Campbell Scientific CR9000X Measurement and Control System User Manual

Section 3. CR9000X Measurement Details

The CR9000X incorporates a programmable gain input instrumentation
amplifier, as illustrated in FIGURE 3.1.2-1. The voltage gain of the
instrumentation amplifier is determined by the user selected range code
associated with voltage measurement instructions. The instrumentation
amplifier can be configured to measure either single-ended (SE) or differential
(DIFF) voltages.

For SE measurements the voltage to be measured is connected to the H input
while the L input is internally connected to the signal ground ( ) on the
wiring panel. CRBasic instructions BRHalf, BRHalf6W, TCSE, and VoltSE
perform Single Ended voltage measurements.

For DIFF measurements, the voltage to be measured is connected between the
H and L inputs on the instrumentation amplifier. CRBasic instructions
BrFull(), BrFull6W(), BrHalf4W(), TCDiff(), and VoltDiff() perform DIFF
voltage measurements.

FIGURE 3.1.2-1. Programmable gain instrumentation amplifier

An instrumentation amplifier processes the difference between the H and L
inputs, while rejecting voltages that are common to both with respect to the
CR9000X ground. FIGURE 3.1.2-2 illustrates the instrumentation amplifier
with the input signal decomposed into a common-mode voltage (V

cm

) and a

DIFF mode voltage (V

dm

). The common-mode voltage is the average of the

voltages on the H and L inputs, i.e., V

cm

= (V

H

+ V

L

)/2, which can viewed as

the voltage remaining on both the H and L inputs when the DIFF voltage
(V

dm

) equals 0. The voltage on the H and L inputs is given as V

H

= V

cm

+

V

dm

/2, and V

L

= V

cm

– V

dm

/2, respectively.

FIGURE 3.1.2-2. Programmable gain instrumentation amplifier with

input signal decomposition

3-4