Specifications
Transducers
124
(for Unbalanced Loads) [Insulated]
Input/Output relationships
Connection diagrams (Refer to p.156 for outer dimensions.)
Specify three values for the output.
In the case of 3-phase, 4-wire models,
please specify the phase
voltage and line voltage.
Model name
T-101HPF (U)
Frequency
60Hz
Number of units
2
Auxiliary power supply
110VAC
Phase-wire
Input
Voltage Current
3P3W 110V 5A
Power factor
LEAD0.5–1–LAG0.5
Output
Voltage or current
4–12–20mA
Load
VT
OUTPUT
Output
Auxiliary power
supply
MA MB
C1P3P1
3
2
1
CT
CT
C3C1 C3
Load
VT
CT
OUTPUT
Output
Auxiliary power
supply
P1
MA MB
C1P3
3
2
0
1
C3C3
CT
CT
C2C1 C2
Load
VT
CT
Auxiliary power
supply
P1
MA MB
C1P3
3
2
0
1
C3
CT
CT
C2C1 C3C2
Load
VT
OUTPUT
Output
Auxiliary power
supply
SGN
SGN
MA MB
C1P3P1
3
2
1
CT
CT
C3C1 C3
OUTPUT
Output
SGN
SGN
Note 1 Note 1
Note 1
Note 1
Fig. 1 T-101HPF(U) 3P3W
T-101SPF(U) 3P3W (characteristic 1 or 3)
(for unbalanced loads)
Fig. 2 T-101SPF(U) 3P3W (characteristic 2)
(for unbalanced loads)
Fig. 3 T-101HPF(U) 3P4W
T-101SPF(U) 3P4W (characteristic 1 or 3)
Fig. 4 T-101SPF(U) 3P4W (characteristic 2)
The characteristic 1 model is manufactured only for voltage output.
0
-1
0
1
V
-5
0
5
V
10
AC input (power factor)
LEAD LAG
DC output
0
-5
0
5
V
-1
0
1
mA
10
AC input (power factor)
LEAD LAG
0.5
-5
0
5
V
-1
0
1
mA
10.5
AC input (power factor)
LEAD LAG
0
0
2.5
5
V
0
0.5
1
mA
10
AC input (power factor)
LEAD LAG
0.5
0
2.5
5
V
0
0.5
1
mA
10.5
AC input (power factor)
LEAD LAG
AC input (power factor)
LEAD LAG
0.5
0
3
5
V
0
14
12
20
mA
10.5
AC input (power factor)
LEAD LAG
0
0
3
5
V
0
14
12
20
mA
10
DC outputDC output
DC outputDC output
DC outputDC output
0
4
20
mA
0
1
mA
10
AC input (power factor)
LEAD LAG
0
5V±0.5V
1Vmax
10
AC input (power factor)
LEAD LAG
DC output
DC output
Power factor LEAD 0~1~LAG 0
Power factor LEAD 0.5~1~LAG 0.5
Characteristic 1 Characteristic 2
The two outputs shown below are output
simultaneously.
Characteristic 3
The characteristic 2 model is
manufactured only for current
output.
Note 1.
For low-voltage circuits, grounding of the secondary sides of the instrument voltage transformer and current transformer is unnecessary.
Ordering method