2 accuracy of ratiometric-resistance measurements – Campbell Scientific CR1000 Measurement and Control System User Manual

Section 8. Operation

298 

Other sensors, e.g., LVDTs (linear variable differential transformers), require an
ac excitation because they rely on inductive coupling to provide a signal. dc
excitation will provide no output.

CR1000 bridge measurements can reverse excitation polarity to provide ac
excitation and avoid ion polarization.

Note Sensors requiring ac excitation require techniques to minimize or eliminate
ground loops. See Ground Looping in Ionic Measurements

(p. 91).

8.1.3.2 Accuracy of Ratiometric-Resistance Measurements

The ratiometric-accuracy specification for resistance measurements is:

±(0.04% * V1 + Offset), ‐25° to 50° C, 

where V1 is the voltage measurement and Offset is equal to one of the 
following, where the Basic Resolution is the resolution of a single A/D

 (p. 

447) 

conversion.  Note that excitation reversal reduces offsets by a factor 

of two: 

• Offset = 1.5 x Basic Resolution + 1.0 µV if the measurement is made on a

differential input channel with input reversal

• Offset = 3 x Basic Resolution + 2.0 µV if the measurement is made on a

differential input channel without input reversal

• Offset = 3 x Basic Resolution + 3.0 µV if the measurement is of a single-

ended input channel

•

The following table lists basic resolution values. 

Table 62. Analog Input-Voltage Range and Basic

Resolution

Range (mV)

Basic Resolution (µV)

±5000
±2500

±250

±25

±7.5
±2.5

1333

667

66.7

6.7
2.0

0.67

Assumptions that support the ratiometric-accuracy specification include:

• Excitation voltages less than 1000 mV are reversed during the excitation

phase of the measurement.