Ok my current setup on my 96 Eagle Talon TSI 4cylinder.
1.) Fully built motor ( I built it last year)
2.) HX35 turbo running 35psi of boost, puts me around 550 - 600hp. I get full boost at 4000 - 4500 RPM and ride it to 7500
This is a hobby for me and my car runs fine like it is so I will be happy to spend the time and learn what I need to before taking my car apart and putting an electric turbo on it.
1)What engine size do you have..
4Cyl 2.0 L
2)What is readline rpm :
8500 but I only run to 7500
3)What boost do you want to run at read line,
i currently run 35psi there and want to run the same
4)What what run time are you looking for at max power...
Realistic please.
This is a fun street car, I want to be able to turn on full boost whenever the heck I want to without having to antilag and 2step or downshift to get back into boost. I want to be able to do a few pulls for 30 or 45 seconds then switch lanes ect, do another pull. Its a weekend warrior not a daily.
5) Are you trying to run this off the stock cars voltage (12-14.8v)
- I would love to I have no problem buying a 200 - 300 amp alternator to charge the battery. I found some powerful car audio batteries that will run 65ah a piece and I also found some nice LIPO car batteries that can do 100 - 300ah depending on the battery. Both are 12v systems.
My Logic (Could be way off, NEWB here)
Based on the compressor map of the test turbo I will be using (GT45). I need between 75000 - 85000 RPM's to get my to 35psi and the airflow that I want.
It seems that that RPM is at the peak of most of the electric motors on the market, I know from experience not to run anything at peak power for any period of time or things break.
This is where I get the 100k RPM, if I can come up with a system that can at peak give me 100k, I can run them between 65k and 85k on and off while having fun on the street no problem.
Things that make no sense to me right now, wrapping my head around them
1.) The blower
I read the forums that the guys made 5psi ish from the blower thing, the spec on the website says it has a max spin of 52000 rpm, do 22psi, . In one video the guy was spinning it at 65000 rpm and not getting anything airflow close to something that would give 80 lb/min (800hp). It seems that the blower company is false advertising and the guys that are spinning them can get much better airflow, at the same rpm from a higher quality blower/turbo, many turbo's spin at 65000 rpm and give you 15 - 30psi and 50 - 70 lbs/min of air no problem.
OR I am missing something about the RPM.
2.) The batteries
I don't understand this just yet, trying to get my mind around the math.
I get that more volts means you use less amps, and I can step up my car voltage to charge a higher volt system no problem
I can install at 200 or 300amp alternator no problem
I get the higher KV more rpm but less torque, and vice versa
More Amps More Heat? More Volts less heat, smaller wires?
Trying to understand the right balance of volts vs amps, and how much a motor can handle.
My back of the envelope math based on another guys post tells me at 48v i need about 100ma to spin my turbo where i want it. Can i just divide this down to 12 volts and say at 12v i need 400ma or is there some formula?
3.) The motors
There are so many options and pairings that its hard to know what to choose. Seems that most on this forum resort to using one motor. I'm sure there is a good reason i just don't get it yet, i probably will soon.
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Updated Thought Process
I just took a look through
https://theecharger.com/, learned a lot and now have another idea.
Now if i take a step back and look at the problem I'm trying to solve, I want to solve my lag problem at low boost. Instead of making the entire car run from an electric turbo i should be able to compound it. I could work with a 20000 - 50000 rpm motor to give me boost from 1000 - 5000 while my main turbo spools up and then trail off the electric or slow it down for a little extra power when i want it...
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I think this is probably the best option here, what do you think? I can do this on a 12v system with a 3000 - 5000kv motor. Thoughts?
Thanks for all of the help, just dumping my entire brain out right now. Want to understand this stuff and really build something cool.
