Cs5480, 18 automatic channel select level (ichan, Page 16, address 50 – Cirrus Logic CS5480 User Manual

CS5480

DS980F3

49

6.6.18 Automatic Channel Select Level (Ichan

LEVEL

) – Page 16, Address 50

Default = 0x82 8F5C (1.02 or 2% minimum difference)

Sets the hysteresis level for automatic energy channel selection.

The channel select level register sets the hysteresis level for automatic energy channel selection. If the
most-positive value of P1

AVG

and P2

AVG

(I1

RMS

and I2

RMS

) is greater than Ichan

LEVEL

multiplied by the

least-positive value, and is also greater than Ichan

MIN

, the channel associated with the most-positive value

will be used. If not, the previous channel selection will remain.

The value in this register is an unsigned fixed-point value in the range of 0

value2.0, with the binary point

to the right of the MSB. A value of 1.0 or less indicates no hysteresis will be used.

6.6.19 Current Channel Minimum Amplitude (P

MIN

(IRMS

MIN

)) – Page 16, Address 56

Default = 0x00 624D (0.003)

Sets the minimum level for automatic energy channel selection.

The P

MIN

(IRMS

MIN

) register sets the minimum level for automatic energy channel selection. If the most-pos-

itive values of P1

AVG

(or I1

RMS

) register and P2

AVG

(or I2

RMS

) register is less than P

MIN

(IRMS

MIN

), the pre-

vious channel selection will remain in use.

It is a two's complement 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.

6.6.20 No Load Threshold (Load

MIN

)

–

Page 16, Address 58

Default = 0x00 0000

Load

MIN

is used to set the no-load threshold for the anti-creep function.

When the magnitudes of P

SUM

and Q

SUM

are less than Load

MIN

, P

SUM

and Q

SUM

are forced to zero. When

the magnitude of S

SUM

is less than Load

MIN

, S

SUM

is forced to zero.

Load

MIN

is a two’s complement 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.

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

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