ADE7166ASTZF8 Analog Devices Inc, ADE7166ASTZF8 Datasheet - Page 65

ADE7166ASTZF8

Manufacturer Part Number

ADE7166ASTZF8

Description

IC ENERGY METER 1PHASE 64LQFP

Manufacturer

Analog Devices Inc

Datasheets

1.ADE7169ASTZF16.pdf (152 pages)

2.ADE7169ASTZF16.pdf (144 pages)

Specifications of ADE7166ASTZF8

Applications

Energy Measurement

Core Processor

8052

Program Memory Type

FLASH (8 kB)

Controller Series

ADE71xx

Ram Size

512 x 8

Interface

I²C, SPI, UART

Number Of I /o

Voltage - Supply

3.135 V ~ 3.465 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

64-LQFP

Ic Function

Single Phase Energy Measurement IC

Supply Voltage Range

3.13V To 3.46V, 2.4V To 3.7V

Operating Temperature Range

-40Â°C To +85Â°C

Digital Ic Case Style

LQFP

No. Of Pins

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Quantity

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Part Number:

ADE7166ASTZF8

Manufacturer:

Analog Devices Inc

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Current page: 65 of 144
Download datasheet (9Mb)

When SAVARM in the ACCMODE register (0x0F) is set, the

reactive power is accumulated depending on the sign of the

active power. When active power is positive, the reactive power

is added as it is to the reactive energy register. When active

power is negative, the reactive power is subtracted from the

reactive energy accumulator (see the

Accumulation Mode section).

When ABSVARM in the ACCMODE register (0x0F) is set, the

absolute reactive power is used for the reactive energy accumu-

lation (see the VAR Absolute Accumulation Mode section).

The output of the multiplier is divided by VARDIV. If the value

in the VARDIV register is equal to 0, the internal reactive

energy register is divided by 1. VARDIV is an 8-bit, unsigned

accumulated in a 49-bit internal energy accumulation register.

The upper 24 bits of this register are accessible through a read

to the reactive energy register (VARHR[23:0]). A read to the

RVARHR register returns the content of the VARHR register,

and the upper 24 bits of the internal register are cleared.

CURRENT

CHANNEL

VOLTAGE

CHANNEL

HPF

PHCAL[7:0]

SHIFTING FILTER

90° PHASE

VAR Antitamper

REACTIVE POWER

LPF2

CLKIN

sgn

SIGNAL

TIME (nT)

VAROS[15:0]

Figure 71. Reactive Energy Calculation

WAVEFORM

–6

Rev. A | Page 65 of 144

VALUES

–7

FOR WAVEFORM

–8

SAMPLING

VARGAIN[11:0]

As shown in

in an internal 49-bit signed register. The reactive power signal

can be read from the waveform register by setting the WAVMODE

SFR (MIRQENH, 0xDB). Like the current and voltage channel

waveform sampling modes, the waveform data is available at

sample rates of 25.6 kSPS, 12.8 kSPS, 6.4 kSPS, or 3.2 kSPS.

Figure 66 shows this energy accumulation for full-scale signals

(sinusoidal) on the analog inputs. These curves also apply for

the reactive energy accumulation.

Note that the energy register contents roll over to full-scale

negative (0x800000) and continue to increase in value when the

power or energy flow is positive. Conversely, if the power is

negative, the energy register underflows to full-scale positive

(0x7FFFFF) and continues to decrease in value.

By using the interrupt enable register, the ADE7569/ADE7169

can be configured to issue an ADE interrupt to the 8052 core

when the reactive energy register is half-full (positive or

negative) or when an overflow or underflow occurs.

DIGITAL-TO-FREQUENCY

ADE7566/ADE7569/ADE7166/ADE7169

VARDIV[7:0]

CONVERTER

Figure 71, the reactive power signal is accumulated

VARHR[23:0]

OUTPUTS FROM THE LPF2 ARE

ACCUMULATED (INTEGRATED) IN

THE INTERNAL REACTIVE ENERGY

UPPER 24 BITS ARE

ACCESSIBLE THROUGH

VARHR[23:0] REGISTER

ADE7166ASTZF8 Analog Devices Inc, ADE7166ASTZF8 Datasheet - Page 65

ADE7166ASTZF8

Specifications of ADE7166ASTZF8

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