Approx. Rs 23,000 / PieceGet Latest Price
Product Details:
Minimum Order Quantity | 1 Piece |
Model Name/Number | NFCB |
Phase | Three Phase |
Frequency | 50 |
Rated current | 25A,32A,40A,63A,100A,125A upto 1000A |
Brand | VOLT-ON |
Country of Origin | Made in India |
power Rating | 3Phase |
Amps Rating | 32A On words |
Value | 20000 on wards |
We are the Leading Manufacturer and Supplier of
Neutral Failure Protection in Chennai,Tamilnadu,India.
Models & Amps / KVA rates :- 30 Amps, 40A, 60A, 80A, 100A, 150A, 200A, 250A, 300A, 350A, 400A, 450A, up to 630 Amps
Features :- World advanced micro process controller technology is used.
- Automatically cut off the main A/c, when sudden high. voltage, 440V, Phase-to-phase or phase –in- neutral
- High voltage cut off at 295V(L&;N) is also available.
- Avoids fire and damages to the single phase electrical appliances and wiring.
- Current sensing devices like ELCB, MCB and fuse carriers will not trip off during the neutral failure.
- Certified by ETDC (Electronic Test & Development Center) GOVT. of India.
- What happens when the neutral is failed.
- If neutral fails, phase will return to the neutral wire and due to this, phase will pass through the entire neutral wirings.
- It gets high voltage from above 380V.
- So that single phase appliance will receive phase 1 & phase. 2 instead of phase & neutral 220V 220V=440V phase to phase.
- When neutral fails at the balance or unbalanced load condition, using micro controller technology, our NFCB will sense the return phase and it will trip the power to the load.
- Even if high voltage occurs, in any phase line, load will be tripped off.
A neutral lead disconnection from a transformer substation solidly earthed neutral at an inlet service feeder switchboard can occur in those cases:
- its burning-out at an abnormal phase overload;
- short-circuits;
- a poor contact in a lead connection place;
- its breakage in a result of an accident damage (wind, a fallen tree);
- a neutral lead theft;
- and old electric wiring;
- attending personnel error or evil intent, and so forth.
If these cases take place in a 3-phase balanced system, the load will not be influenced. An illustrative example is a 3-phase induction motor that needs in operation no neutral, because a 3-phase induction motor winding is balanced and all phases are equally loaded. But in a single-phase distributor systems phase loads are never coinciding that brings about phase voltage imbalance. The more a phase load difference the more is the imbalance. To equalize the phase voltages one needs to ground the neutral. Then a circulating current will flow inducing a forced relative-to-neutral phase equalization.
A summing potential is developed in a common point of that 3-phase system in case of a neutral phase loss. The summing potential is determined by each phase load resistance. The neutral drift will cause a big phase imbalance. The phase voltage applied to the C-phase-powered loads will be considerably less than 220V while the phase voltage applied to the A&B-phase-powered loads will be considerably greater than 220V.
At the same time the line voltage will remain unchanged. The most crisis situation will arise when one of the phases has no load at all (no load is carried). Then the voltage developed in this phase can be close to the line voltage (380V) while the voltage developed in the most loaded phase will be close to zero. If a short-circuit in one of the phases occur when a high voltage is applied the line voltage of 380V can be applied to the all loads that are other phase-powered.
"We are looking for inquiries from South India region including Andhra Pradesh, Karnataka, Kerala and Tamil Nadu and cities like Bangalore, Chennai and Hyderabad."