ADE7761B
Typical Connection Diagrams
Adjusting the level of MISCAL to calibrate the meter in missing
neutral mode can be done by changing the ratio of RC and
RD + VR1. When the internal reference is used, the values of RC,
RD, and VR1 must be chosen to limit the current sourced by
the internal reference sourcing current to below the specified
10 μA. Therefore, because VREF internal = 2.5 V, RC + RD +
VR1 > 600 kΩ.
Figure 15 shows a typical connection diagram for Channel V1.
The analog inputs are used to monitor both the phase and
neutral currents. Because of the large potential difference
between the phase and neutral, two current transformers (CTs)
must be used to provide the isolation. Note that both CTs are
referenced to analog ground (AGND); therefore, the common-
mode voltage is 0 V. The CT turn ratio and burden resistor (RB)
are selected to give a peak differential voltage of 660 mV/gain.
INTERNAL OSCILLATOR
The nominal internal oscillator frequency is 450 kHz when
used with the recommended ROSC resistor value of 6.2 kΩ
between RCLKIN and DGND (see Figure 18).
V
R
1A
F
CT
±660mV
GAIN
RB
RB
C
F
F
ADE7761B
IP
IN
AGND
V
V
1N
1B
±660mV
GAIN
3kΩ
2.5V
INTERNAL
C
REFERENCE
OSCILLATOR
CT
R
F
9
14
17
REF
RCLKIN
DGND
IN/OUT
Figure 15. Typical Connection for Channel V1
R
OSC
Figure 16 shows two typical connections for Channel V2.
The first option uses a potential transformer (PT) to provide
complete isolation from the main voltage. In the second option,
the ADE7761B is biased around the neutral wire, and a resistor
divider is used to provide a voltage signal that is proportional to
the line voltage. Adjusting the ratio of RA and RB + VR is a
convenient way to carry out a gain calibration on the meter.
Figure 18. Internal Oscillator Connection
The internal oscillator frequency is inversely proportional to the
value of this resistor. Although the internal oscillator operates
when used with an ROSC resistor value between 5 kΩ and 12 kΩ,
it is recommended that a value be chosen within the range of
the nominal value.
V
R
2P
F
C
±660mV
AGND
F
F
The output frequencies on CF, F1, and F2 are directly propor-
tional to the internal oscillator frequency; therefore, Resistor ROSC
must have a low tolerance and low temperature drift. A low
tolerance resistor limits the variation of the internal oscillator
frequency. A small variation of the clock frequency and, conse-
quently, of the output frequencies from meter to meter contributes
to a smaller calibration range of the meter.
V
R
2N
F
C
1
RA
C
F
1
1
RB
V
V
2P
VR
R
2N
F
A low temperature drift resistor directly limits the variation of
the internal clock frequency over temperature. The stability of
the meter to external variation is then better ensured by design.
C
T
1
RB + VR = RF.
Figure 16. Typical Connections for Channel V2
Figure 17 shows a typical connection for the MISCAL input.
The voltage reference input (REFIN/OUT) is used as a dc reference
to set the MISCAL voltage.
REF
IN/OUT
RC
C
F
RD
MISCAL
VR1
V
R
2N
F
C
F
Figure 17. Typical Connection for MISCAL
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