This is a multi-part message in MIME format. ------=_NextPart_000_0005_01C2ADF1.EC5C9810 Content-Type: text/plain; charset="iso-8859-1" Content-Transfer-Encoding: 7bit > I'd be interested in the circuit that you used - and I'm sure others would > be too. While there are a zillion ways to build a boost converter, what > someone has actually done and why, would be interesting. Um, well, er, it's not the most elegant example of a low cost and highly efficient buck converter. The what and why had a lot to do with wanting to use it tomorrow and the parts on hand. If you're looking for a good design lesson or inspiration, this isn't it. I had been playing around a little with the idea of using low end PICs to control battery operated boost converters. The thought was that a low end PIC is considerably cheaper than many switching power supply chips, like the National simple switchers. With the right kind of FET, the PIC could control the gate directly. Feedback would be simple level detection, and the logic would be controlled in the PIC. The A/D input of the PIC could be used to measure the battery level. This knowledge would in turn be used to determine the maximum time the FET could be on before saturating the inductor, and also to shut down before draining the battery to the point of damage (assuming rechargeable). Some of these experiments were going pretty well, and I was also testing out feedback to determine when the flyback pulse was over. That worked well too. However, the target was a 12F675, which I didn't yet have at the time. Eventually my plan was to dynamically alter the pulse width depending on the time required between pulses to tweek the efficiency. Now for reality. Since you asked, I placed the schematic at http://www.embedinc.com/temp/l.jpg. This shows some of the ideas I was working with, but also shows a rather inappropriate use of a 16F628. The accuracy of the crystal oscillator is not necessary (later experiments did use the internal oscillator of a 12F675), but that's how I was experimenting at the time. When I went to build the light itself (the day before heading to the Maine woods for a week), I didn't have time for something to go wrong so I copied the bench test circuit most of the way and didn't reprogram a PIC - 16F628 and crystal and all. The circuit works like this: R4 is the current sense resistor, the voltage of which is detected by Q2. The voltage "reference" is the B-E drop of Q2 (the bench experiments had been tests of regulating voltage, not current, so this was a last minute hack). When the current thru the LEDs goes below the threshold, the voltage on R6 drops, Q4 turns off, and RB1 goes high due to its internal pullup. This causes the firmware to emit a pulse on RB7, which turns on Q1 to charge up L1. When Q1 is turned off, the current in L1 gets dumped thru D1 onto C3 and C4, thereby powering the LEDs and increasing their current. R7, Q3, R2, R6, and Q4 provide feedback on when the flyback pulse is over. This is used by the firmware to prevent another pulse from being started while D1 may still be conducting. Note that Q5 can also pull RB1 low, which prevents pulses. Q5 goes on only if the LED voltage is higher than it should be. The purpose is to prevent something from getting fried if the LED string goes open circuit for some reason. With the values of R8 and R9 shown, this triggers at about 15V. Efficiency was only about 70% if I remember right. Well, there you have it, warts and all. I've attached a picture of the light clipped to a hat. The black blob contains the circuit hastily wired on perf board and a pocket kludged out of electrical tape to hold the rechargeable NiMH battery pack. I got about 4 hours from a fully charged pack, which was quite adequate for the purpose. These packs are small, and you can easily carry several when hiking. I think I took about 8 charged packs with me, and used up less than 3 of them during the week. > There are ICs > around specifically designed for series driving strings of white LEDs at > constant current. I didn't know that, although the LED light was really a spinoff of other experiments, and it was fun. As I said, this is not the circuit I would use if this was intended for volume production. > One of my "sometime" projects is a multi LED torch which can drive one or > several LEDS and allow the user to vary the brightness if desired, Perhaps that is useful in some applications, but I've never wished this light or any flashlight I've used had a brightness adjustment. -- http://www.piclist.com hint: To leave the PICList mailto:piclist-unsubscribe-request@mitvma.mit.edu ------=_NextPart_000_0005_01C2ADF1.EC5C9810 Content-Type: image/jpeg; name="light_600.jpg" Content-Transfer-Encoding: base64 Content-Disposition: attachment; filename="light_600.jpg" /9j/4AAQSkZJRgABAQDqYOpgAAD/2wBDABALDA4MChAODQ4SERATGCgaGBYWGDEjJR0oOjM9PDkz ODdASFxOQERXRTc4UG1RV19iZ2hnPk1xeXBkeFxlZ2P/2wBDARESEhgVGC8aGi9jQjhCY2NjY2Nj Y2NjY2NjY2NjY2NjY2NjY2NjY2NjY2NjY2NjY2NjY2NjY2NjY2NjY2NjY2P/wAARCAGOAlgDASIA AhEBAxEB/8QAHwAAAQUBAQEBAQEAAAAAAAAAAAECAwQFBgcICQoL/8QAtRAAAgEDAwIEAwUFBAQA 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