6 excitation and remote-sensing, Excitation and remote-sensing, Figure 4-3: sinc filter power line noise rejection – ADLINK PCI-9524 User Manual

54

Operation

Theory

PCI-9524

ADLINK Technology Inc.

User’s Manual

Copyright 2008

Figure 4-3: SINC Filter Power Line Noise Rejection

at 60 Hz Multiples

Sinc Response

-120

-100

-80

-60

-40

-20

0

0.00

30.00

60.00

90.00

120.00

150.00

180.00

Frequency (Hz)

A

tt

enu

at

ion (

d

B

)

Sinc Response

The power line frequency is either 50 or 60-HZ in most countries.
For sampling rates supporting power line noise rejection, please
refer to the notes after Table 4-1 for your reference.

The SINC filter cannot suppress power line noise for a sampling
rate above 60 SPS (or 100 SPS with auto-zero). Under such con-
ditions, power line noise rejection relies on the inherent common-
mode rejection ability of the input amplifier. Under this circum-
stance, using the post-processing IIR digital filter can attenuate
power line noise somewhat, at the cost of increased signal settling
time. See Section 4.2.9 for details.

4.2.6

Excitation and Remote-sensing

Users can select excitation voltages from either 2.5V or 10V
sources. For most load-cell transducers, 10V is recommended.
The higher the excitation, the higher the resolution will generally
be; since the signal is larger at the beginning of the signal chain
and hence a better overall 'signal-to-noise ratio' (SNR).

The remote-sensing function requires users to connect all the
excitation voltage driving pins to the corresponding remote-sens-