CS5460A-BS Cirrus Logic Inc, CS5460A-BS Datasheet - Page 36
CS5460A-BS
Manufacturer Part Number
CS5460A-BS
Description
Driver IC
Manufacturer
Cirrus Logic Inc
Datasheet
1.CS5460A-BSZ.pdf
(54 pages)
Specifications of CS5460A-BS
Peak Reflow Compatible (260 C)
No
Supply Voltage Max
5V
Driver Case Style
SSOP
Leaded Process Compatible
No
Mounting Type
Surface Mount
Package / Case
24-SSOP
Mounting Style
SMD/SMT
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
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b) The common-mode rejection performance of the
CS5460A is sufficient within the frequency range
over which the CS5460A performs A/D conver-
sions. Addition of such common-mode caps can
actually often degrade the common-mode rejec-
tion performance of the entire voltage/current input
networks. Therefore, choosing relatively small val-
ues for (C
common-mode rejection at the much higher fre-
quencies, and will allow the CS5460A to realize its
CMRR performance in the frequency-range of in-
terest.
[Note that this discussion does not include correc-
tion of phase-shifts caused by the voltage-sense
transformer and current-sense transformer, al-
though these phase-shifts should definitely be con-
sidered in a real-life practical meter design.] On the
current channel, using commonly available values
for the components, R
470 Ω. Then a value of C
0.22 nF for C
quency of 15341 Hz for the current channel. For
the voltage channel, if R
470 Ω, C
(same as current channel), the -3 dB cutoff fre-
quency of the voltage channel’s input filter will be
14870 Hz. The difference in the two cutoff frequen-
cies is due to the difference in the input impedance
between the voltage/current channels.
If there is concern about the effect that the differ-
ence in these two cutoff frequencies (and therefore
the mis-match between the time-constants of the
overall voltage/current input networks) would have
on the accuracy of the power/energy registration, a
non-standard resistor value for R
ample) 455 Ω can be used. This would shift the
(differential) -3 dB cutoff frequency of the voltage
channel’s input filter (at the voltage channel inputs)
to ~15370 Hz, which would cause the first-order
time-constants of the voltage/current channel input
filters to be closer in value.
Agreement between the voltage/current channel
time-constants can also be obtained by adjusting
the phase compensation bits, instead of using less
commonly-available
(such as R
R
of the two R-C filters are estimated by taking the re-
ciprocal of the -3 dB cutoff frequencies (when ex-
36
I-
are again 470 Ω, the first-order time-constants
V+
Vdiff
I+
, C
= R
I-
= 18 nF, and C
and C
V-
I-
, C
= 455 Ω). If the values of R
I+
I-
, C
will yield a -3 dB cutoff fre-
resistor/capacitor
I+
Idiff
I-
I+
) will provide necessary
and R
and R
= 18 nF and a value of
V+
V-
I-
I-
= C
= R
can be set to
are also set to
V-
V-
= 0.22 nF
of (for ex-
values
I+
and
pressed
time-constants shows that after the voltage/current
signals pass through their respective anti-aliasing
filters, the sensed voltage signal will be delayed
~0.329 µs more than the current signal. If metering
a 60 Hz power system, this implies that the input
voltage-sense
~0.007 degrees more than the delay imposed on
the input current-sense signal. Note that when the
PC[6:0] bits are set to their default setting of
“0000000”, the internal filtering stages of the
CS5460A will impose an additional delay on the
fundamental frequency component of the 60Hz
voltage signal of 0.0215 degrees, with respect to
the current signal. The total difference between the
delay on the voltage-sense fundamental and the
current-sense fundamental will therefore be
~0.286 degrees. But if the phase compensation
bits are set to 1111111, the CS5460A will delay the
voltage channel signal by an additional -0.04 de-
grees, which is equivalent to shifting the voltage
signal forward by 0.04 degrees. The total phase
shift on the voltage-sense signal (with respect to
the fundamental frequency) would then be
~0.011 degrees ahead of the current-sense signal,
which would therefore provide more close-
ly-matched delay values between the volt-
age-sense and current-sense signals. Adjustment
of the PC[6:0] bits therefore can provide an effec-
tive way to more closely match the delays of the
voltage/current sensor signals, allowing for more
commonly available R and C component values to
be used in both of these filters.
As a final note, tolerances of the R and C compo-
nents that are used to build the two R-C filters
should also be taken into consideration. A com-
mon tolerance of ±0.1% can vary the delay by as
much as much as ~±2.07 µs, which means that the
difference between the delays of the voltage-sense
and current-sense signals that is caused by these
filters could vary by as much as ~±4.1 µs, which is
equivalent to a phase shift of ~±0.089 degrees (at
60 Hz). This in turn implies that our decision to ad-
just the PC[6:0] bits (to shift the voltage signal for-
ward by 0.04 degrees) could actually cause the
voltage signal to be shifted by as much as
~0.100 degrees ahead of the current signal.
Thus, adjustment of the PC[6:0] bits to more close-
ly match the two time-constants/delays may only
be useful if a precise calibration operation can be
in
rads/s).
signal
Subtracting
will
be
CS5460A
these
DS487F4
delayed
two
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