Specifications

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OWNER’S GUIDE  CONDITIONERS, DAQ | 13353

DAQP-MULTI Isolated Multifunction module

Thermocouple: Freely programmable ranges within full thermocouple input span

Bridge: ±0.5 to ±1000 mV/mA

Voltage input: ±5 mV to ±5 V (free programmable within ±5 V)

RTD: Resistance Temperature Detector (Pt100 to Pt2000),

freely programmable ranges within full RTD input span

Resistance: 1 Ω to 1 MΩ (free programmable between 1 Ω and 1 MΩ)

Bandwidth: 3 kHz

Isolation: 1000 VRMS continuous

Signal connection: Standard miniature thermocouple connector, and

9-pin SUB-D connector

DAQP-MULTI Specications

Parameter DAQP-MULTI

Input types:

Thermocouple (TC); Resistance Temperature Detector (RTD); Voltage; Resistance; Bridge with constant

current excitation

Thermocouples

Sensor types: K, J, T, R, S, N, E, B, L, C, U, others on request

Range: Min. to max. of the input range is free programmable within the full thermocouple input span

CJC absolute accuracy: ±0.2 °C

CJC stability: 0.01 °C/°C ambient temperature change

Accuracy: Typical 0.3° for type K including CJC error; details see table below.

Linearization: DSP based linearization on-board

Non-linearity: > 0.01°C

Open thermocouple detection: 100 MΩ pull up; software selectable

Connector: Mini thermocouple connector with integrated cold junction compensation sensor

RTD

Sensor types: Pt100, Pt200, Pt500, Pt1000, Pt2000, others on request

Range: Min. and max. of the input range is free programmable within the full RTD input span

Constant current: Pt100: 1 mA; Pt200, Pt500: 0.5 mA; Pt1000, Pt2000: 0.2 mA

Accuracy: Typical accuracy 0.15 °C for Pt100, details see table below

Linearization: DSP based linearization on-board

Non-linearity: > 0.01 °C

Voltage

Input ranges:

±5 mV, ±10 mV, ±20 mV, ±50 mV, ±100 mV, ±200 mV, ±500 mV, ±1 V, ±2 V, ±5 V, free programmable

within ±5V

Accuracy:

0 to ±100 mV Range: 0.02 % of reading ±0.01 % of Range ±5 μV

>±100mV to ±5V Range: 0.02 % of reading ±0.01 % of Range ±100 μV

Offset drift: Typical ±0.3 μV/°K ±10 ppm of range/°K

Gain drift: Typical 15 ppm/°K

Input impedance: > 100 MΩ (power off: 50 kΩ)

Input noise: 8 nV * √Hz