Spectrum Controls 1746sc-INI4vi User Manual

22

SLC 500

™

Isolated Analog Input Modules

In general, you can reduce the channel update time by doing any of the
following:

• disabling unused channels

• selecting a higher frequency input filter

You can reduce the full-scale step response time by:

• selecting a higher frequency input filter

Note, however, that selecting a higher frequency input filter decreases the
noise rejection and effective resolution, as described in the next
subsection, “Selecting An Input Filter Frequency.”

For the fastest possible channel update time, enable only one channel and
select a 250 or 500 Hz filter. Conversely, your module operates most
slowly if you enable all 4 channels and select a 50 Hz filter for each.

Selecting An Input Filter
Frequency

The 1746sc-INI4i and 1746sc-INI4vi input modules use a digital filter to
reject the high-frequency noise that can couple into an analog input
signal. This digital filter is programmable, letting you select one of four
filter frequencies for each channel. The digital filter provides the highest
noise rejection at the selected filter frequency. For example, to reject the
noise associated with 60 Hz power, you may want to select the 60 Hz
filter.

The filter frequency you select determines that channel’s 3 dB cut-off
frequency, full-scale step response time, worst-case effective resolution,
and channel update time, as shown in Tables 8 and 9.

Table 8. Cut-off frequency, step response time, & effective
resolution (based on filter frequency)

Worst-Case Effective Res.

➀

Filter

3 dB Cut-Off

Full-Scale Step Resp.

Voltage Mode Current Mode

50 Hz

13.1 Hz

80 ms

12 bits

11 bits

60

15.7

66.7

12

11

250

65.5

16

11.5

10.5

500

131

8

9.5

9.5

➀

For a 16-bit device like the 1746sc-INI4i and -INI4vi, a worst-case effective resolution of

12 bits means that the data may fluctuate by as much as 16 counts (4 bits).

Typically, the effective resolution is greater than that listed here.