However you do it digitally the problem is the same. I think you have got hung up on the concept of a voltage regulator. This is not a buck switching voltage regulator. Your requirement for tracking maximum power doesn't want you to maintain the dc output voltage ( that would be useful with batteries fully charged in place of another charge controller).

However you do it, you need to measure the power going into the battery, alter the pwm and see if the power increases or decreases then change pwm to get a better result.

Amanda seems to be using input volts and current to get power and that should be good enough but the power you are interested in is to the battery and efficiency may vary.

For very precise results you may consider the true battery voltage but it will be near enough to assume battery volts are constant and that the output power is proportional to output current. Surely any tracking scheme must include output current or at least input power if you opt for that route.( you need input volts and current in that case)

Input volts are not much use as they change with loading. You need emf for speed and unless you try the solar trick of open circuiting you can't get it ( best not try that trick with wind). You can get rpm from frequency ( or the time interval if you want to work backwards, possibly easier with a processor). Speed is not needed for a true power point tracker but it is useful as when you are right the speed will rise linearly and the power follows its cube. When things are going crazy and you have trouble tracking fast enough you can set the current roughly from speed cubed. When conditions are stable then you can modulate the pwm and find the peak power point .

In the perfect world you can measure wind speed with an anemometer and if you track the prop speed to follow wind speed by altering the loading you will be very close and that would be a simple way. It probably works well enough on clean sites and with large machines with their high inertias, tracking average power against average wind speed may be as good as you can get.

With small machines with fast response and the severe difficulty of measuring the same wind as the prop sees it may be much more tricky and it is far from convenient having to move the anemometer with wind direction or have a bank of them. It would at best only give you a ball park figure and you would still need the pwm modulating method for a final track.

Personally, I like the .45 Long colt ;)

Anyhew . . . thanks for the link, sw4's posts are interesting, even if they are over my head mostly :)

To Tom, and everyone else. Previously I had been under the impression that winds here top out at around 60 mph, but recently learned that winds here during storm events can exceed 80mph(even if the weather channel says otherwise). This is probably how a lot of the wind turbines in this area end up dead door nail. Not just the cheesy Mallards, etc. Winds here are not always very high, but when they do blow I would have to say that 20-25mph would be fairly common. Monsoon season is altogether a different story . . . and winter here can be rough too.

Again, let me reiterate; I am very electronics newb. Also, it probably looks as though I am bouncing around here from one idea to the next(which I probably am), but I am looking for a decent output 'bulletproof' design. What I consider decent output is ~500w at ~25mph, and something that will give me ~10 amps in winds of ~15mph(less than 15mph would be good too). How the buck controller figures in here, is that I have read that you can use them to help stall the machine, which I am thinking coupled with a small-ish machine, and furling could help avoid a catastrophic failure. Also, I am under the impression that a buck converter could help keep an alternators efficiency higher than just dropping the output directly into a regular charge controller(we use Xantrex C60's here) Maybe a boost controller could be used to stall an alternator ? I honestly do not know, but I do see the appeal of running a delta configured coil set, with a boost controller to extract low speed winds.

My very basic concerns are that I do not want to build something(especially from scratch), spending hard earned cash, only to see a storm event rip it to shreds. As Flux has said in one of my previous posts, perhaps I am over thinking things, and worrying too much ? I always like to err on the side of caution though . . .it is just in my nature. Extracting every last bit of power that I can is of course a plus.