The distinctions between MCB and MCCB are often misconstrued. Even though they are both electronic circuit breakers, there are significant distinctions between them that make them tailor-made for certain purposes.
However, before we go into the specifics of each, it’s necessary to know just what these abbreviations represent. Because “MCB” refers to “Miniature Circuit Breakers” and “MCCB” means “Molded Case Circuit Breaker,” the functions of these two electrical devices are quite different. This article examines the distinctions between the two devices as well as the applications for which they are utilized.
MCB vs MCCB
The main difference between MCB and MCCB is that MCB i.e. ‘Miniature Circuit Breaker’ is used for smaller electronic circuits with less amperage range whereas MCCB aka ‘Molded Case Circuit Breaker’ is used for larger circuits with more amperage range and difference. Both the breakers are durable and widely used for maintaining the safety of the circuit and overall the infrastructure where it is being installed and used.
MCB is the abbreviation for Miniature Circuit Breaker. During any hazardous circumstance in the power circuit, such as overcharge or short circuit, the MCB immediately shuts off the electrically wired circuit, and thus it is called a ‘breaker’. The fuse may detect these situations, but it must be repaired, even if the MCB can be restored.
It is an operational device that protects electrical cables and loads from excessive current to prevent fires and other electrical dangers. Handling MCB is safer because it recovers power rapidly. When it comes to the overflow of electric current through the wiring and short-circuit shielding in residential applications, MCBs are the most commonly picked devices to get the job done. MCBs may be reset quickly and do not require any upkeep.
MCCB aka ‘Molded Case Circuit Breakers’ works on the same principle as the MCB but is used for greater capacitive purposes. It protects against stresses and overflow of electricity and short circuits that occur in the circuit mechanisms. Even in household applications, it may be utilized for greater current ratings and fault levels.
MCCBs are used in industrial sectors because of their wide power capacity and high breaking/resistance capacity. MCCBs can be used to safeguard capacitor banks, generators, and the administration of main electric feeders. It has an adjustable overflow setting or earth fault protection, it provides appropriate protection.
Comparison Table Between MCB and MCCB
| Parameters of Comparison | MCB | MCCB |
| Abbreviation | Miniature Circuit Breaker | Molded Case Circuit Breakers |
| Interrupting Range | It has an interrupting current rating of less than 10 kA. | Their interrupting current is between 10 to 85 kA. |
| Utility | MCBs are mostly suited for low-breaking-capacity residential applications, based on their power capabilities. | MCCB is primarily utilised in the manufacturing industry for both low and high breakage capacity requirements. |
| Rated Current | Maximum rated current is 125 Ampere. | Up to 1600A rated current |
| Remote Connectivity | N/A | Options for remote controlled interaction are available in some models. |
What is MCB?
A Miniature Circuit Breaker or MCB is an operational electronic device that protects electrical circuits from overheating or creating fire hazards. An electrical problem produced by an overcharge or a short circuit is referred to as a short circuit.
We used to guard against over-current and overflow situations in circuits by using fuse wire back at the time when this problem was unsolvable. The concept was simple: an over-current could actually “break” the fuse wire by rapidly warming and melting it, destroying the electrical contact and protecting the remainder of the circuit.
When a malfunction arises, the ‘mini’ circuit breaker is an electronic component that immediately switches off the circuit. It detects the leakage current generated by the short circuit with ease. MCBs are mostly suited for low-breaking-capacity residential applications, based on their power capabilities, unlike the MCCBs which are heavily used in the industrial sectors.
The tiny circuit’s operation is relatively straightforward. The primary aim of these devices is to safeguard equipment against overcurrent. It has two interfaces, one of which is moveable and the other of which is not. When the power exceeds a certain threshold, the moveable contacts are separated from the permanent contacts, causing the circuitry to open and disconnecting them from the main supply.
What is MCCB?
MCCB is an acronym for ‘Molded Case Circuit Breaker’. When the total voltage surpasses the limit of a miniature circuit breaker, it is implemented as another form of electrical device.
The MCCB protects against overflows and faults current failures, as well as changing the circuits. Even in household applications, it may be utilized for greater current ratings and fault levels. MCCBs are used in industrial applications because of their wide average current ratings and high breakdown capacity.
The MCCB has two sets when it comes to its operating principles: one is for overheat and the other for exceeding voltage. It has a bimetal copper-nickel contact that grows and shrinks when the temperature change is beyond normal.
The contact permits the current to pass through the circuitry under typical working circumstances. If the current exceeds the preset limit, however, the connections will become heated and stretch until they rupture. As a consequence, the circuit is isolated from the power system, preventing harm to the equipment and the infrastructure.
For the higher versions, an MCCB has a changeable trip feature. Depending on the situation, this sort of circuit breaker might produce amps as high as 2,500 or as low as 10. They have interruption ratings ranging from 10,000 to 200,000 amps. The MCCB is better suited to powering high-power devices.
Main Differences Between MCB and MCCB
Conclusion
Circuit breakers are put in structures to guarantee safety when utilizing energy and electronic devices. When they suffer a fault current or overloading, they make sure to terminate the flow of current to avoid fire dangers or other electrical difficulties.
As a result, both the MCB and the MCCB must be fitted by specialists to reduce the risk of mistakes. Likewise, choosing the proper MCB or MCCB is critical to ensuring the security of the assets and electronic devices. Both types of breakers work on similar principles and are extremely reliable than the old-school fuse wire techniques. It is always advised to use a circuit breaker when an appliance or infrastructure is set up.
Reference
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