I should mention at the outset that I'm not interested in putting the car in Sport mode and running the ICE for hours to keep the alternator running and Drive Ready mode active. I already have a generator that will produce electrical energy from gasoline much more efficiently than my car will. Instead I want to use the energy stored in the HV battery without running the ICE.
I'm not sure if this is even possible, but if it is, it would presumably be done by either
1. Connecting a charger to the HV battery directly, or
2. Connecting it to the 12V battery's terminals and extracting energy as the car's battery-management system uses the HV battery to replace the energy being extracted.
I have so little understanding of the car's electrical systems that I have no idea of how method 1 could be implemented. I'd welcome any comments from anyone who does have that understanding.2. Connecting it to the 12V battery's terminals and extracting energy as the car's battery-management system uses the HV battery to replace the energy being extracted.
I can though conceive of how method 2 could be used. The easiest method would be if I could connect my charger to the car's 12V battery, connect the charger's output to my home battery, then walk into the house and let the HV battery charge my home system via the 12V battery terminals.
Of course once I exit the car it will enter the Idle mode, where it will at least trickle-charge the 12V battery. That's why the manual tells drivers to make sure the HV battery is fully charged if the vehicle is going to be parked for an extended period of time, like in an airport parking lot.
But just how much current can the HV battery actually deliver to the 12V terminals in the Idle mode? I'm guessing that it would not be very far above trickle-charge current. Again, I'd love to get a response from anyone who knows.
What about in the Drive Ready (DR) mode? I'm guessing that in the DR mode the HV battery will charge the 12V battery at a much higher amperage, since in that mode the car has to be capable of doing a lot of things requiring 12 volts. Does anyone know how much current the HV battery can deliver to the 12V terminals in the DR mode?
Just as I don't want to run the ICE for hours while my home battery charges, I also don't want to sit in the car for hours to keep the car in DR mode so that the HV battery can charge my home system. But I don't know of any way to walk away from the car and have it remain in Drive Ready mode unless the ICE is running. Nor do I know how to keep it in Standby mode, and who knows whether the HV battery will charge the 12V terminals in that mode?
So clearly I've got no answers but lots of questions. Let me summarize them here.
1. How much current, if any, can be drawn from the high-voltage battery at the 12v battery's terminals when the car is in Idle mode?
2. Same question for the Standby and Drive Ready modes.
3. Is there any way to walk away from the car and have it remain in Drive-ready mode, so as to take advantage of the presumably higher current available in that mode?
4. Has anyone tried anything like this?
