Mr. Serious
Senior Member
- Location
- Oklahoma, USA
- Occupation
- Electrical Contractor
For the past year or more, we've been wiring a convenience store under new ownership and being completely gutted and remodeled. They're just about to open, but we had a bit of a misunderstanding with fire suppression system controls wiring (the prints showed both fans supplied from the shunt-trip panel, which was incorrect), leading the system to be tested some number of times over the past few days. The system activates a 100A 3-phase shunt trip breaker, and after probably about 4 system tests, the breaker is now failing to turn back on and restore power to the items under the hood. Can this failure mode (breaker won't turn on) be caused by mis-application of shunt trip voltage?
The service is 600A 3-phase, 208Y120 volt. The shunt-trip breaker is the main breaker of a panel on the other side of the wall from the MDP. The MDP and panels right near it are 22 kA fully rated, so the shunt trip breaker is a GE THHQB32100ST1. We took delivery of this equipment in July 2023, so I am thinking this should still be covered under warranty from the supplier, but before I even ask, I want to make sure the failure is not because something was wired wrong. I find the breaker listed for $750 from one online supplier. I have not asked for quotes or approached anyone about purchasing it.
I didn't even think about this until after the failure, but it is my understanding that shunt-trip breakers are normally rated for only momentary application of voltage to the shunt coil. I am not sure if that is the way this system works. Another company built a control unit (brand: Amerex) and then I wired it up, using the diagrams they provided, which provide terminals to connect the shunt-trip coil, and state that the main control power supplying the controls themselves needs to NOT be interrupted. I have not tested so I don't know for sure, but the control unit may apply a continuous voltage to the shunt trip coil when the fire suppression system is activated. This may be relevant: I was told by someone who worked for the company that made the control unit that normally they had been using a single circuit board inside it, but because of the supply chain failures after 2020, they built this one out of discrete modules instead.
This is my first commercial job of this size and the only time I have wired a vent hood control unit. I don't know for sure who should be responsible for replacement of this bad breaker. I'm not on good terms with the supplier, but I believe they would still stand behind it if it truly was just a bad breaker, and not resulting from incorrect wiring. Assuming it's normal for a supplier to stand behind such things after this amount of time. The panels package was ordered in June of 2022, 75% of it was delivered to the supplier's warehouse in November of 2022, the other 25% of it in Feburary of 2023. I paid for it when it was delivered to them but they stored it and I took delivery of most of it (including the one with the bad breaker) at the job site on 3/31/23.
If my best option is to pay for the replacement myself, I'm wondering if a smaller amp rating and/or kAIC rating would be cheaper. There was only 11 kVA of load on the shunt-trip panel, and that's before moving the exhaust fan breaker to a different panel.
The service is 600A 3-phase, 208Y120 volt. The shunt-trip breaker is the main breaker of a panel on the other side of the wall from the MDP. The MDP and panels right near it are 22 kA fully rated, so the shunt trip breaker is a GE THHQB32100ST1. We took delivery of this equipment in July 2023, so I am thinking this should still be covered under warranty from the supplier, but before I even ask, I want to make sure the failure is not because something was wired wrong. I find the breaker listed for $750 from one online supplier. I have not asked for quotes or approached anyone about purchasing it.
I didn't even think about this until after the failure, but it is my understanding that shunt-trip breakers are normally rated for only momentary application of voltage to the shunt coil. I am not sure if that is the way this system works. Another company built a control unit (brand: Amerex) and then I wired it up, using the diagrams they provided, which provide terminals to connect the shunt-trip coil, and state that the main control power supplying the controls themselves needs to NOT be interrupted. I have not tested so I don't know for sure, but the control unit may apply a continuous voltage to the shunt trip coil when the fire suppression system is activated. This may be relevant: I was told by someone who worked for the company that made the control unit that normally they had been using a single circuit board inside it, but because of the supply chain failures after 2020, they built this one out of discrete modules instead.
This is my first commercial job of this size and the only time I have wired a vent hood control unit. I don't know for sure who should be responsible for replacement of this bad breaker. I'm not on good terms with the supplier, but I believe they would still stand behind it if it truly was just a bad breaker, and not resulting from incorrect wiring. Assuming it's normal for a supplier to stand behind such things after this amount of time. The panels package was ordered in June of 2022, 75% of it was delivered to the supplier's warehouse in November of 2022, the other 25% of it in Feburary of 2023. I paid for it when it was delivered to them but they stored it and I took delivery of most of it (including the one with the bad breaker) at the job site on 3/31/23.
If my best option is to pay for the replacement myself, I'm wondering if a smaller amp rating and/or kAIC rating would be cheaper. There was only 11 kVA of load on the shunt-trip panel, and that's before moving the exhaust fan breaker to a different panel.
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