71M6515H-IGT/F Maxim Integrated Products, 71M6515H-IGT/F Datasheet - Page 28
71M6515H-IGT/F
Manufacturer Part Number
71M6515H-IGT/F
Description
IC ENERGY METER AFE 3PH 64-LQFP
Manufacturer
Maxim Integrated Products
Datasheet
1.71M6515H-IGTF.pdf
(60 pages)
Specifications of 71M6515H-IGT/F
Mounting Style
SMD/SMT
Package / Case
LQFP-64
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
71M6515H-IGT/F
Manufacturer:
Maxim Integrated
Quantity:
10 000
Subtract 8 from 7:
9.
use equation 5:
10.
11.
12.
Now that we know the A
We calculate PHADJ from φ
Finally, we calculate the new calibration current gain coefficient, including compensation for a slight gain increase in the phase
calibration circuit.
Alternative Calibration Procedures
It is possible to implement a fast calibration based on only one measurement with a zero-degree load angle. Details can be
found in the TERIDIAN Application Note AN_651X_022 (Calibration Procedures).
Calibration Procedure for Rogowski Sensor
Rogowski coils generate an output signal that is the derivative of the input current. The 6515H Rogowski module implemented
in the Rogowski CE image digitally compensates for this effect and has the usual gain and phase calibration adjustments.
Additionally, calibration adjustments are provided to eliminate voltage coupling from the sensor input.
Current sensors built from Rogowski coils have relatively high output impedances that are susceptible to capacitive coupling
from the large voltages present in the meter. The most dominant coupling is usually capacitance between the primary of the
coil and the coil’s output. This coupling adds a component proportional to the derivative of voltage to the sensor output. This
effect is compensated by the voltage coupling calibration coefficients.
As with the CT procedure, the calibration procedure for Rogowski sensors uses the meter’s display to calibrate the voltage
path and the pulse outputs to perform the remaining energy calibrations. The calibration procedure must be performed to each
phase separately, making sure that the pulse generator is driven by the accumulated real energy for just that phase. In other
words, the pulse generator input should be set to WhA, WhB, or WhC, depending on the phase being calibrated. The IC has to
be configured for Rogowski mode (IMAGE=01). In preparation of the calibration, all calibration parameters are set to their
default values. VMAX and IMAX are set to reflect the system design parameters. WRATE and PULSE_SLOW, PULSE_FAST are
adjusted to obtain the desired Kh.
Page: 28 of 60
CAL
CAL
PHADJ
_
_
φ
E
E
E
I
V
S
NEW
60
60
60
NEW
=
=
−
−
−
2
tan
A Maxim Integrated Products Brand
=
20
E
E
E
=
CAL
−
300
300
300
1
1 (
A
CAL
tan(
=
XI
−
=
=
_
A
2
tan(
E
2
(
I
XV
60
−
E
0
_
A
(
XV
9
cos(
E
)
0
)(
V
+
1
XV
, A
φ
sin(
60
+
E
+
S
S
E
, the desired phase lag:
XI
A
1 )
−
0
2
180
φ
E
[
, and φ
+
XI
2
E
−
S
180
+
π
20
300
E
)
+
f
tan(
1 (
180
PHADJ
0
+
)
T
2
−
S
+
)
) 2
tan(
60
2
1
errors, we calculate the new calibration voltage gain coefficient from the previous ones:
−
) 2
−
−
tan(
© 2005−2011 Teridian Semiconductor Corporation
9
tan(
)
)
2
60
sin(
2 (
2
1 (
−
φ
)
60
+
−
sin(
S
φ
2
2
2
1 )
)
1 (
S
[
−
−
tan(
20
9
)
φ
−
−
)
PHADJ
S
cos(
2
1 (
)
φ
−
1
9
−
S
)
2
)
2
cos(
π
−
f
9
0
−
)
T
2
cos(
2
)
π
1 (
+
f
0
1 (
−
T
2
π
2
−
)
f
−
]
2
0
9
T
)
−
9
cos(
)
)
]
2
2
π
f
0
T
))
Energy Meter IC
DATA SHEET
71M6515H
JULY 2011
1.6
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