Atec Omicron-CP-CR500 User Manual
Cp cr500 compensating reactor, Accessory for the cp td1
CP CR500 compensating reactor
Accessory for the CP TD1
Specifications
2
2 × 40 H
1 × 40 H + 1 × 80 H
2 × 80 H
Maximum test voltage
12 kV
rms
(≥ 50 Hz)
Inductance
2 × 40 H
1 × 40 H + 1 × 80 H
2 × 80 H
Current compensation
2 × 1 A (50 Hz)
2 × 0.8 A (60 Hz)
1 × 1 A + 1 × 0.5 A (50 Hz)
1 × 0.8 A + 1 × 0.4 A (60 Hz)
2 × 0.5 A (50 Hz)
2 × 0.4 A (60 Hz)
Capacitance
compensation
2 × 250 nF (50 Hz)
2 × 180 nF (60 Hz)
1 × 250 nF + 1 × 125 nF (50 Hz)
1 × 180 nF + 1 × 90 nF (60 Hz)
2 × 125 nF (50 Hz)
2 × 90 nF (60 Hz)
On/off times at 25 ˚C
0.3 A
Continuous (> 1 h)
Continuous (> 1 h)
Continuous (> 1 h)
0.5 A
Initial output time: 40 min
On/off times: 6 min/6 min
Initial output time: 40 min
On/off times: 6 min/6 min
Initial output time: 40 min
On/off times: 6 min/6 min
1 A
Initial output time: 7 min
On/off times: 2 min/6 min
1 × 40 H: see "2 × 40 H"
1 × 80 H: see "2 × 80 H"
1 × 40 H + 1 × 80 H: see "2 × 40 H"
Maximum current is 0.5 A
at 12 kV and 50 Hz
Dimensions (W × H × D),
with handles
455 mm × 275 mm × 220 mm / 17.9 Ч 10.8 Ч 8.7 in
Weight
36 kg / 79.4 lbs
Order No.
VEHZ0602
VEHZ0605
VEHZ0604
Advantages
>
Portable: compact dimensions and low weight
>
Flexible: can be used as high-voltage source, as well as for
dissipation factor (tan δ) / power factor testing and tip-up testing
>
Extendable: several units can be connected in parallel
>
Long test times: maximum output duration with optimal compensation by adjusting the frequency
The CP CR500 compensating reactor is used together with the
CPC 100 multifunctional primary testing system and the CP TD1 for
testing the insulation quality of rotating machines, cables and other
assets with high capacitances.
For dissipation factor (tan δ) / power factor testing and tip-up
testing several CP CR500 units can be connected in parallel.
Capacitances of up to 1µF (4 A) can be compensated with 12 kV
test voltage and at mains frequency
1
(50 Hz / 60 Hz). The system
can also be used as high-voltage source to provide compensation
of up to 2 µF, for example when performing partial discharge
measurements. The frequency can also be varied (15 Hz … 400 Hz)
to facilitate optimum compensation during long-time tests.
1
To achieve the best possible compensation at mains frequency, an 80 H reactor should be made available.
2
Specifications with one CP CR500.