Primary Injection Test Set High Large Current Generator
The Primary Injection Tester helps electrical industry professionals test circuit breakers by measuring the current and voltage levels flowing through the circuit breaker. It is a powerful testing tool. It is able to test the circuit breaker's response to large current levels, helping users ensure that the circuit breaker is functioning properly and can handle the load for which it was designed.
Key features
* High accuracy: The tester delivers accurate readings of current and voltage, ensuring that you get precise results every time.
* Easy to use: With intuitive controls and clear, easy-to-read displays, this tester is simple to operate, even for those who may be new to primary injection testing.
* Versatile: The tester can be used with a wide variety of circuit breakers, making it a valuable addition to any testing toolkit.
* Portable: The compact design of the tester makes it easy to transport, allowing users to take it to job sites or move it around the facility as needed.
* Reliable: Built to withstand the demands of heavy use in industrial settings, this tester is a durable, long-lasting investment for any professional.
Parameter
| Model |
Output Current(A) |
Capacity(kVA) |
Output Voltage(V) |
| SLQ-2/500 |
500 |
2 |
4 |
| SLQ-4/1000 |
1000 |
4 |
5 |
| SLQ-10/2000 |
2000 |
10 |
4 |
| SLQ-12/3000 |
3000 |
12 |
4 |
| SLQ-16/4000 |
4000 |
16 |
4 |
| SLQ-20/5000 |
5000 |
20 |
4 |
| SLQ-24/6000 |
6000 |
24 |
4 |
| SLQ-32/8000 |
8000 |
32 |
4 |
| SLQ-40/10000 |
10000 |
40 |
4 |
Remark:
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Normally, if the output current is above 4000A, We will provide split design. If you have special requirements, we can also customization.
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The capacity and maximum current output could be customized according to the requirements of customer if you can not find the one you need in this table.
Detail show
Working principle
The current booster is essentially a double-winding step-down transformer. When voltage is applied to the primary winding, the current flowing through it generates alternating magnetic flux in the iron core. These magnetic fluxes are called main magnetic fluxes. The main magnetic fluxes will pass through the primary and secondary windings, and induced electromotive force will be generated in the windings. At this time, if the secondary side is connected to a load, current will flow out and generate electrical energy. In theory, the power of the primary and secondary sides is equal, and the voltage of the primary and secondary sides is inversely proportional to the current during operation. The result is that the voltage is reduced and the load current is increased at the same time.
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