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G.4 Resistive Sensor Simulation Function (Tc6622); G.4.1 Resistance; Temperature By Resistive Sensors - AOIP TC6621 Mode D'emploi

Mesureurs et calibrateurs de température

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TC-TM 66XX
G.4
Resistive sensor simulation function (TC6622)
G.4.1
Resistance
The resistance simulation function is obtained by configuring the device as follows:
Sensor: PT100 and Unit: Ohm for the 400 Ohm gauge.
Sensor: PT1000 and Unit: Ohm for the 3500 Ohm gauge.
Gauge
Scope of measurement
400 Ohm – 1mA
0 Ω to 400 Ω
(Direct current)
400 Ohm – 1mA
0 Ω to 400 Ω
(pulsed current)
400 Ohm – 4mA
0 Ω to 400 Ω
(Direct current)
400 Ohm – 4mA
0 Ω to 400 Ω
(pulsed current)
3500 Ohm
0 Ω to 3500 Ω
(Direct current)
3500 Ohm
0 Ω to 3500 Ω
(pulsed current)
Temperature coefficient: Direct current 10 ppm R/°C ; Pulsed current < 20 ppm Gauge/°C from 0°C to 18°C and
from 28°C to 50 °C..
The above precision is given for a 4-wire connection to the gauge.
You should also take into consideration the actual error of the temperature sensor used, as well as the conditions
of its setup.
Settling time: < 5 ms in "pulsed current" mode.
G.4.2

Temperature by resistive sensors

Sensor
Scope of measurement
- 220°C + 850°C
Pt 50 ( = 3851)
- 220°C + 850°C
Pt 100 ( = 3851)
Pt 100 ( = 3916)
- 200°C + 510°C
- 210°C + 850°C
Pt 100 ( = 3926)
Pt 200 ( = 3851)
- 220°C + 1,200°C
- 220°C + 1,200°C
Pt 500 ( = 3851)
- 220°C + 730°C
Pt 1,000 ( = 3851)
Ni 100 ( = 618)
- 60°C + 180°C
- 40°C + 205°C
Ni 120 ( = 672)
- 60°C + 180°C
Ni 1,000 ( = 618)
- 70°C + 150°C
Cu 10 ( = 427)
- 50°C + 150°C
Cu 50 ( = 428)
For negative temperatures, use the value displayed L and not its absolute value.
Temperature coefficient: < 10 % of precision/°C from 0°C to 18°C and from 28°C to 50 °C..
The above precision is given for a 4-wire connection to the gauge.
You should also take into consideration the actual error of the temperature sensor used, as well as the conditions of its
setup.
These specifications are given for a measurement current of 0.1 mA to 1mA in direct current mode.
Pt 50 ohm, 100 ohm, 200 ohm, 500 ohm, 1 000 ohm with  = 3851 in accordance with publication IEC 751/1995
Pt 100 ohm with  = 3916 in accordance with publication JIS C 1604/1989
Pt 100 ohm with  = 3926 in accordance with publication EIT90
Ni 100 ohm, 1 000 ohm with  =618 in accordance with publication DIN 43760
Ni 120 ohm with  =672 in accordance with publication MIL-T-24388C
Cu 10 ohm with  =427 in accordance with publication MINCO 16/9
98 / 101
NTA47230-300A6
Resolution (min)
Current range
0.1 mA to 1 mA 0.012% R + 30 mΩ
1 mΩ
0.2 mA to 1 mA 0.012% R + 80 mΩ
1 mΩ
1 mΩ
1 mA to 4 mA
1 mΩ
1 mA to 4 mA
0.1 mA to 1 mA 0.012% R + 300 mΩ
10 mΩ
0.2 mA to 1 mA 0.012% R +8 00 mΩ
10 mΩ
Resolution
Precision / 1 year
0.01°C
0.012 % R + 0.18°C
0.01°C
0.012 % R + 0.12°C
0.01°C
0.012 % R + 0.12°C
0.01°C
0.012 % R + 0.12°C
0.01°C
0.012 % R + 0.33°C
0.01°C
0.012 % R + 0.18°C
0.01°C
0.012 % R + 0.08°C
0.01°C
0.012 % R + 0.08°C
0.01°C
0.012 % R + 0.08°C
0.01°C
0.012 % R + 0.08°C
0.01°C
0.012 % R + 0.10°C
0.01°C
0.012 % R + 0.15°C
TECHNICAL SPECIFICATIONS
Precision / 1 year
0.012% R + 30 mΩ
0.012% R + 80 mΩ

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Tm6602Tm6630