There aren't as many manufacturers. Try Teccor, which makes DIACs in
the DO-35 (small signal axial diode package) as well as DO-214 (surface
mount). One distributor is Digi-Key; another is Mouser (they only
stock the thru-hole parts).
DIACs were made primarily for analog phase control of AC loads using an
RC charging circuit. That's nowhere near as amazing as it was in the
'60s, when these parts were developed. The simple phase control
circuit (view in fixed font or M$ Notepad):
___
o -|___|--o--------------.
Load | |
| |
.-. |
| |<----. |
| | | | Q4010L
'-' | _|_
120VAC | | |<| V_A
o------o-|\|-/ |
| |>| |
--- HT-35 |
--- |
| |
| |
o---------o--------------'
created by Andy?s ASCII-Circuit v1.24.140803 Beta
www.tech-chat.de
has a lot of limitations. Non-resistive loads don't fire well, the R-C
charging constant is dependent on line voltage, and these circuits all
have "snap-on hysteresis", which means you don't have good control of
the phase at the low end. The circuit tends to generate EMI/RFI, which
is a no-no. Also, these triggers have asymmetry in their bidirectional
trigger voltages, which leads to a DC component applied to the load
(can be very bad for inductive loads, lets the smoke out).
These problems led to some manufacturers dropping out of this market in
the 80s and 90s. Also, some of the ICs which did this job far better
and more elegantly than a standard DIAC were single-source, and were
dropped due to lack of demand and yield issues (I still like the old GE
ST-4, and have a treasured few tucked away -- but I'm not sure exactly
why anymore. I guess it's like that when you get older ;-) ). After
the 2N4991/2/3 (Motorola) and the ST-4 (GE) left the picture, the stuff
that was left mostly DIACs triggered at higher voltages (30V and up),
which again reduced the market (you can't turn on the triac until the
AC gets up to 30v). This made the whole concept even less popular.
These days a lot of phase control of AC loads is done digitally,
especially with small microcontrollers. All you need to do is read the
AC line zero crossing, determine if you're at 50Hz or 60Hz, and measure
out a time until triggering the triac. You can get full 180 degree
phase control, and can get easy integration with any sensors attached
to the stuff you're controlling, as well as a plethora of added
features which jack up the price. Sure beats one plain Jane dial for
control, I guess.
By the way, a DIAC is more complicated than just two avalanche/zener
diodes back-to-back. Once the voltage across the DIAC reaches the
trigger voltage, it turns on and remains on until the voltage reaches
the breakback voltage, typically 7V or so. This gob of current being
discharged from the cap into the gate of the triac is what turns it on.
Try reading a few appnotes from the Littelfuse/Teccor knowledgebase to
get up to speed:
http://www.littelfuse.com/cgi-bin/r...?LFSESSION=D3vQhBBLET&ContentID=86&WhichApp=6
particularly AN1003 - Phase Control Using Teccor Thyristors
as well as the DIAC datasheet:
http://www.littelfuse.com/data/en/Data_Sheets/E8Diac.pdf
Good luck
Chris