Difference Between MCB, MCCB, ELCB, RCD (RCCB) and RCBO Circuit Breakers

Main Difference Between MCB, MCCB, ELCB, RCCB (RCD or RCB) and RCBO Circuit Breakers

Different types of circuit breakers are installed and used for safety purposes in both residential as well as commercial and industrial areas. In power distribution, we need circuit breakers at different levels. Depending on the current carrying capacity, breaking capacity and other functions, we select a suitable circuit breaker according to our needs i.e. VCB, SF6, ACB (Air Circuit Breaker), MCCB and then MCB, ELCB, RCCB (RCD) RCBO, or GFCI / AFCI. This is a common hierarchy being followed in power distribution systems.

Difference between MCB, MCCB, ELCB, RCD - RCCB or RCB & RCBO Circuit Breakers

What is a Circuit Breaker (CB) ?

A CB (Circuit breaker) is a device which:

Circuit Breaker Symbols

What is an MCB (Miniature Circuit Breaker)?

MCB (Miniature Circuit Breaker)

What is an MCCB (Molded Case Circuit Breaker) ?

MCCB - Molded Case Circuit Breaker

Main Difference between MCB and MCCB

The main different between MCB and MCCB is the interrupt current rating which is up to 1800 amperes for MCB and 10k – 200k Amperes for MCCB.

The following table shows the comparison and major differences between MCB and MCCB for different characteristics.Main Difference between MCB and MCCB

Keep in mind that both MCB and MCCB are classified as low voltage circuit breakers and the operation principle is based on thermo-magnetic for both devices.

MCB or MCCB - Difference in IEC Standards - IEC 60898-1 & IEC 60947-2

MCB and MCCB Selection

Now the question is that for a situation, where standard current carrying capacity needed is 100A with breaking capacity of 15KA, what should be used? An MCB or MCCB? We assume cost is not very different.

Both are in molded case and having almost similar features especially when we are comparing with fixed thermal setting option of MCCB and they are classified as low voltage circuit breakers. For magnetic setting, we can select MCB as per curve and MCCB will have either fixed setting or can be adjusted.

So what is the criteria to make a selection of MCB or MCCB? Space can be a point of consideration as MCBs are more compact but it doesn’t make a big point as bigger size of MCCB brings many advantages too like better fault clearing mechanism. keep in mind that both MCB and MCCB are low voltage circuit breakers and created to respond to IEC 947 standards (We are going to discuss these standards below)

Actually there is difference in standards they follows. An MCB is supposed to function in accordance to IEC 60898-1 (Unless mentioned otherwise) and so is tested accordingly. While an MCCB is tested in accordance with IEC60947-2. So to understand the difference between MCB and MCCB we need to get a brief idea of these two standards.

Difference between IEC 60898-1 and IEC 60947-2
IEC60898-1

It defines behavior of circuit breaker having rated operational voltage not exceeding than 440V (between Phases), Rated current not exceeding than 125A (We have range 0.5A-125A) and rated short circuit capacity not exceeding than 25KA ( Usually it is 10KAin MCB). This is designed for unskilled user (or say uninstructed user) and for devices not being maintained consequently. Also pollution degree covered is zero pollution to maximum pollution (degree 2). These are the circuit breakers we find in residential homes, shops, school and offices electrical distribution switchboards.

IEC60947-2

This standard applies to circuit-breakers, the main contacts of which are intended to be connected to circuits, the rated voltage of which does not exceed 1000 V AC or 1500 VDC. it also contains additional requirements for integrally fused circuit-breakers. It covers very high range of standard current carrying capacity (We have range of 6A-6300A) and meant for skilled user. The device is also supposed to be maintained properly. Also pollution degree is to be 3 or more. These circuit breakers are industrial applications and protect the power distribution of up to 1000 volts AC. and 1500 volts DC. (For MCBs, MCCBs and ACBs)

So it is clear that these items are different in their fundamentals. An MCB designed for indoor, pollution-free conditions and would not be suitable for harsh, outdoor applications that require pollution degree 3.

Typically, IEC 60898-1 certified Circuit Breakers meet minimally required performance to proof proper protection of household installations: Pollution degree 2, impulse voltage 4kV, isolation voltage is the same as nominal voltage 440V. That is the reason why usually we meet limited number of technical information printed on Circuit Breakers.

It is not necessary that Circuit breakers certified with IEC 60898-1 can’t be certified with IEC 60947-2, but for sure any manufacturer need to obtain certification. Rating of same MCB can be different for different standards, so, it is highly recommended to check the data properly printed on it.

So, the application and needs will decide that which device is to be used or selected.

Comparison Between IEC 69896-1 and IEC 60947-2
MCB Characteristic IEC 60898-1 IEC 60947-2
Rated Current: In 6 – 125A 0.5 – 160A
SC Breaking Capacity <25kA <50kA
Rated Voltage: Ue 400V 440V, 500V, 690V
Impulse Voltage: Uimp 4kV 6kV – 8kV
Pollution Degree 2 3
Curves B,C,D B,C,D,K,Z,MA
Application Current AC AC or DC
Electrical Auxiliaries No Monitoring Control
How to select MCB or MCCB at Different Circuit Levels?

Well, as we have clarified everything in the above sections, the MCB nameplate rating data and selection of proper MCB or MCCB also provides appropriate information. However, the choice between MCB or MCCB is based on certain factors and conditions, such as:

Below are types of MCBs which shows the magnetic fault protection. Also, to prevent the accidental overloading of the cable at no fault, there is a thermal device in MCB to eliminate the chances of unwanted tripping operation of MCB. For short circuit protection in home appliances, the current rating is about to 6kA while for heavy and industrial operation, it is above the 10kA.

MCB Type Min Tripping Current (Ir) Max Tripping Current (Ir) Operating Time
Type B 3 5 0.04 – 13 Sec
Type C 5 10 0.04 – 5 Sec
Type D 10 20 0.04 – 3 Sec

by the way, it depends on your needs and requirement for what you want to install. Many other different factors affect the situation, So you will have to read the next article below as we have added some simple calculation and formulas for MCB installation and selection for electrical wiring.

Applications Standards to be Followed
Residential Buildings IEC 60898-1
Commercial Buildings IEC 60898-1 or IEC 60947-2
Industries IEC 60947-2
Difference between ICS and ICU in term of Circuit Breakers.

ICS = Service Braking Capacity (means, circuit breaker can remove the fault, but it may not be usable afterwards.)

ICU = Ultimate Braking Capacity (means, circuit breaker can remove the fault and remain usable)

Characteristic of MCB and FUSE 

What is an ELCB (Earth Leakage Circuit Breaker)

ELCB stands for “Earth Leakage Circuit Breaker and it is used for protecting a person from electric shock and injury. The needs of these devices arise because of the number increasing in injuries as well as deaths because of electric shock.

This device is invented almost 50 years ago, but nowadays ELCB is not suitable because of its some disadvantages hence another device RCB (Residual circuit breaker) or RCD (Residual Current Devices) whose functionality is same with more advantages, but theory of operation is entirely different from ELCB. some of ELCB characteristic are as follow:

ELCB - Earth Leakage Circuit Breaker

ELCB, RCB and RCD Circuit Breakers

ELCB Construction:

It is international standard that each electronics device enclosure should be earthed. So, there would be no chance of electrocutions. For proper operation of ELCB, its need to bury a metallic rod deep in the soil and ELCB is connected between the wire coming from the rod to the wire attached to the external metallic body of the Electrical device or you can say that ELCB is connected to the Earth wire.

ELCB: Earth Leakage Circuit Breaker

ELCB Operation:

When the live wire (accidentally) touches the metallic body of the connected device or appliance, then there is potential generated between the earthed rod and the metallic enclosure of that device. The circuitry (inside the ELCB) senses the potential difference and when this potential difference reached at 50volt then ELCB cuts off the main supply from the connected device. This way it ensures the safety of the human beings.

To know the operation time of ELCB, lets see the following example.

The safest limit of current which human body (depends on multiple factors) can withstand is 30mA sec. Suppose the human body resistance (hands to feet) is 500Ω and he touches to the live wire having voltage of 230V AC to the ground. The current flowing through body to the ground will be:

I = 220V/100Ω = 440mA

Now, The ELCB must be operated in

30mA sec / 440A = 0.068m sec.

However, it is not used widely nowadays because of its some major disadvantages mentioned in the next section.

Electrical Shock Hazards & Effects on Human Body
Electrical Shock Hazards and Effects on Human Body

Disadvantages of ELCB:

To overcome with the above disadvantages of ELCB, another Device named Residual Current Breaker (RCB) is invented to use for earth leakage protection.

What is RCD , RCB or RCCB ?

Residual Current Device (RCD) is also known as Residual Current Breaker (RCB) or Residual Current Circuit Breaker (RCCB).RCD, RCB or RCCD - Residual Current Circuit Breaker

Residual Current Breaker (RCB) works on the assumption that the current going to the electronics device must come out from the neutral wire, if there is no other way for current flow. In simple words, RCB measures the current going inside the connected device and coming out from the device. If both of these current are equal, then there would no problem with the normal functionality of the device.

This device is also known as Current Operated ELCB which is known as RCCB nowadays. This device is more sensitive and accurate than ELCB and its functionality does not (entirely) depend on the earthed rode wire connection like voltage ELCB. Some of RCCB (RCD or RCB) characteristic are as follow:

Related Posts: Wiring of the Distribution Board with RCD 

Working of RCD or Current Operated RCCB:

The polarity of the phase winding and the neutral winding is opposite in normal condition. Therefore, EMF generated by the phase wire cancels out by the EMF of the neutral wire. If there is a difference in the incoming and outgoing currents, then the resultant EMF will not be zero and can be sensed by the CT of RCB. The signal from the RCB current transformer is fed to the RCB circuit and it opens the main power contacts.

Working of RCB or Current Operated ELCB

Advantages of RCD:

Related Post: Difference between AC and DC (Current and Voltage)

Disadvantages of RCD:

RCBO (Residual Circuit Breaker with Overload)

As we know that RCD won’t provide protection against Overload, hence an MCB and RCD are presented in a single unit known as RCBO (Residual Circuit Breaker with Overload). The operating principles are same as above but it provide more and reliable operation with overload protection in single box.

Difference between ELCB and RCD (RCCB)

The following table shows the key differences between ELCB and RCD (aka RCCB or RCB).

Characteristic ELCB RCCB (Also known as RCD or RCB)
Abbreviation Earth Leakage Circuit Breaker Residual Current Circuit Breaker
Operation Voltage Operated Device (Old Name, Old Technology). Current Operated Device (New Name, New Technology).
Fault Detection Only detects earth faults that flow back through the main earth wire. It will detect any earth fault. That’s why they are using now instead of ELCB.
Connection Connected to Phase, Neutral as well as Earth Wire. It is only connected to Phase and Neutral Wire.
Installation Needs an earth connection itself. No need of earth connection.
Types
  • AC =  used for Alternating Current
  • A = Used for Square-wave
  • B =  Used to DC
  • AC = Used for Alternating Current
  • A = Used for Square-wave
  • B = Used to DC
Nuisance Tripping Less High
Cost Costly Less Cost
Applications Not recommended. Replace it with RCCD. Almost all wiring systems use RCCD nowadays.

Keep in mind that both ELCB and RCCB are used for the same purpose, but the wiring connection is different. In RCCB, only the phase and neutral wires should be connected through it, whereas in ELCB, the main earth wire is connected through it.

Good to Know: An alternative device to RCCD (used in the UK, according to IEC standards) is GFCI (used in the US, according to NEC standards). Both are used for the same function.

Here is the table in image for reference.Difference between ELCB and RCCB (RCD or RCB)

The following comparison table shows the differences between MCB, MCCB, RCD and ELCB with protection features.

Image Name Short Circuit Over Load Earth Leakage
MCB (Miniature Circuit Breaker) MCB

Miniature Circuit Breaker

MCCB - Molded Case Circuit Breaker MCCB

Molded Case Circuit Breaker

RCD, RCB or RCCD - Residual Current Circuit Breaker  RCD

Residual Current Device

ELCB - Earth Leakage Circuit Breaker  ELCB

Earth Leakage Circuit Breaker

Here is the chart in image format to downloads as a reference.

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