I didn't do it on this one as all of the grounds (AC in, AC out, and Chassis) are all a common ground and couldn't understand the need for an additional ground but will be adding them in the future to "follow the rules"
We do not have a way of linking up different thermostats to communicate as a single unit. Each unit needs to be controlled by its individual thermostat
Any chance of a version which is 48V ? Also, which do you guys think is a better alternative ( either 1 or 2 ) in terms of electrical efficiency ? 1. 12 volt system ( using a 48 V server style battery with a DC to DC converter ) 2. 240 V system - using shore power & able to run from battery via inverter
We do not have a 48v systems in the works as of yet and my answer for the better option depends greatly on the capacity of cooling required. 7 or 12kBTU, I would go with 12v, stepping down from 48v but on 17K, the only option that we have is 240v but maintains a variable speed compressor so still a very efficient system.
Such clean installs 👍
Thanks Lexi!
Very nice!
Nice video! Does the 17,000 BTU unit come in 12V as well or do you need an inverter???
The 17,000 is only available now as 115v or 230v. The largest 12v unit that we offer is the 12,000BTU at this time
So this is running of an inverter? That is impressive.
Nice install but No chassi ground on the inverter?
I didn't do it on this one as all of the grounds (AC in, AC out, and Chassis) are all a common ground and couldn't understand the need for an additional ground but will be adding them in the future to "follow the rules"
@@MabruPowerSystemsINC What do you think of the Velair AC units with variable-speed technology and a brushless
motor ?
If you install multiple units can you have several thermostats wired so they talk to each other, with one serving as a master thermostat?
We do not have a way of linking up different thermostats to communicate as a single unit. Each unit needs to be controlled by its individual thermostat
Any chance of a version which is 48V ?
Also, which do you guys think is a better alternative ( either 1 or 2 ) in terms of electrical efficiency ?
1. 12 volt system ( using a 48 V server style battery with a DC to DC converter )
2. 240 V system - using shore power & able to run from battery via inverter
We do not have a 48v systems in the works as of yet and my answer for the better option depends greatly on the capacity of cooling required. 7 or 12kBTU, I would go with 12v, stepping down from 48v but on 17K, the only option that we have is 240v but maintains a variable speed compressor so still a very efficient system.