) Quote 8Temperature Measuring Resistor-Insulation40-pin connector320ms/8ch

14,253,750 VND

1 Piece(s) Quote 8Thermocouple×320ms/8chInsulation40-pin connector320ms/8ch