CS5463-ISZR Datasheet CS5463-ISZR, CS5463-IS | P31-P33

CS5463

DS678F3 31

IHPF (VHPF) Enables the high-pass filter on the current (voltage) channel.

0 = High-pass filter disabled (default)

1 = High-pass filter enabled

Note:

When either IHPF or VHPF are enabled, but not both, an all-pass filter is applied to the

opposite channel for phase matching.

IIR Enables the IIR compensation filters.

0 = IIR compensation filters enabled (default)

1 = IIR compensation filters disabled

E3MODE[1:0] E3

Output Mode

00 = Reactive Power (default)

01 = PFMON

10 = Voltage sign

11 = Apparent Power

POS Positive Energy Only. Negative energy pulses on E1

are suppressed. However, it will NOT sup-

press negative

P Register results.

AFC Enables automatic line-frequency measurement and sets the frequency of the local sine/cosine

generator used in fundamental/harmonic measurements. When AFC is enabled, the Epsilon

6.1.14 Temperature Register ( T )

Address: 19

T contains measurements from the on-chip temperature sensor. Measurements are performed during continu-

ous conversions, with the default the Celsius scale (

C). The value is represented in two's complement notation

and in the range of -128.0

 T  128.0, with the binary point to the right of the eighth MSB.

6.1.15 Average and Instantaneous Reactive Power Register ( Q

AVG

, Q )

Address: 20 (Average Reactive Power) and 21 (Instantaneous Reactive Power)

The Instantaneous Reactive Power (Q) is the product of the voltage, shifted 90 degrees, and the current. The

Average Reactive Power (Q

AVG

) is Q averaged over N samples. The results are signed values with. The value

is represented in two's complement notation and in the range of -1.0

 Q, Q

AVG

 1.0, with the binary point to the

right of the MSB.

6.1.16 Peak Current and Peak Voltage Register ( I

peak

)

Address: 22 (Peak Currect) and 23 (Peak Voltage)

The Peak Current (I

peak

) and Peak Voltage (V

peak

) registers contain the instantaneous current and voltage with

the greatest magnitude detected during the last computation cycle. The value is represented in two's comple-

ment notation and in the range of -1.0

 I

peak

 1.0, with the binary point to the right of the MSB.

MSB LSB

-(2

.....

-10

-11

-12

-13

-14

-15

-16

MSB LSB

-(2

-1

-2

-3

-4

-5

-6

-7

.....

-17

-18

-19

-20

-21

-22

-23

MSB LSB

-(2

-1

-2

-3

-4

-5

-6

-7

.....

-17

-18

-19

-20

-21

-22

-23

CS5463

32 DS678F3

6.1.17 Reactive Power Register ( Q

Trig

)

Address: 24

The Reactive Power (Q

Trig

) is calculated using trigonometric identities. (See Section 4.3 Power Measurements

on page 14). The value is represented in unsigned notation and in the range of 0

 S  1.0, with the binary point

to the right of the MSB.

6.1.18 Power Factor Register ( PF )

Address: 25

Power Factor is calculated by dividing the Active (Real) Power by Apparent Power. The value is represented in

two's complement notation and in the range of -1.0

 PF  1.0, with the binary point to the right of the MSB.

6.1.19 Apparent Power Register ( S )

Address: 27

Apparent power (S) is the product of the V

RMS

and I

RMS

, The value is represented in unsigned notation and in

the range of 0

 S  1.0, with the binary point to the right of the MSB.

MSB LSB

-1

-2

-3

-4

-5

-6

-7

.....

-17

-18

-19

-20

-21

-22

-23

MSB LSB

-(2

-1

-2

-3

-4

-5

-6

-7

.....

-17

-18

-19

-20

-21

-22

-23

MSB LSB

-1

-2

-3

-4

-5

-6

-7

.....

-17

-18

-19

-20

-21

-22

-23

CS5463

DS678F3 33

6.1.20 Control Register ( Ctrl )

Default = 0x000000

STOP Terminates the auto-boot sequence.

0 = Normal (default)

1 = Stop sequence

INTOD Converts INT

output pin to an open drain output.

0 = Normal (default)

1 = Open drain

NOCPU Saves power by disabling the CPUCLK pin.

0 = Normal (default)

1 = Disables CPUCLK

NOOSC Saves power by disabling the crystal oscillator.

0 = Normal (default)

1 = Disabling oscillator circuit

6.1.21 Harmonic Active Power Register ( P

)

Address: 29

The Harmonic Active Power (P

) is calculated by subtracting the Fundamental Active Power from the Active

(Real) Power. The value is represented in two's complement notation and in the range of -1.0

 P

 1.0, with

the binary point to the right of the MSB.

6.1.22 Fundamental Active Power Register ( P

)

Address: 30

The Fundamental Active Power (P

) is calculated by performing a discrete Fourier transform (DFT) at the rele-

vant frequency on the V and I channels. The results are multiplied to yield fundamental power. The value is rep-

resented in two's complement notation and in the range of -1.0

 P

 1.0, with the binary point to the right of

the MSB.

23 22 21 20 19 18 17 16

15 14 13 12 11 10 9 8

STOP

76543210

INTOD NOCPU NOOSC

MSB LSB

-(2

-1

-2

-3

-4

-5

-6

-7

.....

-17

-18

-19

-20

-21

-22

-23

MSB LSB

-(2

-1

-2

-3

-4

-5

-6

-7

.....

-17

-18

-19

-20

-21

-22

-23

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24 P25-P27 P28-P30 P31-P33 P34-P36 P37-P39 P40-P42 P43-P45 P46-P46

CS5463-ISZR

Mfr. #:

Buy CS5463-ISZR

Manufacturer:

Cirrus Logic

Description:

Current & Power Monitors & Regulators IC Single Phase PWR/Energy

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CS5463-ISZR

CS5463-ISZR

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