As long as the cables are same length and dimensions, I agree. However, if they have reduced the length, it may be something in it.That can’t be right. You’d still have the same resistance in the cables to/from the wireless charging interface.
In one of the videos of Tesla Bjørn, you will see that there are lot of heat in the cables. He used thermal sensing device to show this. BTW, many charging stations above 150 kWh are using liquid cooled cables.@Rollep: I do not believe there is any heat, as the current is captured by an inductor that heats up and all the charging system sees is the same power as in cables. But inductors are not fully efficient and will heat up.
@SHN: I do not believe this is true, there is very little resistive heat loss in cable charging. Wireless is very convenient, and maybe even some day you can have sections in roads (not cost practical but possible).
Its all about convenience and "cool factor." I for one find it much easier to plug a car in and move a charger around than putting down mats and parking on them. I also get the option to move the car to different spots and/or leave outside.
Maybe, but 27 kWh of thermal energy as in your example sure is a lot of heat.@Rollep: I do not believe there is any heat, as the current is captured by an inductor that heats up and all the charging system sees is the same power as in cables. But inductors are not fully efficient and will heat up.
I have a feeling with the difference in power output and the differentials and parts that may be needed that would not be the case.I think the rear motors on all models are the same and just modified by software and Porsche is just naming them differently. It would be cheaper to just built one type of motor and modify it’s software rather than built 2 different types. Just my 2 cents. We will find out when someone will take them apart.
but There also will be a cable from the wall outlet to the charging pad on the floor.At an EV convention in Oslo, Norway, last year, I think. It was said that Wireless Charging was better than with cable, because the resistance in the cable. Charge operator Fortum is working with Taxies in Oslo with wireless charging. I guess we will find out if the theory is true.
The rear motors between 4S and Turbo/Turbo S have different hardware with different physical sizes.I think the rear motors on all models are the same and just modified by software and Porsche is just naming them differently. It would be cheaper to just built one type of motor and modify it’s software rather than built 2 different types. Just my 2 cents. We will find out when someone will take them apart.
Unlike some EV manufacturers, Porsche is quite open with information on how the car is put together and and differences between Model like 4S, Turbo and Turbo S.You may be right that is what he ment. Maybe it was lost in translation.
My understanding before the visit was that it was different engine/DU.
However, it may also make sense if it was the same and it was standardize to keep the production cost down. It would also give Porsche the ability to sell OTA upgrades. We will see when the first 4S is reversed engineered
ORNL demonstrates 120-kilowatt wireless charging for vehiclesI am not sure why people are excited about wireless charging. Yes it is "neat," but think about even at 70% efficiency (which I do not believe is possible) charging 90KWHr will mean you are throwing away 27 KWHr. That is a bit out of control imho.
The wireless system transfers 120 kilowatts of power with 97 percent efficiency, which is comparable to conventional, wired high-power fast chargers. In the laboratory demonstration, power was transferred across a six-inch air gap between two magnetic coils and charged a battery pack.
I referered to a Wireless project in Oslo, which you can read about. I don't remember who's the supplier of the system, but I remember that they said that it was more efficient than cable. I guess the project will find out.This is great, thanks, but it still is a laboratory system with ideal conditions and alignment and across a six inch gap. There is still a bit to go to make real life systems.