User Manual
CS5463
DS678F3 27
6.1.2 Current and Voltage DC Offset Register ( I
DCoff
, V
DCoff
)
Address: 1 (Current DC Offset); 3 (Voltage DC Offset)
Default = 0x000000
The DC Offset registers (I
DCoff
,V
DCoff
) are initialized to 0.0 on reset. When DC Offset calibration is performed, the
register is updated with the DC offset measured over a computation cycle. DRDY will be set at the end of the
calibration. This register may be read and stored for future system offset compensation. The value is repr esent-
ed in two's complement notation and in the range of -1.0
I
DCoff
,V
DCoff
1.0, with the binary point to the right of
the MSB. See Section 7.1.2.1
DC Offset Calibration Sequence on page 37 for more information.
6.1.3 Current and Voltage Gain Register ( I
gn
, V
gn
)
Address: 2 (Current Gain); 4 (Voltage Gain)
Default = 0x400000 = 1.000
The gain regi sters (I
gn
,V
gn
)
are initialized to 1.0 on reset. When either a AC or DC Gain calibration is performed,
the register is updated with the gain measured over a computation cycle. DRDY will be set at the end of the
calibration. This register may be r ead and stored for future system gain compensation . The value is in the range
0.0
I
gn
,V
gn
< 3.9999, with the binary point to the right of the second MSB.
6.1.4 Cycle Count Register ( Cycle Count )
Address: 5
Default = 0x000FA0 = 4000
Cycle Count, denoted as N, determines the length of one
computation cycle. During continuous conversions,
the computation cycle frequency is (MCLK/K)/(1024
N). A one second computational cycle period occurs when
MCLK = 4.096 MHz, K = 1, and N = 4000.
6.1.5 PulseRateE Register ( PulseRateE )
Address: 6
Default = 0x800000 = 1.00 (2 kHz @ 4.096 MHz MCLK)
PulseRateE sets the frequency of E1, E2, & E3 pulses. E1, E2, E3 frequency = (MCLK x PulseRateE) / 2048 at
full scale. For a 4 khz sample rate, the maximum pulse rate is 2 khz. The value is repr esen ted in two's com ple-
ment notation and in the range is -1.0
PulseRateE 1.0, with the binary point to the right of the MSB. Negative
values have the same effect as positive. See Section 5.5
Energy Pulse Output on page 17 for more information.
MSB LSB
-(2
0
)2
-1
2
-2
2
-3
2
-4
2
-5
2
-6
2
-7
.....
2
-17
2
-18
2
-19
2
-20
2
-21
2
-22
2
-23
MSB LSB
2
1
2
0
2
-1
2
-2
2
-3
2
-4
2
-5
2
-6
.....
2
-16
2
-17
2
-18
2
-19
2
-20
2
-21
2
-22
MSB LSB
2
23
2
22
2
21
2
20
2
19
2
18
2
17
2
16
.....
2
6
2
5
2
4
2
3
2
2
2
1
2
0
MSB LSB
-(2
0
)2
-1
2
-2
2
-3
2
-4
2
-5
2
-6
2
-7
.....
2
-17
2
-18
2
-19
2
-20
2
-21
2
-22
2
-23