CS5466-ISZR Cirrus Logic Inc, CS5466-ISZR Datasheet - Page 10

CS5466-ISZR

Manufacturer Part Number

CS5466-ISZR

Description

IC ENERGY METERING 1PHASE 24SSOP

Manufacturer

Cirrus Logic Inc

Datasheet

1.CS5466-ISZ.pdf (16 pages)

Specifications of CS5466-ISZR

Input Impedance

30 KOhm

Measurement Error

0.1%

Voltage - I/o High

0.8V

Voltage - I/o Low

0.2V

Current - Supply

2.9mA

Voltage - Supply

4.75 V ~ 5.25 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

24-SSOP

Meter Type

Single Phase

For Use With

598-1011 - BOARD EVAL & SOFTWARE CS5466 ADC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The CS5466 is a dual-channel analog-to-digital convert-

er (ADC) followed by a computation engine that per-

forms an energy-to-pulse conversion. The flow diagram

for the two data paths is depicted in Figure 2. The ana-

log inputs are structured with two dedicated channels,

voltage and current, then optimized to simplify interfac-

ing to sensing elements.

The voltage-sensing element introduces a voltage

waveform on the voltage channel input VIN± and is sub-

ject to a fixed 10x gain amplifier. A second-order delta-

sigma modulator samples the amplified signal for digiti-

zation.

Simultaneously, the current sensing element introduces

a voltage waveform on the current channel input IIN±

and is subject to four programmable gains. The ampli-

fied signal is sampled by a fourth-order delta-sigma

modulator for digitization. Both converters sample at a

rate of MCLK / 8. The over-sampling provides a wide

dynamic range and simplified anti-alias filter design.

4.1

The decimating digital filters on both channels are Sinc

filters followed by fourth-order IIR filters. The single-bit

data is passed to the low-pass decimation filter and out-

put at a fixed word rate. The output word is passed to

VIN±

IIN±

THEORY OF OPERATION

Current Channel

Voltage Channel

Digital Filters

PGA

10x

2nd Order

Modulator

4th Order

∆Σ

Sinc

Digital Filter

IIR

Figure 2. Data Flow

HPF

the IIR filter to compensate for the magnitude roll-off of

the low-pass filtering operation.

An optional digital high-pass filter (HPF in Figure 2) re-

moves any DC component from the selected signal

path. By removing the DC component from the voltage

or current channel, any DC content will also be removed

from the calculated average active (real) power as well.

4.2

The instantaneous voltage and current data samples

are multiplied to obtain the instantaneous power. The

product is then averaged over 400 conversions to com-

pute the active power value used to drive pulse outputs

E1, E2, and FOUT. Output pulse rate of E1 and E2 can

be set to one of four frequencies to directly drive a step-

per motor or a electromechanical counter or interface to

a microcontroller or infrared LED. The alternating output

pulses of E1 and E2 allows for use with low-cost elec-

tromechanical counters.

Output FOUT provides a uniform pulse stream that is

proportional to the active power and is designed for sys-

tem calibration. The FREQ[2:0] inputs set the output

pulse rate of E1, E2, and FOUT. See

Outputs”

Active Power Computation

on page 11. for more details.

FREQ[2:0]

IGAIN[1:0]

N=400

HPF

Pulse Rate

Energy-to-

Converter

Config

”Energy Pulse

CS5466

DS659F1

FOUT

NEG

CS5466-ISZR Cirrus Logic Inc, CS5466-ISZR Datasheet - Page 10

CS5466-ISZR

Specifications of CS5466-ISZR

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