71M6513 Maxim, 71M6513 Datasheet - Page 70
71M6513
Manufacturer Part Number
71M6513
Description
The 71M6513 and 71M6513H are highly integrated SoCs with an MPU core, RTC, flash, and LCD driver
Manufacturer
Maxim
Datasheet
1.71M6513.pdf
(104 pages)
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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.
Fundamental Power Measurement Variables
The table below describes each transfer variable for fundamental power 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 1 second. Additionally, the hardware will not permit output values to ‘fold back’ upon overflow.
WSUM_X and VARSUM_X are the signed sum of Phase-A, Phase-B and Phase-C Wh or VARh values according to the
metering equation specified in the I/O RAM register EQU. WxSUM_X is the Wh value accumulated for phase ‘x’ in the last
accumulation interval and can be computed based on the specified LSB value.
For example, with VMAX = 600V and IMAX = 208A, LSB (for WxSUM_X ) is 0.1173 µWh.
Instantaneous Power Measurement Variables
The FREQSEL Register selects the input phase used for frequency measurement and for the MAIN_EDGE counter. The
frequency measurement is implemented using the frequency locked loop of the CE for the selected phase.
IxSQSUM_X and VxSQSUM are the squared current and voltage samples acquired during the last accumulation interval.
INSQSUM_X can be used for computing the neutral current.
Page: 70 of 104
Address
Address
0x42
0x43
0x44
0x45
0x46
0x47
0x48
0x49
0x31
0x32
CE
CE
A Maxim Integrated Products Brand
Name
SAG_THR
SAG_CNT
VAR0SUM_X
VAR1SUM_X
VAR2SUM_X
VARSUM_X
W0SUM_X
W1SUM_X
W2SUM_X
WSUM_X
Name
Default
(0x16D23AA)
+23,930,000
80
Description
The signed sum: W0SUM_X+W1SUM_X+W2SUM_X
The sum of Watt samples from each wattmeter element.
LSB = 9.4045*10
The signed sum: VAR0SUM_X+VAR1SUM_X+VAR2SUM_X
The sum of VAR samples from each wattmeter element.
LSB = 9.4045*10
© 2005-2011 Teridian Semiconductor Corporation
Description
Meter voltage inputs must be above this threshold to prevent sag alarms.
LSB = VMAX * 7.879810
For example, if a sag threshold of 80V RMS is desired,
Number of consecutive voltage samples below SAG_THR before a sag alarm
is declared (80*397µs = 31.8ms).
SAG
-13
-13
_
VMAX IMAX / In_8 Wh.
VMAX IMAX / In_8 VARh.
THR
=
VMAX
3-Phase Energy Meter IC
80
⋅
. 7
8798
-9
2
V.
⋅
10
−
71M6513/71M6513H
9
DATA SHEET
AUGUST 2011
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