CDB5463U Cirrus Logic Inc, CDB5463U Datasheet - Page 18

CDB5463U

Manufacturer Part Number

CDB5463U

Description

BOARD EVAL & SOFTWARE CS5463 ADC

Manufacturer

Cirrus Logic Inc

Type

A/Dr

Datasheets

1.CS5463-ISZ.pdf (46 pages)

2.CDB5463U.pdf (38 pages)

Specifications of CDB5463U

Main Purpose

Power Management, Energy/Power Meter

Embedded

Yes, MCU, 8-Bit

Utilized Ic / Part

CS5463

Primary Attributes

1-Phase, Energy-to-Frequency Output

Secondary Attributes

GUI, USB, SPI Interfaces

Product

Data Conversion Development Tools

Maximum Clock Frequency

4 MHz

Interface Type

USB

Supply Voltage (max)

5 V

Supply Voltage (min)

3.3 V

For Use With/related Products

CS5463

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Contains lead / RoHS non-compliant

Other names

598-1553

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The pulse output frequency of E1 is directly proportional

to the active power calculated from the input signals. To

calculate the output frequency of E1, the following trans-

fer function can be utilized:

With MCLK = 4.096 MHz, PF = 1, and default settings,

the pulses will have an average frequency equal to the

frequency specified by PulseRate when the input sig-

nals applied to the voltage and current channels cause

full-scale readings in the instantaneous voltage and cur-

rent registers. The maximum pulse frequency from the

E1 pin is (MCLK/K)/2048.

5.5.2 Apparent Energy Mode

Pin E2 outputs apparent energy pulses when the Oper-

ational Mode Register bit E2MODE = 1. Pin E3 outputs

apparent energy pulses when the Operational Mode

trates the pulse output format with apparent energy on

E2 (E2MODE = 1 and E3MODE[1:0] = 0)

The pulse output frequency of E2 (and/or E3) is directly

proportional to the apparent power calculated from the

input signals. Since apparent power is without reference

to an impedance phase angle, the following transfer

function can be utilized to calculate the output frequency

on E2 (and/or E3).

FREQ

VIN = rms voltage across VIN+ and VIN- [V]

VGAIN = Voltage channel gain

IIN = rms voltage across IIN+ and IIN- [V]

IGAIN = Current channel gain

PF = Power Factor

PulseRate = PulseRateE x (MCLK/K)/2048 [Hz]

VREFIN = Voltage at VREFIN pin [V]

FREQ

VIN = rms voltage across VIN+ and VIN- [V]

VGAIN = Voltage channel gain

IIN = rms voltage across IIN+ and IIN- [V]

IGAIN = Current channel gain

PulseRate = PulseRateE x (MCLK/K)/2048 [Hz]

VREFIN = Voltage at VREFIN pin [V]

Figure 6. Apparent energy pulse outputs

FREQ

= Average frequency of active energy E1 pulses [Hz]

= Average frequency of apparent energy E2 and/or E3 pulses [Hz]

FREQ

VIN

-------------------------------------------------------------------------------------------------------------------------------- -

VIN

------------------------------------------------------------------------------------------------------------------

VGAIN

IIN

VREFIN

IIN

IGAIN

PulseRate

With MCLK = 4.096 MHz and default settings, the puls-

es will have an average frequency equal to the frequen-

cy specified by PulseRate when the input signals

applied to the voltage and current channels cause

full-scale readings in the instantaneous voltage and cur-

rent registers. The maximum pulse frequency from the

E2 (and/or E3) pin is (MCLK/K)/2048. The E2 (and/or

E3) pin outputs apparent energy, but has no energy di-

rection indicator.

5.5.3 Reactive Energy Mode

Reactive energy pulses are output on pin E3 by setting

bit E3MODE[1:0] = 0 (default) in the Operational Mode

falling when E2 is high. Negative reactive energy is reg-

istered by E3 falling when E2 is low.

page 17 illustrates the pulse output format with negative

reactive energy output on pin E3 and the sign of the en-

ergy on E2. The E3 and E2 pulse output switching char-

acteristics are specified in

The pulse output frequency of E3 is directly proportional

to the reactive power calculated from the input signals.

To calculate the output frequency on E3, the following

transfer function can be utilized:

With MCLK = 4.096 MHz, PF = 0 and default settings,

the pulses will have an average frequency equal to the

frequency specified by PulseRate when the input sig-

nals applied to the voltage and current channels cause

full-scale readings in the instantaneous voltage and cur-

rent registers. The maximum pulse frequency from the

E1 pin is (MCLK/K)/2048.

5.5.4 Voltage Channel Sign Mode

Setting bits E3MODE[1:0] = 2 (10b) in the Operational

Mode Register outputs the sign of the voltage channel

on pin E3. Figure 7 illustrates the output format with volt-

age channel sign on E3

FREQ

VIN = rms voltage across VIN+ and VIN- [V]

VGAIN = Voltage channel gain

IIN = rms voltage across IIN+ and IIN- [V]

IGAIN = Current channel gain

PQ =

PulseRate = PulseRateE x (MCLK/K)/2048 [Hz]

VREFIN = Voltage at VREFIN pin [V]

Figure 7. Voltage Channel Sign Pulse outputs

FREQ

1 PF

= Average frequency of reactive energy E3 pulses [Hz]

–

VIN

--------------------------------------------------------------------------------------------------------------------------------- -

VGAIN

IIN

Figure 2

VREFIN

IGAIN

on page 13.

PulseRate

CS5463

Figure 5

DS678F2

CDB5463U Cirrus Logic Inc, CDB5463U Datasheet - Page 18

CDB5463U

Specifications of CDB5463U

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