Large electrical installations often mean endless cable pulling, long installation times, and limited flexibility when things change. In this video, we take a look at the Wieland Podis busbar system and show how it can speed up electrical installations, simplify power distribution, and make future modifications far easier. Less cable. Less labour. Smarter electrical work. Whether you're working on commercial buildings, apartment blocks, industrial installations, or EV infrastructure, this is a solution that's worth knowing about. Learn more about the Wieland Podis System. http://hub.efixx.co.uk/wieland-podis #electricalwork #electricalinstallation #electrician
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Now THAT is a diameter! And I knew there will be a wallbox in the end. That was obvious.
All that for an RC CAR CHARGER? Guess we'll have to take them seriously then.
Useless and dangerous plastic shit.
I am impressed
It's a bit like using push fits in plumbing; only thankfully plumbing is usually hidden. What I'm trying to say, is that, well, it's just not very pretty is it?
"speed up"? that video was longer than Titanic. 😂
❤😮👏
So smooth installation
Spectacular Job 👏🏼👏🏼👏🏼👏🏼👏🏼👏🏼👏🏼
If I installed a car charger in the US, it would just be three flying splices directly to the car, two with wire nuts.
How can a cable empty your bank account ? What about the price for this and all accessories
Proprietary cables,connectors, boxes, etc., so when that one company folds you will have to completely redo the entire system. Not to mention the inflated costs for everything.
Nah, a flat cable won't fit in a round hole
And the guy in the fork truck tore it right off the wall the next day
Piercing connections are NOT THE MOST SECURE OR RELIABLE CONNECTIONS due to limited contact area .
Just say no to cable piercing... again.
Watch it twice? I'm regretting watching it once.
Interesting choice for the order of the conductors. I would have made the three phases adjacent in order to reduce inductance per metre and so reduce cable reactance and hence volt drop. I also wonder about induced voltage in the cpc/earth conductor from the magnetic field in the gap between the phase wire at one edge and the other two phases. I would have gone for cpc, N, L1, L2, L3. It would be interesting to do a few experiments to test out my theory on this. And I wouldn't trust the idc connections for long term reliability.
Insulation Displacement Connectors have way too many downsides for me to ever use any. And everything in this video says "proprietary tech" and "too expensive for no valid reason".