71M6543GH MAXIM [Maxim Integrated Products], 71M6543GH Datasheet - Page 11

71M6543GH

Manufacturer Part Number

71M6543GH

Description

Selectable Gain of 1 or 8 for One Current Energy Meter ICs Metrology Compensation

Manufacturer

MAXIM [Maxim Integrated Products]

Datasheet

1.71M6543GH.pdf (157 pages)

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In order to implement a polyphase meter with or without neutral current sensing, one resistive shunt

current sensor may be connected directly (non-isolated) to the 71M6543 device, while up to three

additional current shunts are isolated using a companion 71M6xx3 isolated sensor IC. An inexpensive,

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In a typical application, the 32-bit compute engine (CE) of the 71M6543 sequentially processes the

samples from the voltage inputs on analog input pins and performs calculations to measure active energy

(Wh) and reactive energy (VARh), as well as A

2.1

The Teridian 71M6543 single-chip energy meter integrates all primary functional blocks required to

implement a solid-state electricity meter. Included on the chip are:

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small size pulse transformer is used to electrically isolate the 71M6xx3 remote sensor from the 71M6543.

The 71M6543 performs digital communications bi-directionally with the 71M6xx3 and also provides power

to the 71M6xx3 through the isolating pulse transformer. Isolated (remote) shunt current sensors are

connected to the differential input of the 71M6xx3. The 71M6543 may also be used with Current

Transformers; in this case the 71M6xx3 isolated sensors are not required. Included on the 71M6xx3

companion isolator chip are:

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are then accessed by the MPU, processed further and output using the peripheral devices available to the

MPU.

In addition to advanced measurement functions, the real time clock (RTC) function allows the 71M6543 to

record time of use (TOU) metering information for multi-rate applications and to time-stamp tamper or other

events. An automatic RTC temperature compensation circuit operates in all power states including when the

MPU is halted, and continues to compensate using back-up battery power during power outages.

Measurements can be displayed on 3.3 V LCDs commonly used in low-temperature environments. The

integrated charge pump and temperature sensor can be used by the MPU to enhance 3.3 V LCD

performance at cold temperatures. The on-chip charge pump may also drive 5 V LCDs. Flexible mapping of

LCD display segments facilitates the integration of existing custom LCDs. Design trade-off between the

v1.2

An analog front-end (AFE) featuring a 22-bit second-order sigma-delta ADC

An independent 32-bit digital computation engine (CE) to implement DSP functions

An 8051-compatible microprocessor (MPU) which executes one instruction per clock cycle (80515)

A precision voltage reference (VREF)

A temperature sensor for digital temperature compensation of:

LCD Driver

RAM and Flash memory

A real time clock (RTC)

A variety of I/O pins

A power failure interrupt

A zero-crossing interrupt

Selectable current sensor interfaces for locally-connected sensors as well as isolated sensors (i.e.,

using the 71M6xx3 companion IC with a shunt resistor sensor)

Resistive Shunt and Current Transformers are supported

Digital isolation communications interface

An analog front-end (AFE) featuring a 22-bit second-order sigma-delta ADC

A precision voltage reference (VREF)

A temperature sensor (for current-sensing digital temperature compensation)

A fully differential shunt resistor sensor input

A pre-amplifier to optimize shunt current sensor performance

Isolated power circuitry obtains dc power from pulses sent by the 71M6543

Hardware Description

Hardware Overview

Metrology (MPU)

Automatic RTC in all power states

MPU assisted RTC compensation

h, and V

h for four-quadrant metering. These measurements

71M6543F/H and 71M6543G/GH Data Sheet

71M6543GH MAXIM [Maxim Integrated Products], 71M6543GH Datasheet - Page 11

71M6543GH

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