Availability: | |
---|---|
Quantity: | |
BE-75mV
KDSI Also can do OEM
◆ DC SHUNTS | |
DC shunts are available for currents between 10Amps and 5000Amps, offering reliability and calss0.5,accuracy making them suitable for a large range of industrial applications. Four ranges are available that develop either 50mV, 60mV,75mV,100mV at full load current. The millivolt signal can then be safely taken to suitably scaled moving coil indicating instrument or other monitoring device. The shunts are brass ended manganin and all shunts up to the 200 Amp rating are mounted on an insulted base ensuring electrical insulation. All non-insulated shunts may need protection against accidental contact. The shunts should be mounted vertically with the blade faces vertical to achieve maximum heat dissipation. | |
◆ Product Features | ◆ Output |
Brass ended manganin shunts 10 Amp to 5000 Amp 50mV or 60mV output 75mV or 100mV output Accuracy class0.5 Insulated base on shunts up to 200A | 0-50mV 0-60mV 0-75mV 0-100mV |
◆ Specification | ◆ Overload |
Reference Standard : BS89,IEC51 | 1.2 In continuous 10 In for 5 seconds(10A to 500A) 5 In for 5 seconds(600A to 2000A) 2 In for 5 seconds(2500A to 5000A) |
◆ Accuracy | ◆ Operating Temperature |
Class 0.5(+0.5% max.error) | -20°C to 60°C |
◆ Current Rating, In | ◆ Connections |
0-10A to 0-5000A (see range data table) |
◆ DC SHUNTS | |
DC shunts are available for currents between 10Amps and 5000Amps, offering reliability and calss0.5,accuracy making them suitable for a large range of industrial applications. Four ranges are available that develop either 50mV, 60mV,75mV,100mV at full load current. The millivolt signal can then be safely taken to suitably scaled moving coil indicating instrument or other monitoring device. The shunts are brass ended manganin and all shunts up to the 200 Amp rating are mounted on an insulted base ensuring electrical insulation. All non-insulated shunts may need protection against accidental contact. The shunts should be mounted vertically with the blade faces vertical to achieve maximum heat dissipation. | |
◆ Product Features | ◆ Output |
Brass ended manganin shunts 10 Amp to 5000 Amp 50mV or 60mV output 75mV or 100mV output Accuracy class0.5 Insulated base on shunts up to 200A | 0-50mV 0-60mV 0-75mV 0-100mV |
◆ Specification | ◆ Overload |
Reference Standard : BS89,IEC51 | 1.2 In continuous 10 In for 5 seconds(10A to 500A) 5 In for 5 seconds(600A to 2000A) 2 In for 5 seconds(2500A to 5000A) |
◆ Accuracy | ◆ Operating Temperature |
Class 0.5(+0.5% max.error) | -20°C to 60°C |
◆ Current Rating, In | ◆ Connections |
0-10A to 0-5000A (see range data table) |
No. | Test Item | Allowed value | Actual value | Conclusion |
1 | Appearanceinspection | Visual control | Meet the demand | |
2 | Insulation resistance | ≥5MΩ | Meet the demand | |
3 | Voltage test | Voltage 2KV | Meet the demand | |
4 | Response time | 4s | 1.5s | Meet the demand |
5 | Test of intrinsic error | ±1.5 | ±0.5 | Meet the demand |
6 | Test of tracking error | ±1.5 | ±0.6 | Meet the demand |
7 | Test of deviation from zero | ±0.75 | 0 | Meet the demand |
8 | Test of overshoot | ±20 | 0 | Meet the demand |
9 | Test of self-heating | ±1.5 | ±0.1 | Meet the demand |
10 | Test of variation due to distortion of a.c. measured quantity | ±1.5 | ±0.2 | Meet the demand |
11 | Test of variation due to position | ±0.75 | ±0.2 | Meet the demand |
12 | Test of variation due to frequency on a.c. measured quantity | ±1.5 | ±0.3 | Meet the demand |
13 | Test of variation due to a magnetic field of external origin | ±6 | ±0.2 | Meet the demand |
14 | Test of variation due to ambient temperature | ±1.5 | ±0.2 | Meet the demand |
15 | Test of variation due to ferromagnetic supports | ±1.5 | ±0.5 | Meet the demand |
16 | Short-time overload test | ±1.5 | ±0.5 | Meet the demand |
17 | Continuous overload test | ±1.5 | ±0.5 | Meet the demand |
18 | Vibration and shock test | ±1.5 | ±0.3 | Meet the demand |
19 | Temperature limits test | ±1.5 | ±0.2 | Meet the demand |
20 | Test of variation due to temperature | ±1.5 | ±0.2 | Meet the demand |
No. | Test Item | Allowed value | Actual value | Conclusion |
1 | Appearanceinspection | Visual control | Meet the demand | |
2 | Insulation resistance | ≥5MΩ | Meet the demand | |
3 | Voltage test | Voltage 2KV | Meet the demand | |
4 | Response time | 4s | 1.5s | Meet the demand |
5 | Test of intrinsic error | ±1.5 | ±0.5 | Meet the demand |
6 | Test of tracking error | ±1.5 | ±0.6 | Meet the demand |
7 | Test of deviation from zero | ±0.75 | 0 | Meet the demand |
8 | Test of overshoot | ±20 | 0 | Meet the demand |
9 | Test of self-heating | ±1.5 | ±0.1 | Meet the demand |
10 | Test of variation due to distortion of a.c. measured quantity | ±1.5 | ±0.2 | Meet the demand |
11 | Test of variation due to position | ±0.75 | ±0.2 | Meet the demand |
12 | Test of variation due to frequency on a.c. measured quantity | ±1.5 | ±0.3 | Meet the demand |
13 | Test of variation due to a magnetic field of external origin | ±6 | ±0.2 | Meet the demand |
14 | Test of variation due to ambient temperature | ±1.5 | ±0.2 | Meet the demand |
15 | Test of variation due to ferromagnetic supports | ±1.5 | ±0.5 | Meet the demand |
16 | Short-time overload test | ±1.5 | ±0.5 | Meet the demand |
17 | Continuous overload test | ±1.5 | ±0.5 | Meet the demand |
18 | Vibration and shock test | ±1.5 | ±0.3 | Meet the demand |
19 | Temperature limits test | ±1.5 | ±0.2 | Meet the demand |
20 | Test of variation due to temperature | ±1.5 | ±0.2 | Meet the demand |