71m6515h Maxim Integrated Products, Inc., 71m6515h Datasheet - Page 23
71m6515h
Manufacturer Part Number
71m6515h
Description
71m6515h Energy Meter Ic
Manufacturer
Maxim Integrated Products, Inc.
Datasheet
1.71M6515H.pdf
(57 pages)
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General Notes on Calibration
= 1.875Hz will be established.
Figure 13: Definition of Load Angles
It is entirely possible to calibrate piece-wise, i.e. in segments, to compensate for non-linear sensors. For example, one set of
calibration factors can be applied by the host when the current is below 0.5A, while another set is applied when the current is at
or above 0.5A.
Calibration Procedure for CT and Resistive Shunt
A typical meter has phase and gain errors as shown by φ
current phase being in the lag direction, the small amount of phase lead in a typical current sensor is represented as -φ
errors shown in Figure 14 represent the sum of all gain and phase errors. They include errors in voltage attenuators, current
sensors, signal conditioning circuits, and in ADC gains. In other words, no errors are made in the ‘input’ or ‘meter’ boxes.
During the calibration phase, we measure errors and then introduce correction factors to nullify their effect. With three
unknowns to determine, we must make at least three measurements. If we make more measurements, we can average the
results.
Page: 23 of 57
φ
V
L
I
is phase lag
INPUT
φ
Generating Energy
L
direction
Positive
φ
S
−φ
ERRORS
is phase lead
S
Using Energy
+60°
-60°
Current leads
(capacitive
Current lags
(inductive
voltage
Figure 14: Watt Meter with Gain and Phase Errors.
voltage
A
A
Voltage
Current
XV
Voltage
XI
© 2005-2008 TERIDIAN Semiconductor Corporation
)
)
ERROR
The calibration procedures described below should be followed after
interfacing the voltage and current sensors to the 71M6515H chip. When
properly interfaced, the V3P3 power supply is connected to the meter
neutral and is the DC reference for each input. Each voltage and current
waveform, as seen by the 6515H, is scaled to be less than 250mV
(peak).
Each meter phase must be calibrated individually. The procedures below
show how to calibrate a meter phase with either three or five
measurements. Note that there is no need to calibrate for VARh if the Wh
measurement is calibrated correctly. Note that positive load angles
correspond to lagging current (see Figure 13).
For a typical calibration, a meter calibration system is used to apply a
calibrated load, e.g. 240V at 30A, while interfacing the voltage and
current sensors to the 71M6515H. This load should result in an ob-
servable pulse rate at the PULSEW output depending on the selected
energy per pulse. For example, 7.2kW will result in an energy rate
corresponding to 7200Wh/3600s = 2Wh/s, i.e., when 7.2kW are applied
per phase (resulting in a total power of 21.6kW, equivalent to 6Wh/s) and
a Kh of 3.2 (Wh/pulse) has been configured, a pulse rate of 6Wh/3.2Whs
METER
≡
S
, A
Π
ACTUAL
XI
, and A
IDEAL
V
I
RMS
RMS
W
−
XV
IDEAL
in Figure 14. Following the typical meter convention of
IDEAL
IDEAL
IDEAL
ACTUAL
=
ACTUAL
IDEAL
= ,
= ,
=
V
=
I
IV
IV
Energy Meter IC
cos(
ACTUAL
ACTUAL
A
XI
−
φ
1
A
L
XV
)
cos(
=
=
V
DATA SHEET
φ
71M6515H
I
L
A
A
−
XV
XI
φ
S
)
MARCH 2008
S
. The
V1.4
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