13 temperature gain (tgain ) – address: 22, 14 temperature offset (toff ) – address: 23, 16 no load threshold (loadmin) – address 26 – Cirrus Logic CS5464 User Manual
Page 37: Cs5464, 13 temperature gain (t, 14 temperature offset (t, 15 filter settling time for conversion startup (t, Address: 25, 16 no load threshold (load, Address 26
CS5464
DS682F3
37
8.3.13 Temperature Gain (T
GAIN
)
–
Address: 22
Default = 0x2F02C3
Refer to
on page 21 for more information.
8.3.14 Temperature Offset (T
OFF
)
–
Address: 23
Default = 0xF3D35A
Refer to
on page 21 for more information.
8.3.15 Filter Settling Time for Conversion Startup (T
SETTLE
)
–
Address: 25
Default = 30
Sets the number of output word rate (OWR) samples that will be used to allow filters to settle at the beginning
of Conversion and Calibration commands. This is an integer in the range of 0 to 8,388,607 samples.
8.3.16 No Load Threshold (Load
MIN
)
–
Address 26
Default = 0
Load
MIN
is used to set the no load threshold. When the magnitude of the E
PULSE
register is less than Load
MIN
,
E
PULSE
will be zeroed. If the magnitude of the
Q
PULSE
register is less than Load
MIN
,
Q
pulse
will be zeroed.
Load
MIN
is a two’s compliment value in the range of -1.0
value 1.0, with the binary point to the right of the
MSB. Negative values are not used.
8.3.17 Voltage Fixed RMS Reference (VF
RMS
)
–
Address 27
Default = 0.7071068 (full scale RMS)
If the application program detects that the meter has possibly been tampered with in such a manner that the
voltage input is no longer working, it may choose to use this internal RMS reference instead of the disabled volt-
age input by setting the VFIX bit in the Modes register. This is a two's complement value in the range of
0
value 1.0, with the binary point to the right of the MSB. Negative values are not used.
MSB
LSB
2
6
2
5
2
4
2
3
2
2
2
1
2
0
2
-1
.....
2
-11
2
-12
2
-13
2
-14
2
-15
2
-16
2
-17
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
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
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