TootyBooty
New Member
- Joined
- Mar 13, 2021
- Messages
- 16
From my memory of the presentation yesterday:
- 200A grid pass-through with ATS (this really is a nice feature for grid-connect, no need for an outboard ATS)
- 15kw continuous inverter capability from DC connected solar
- 12kw continuous inverter capability from DC connected battery. The battery input includes TWO, parallel 200A DC breakers with a busbar on the inverter side, so you do not have to combine externally. I asked what the limiting factor here was - the answer was that 12kw is a lot of power at nominal 48v dc batteries and the battery industry is really focused on 48v... for what it's worth, 2 x 200A DC breakers at 50V = 20kw...
- 3 MPPTs, with amperage upped to 26A per MPPT to handle increasingly larger panel availability
- Gen breaker supports 24kw (100A) for either generator or AC-Coupled inverters.
That's the extent of my ability to recall data. LOL!
- 200A grid pass-through with ATS (this really is a nice feature for grid-connect, no need for an outboard ATS)
- 15kw continuous inverter capability from DC connected solar
- 12kw continuous inverter capability from DC connected battery. The battery input includes TWO, parallel 200A DC breakers with a busbar on the inverter side, so you do not have to combine externally. I asked what the limiting factor here was - the answer was that 12kw is a lot of power at nominal 48v dc batteries and the battery industry is really focused on 48v... for what it's worth, 2 x 200A DC breakers at 50V = 20kw...
- 3 MPPTs, with amperage upped to 26A per MPPT to handle increasingly larger panel availability
- Gen breaker supports 24kw (100A) for either generator or AC-Coupled inverters.
That's the extent of my ability to recall data. LOL!