Nuno Sucena Almeida wrote: > ...I feel that the opto-coupler solution would be simpler...
Would you believe You-Do-It Electronics stocks zero reed relays? They have a whole shelf of relays, but no reed type, never mind TTL compatible reed relays. Heck, even Radio Shack stocks one: http://www.radioshack.com/product/index.jsp?productId=2062478 though the coil resistance is half, and thus the current requirements are twice what the NTE part was. With a $10 Y-D-I coupon burning a hole in my pocket (they are the only store I know of that gives coupons for money off with no minimum purchase), I ended up picking one of the 4 optocouplers they happened to have on hand. Of the ones NTE distributes: http://www.nteinc.com/Web_pgs/phototransistor.php?a=8 I would have gone with a Darlington, like to 3083, or the low LED drive current (1 mA) 3096, as either would minimize LED drive current, but neither were stocked. The Darlington they did have, 3044, shows a collector dark current (leakage?) of 1 mA, which seems rather high, given that all the others are 100 nA or less. I ended up going with the 3042, which has a max 50 nA dark current. The 20% minimum current transfer ratio seems troubling. That would mean with 10 mA going through the LED, I could see as little as 2 mA going through the output transistor. That could be a problem, particularly if I drive the LED with only 2 mA. I'm assuming that current ratio applies over the liner operating range, and not when the transistor is saturated, but it doesn't look like there is enough info in the data sheet to tell where the transistor saturates. The optocoupler does bring the base out to a pin, so you can add some bias, presumably at the expense of increased dark current. I could also drive a second transistor in a Darlington arrangement. But either of those options just mean more fabrication and fiddling. -Tom _______________________________________________ Hardwarehacking mailing list [email protected] http://lists.blu.org/mailman/listinfo/hardwarehacking
