2 measuring pt100s (100-ohm prts), 1 self-heating and resolution, 2 pt100 in four-wire half-bridge – Campbell Scientific CR3000 Micrologger User Manual

Section 7. Installation

262 

Table 52. PRTCalc() Type-Code-6 Sensor

Standard ITS-90 SPRT, alpha = 0.003926 (Reference: Minco /
Instrunet)

Constant Coefficient

a 3.9848000E-03

d -2.3480000E-06

e 1.8226630E-05

f -1.1740000E-06

g 1.6319630E+00

h -2.4709290E+00

i 8.8283240E+00

j 2.5091300E+02

7.8.18.2 Measuring PT100s (100-Ohm PRTs)

PT100s (100-ohm PRTs) are readily available. The CR3000 can measure PT100s
in several configurations, each with its own advantages.

The CR3000 is also equipped to measure PRTs with current excitation.

7.8.18.2.1 Self-Heating and Resolution

PRT measurements present a dichotomy. Excitation voltage should be maximized
to maximize the measurement resolution. Conversely, excitation voltage should
be minimized to minimize self-heating of the PRT.

If the voltage drop across the PRT is ≤ 50 mV, self-heating should be less than
0.001°C in still air. To maximize measurement resolution, optimize the excitation
voltage (Vx) such that the voltage drop spans, but does not exceed, the ±50-mV
input range.

7.8.18.2.2 PT100 in Four-Wire Half-Bridge

Example Shows:

• How to measure a PRT in a four-wire half-bridge configuration
• How to compensate for long leads

Advantages:

• High accuracy with long leads

Example PRT Specifications:

• Alpha = 0.00385 (PRT Type 1)

A four-wire half-bridge, measured with BrHalf4W(), is the best configuration for
accuracy in cases where the PRT is separated from bridge resistors by a lead
length having more than a few thousandths of an ohm resistance. In this example,