71M6543GH MAXIM [Maxim Integrated Products], 71M6543GH Datasheet - Page 12

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

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71M6543F/H and 71M6543G/GH Data Sheet

number of LCD segments and DIO pins can be implemented in software to accommodate various

requirements.

In addition to the temperature-trimmed ultra-precision voltage reference, the on-chip digital temperature

compensation mechanism includes a temperature sensor and associated controls for correction of unwanted

temperature effects on metrology and RTC accuracy (i.e., to meet the requirements of ANSI and IEC

standards). Temperature-dependent external components such as the crystal oscillator, current

transformers (CTs), Current Shunts and their corresponding signal conditioning circuits can be character-

ized and their correction factors can be programmed to produce electricity meters with exceptional accuracy

over the industrial temperature range.

One of the two internal UARTs is adapted to support an Infrared LED with internal drive and sense

configuration and can also function as a standard UART. The optical output can be modulated at 38 kHz.

This flexibility makes it possible to implement AMR meters with an IR interface. A block diagram of the IC

is shown in

2.2

The AFE functions as a data acquisition system, controlled by the MPU. The 71M6543 AFE may also be

augmented by isolated 71M6xx3 sensors in order to support low-cost current shunt sensors.

and

are connected directly to the 71M6543 (i.e., IADC0-IADC1, VADC8, VADC9 and VADC10) are

multiplexed into the single second-order sigma-delta ADC input for sampling in the 71M6543. The

71M6543 ADC output is decimated by the FIR filter and stored in CE RAM where it can be accessed and

processed by the CE.

Shunt current sensors that are isolated by using a 71M6xx3 device, are sampled by a second-order

sigma delta ADC in the 71M6xx3 and the signal samples are transferred over the digital isolation interface

through the low-cost isolation pulse transformer.

Figure 2

plus three remote (isolated) shunt sensors. As seen in

connected via the 71M6xx3, the samples associated with this current channel are not routed to the

multiplexer, and are instead transferred digitally to the 71M6543 via the isolation interface and are directly

stored in CE RAM. The MUX_SELn[3:0] I/O RAM control fields allow the MPU to configure the AFE for the

desired multiplexer sampling sequence. Refer to

corresponding AFE settings.

See

Figure 3

Figure 31

Analog Front-End (AFE)

shows the 71M6543 using shunt current sensors and the 71M6xx3 isolated sensor devices.

supports neutral current measurement with a local shunt connected to the IADC0-IADC1 input

Figure

show the two most common configurations; other configurations are possible. Sensors that

for the meter wiring configuration corresponding to

Figure 2: AFE Block Diagram (Shunts: One-Local, Three-Remotes)

Remote

Shunt

INN

INP

71M6xx3

Shunt

Local

IN*

VADC10 (VC)

VADC8 (VA)

VADC9 (VB)

IADC3

IADC4

IADC5

IADC2

IADC6

IADC7

IADC0

IADC1

*IN = Neutral Current

Table 1

Isolation

Interface

MUX

Digital

Figure

and

VREF

VADC

Table 2

2, when a remote isolated shunt sensor is

VREF

71M6543

Figure

CONVERTER

VREF

∆Σ ADC

for the appropriate CE code and the

FIR

CE RAM

9/17/2010

Figure

v1.2

71M6543GH MAXIM [Maxim Integrated Products], 71M6543GH Datasheet - Page 12

71M6543GH

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