Table 56. ac noise rejection on large signals – Campbell Scientific CR1000 Measurement and Control System User Manual

Section 8. Operation

285

Figure 88: Ac power line noise rejection techniques

ac Noise Rejection on Large Signals

If rejecting ac-line noise when measuring with the 2500 mV (

mV2500

) and 5000

mV (

mV5000

) ranges, the CR1000 makes two fast measurements separated in time

by one-half line cycle (see figure ac Power Line Noise Rejection Techniques

(p. 285)

). A 60-Hz half cycle is 8333 µs, so the second measurement must start 8333 µs
after the first measurement integration began. The A/D conversion time is
approximately 170 µs, leaving a maximum input-settling time of approximately
8160 µs (8333 µs - 170 µs). If the maximum input-settling time is exceeded, 60-
Hz line-noise rejection will not occur. For 50-Hz rejection, the maximum input
settling time is approximately 9830 µs (10,000 µs - 170 µs). The CR1000 does
not prevent or warn against setting the settling time beyond the half-cycle limit.
Table ac Noise Rejection on Large Signals

(p. 285)

lists details of the half-cycle ac-

power line-noise rejection technique.

Table 56. ac Noise Rejection on Large Signals

Applies to analog input voltage ranges mV2500 and mV5000.

ac Power Line

Frequency

Measurement

Integration

Time

CRBasic

Integration

Code

Default

Settling

Time

Maximum

Recommended

Settling Time*

60 Hz

250 μs x 2

_60Hz

3000 μs 8330

μs

50 Hz

250 μs x 2

_50Hz

3000 μs 10000

μs

*Excitation time and settling time are equal in measurements requiring excitation. The CR1000 cannot excite VX / EX excitation
channels during A/D conversion. The one-half-cycle technique with excitation limits the length of recommended excitation and
settling time for the first measurement to one-half-cycle. The CR1000 does not prevent or warn against setting a settling time
beyond the one-half-cycle limit. For example, a settling time of up to 50000 µs can be programmed, but the CR1000 will execute
the measurement as follows:
1. CR1000 turns excitation on, waits 50000 µs, and then makes the first measurement.