71M6545 Datasheet, PDF(105/134 Page) Maxim Integrated Products – Four-Quadrant Metering, Phase Metrology Processors Flash/RAM Size

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71M6545 Datasheet, PDF (105/134 Pages) Maxim Integrated Products – Four-Quadrant Metering, Phase Metrology Processors Flash/RAM Size

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PDS_6545_009

Data Sheet 71M6545/H

pulse generation) by placing values into APULSEW and APULSER (CE RAM 0x45 and 0x49). By setting

EXT_PULSE = 0, the CE controls the pulse rate based on WSUM_X (CE RAM 0x84) and VARSUM_X (CE

RAM 0x88).

Address

0x24

0x40

0x41

0x42

0x43

0x44

Table 69: Sag Threshold, Phase Measurement, and Gain Adjust Control

Name

Default Description

SAG_THR

GAIN_ADJ0

GAIN_ADJ1

GAIN_ADJ2

GAIN_ADJ3

GAIN_ADJ4

2.39*107

16384

The voltage threshold for sag warnings. The default value is

equivalent to 80 V RMS if VMAX = 600 V.

The assignments of these gain adjustments depends on the

meter design. See 4.5.5 Temperature Compensation for VREF

and Shunt Sensors on page 75 or 4.5.6 Temperature

Compensation of VREF and Current Transformers on page 77.

The default value of 16384 corresponds to unity gain.

5.4.8 CE Transfer Variables

When the MPU receives the XFER_BUSY interrupt, it knows that fresh data is available in the transfer

variables. CE transfer variables are modified during the CE code pass that ends with an XFER_BUSY

interrupt. They remain constant throughout each accumulation interval. In this data sheet, the names of

CE transfer variables always end with _X. The transfer variables can be categorized as:

â¢ Fundamental energy measurement variables

â¢ Instantaneous (RMS) values

â¢ Other measurement parameters

Fundamental Energy Measurement Variables

Table 70 describes each transfer variable for fundamental energy measurement. All variables are signed

32-bit integers. Accumulated variables such as WSUM are internally scaled so they have at least 2x

margin before overflow when the integration time is one second. Additionally, the hardware does not permit

output values to fold back upon overflow.

Table 70: CE Transfer Variables (with Shunts)

Address

0x84

0x85

0x86

0x87

0x88

0x89

0x8A

0x8B

Name

WSUM_X

W0SUM_X

W1SUM_X

W2SUM_X

VARSUM_X

VAR0SUM_X

VAR1SUM_X

VAR2SUM_X

Description

The signed sum: W0SUM_X+W1SUM_X+W2SUM_X.

The sum of Wh samples from each wattmeter

element.

LSBW = 7.7562*10-13 VMAX * IMAX Wh.

The signed sum:

VAR0SUM_X+VAR1SUM_X+VAR2SUM_X.

The sum of VARh samples from each wattmeter

element.

LSBW = 7.7562*10-13 VMAX * IMAX VARh.

Configuration

Figure 27 (page 72)

Address

0x84

0x85

0x86

Name

WSUM_X

W0SUM_X

W1SUM_X

Table 71: CE Transfer Variables (with CTs)

Description

The signed sum: W0SUM_X+W1SUM_X+W2SUM_X.

The sum of Wh samples from each wattmeter

element.

Configuration

Figure 28 (page 73)

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