71M6543F Datasheet, PDF(127/157 Page) Maxim Integrated Products – Selectable Gain of 1 or 8 for One Current Energy Meter ICs Metrology Compensation

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71M6543F Datasheet, PDF (127/157 Pages) Maxim Integrated Products – Selectable Gain of 1 or 8 for One Current Energy Meter ICs Metrology Compensation

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71M6543F/H and 71M6543G/GH Data Sheet

The RMS values can be computed by the MPU from the squared current and voltage samples as follows:

IxRMS =

IxSQSUM â LSBI â 3600 â FS

N ACC

VxRMS =

VxSQSUM â LSBV â 3600 â FS

N ACC

Other transfer variables include those available for frequency and phase measurement, and those reflecting

the count of the zero-crossings of the mains voltage and the battery voltage. These transfer variables are

listed in Table 84.

MAINEDGE_X reflects the number of half-cycles accounted for in the last accumulated interval for the AC

signal of the phase specified in the FREQSEL[1 :0] field of the CECONFIG register (CE RAM 0x20[7:6]) .

MAINEDGE_X is useful for implementing a real-time clock based on the input AC signal.

Table 84: Other Transfer Variables

Address

Name

Description

0x82

0x83

0x94

0x95

FREQ_X

MAINEDGE_X

PH_AtoB_X

PH_AtoC_X

Fundamental frequency:

LSB

â¡

2184Hz

232

â 0.509 â10â6 Hz(for CT)

LSB

â¡

2520Hz

232

0.587 â10â6 Hz(for

Shunt)

The number of edge crossings of the selected voltage in the previous

accumulation interval. Edge crossings are either direction and are

debounced.

Voltage phase lag. The selection of the reference phase is based on

FREQSEL[1:0] in the CECONFIG register:

If FREQSEL[1:0] selects phase A: Phase lag from A to B.

If FREQSEL[1:0] selects phase B: Phase lag from B to C.

If FREQSEL[1:0] selects phase C: Phase lag from C to A.

Angle in degrees is (0 to 360): PH_AtoB_X * 360/NACC + 2.4*15/13 (for CT)

Angle in degrees is (0 to 360): PH_AtoB_X * 360/NACC + 2.4 (for Shunt)

If FREQSEL[1:0] selects phase A: Phase lag from A to C.

If FREQSEL[1:0] selects phase B: Phase lag from B to A.

If FREQSEL[1:0] selects phase C: Phase lag from C to B.

Angle in degrees is (0 to 360): PH_AtoC_X * 360/NACC + 4.8*15/13 (for CT)

Angle in degrees is (0 to 360): PH_AtoC_X * 360/NACC + 4.8*15/13 (for Shunt)

Phase angle measurement accuracy can be increased by writing values > 1 into V_ANG_CNT (see

Table 79).

5.4.9 Pulse Generation

Table 85 describes the CE pulse generation parameters.

The combination of the CECONFIG PULSE_SLOW (CE RAM 0x20[0]) and PULSE_FAST (CE RAM 0x20[1])

bits controls the speed of the pulse rate. The default values of 0 and 0 maintain the original pulse rate

given by the Kh equation.

WRATE (CE RAM 0x21) controls the number of pulses that are generated per measured Wh and VARh

quantities. The lower WRATE is the slower the pulse rate for measured energy quantity. The metering

constant Kh is derived from WRATE as the amount of energy measured for each pulse. That is, if Kh =

1Wh/pulse, a power applied to the meter of 120 V and 30 A results in one pulse per second. If the load is

240 V at 150 A, ten pulses per second are generated.

Control is transferred to the MPU for pulse generation if EXT_PULSE = 1 (CE RAM 0x20[5]). In this case,

the pulse rate is determined by APULSEW and APULSER (CE RAM 0x45 and 0x49). The MPU has to load

v1.2

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