Circuit Breakers Electrical components

Thermal magnetic circuit breakers

Description

Thermal magnetic circuit breakers, which are the type found in most distribution boards, incorporate both techniques with the electromagnet responding instantaneously to large surges in current (short circuits) and the bimetallic strip responding to less extreme but longer-term over-current conditions.

 

Circuit breakers  protect cables and lines against the effects of overload currents and short circuits. They provide reliable protection for buildings, systems, and in particular people.

The thermal portion of the circuit breaker provides a time response feature, that trips the circuit breaker sooner for larger overcurrents but allows smaller overloads to persist for a longer time.

A detailed circuit breaker

 

This allows short current spikes such as are produced when a motor or other non-resistive load is switched on.

With very large over-currents during a short-circuit, the magnetic element trips the circuit breaker with no intentional additional delay.

 

 

 

Protect your electrical equipment and yourself.
 

 

Protect from short circuit which can happen from:

Damaged electrical equipment

Animals caused short circuit for example: Lizard, Cockroach, Rat, etc...

Human caused short circuit or getting electrocuted, child playing or putting their figures in socket

 

 

Products

SEGIP0101 - Disjoncteur 2 poles 25A

SEGIP0102 - Disjoncteur 2 poles 30A

SEGIP0103 - Disjoncteur 2 poles 45A

SEGIP0104 - Disjoncteur 2 poles 50A

SEGIP0105 - Disjoncteur 2 poles 65A

SEGIP0106 - Disjoncteur 2 poles 90A

SEGIP0107 - Disjoncteur 4 poles 16A

SEGIP0108 - Disjoncteur 4 poles 20A

SEGIP0109 - Disjoncteur 4 poles 25A

SEGIP0110 - Disjoncteur 4 poles 30A

SEGIP0111 - Disjoncteur 4 poles 32A

SEGIP0112 - Disjoncteur 4 poles 45A

SEGIP0113 - Disjoncteur 4 poles 50A

SEGIP0114 - Disjoncteur 4 poles 60A

SEGIP0115 - Disjoncteur 4 poles 63A

SEGIP0116 - Disjoncteur 4 poles 90A

SEGIP0117 - Disjoncteur 4 poles 95A

Specifications

For system operations:

    •  Safe operability, particularly for non-professionals

    •  No maintenance

    •  High reliability

    •  High switching frequencies

    •  Single-pole or multi-pole (all-pole) protection and switching

 

In case of a fault:

   •  Automatic disconnection in case of overload or short circuit

   •  Safe disconnection independent of the handle position (trip-free)

   •  Safe (fast) current-limiting disconnection of short circuits,

 

Meaning:

   •  Best selectivity and/or backup protection prerequisites

   •  Greatest possible damage limitation (short circuit cannot develop its full power)