8 phase compensation, 9 integrator gain, system gain, 10 sample count, cycle count, settle time – Cirrus Logic CDB5484U User Manual

CDB5484U

24

DS919DB5

2.5.1.8

Phase Compensation

The Phase Comp Register section is used to make changes to, and display the contents of, the CS5484's
PC (Phase Compensation Control) register. The PC register allows coarse- and fine-phase adjustment
on each channel of the CS5484 data path. Refer to the CS5484 data sheet for descriptions of the PC reg-
ister bits.

2.5.1.9

Integrator Gain, System Gain

The Integrator Gain and System Gain sections display the signal path gain in both hexadecimal and dec-
imal format. Each register can be modified by typing a value in the corresponding Decimal or HEX field.

2.5.1.10

Sample Count, Cycle Count, Settle Time

The Sample Count Register, Cycle Count Register, and Settle Time sections provide fields to display the
values of registers associated with low-rate calculations. The SampleCount and CycleCount registers are
entered or displayed in decimal format by default. The user may select to enter or view other number for-
mats of the register by selecting the "d" within the field. The value of the T

Settle

register is displayed in both

hexadecimal and decimal format. Each register can be modified by typing a value in the corresponding
field.

2.5.1.11

Epsilon

The Epsilon section is used to display and adjust the Epsilon register (the ratio of the AC line frequency
to the output word rate). The Epsilon register can be updated either through entering the AC line frequen-
cy in the Line Freq field or by entering the direct register value in the HEX field.

2.5.1.12

ZX

NUM

When Automatic Frequency Update is enabled, the ZX

NUM

section is used to adjust the number of zero

crossings used in the Epsilon calculation. The update rate of Epsilon is increased by reducing the zero
crossings. The register can be modified by typing the number of zero crossings.

2.5.1.13

Mask Register

The Mask Register box displays the value for the Mask register in hexadecimal and decodes them to in-
dicate each bit's function. The Mask register can be modified by typing a value in the HEX field, or by
checking the appropriate boxes for the bits that are to be masked. The value present in the Mask register
may be changed by the GUI software during certain operations to provide correct functionality of the
CDB5484U board.

2.5.1.14

Temperature Registers

The Temperature Registers box is used to adjust the temperature offset register (T

OFF

) and temperature

gain register (T

GAIN

) to convert the temperature register (T) from the Celsius scale to the Fahrenheit scale,

or vice versa, and to improve temperature measurement accuracy. Refer to the CS5484 data sheet for
the details of the on-chip temperature sensor.

2.5.1.15

V/I Zero-crossing Level and No Load Threshold

The V/I Zero-crossing Level and No Load Threshold boxes display the values for these registers in hexa-
decimal and decimal. Each register can be modified by typing a value in the corresponding Decimal or
HEX field.