I'm planning on using four XHP70's for my DIY comp build.
If I were to piggyback 3 or 4 FET's on the same board (Older v1.0 type board, DPAK-2 FET), will the 13a have a strong enough drive signal to operate them all?
Unless you're only planning on a 100% mode level with a big gate resistor, no. We're already pushing the little attiny pretty hard switching one of them at the faster PWM levels. You'll find that the attiny will glitch out big time trying to drive multiples in the middle levels, and even a single FET sometimes.
I think you could get away with a single FET for that build with a little creativity: use a small PFET to power the NFET gate directly from the 8V+ input. It will load the attiny way less and will give the FET access to higher gate voltages, which will decrease the resistance of the FET. You could also easily power more than one FET off the same attiny, if needed. You would need to basically invert the PWM values, since the PFET turns on when the gate is pulled low.
It is a crazy untested idea, but in theory it should work. I don't think you need a dedicated gate driver IC since we're switching relatively slow.
Yep. That works. You can use a very small PFET, just use one that has sufficient voltage ratings. You may also need a pull up resistor to keep it off, but you'll have to figure that out in use.
I tried reading up on them, but I'll just accept a "no", & move on to locating a suitable P channel.
All I know is that the FET doing the main switching is rather loaded with a lot of current, so the AtTiny is having dramas moving the switch(NFET), so we are using an intermittent switch (PFET) to lend a hand.
I know that's probably the least technical description, & will make someone who knows what they are talking about cringe.... ;)
-- edit --
I now understand enough to see why the N channel would not work.... from a Positive feed.
Transistor Polarity: P Channel
Continuous Drain Current Id: 11A
Drain Source Voltage Vds: 200V
On Resistance Rds(on): 500mohm
Rds(on) Test Voltage Vgs: -10V
Threshold Voltage Vgs Typ: -4V
Power Dissipation Pd: 125W
Package: TO-220
Pulse Current Idm: 44A
I'd get one with a much lower voltage rating (you'll get better overall specification for your application). I'd look at an SOT-23 package. That 44nC gate charge is really high and you don't need a huge TO-220 package.
I’ve been hitting a wall. I’m putting together an Triple XP-L for woodfiend, and I have a problem. When I put it together (assemble the light, with driver soldered to the pill) the light loses its ability to change modes. I didn’t notice until I went to do measurements on it, and I’m wondering if it’s not the driver but the LED’s(but I can’t fathom why).
I’m using BLF17DD’s (I’m on the second one, I assumed the first one was bad, but the second is doing the same thing). When I tested it on my PSU before soldering the driver everything worked. Soldered the driver in place, still working. Assemble the light, mode switches 1 time only then not any more. I can program the guppydrv and set mode groups and it will start at whatever the modes first level is, but won’t change.
Do I just need to bite the bullet and start replacing LED’s?
Yes I have. I had the same concerns about the OTC, but considered it unlikely when a second driver with all new components exhibited the same issue once assembled into the light. Not saying it’s completely ruled out, but I’m doubtful at this point that it’s the culprit.
They’re actually MTN17DD’s, I remembered wrong. Version 1.11, you’re special batch of boards with the masked + pad. Using the guppydrv firmware you flashed for me.
This is the 8th or 9th I’ve assembled, and only 1 other had any issues after assembly(I think that one got overheated).
Can you try it with a half-full or weaker battery? The voltage may be boosting too high for the MCU which causes it to glitch. I've seen this happen on really heavy loads with full high-drain cells on some drivers.
That is definitely weird. I wonder if it uses on-time (exclusively) to determine whether to enter programming mode, and off-time (exclusively) for changing modes. That way, an issue with the OTC draining too fast could result in the symptoms described.
Maybe the OTC got shorted so it can’t hold a charge?
OK, so a weaker cell doesn’t appear to make a difference. But now it won’t go into programming mode. Grrrrr. I know for sure that the lead wires are not shorting out, and the jumpers are on for parallel operation. The driver isn’t bottoming out in the pill, and it was the best reflow job I’ve done yet.