71M6515H-IGT/F Maxim Integrated Products, 71M6515H-IGT/F Datasheet - Page 24
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
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Gain adjustment (CAL_Xn parameters) is used to compensate for tolerances of components used for signal conditioning,
especially the resistive components. A 1% increase in CAL_Xn will cause a 1% increase in the channel gain.
The phase compensation circuit in the TERIDIAN 71M6515H is optimized for operation with current transformers (CT’s).
These devices have a low frequency pole and therefore have a slight amount of phase lead at 50 or 60Hz—more at 50Hz than
at 60Hz. The phase lead diminishes at higher harmonics. When PHADJ_n is calibrated as shown below at either 50Hz or
60Hz, the CT will be correctly compensated from below 25Hz to beyond 1100Hz.
This phase compensator is markedly superior to the more common technique of programming a time delay to compensate for
CT phase. The time delay technique results in phase compensation that is correct at only one frequency, and actually
amplifies the phase error at harmonics of the frequency.
Calibration Factors for Rogowski Coil Sensors
If IMAGE is set to 01, i.e. the 71M6515H can be operated with Rogowski Coil sensors. In this case, one more calibration factor
per phase is needed. The PHADJ parameters have non-zero defaults and do not obey the same formula used for CT
calibration. The feedthrough parameter has to be determined by a separate crosstalk measurement. Table 5 shows the
parameters involved in the calibration procedure for the Rogowski sensor.
Page: 24 of 60
A Maxim Integrated Products Brand
Name
CAL_IA
CAL_VA
CAL_IB
CAL_VB
CAL_IC
CAL_VC
TEMP_NOM
PHADJ_A
PHADJ_B
PHADJ_C
Name
CAL_IA
CAL_VA
CAL_IB
CAL_VB
CAL_IC
CAL_VC
TEMP_NOM
PHADJ_A
PHADJ_B
PHADJ_C
VFEED_A
VFEED_B
VFEED_C
Table 5: Typical Calibration Parameters (Rogowski)
Description
Gain factors for current and voltage of each phase.
The value of TEMP_RAW at nominal temperature.
Phase compensation for each current. If phase compensation is 0 or if
current sensors have predictable phase, PHADJ may not need to be
measured on every meter.
Description
Gain constants for current and voltage of each phase.
The value of TEMP_RAW at nominal temperature.
Phase compensation for each current. If phase compensation is 0 or if
current sensors have predictable phase, PHADJ may not need to be
measured on every meter.
Feedthrough compensation for each current.
Table 4: Typical Calibration Parameters (CT)
© 2005−2011 Teridian Semiconductor Corporation
Energy Meter IC
DATA SHEET
71M6515H
JULY 2011
1.6
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