CS5461-IS データシートの表示(PDF) - Cirrus Logic
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CS5461-IS Datasheet PDF : 45 Pages
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CS5461
Before DC Gain Calibration (Vgain Register = 1)
250 mV
230 mV
DC Signal
INPUT 0 V
SIGNAL
0.9999...
0.92
Instantaneous Voltage
Register Values
-250 mV
VRMS Register = 230/250 = 0.92
-1.0000...
After DC Gain Calibration (Vgain Register changed to 1.0870)
230 mV
DC Signal
INPUT 0 V
SIGNAL
0.9999...
Instantaneous Voltage
Register Values
VRMS Register = 0.9999...
Figure 9. Example of DC Gain Calibration
version cycles to complete, (about 6 computation
cycles). As N is increased, the accuracy of calibra-
tion results will increase.
4.4.8 Order of Calibration Sequences
1. If the measured signal needs to include any DC
content that may be present in the voltage/current
and power/energy signals, run DC offset calibra-
tion first. However, if the HPF options are turned
on, then any DC component that may be present in
the power/energy signals will be removed from the
CS5461’s power/energy results.
2. If the energy registration accuracy needs to be
within ±0.1% (with respect to reference calibration
levels on the voltage/current inputs) then either the
AC or the DC gain calibration is recommended for
the voltage/current channels.
3. Finally, run AC offset calibration on the voltage
and current channels.
4.5 Power Offset
The Power Offset Register can be used to offset
system power sources that may be resident in the
system, but do not originate from the power line
signal. These sources of extra energy in the system
contribute undesirable and false offsets to the pow-
er/energy measurement results. After determining
the amount of stray power, the Power Offset Reg-
ister can be set to nullify the effects of this unwant-
ed energy.
4.6 Phase Compensation
Bits 23 to 17 of the Configuration Register are used
to program the amount of phase delay added to the
voltage channel signal path. This phase delay is ap-
plied to the voltage channel signal in order to com-
pensate for phase delay that may be introduced by
the voltage and current sensor circuitry external to
the CS5461. Voltage and current transformers, as
well as other sensor equipment applied to the
front-end of the CS5461 inputs can often introduce
a phase delay in the system, which distorts the
phase relationship between the voltage and current
signals being measured. The phase compensation
bits PC[6:0] can be set to nullify this undesirable
phase distortion between the two channels.
The default value of the phase compensation bits is
0000000(b). This setting represents the shortest
time-delay (smallest phase delay) between the volt-
age and current channel signal paths. With the de-
fault setting, the phase delay on the voltage channel
is 0.995 µs (~0.0215 degrees assuming a 60 Hz
power signal). With MCLK = 4.096 MHz and
K = 1, the range of the internal phase compensation
ranges from -2.8 degrees to +2.8 degrees when the
input voltage/current signals are at 60 Hz. In this
condition, each step of the phase compensation reg-
ister (value of one LSB) is ~0.04 degrees. For val-
ues of MCLK other than 4.096 MHz, the range
(-2.8 to +2.8 degrees) and step size (0.04 degrees)
should be scaled by 4.096 MHz / (MCLK / K). For
power line frequencies other than 60Hz, the values
of the range and step size of the PC[6:0] bits can be
determined by converting the above values to
time-domain (seconds), and then computing the
20
DS546F2
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