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MOLDED CASE BREAKER OR POWER CIRCUIT BREAKERS?

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MOLDED CASE BREAKER OR POWER CIRCUIT BREAKERS?

MOLDED CASE BREAKER OR POWER CIRCUIT BREAKERS?

ZOBLITZ

(Electrical)

(OP)

13 Mar 13 13:54

Hi everyone!

Our client is going to install a CO2 new plant; therefore they requested us install a main power distribution switchboard with service mains. Immediately I started to design the panel and I chose a _A, 480_V, 45kA low voltage power circuit breaker as the main disconnect device. When I had advanced making the drawings for the panel someone asked me &#;Why not choose a motorized molded case breaker is cheaper than your option?&#;

I think _A is on the border between a molded case breaker and a power circuit breaker so Right now I'm not so sure if there are others technical decisive aspects (excluding economic matters) for stay with a molded case instead of a power circuit breaker.I appreciate any comment regarding the subject.


I appreciate any comment regarding the subject.


Thanks.

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RE: MOLDED CASE BREAKER OR POWER CIRCUIT BREAKERS?

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dpc

(Electrical)

13 Mar 13 14:27

Not sure what border you are referring to - you can purchase A molded case circuit breakers and they will be cheaper than a LVPCB. There are a lot of advantages to LVPCBs over molded case, the main one being that they will provide much better coordination since they can be purchase without an instantaneous trip, whereas an MCCB (at least in the US) cannot.

Molded case CBs require basically no maintenance, other than periodic testing, but cannot be maintained. LVPCBs can be maintained, but must be periodically maintained.

The list goes on. Space and access requirements for LVPCBs will be greater than for MCCBs.

Bottom line: If you want it cheap - go with MCCBs. If you want it to coordinate and have a long life (and you have the space) go with drawout LVPCBs. If you want it REALLY cheap, go with fused switches.

RE: MOLDED CASE BREAKER OR POWER CIRCUIT BREAKERS?

DRWeig

(Electrical)

13 Mar 13 14:50

After 13 years, all is working just fine. The generator breaker stuck in the open position once and we were nice and black during the outage in which we needed it. I got the manufacturer's tech support on the and was advised to pick up something heavy and smack the breaker in the center of its front. Did so, breaker closed, no problems since. They do now have a spare sitting on a pallet nearby.

Last building I worked in did it on the cheap. Pair of A molded-case breakers with a PLC in lieu of a transfer switch for the standby generator.After 13 years, all is working just fine. The generator breaker stuck in the open position once and we were nice and black during the outage in which we needed it. I got the manufacturer's tech support on the and was advised to pick up something heavy and smack the breaker in the center of its front. Did so, breaker closed, no problems since. They do now have a spare sitting on a pallet nearby.

Best to you,

Goober Dave

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RE: MOLDED CASE BREAKER OR POWER CIRCUIT BREAKERS?

Zogzog

(Electrical)

13 Mar 13 16:12

Go with a reconditioned, modern, LVPCB and get the best of both.

RE: MOLDED CASE BREAKER OR POWER CIRCUIT BREAKERS?

jraef

(Electrical)

13 Mar 13 17:25 board, you have a choice. But generally, the main advantage of an LVPCB is the ability to "hold" in on a fault for up to 3 seconds until a lower level protective device clears it. This capability is part of the UL listing of LVPCBs. So you want to have LVPCBs in your primary Switchgear, which would be listed for the above purpose under UL. You can think of it as a last line of defense.

Putting an LVPCB into a switchboard, which most likely is listed under UL891 just like any other panelboard, kind of wastes that capability because nothing else in the Swbd will be rated for that anyway. So as a gross generality, people tend to only use LVPCBs in Swbds when they exceed the ratings of the MCCBs available from that mfr. most of the majors go up to AF in their MCCBs, a few go higher.

A couple of other important issues though, LVPCBs are MADE to be rebuilt and serviced, MCCBs are not really. People do it, but it is much more involved. So your long term cost of ownership may be lower for an LVPCB if the user has a regular scheduled maintenance program (and they should). But if the user is more of a "set it and forget it" company anyway, you may as well go with the MCCB. In addition to that, LVPCBs often come with much more sophisticated electronic trip and monitoring systems now. It's not that you can't get that in an MCCB, but it's pretty much inherent in an LVPCB. So if you plan on doing some energy monitoring and want to use the Main device as a data gathering point, the LVPCB may offer better options for you. But also check your Swbd mfr to see if they offer a UL489 listed version of the LVPCB. Since the Swbd can't handle the UL requirements anyway, the UL489 listed version is good enough and will cost less, but still offer the other advantages of LVPCB designs.

Since you are putting it into a Switch, you have a choice. But generally, the main advantage of an LVPCB is the ability to "hold" in on a fault for up to 3 seconds until a lower level protective device clears it. This capability is part of the UL listing of LVPCBs. So you want to have LVPCBs in your primary Switch, which would be listed for the above purpose under UL. You can think of it as a last line of defense.Putting an LVPCB into a switchboard, which most likely is listed under UL891 just like any other panelboard, kind of wastes that capability because nothing else in the Swbd will be rated for that anyway. So as a gross generality, people tend to only use LVPCBs in Swbds when they exceed the ratings of the MCCBs available from that mfr. most of the majors go up to AF in their MCCBs, a few go higher.A couple of other important issues though, LVPCBs are MADE to be rebuilt and serviced, MCCBs are not really. People do it, but it is much more involved. So your long term cost of ownership may be lower for an LVPCB if the user has a regular scheduled maintenance program (and they should). But if the user is more of a "set it and forget it" company anyway, you may as well go with the MCCB. In addition to that, LVPCBs often come with much more sophisticated electronic trip and monitoring systems now. It's not that you can't get that in an MCCB, but it's pretty much inherent in an LVPCB. So if you plan on doing some energy monitoring and want to use the Main device as a data gathering point, the LVPCB may offer better options for you. But also check your Swbd mfr to see if they offer a UL489 listed version of the LVPCB. Since the Swbd can't handle the UL requirements anyway, the UL489 listed version is good enough and will cost less, but still offer the other advantages of LVPCB designs.

"Will work for salami"

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News

A Molded Case Circuit Breaker (MCCB) is a crucial safety device in electrical systems, designed to protect circuits from overcurrent that can cause damage, fire, or electrocution. Unlike standard circuit breakers, MCCBs can handle a much wider range of currents and offer adjustable trip settings, making them suitable for diverse applications, from residential buildings to industrial facilities.

The design features of an MCCB include a compact, robust case that insulates and protects its internal components. This molded case encloses the mechanism that opens and closes the electrical contacts, the trip unit that senses the fault, and the operating mechanism. What makes MCCBs stand out is their ability to be reset after a trip, eliminating the need for replacement after an overload or short circuit, unlike fuses.

Operationally, MCCBs work by automatically interrupting the flow of electricity upon detecting an overload or short circuit. The trip unit within the MCCB measures the current and triggers the mechanism to open the contacts, stopping the current flow and preventing damage. This functionality is critical for maintaining the safety and integrity of electrical installations.

MCCBs are versatile and find applications in various settings, from protecting motors and generators to serving as main breakers in electricity distribution panels. Their ability to handle high current ratings, combined with adjustable trip settings, makes them ideal for both light residential use and heavy industrial applications.

What truly distinguishes MCCBs from other circuit breakers are their high current ratings, adjustable settings, and the ability to be reset and reused. This combination of features ensures that MCCBs not only provide effective protection but also offer flexibility and cost-efficiency, making them a preferred choice for safeguarding electrical circuits across a broad spectrum of applications.