OK,
So I've played around with some chip programming, unlike the rockhead you've come to love. (er whatever) about thinking of my diesel engine. Something with which the analog chips might have a real problem is reading engine RPM and making sharable information available. For a single cylinder diesel the rpm (tach) reading options are limited. I don't want the engine bogging down if I'm not around. There's no sense in building an automated system if you have to watch it like a hawk. :-) Even, or maybe because of, the "stamp" approach, the reading of RPM is important. With a "stamp" slot (ram or stack address) available to keep an eye on RPM why not use it? Diesels run at a "sweet spot" for both fuel consuption and long life output. Find the load and RPM and keep an eye on both.
Anyway, if I could use the output from a tach I could keep my AC genhead closer to that sweet 60Hz zone. Or more accurately I could "preset" the engine govenor with no load to get better fuel/watt ratio.
If I mounted two tiny, like CD laser neos, on 180° of the flywheel with some rugged fixed coils, I could get a double pulse and use a 2 cylinder tach. If I could generate the "spark" signature made for a gas engine tach it would work wouldn't it? Ok that's for me, what about gleaning input into the control chippery? Is there a means I'm not finding for reading RPM and convertng that to digital?
Pepa, the nights are getting sweet in the Ozarks, better come visit on veggie and bring me a barrel. I might use 50 gals a year! Hell boy, come compare carpenter scars with me! Unless you like whitetail deer huntn' better not come after 10/01! :-)
Hell, I could build a stator plate and machine the 14+" Kubota flywheel to accept magnets and have a single plate radial flux. Without the second disc there would be losses, but I could build an actuatted stator to control output and load. That would take the belt loss away. One could allow for cogging by placing the stator plate out away from the lines of flux until the engine was warmmed up. Now we're talking about some benefits of automation in the first place. One could even program in monthly engine assisted equalization cycles, or on a very bright/high output PV day. The possibilities are there.
I'm not out to make a commercial electronic design here. I'm just willing to do the grunt work to maybe get an open source diesel engine control that's reliable cheap and easy. Well maybe reliable and cheap would be good enough for me. Look what this site has done for homebuilt wind power!
I've got way more time than money, but I'm always broke!
