tim292stro
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Currently the design is centered around a scooter CVT, and fully variable engine speed from idle to red-line. I'm still talking to the CVT vendor (custom "shift" tune), but I can share more details in the FOBIC build thread when I have them ready. Basically, per the engine manual I'm supposed to have 5-minutes warm-up, 5-minutes cool down with no load. With a custom controller doing auto-start I can program those intervals into the software so it doesn't have to be remembered. The scooter CVT has an idle clutch, so I can start and stop without the alternator inertia.
https://www.youtube.com/watch?v=uCEvBGT8twM
In general I'll be looking at the output voltage, output current, alternator RPMs, engine RPMs, engine TPS. If the current draw from the batteries is large enough the generator will start to make up the used charge and support the load. I'll allow the batteries to discharge while the engine/alternator gets up to a speed that can get the alternator back in the regulation voltage range (too high a current draw causes the alternator voltage to drop). When the alternator is above the regulation range it will slow the engine/alternator down to bring the regulation range for the load. If it has been "floating" the batteries for a given time, it will idle, cool down, and shutdown. The battery pack output will be fused at 225Amps, and soft limited at 200Amps, so I can ensure that I can charge batteries and support the load of the system so I get the most out of the run time.
[EDIT:] Were you asking about the simple kick-up control circuit I described? If so it's "bang-bang" control - you would set the engine RPMs with the solenoid deactivated to you low or high RPM setting, and the engine RPMs with the solenoid activated to the other RPMs. Simple high-low control. [/EDIT]
https://www.youtube.com/watch?v=uCEvBGT8twM
In general I'll be looking at the output voltage, output current, alternator RPMs, engine RPMs, engine TPS. If the current draw from the batteries is large enough the generator will start to make up the used charge and support the load. I'll allow the batteries to discharge while the engine/alternator gets up to a speed that can get the alternator back in the regulation voltage range (too high a current draw causes the alternator voltage to drop). When the alternator is above the regulation range it will slow the engine/alternator down to bring the regulation range for the load. If it has been "floating" the batteries for a given time, it will idle, cool down, and shutdown. The battery pack output will be fused at 225Amps, and soft limited at 200Amps, so I can ensure that I can charge batteries and support the load of the system so I get the most out of the run time.
[EDIT:] Were you asking about the simple kick-up control circuit I described? If so it's "bang-bang" control - you would set the engine RPMs with the solenoid deactivated to you low or high RPM setting, and the engine RPMs with the solenoid activated to the other RPMs. Simple high-low control. [/EDIT]
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