Engine setup
- V12 60 degree even-fire
- maximum RPM is: ..... (interesting for ignition hardware peak current)
- Mounted in a boat (pro-longed high load compared to a car)
- Two spark plugs per cylinder, total 24 spark plugs (12 wasted spark coils)
- Bosch Motorsport 3x2 coilpacks (4 pcs required for one engine)
- could be driven from 6 IGBT-s (IGBT can handle the double current if dwell is set sufficiently - not too high, and peak RPM < 7000 RPM)
- Beru 3-channel ignition modules (min 10 mA drive current)
- One fuel injector per cylinder
- Siemens High-Z 9 Ohm fuel injectors
- 24-1 crank mounted trigger wheel (or 24-2 is also OK)
Due to lack of outputs I will handle the engine electrically as an inline 6 cyl.
Two injectors per injector output.
- Can one FET handle sustained high duty cycle with sufficient cooling?
- yes, 100% duty upto about 5 (or even 6A) is OK. (the FET's peak current is about 14A but we specify much lower)
- Two injectors 9 Ohm results in 4.5 Ohm @ 14 Volts = 3 Amps
- yes, 3A is no problem at all. Make sure to connect flyback wire, of course.
Driving the ignition modules
- Six outputs required - using four stepper outputs and two logic level outputs
- Drive current requirement per ignition module input is minimum 10 mA
- Driving two channels is a minumum 10x2 = 20 mA up to 40 mA.
- Can the IGBT logic driver handle this? 20mA : yes, 40mA: no (but 40mA should not be needed anyway)
- Suitable resistor values on board?. 255 Ohm is suitable to drive one module, but 120-130 Ohm needed to drive 2 modules (that still protects the i259 chip's outputs).
- Stepper outputs are powerful, but current limiting resistors (100-200 Ohm) are recommended to protect from short circuits