DBI Control’s partnerships with leading manufacturers Siemens, Allen Bradley and Schneider Electric means we have a wide range of MCB’s on offer, with discounts available, to suit any requirements you may have.
For a competitive price on an MCB, please contact one of our team members on 01244 288138 firstname.lastname@example.org.
MCBs, or miniature circuit breakers, are a type of switch used to automatically turn off electrical circuits during abnormal conditions.
MCBs often replace fuses in low voltage electrical circuits as they can be more reliable, much more sensitive and are resettable.
When continuous overcurrent flows through an MCB, a bimetallic strip is heated and causes it to bend.
This bending of the bimetallic strip releases a mechanical latch opening the contacts and turning off the MCB, thereby stopping the current to flow in the circuit.
To restart the flow of current the MCB must be manually turned on. This mechanism protects the MCB from faults arising due to overcurrent or overload and is intended to prevent the accidental overloading of the cable in a no-fault situation.
The speed of the MCB tripping will vary with the degree of the overload. This is usually achieved by the use of a thermal device in the MCB.
The second characteristic is the magnetic fault protection, which is intended to operate when the fault reaches a predetermined level and to trip the MCB within one-tenth of a second.
The level of this magnetic trip gives the MCB its type characteristic.
MCBs are used to perform many functions such as local control switches, isolating switches against faults and overload protection devices for installation or specific equipment or appliances.
MCBs have three common types for circuit protection in residential, commercial and industrial applications. The use is classified by a type, which determines the tripping characteristics of the MCB:
Type B – trips between 3 and 5 times the load current, used for resistive or small inductive loads, suitable for residential or light commercial installations.
Type C – trips between 5 and 10 times the full load current, used for high inductive loads where switching surges are high, suitable for highly inductive commerical and industrial installations.
Type D – trips between 10 and 20 times the full load current, used for high inductive loads where high inrush current is very frequent, suitable for specific industrial and commercial applications e.g. x-ray machines, UPS systems, industrial welding equipment, large winding motors.