These videos are fantastic. I am not an electrician, but I love to know how stuff works, and this tutorial really explains MCBs clearly and comprehensively.
I’m going through a career change and training to get my gold card. These video have been fantastic in providing a fresh explanation approach and a more visual learning experience.
Great explanation Joe. I often get asked why I use mainly 6kA MCBs in control panels. The answer as you have explained so well, basically there maybe no need for the 10kA. As the Ipf is very rarely even close to 3kA never mind above 6kA at source, and even a lot less at the CP. 👊😎👍💙
Yes had that short circuit issue where I used to work, seeing as the total length of cable, including the fuses and switchgear, was 15m, from the secondary terminals of the 250kVA transformer, via the 120mm2 cables to the busbars of the substation, and the 10m of 25mm2 SWA cable that fed the building disconnect. Did mean the voltage was stable at 238VAC on single phase though, though those 15kA breakers did cost a pretty penny when replacing a lot of the old Fuchs units for updates, though 2 of them stayed exactly the same at the original Fuchs units, no real replacement for the 100A 50kA breakers that fed the lifts, and all they got was dusting off and checking the screws were still tight. Board and breakers originally dated 1960, and, along with the substation, still going to be there for decades more no problem, with just a little regular maintenance.
Here's an idea relating to diversity edge cases: a smart consumer unit that monitors and varies supply to individual circuits in order to prevent the main fuse blowing. This would be based on a priority system; to favour showers over cookers for example, but also to modulate/vary the power by means of voltage/current reduction or, as in the case of dimmer switches, alteration of the sine wave etc. A warning could sound when say 95% of available power is being used, and power could maybe tailored/controlled using an app. This type of CU doesn't seem to be available, (and is a logical extension of a smart meter) but might be an essential tool for future smart grids.
I've got an old school 20A Variac and the smallest breaker that won't make it trip instantly, is a 40D. I ran 8m of 4mm armoured to my shed, which is the max the cable can take for that short of a run. But apart from my Variac with is a dead short on start up, the only other things I used that take that amount of power is my welder and heater.
Where I work in Sweden I’d estimate that 95% of MCBs are type C, indifferent of it’s a commercial or residential installations. Doing a check it’s not often it’s actually a problem using type C but unfortunately most sparks don’t know that they’re taking a chance/risk when doing so.
Type B for residential in sweden. C for anything industrial or pro kitchens because of start load of motors. Same goes for rcb's. Residential is type A and anything three phase or single phase with frequency converter gets type B.
@@thedangerzone9399 the wholesalers don’t stock any large amounts of type B MCBs. Fortunately it’s not very often there’s a problem with using type C in residential buildings.
@@MarkUKInsects we don’t have that system in Sweden. We’re supposed to do certain checks but nothing is saved or reported to any organization. That’s the most impressive thing about the UK and it would be great if someone would do a in depth video on what happens with the submitted documents and if there’s any follow up done. I could basically go out to a costumer and install a RCD next to an existing distribution board and only have to check the RCD, I’d not be taking responsibility for the rest of the installation and wouldn’t be able to make the customer change the entire board. It’s quite common with boards with different brands of MCB and accessories in.
Why are you promoting PALAZZOLI MCB's from Italy? Available from Denman's Where is the UK made kit! I would say MK but they are owned by Novar and CircPro (UK) a division of Yihua
These videos are fantastic. I am not an electrician, but I love to know how stuff works, and this tutorial really explains MCBs clearly and comprehensively.
I’m going through a career change and training to get my gold card. These video have been fantastic in providing a fresh explanation approach and a more visual learning experience.
Pleased you find them useful 👍 good luck with the card!
Great explanation Joe.
I often get asked why I use mainly 6kA MCBs in control panels. The answer as you have explained so well, basically there maybe no need for the 10kA. As the Ipf is very rarely even close to 3kA never mind above 6kA at source, and even a lot less at the CP.
👊😎👍💙
Taking an MCB to bits @ 3:35. BigClive would be proud!🥰.
Excellent! Concise, precise, useful and great fun to watch! Thanks a lot.
Excellent CPD video.
Thank you, I have been researching B vs C switches recently but your explanation is really detailed.
Yes had that short circuit issue where I used to work, seeing as the total length of cable, including the fuses and switchgear, was 15m, from the secondary terminals of the 250kVA transformer, via the 120mm2 cables to the busbars of the substation, and the 10m of 25mm2 SWA cable that fed the building disconnect. Did mean the voltage was stable at 238VAC on single phase though, though those 15kA breakers did cost a pretty penny when replacing a lot of the old Fuchs units for updates, though 2 of them stayed exactly the same at the original Fuchs units, no real replacement for the 100A 50kA breakers that fed the lifts, and all they got was dusting off and checking the screws were still tight. Board and breakers originally dated 1960, and, along with the substation, still going to be there for decades more no problem, with just a little regular maintenance.
Thank you for the comprehensive information
Here's an idea relating to diversity edge cases: a smart consumer unit that monitors and varies supply to individual circuits in order to prevent the main fuse blowing. This would be based on a priority system; to favour showers over cookers for example, but also to modulate/vary the power by means of voltage/current reduction or, as in the case of dimmer switches, alteration of the sine wave etc. A warning could sound when say 95% of available power is being used, and power could maybe tailored/controlled using an app.
This type of CU doesn't seem to be available, (and is a logical extension of a smart meter) but might be an essential tool for future smart grids.
Very useful, educative and informative posting
I've got an old school 20A Variac and the smallest breaker that won't make it trip instantly, is a 40D. I ran 8m of 4mm armoured to my shed, which is the max the cable can take for that short of a run. But apart from my Variac with is a dead short on start up, the only other things I used that take that amount of power is my welder and heater.
Can you talk about MCCB's panels and the breaker's to show other people who aren't sparky's.
Thanks
Why persons who doesn't have electrical qualification need to now about electrical switchgear and MCCB's?
@@girtsziverts3530 because it's interesting
Very useful video, TNX.
You imply the MCB is new. It has been extensively in use for industrial and domestic installations since the 60s.
Is there a incoming and outgoing for termination? I struggle to debating with my coworkers.
That depends on the device and manufacturer- usually not for MCBs
Where I work in Sweden I’d estimate that 95% of MCBs are type C, indifferent of it’s a commercial or residential installations.
Doing a check it’s not often it’s actually a problem using type C but unfortunately most sparks don’t know that they’re taking a chance/risk when doing so.
Type B for residential in sweden. C for anything industrial or pro kitchens because of start load of motors.
Same goes for rcb's. Residential is type A and anything three phase or single phase with frequency converter gets type B.
@@thedangerzone9399 the wholesalers don’t stock any large amounts of type B MCBs.
Fortunately it’s not very often there’s a problem with using type C in residential buildings.
@@kristiangoransson6104 How would that be scored on an EICR?
@@MarkUKInsects we don’t have that system in Sweden. We’re supposed to do certain checks but nothing is saved or reported to any organization.
That’s the most impressive thing about the UK and it would be great if someone would do a in depth video on what happens with the submitted documents and if there’s any follow up done.
I could basically go out to a costumer and install a RCD next to an existing distribution board and only have to check the RCD, I’d not be taking responsibility for the rest of the installation and wouldn’t be able to make the customer change the entire board. It’s quite common with boards with different brands of MCB and accessories in.
Great informative vid
Perfect
-Instantaneously- _Instantly_ - the MCB would not be very effective if the breaking was instantaneous ;)
You are absolute electrical genius.
Troll alert!!!!
Why are you promoting PALAZZOLI MCB's from Italy? Available from Denman's Where is the UK made kit!
I would say MK but they are owned by Novar and CircPro (UK) a division of Yihua