If you need assistance, please send an email to forum at 4hv dot org. To ensure your email is not marked as spam, please include the phrase "4hv help" in the subject line. You can also find assistance via IRC, at irc.shadowworld.net, room #hvcomm.
Support 4hv.org!
Donate:
4hv.org is hosted on a dedicated server. Unfortunately, this server costs and we rely on the help of site members to keep 4hv.org running. Please consider donating. We will place your name on the thanks list and you'll be helping to keep 4hv.org alive and free for everyone. Members whose names appear in red bold have donated recently. Green bold denotes those who have recently donated to keep the server carbon neutral.
Special Thanks To:
Aaron Holmes
Aaron Wheeler
Adam Horden
Alan Scrimgeour
Andre
Andrew Haynes
Anonymous000
asabase
Austin Weil
barney
Barry
Bert Hickman
Bill Kukowski
Blitzorn
Brandon Paradelas
Bruce Bowling
BubeeMike
Byong Park
Cesiumsponge
Chris F.
Chris Hooper
Corey Worthington
Derek Woodroffe
Dalus
Dan Strother
Daniel Davis
Daniel Uhrenholt
datasheetarchive
Dave Billington
Dave Marshall
David F.
Dennis Rogers
drelectrix
Dr. John Gudenas
Dr. Spark
E.TexasTesla
eastvoltresearch
Eirik Taylor
Erik Dyakov
Erlend^SE
Finn Hammer
Firebug24k
GalliumMan
Gary Peterson
George Slade
GhostNull
Gordon Mcknight
Graham Armitage
Grant
GreySoul
Henry H
IamSmooth
In memory of Leo Powning
Jacob Cash
James Howells
James Pawson
Jeff Greenfield
Jeff Thomas
Jesse Frost
Jim Mitchell
jlr134
Joe Mastroianni
John Forcina
John Oberg
John Willcutt
Jon Newcomb
klugesmith
Leslie Wright
Lutz Hoffman
Mads Barnkob
Martin King
Mats Karlsson
Matt Gibson
Matthew Guidry
mbd
Michael D'Angelo
Mikkel
mileswaldron
mister_rf
Neil Foster
Nick de Smith
Nick Soroka
nicklenorp
Nik
Norman Stanley
Patrick Coleman
Paul Brodie
Paul Jordan
Paul Montgomery
Ped
Peter Krogen
Peter Terren
PhilGood
Richard Feldman
Robert Bush
Royce Bailey
Scott Fusare
Scott Newman
smiffy
Stella
Steven Busic
Steve Conner
Steve Jones
Steve Ward
Sulaiman
Thomas Coyle
Thomas A. Wallace
Thomas W
Timo
Torch
Ulf Jonsson
vasil
Vaxian
vladi mazzilli
wastehl
Weston
William Kim
William N.
William Stehl
Wesley Venis
The aforementioned have contributed financially to the continuing triumph of 4hv.org. They are deserving of my most heartfelt thanks.
Registered Member #190
Joined: Fri Feb 17 2006, 12:00AM
Location:
Posts: 1567
I hate to make a brand new thread, but I wanted to get an answer. I am researching triacs, which I have never used. I have read about them. I want to turn an AC signal on/off every minute to an inductive load. I plan on getting an alternistor (snubberless).
Do these work well, or should I just add an RC element?
All these triacs have low maximum gate voltages. They also list maximum gate currents. I plan on using a 5v digital output to control the gate. So, I'm looking at the data sheet of Q4008LH4. The maximum gate voltage is 1.3v; the maximum current gate is 35ma. Should I just make sure R is big enough that 5v/R < 35ma? In this case I would use R = 200 ohms.
Also, if my gate signal is always positive, will the triac conduct for both the negative and positive AC cycle?
Registered Member #2529
Joined: Thu Dec 10 2009, 02:43AM
Location:
Posts: 600
Provided the gate is given current, then the Triac will turn on at the beginning of each half cycle.
So called 'snubberless' Triacs may or may not need snubbers, depending on the situation. If you get this wrong, all that will normally happen is that the Triac will stay on all the time, and you will need to modify the circuit to add RC components.
Registered Member #2099
Joined: Wed Apr 29 2009, 12:22AM
Location: Los Altos, California
Posts: 1716
@smoothie: Be careful not to misinterpret the minimum and maximum values on the datasheet.
For example, "maximum gate current" probably does not mean you need to stay below that value, to avoid damaging the device. Unless you are reading the Absolute Maximum Ratings section, where typical values are on the order of an ampere. Generally it means the highest gate current required to guarantee triggering. The trigger current of a specimen with minimally sensitive gate = most demanding gate. Remember, unlike in a MOSFET, is it the current that activates a triac or SCR.
Triacs can be triggered to conduct in either direction, with gate current in either direction. The four sign cases are generally unsymmetric with regard to gate current requirement. Inadequate drive strength might trigger the triac in only positive or only negative half-cycles, as I can personally attest. That would be bad if it is switching the power to a transformer or AC motor.
Are you intending to have any isolation between your 1-minute timer circuit and the mains? There are optoisolated triac drivers available, random phase or zero-crossing.
[edit] In your example, a resistor value of 200 or even 100 ohms would not guarantee triggering in a worst-case situation. If gate voltage were max (1.3 V) and current requirement were max (35 mA), a 100 ohm resistor would need 3.5 volts across it. Thus you would need at least 4.8 volts at the digital logic output, as it is sourcing 35 mA. Pretty unlikely for 5 volt logic, even if its supply voltage were nominal.
@bigbad: Congratulations. I bet many readers would like to know what triac you are using, and what kind of heatsink. Is the gate driven directly by an Arduino output port?
Registered Member #2529
Joined: Thu Dec 10 2009, 02:43AM
Location:
Posts: 600
Wound a coil and potted it, seems pretty solid...but (of course) my circuit doesn't work properly with the inductive load, goes on and stays on.
So I added some snubbing... still doesn't work properly.
Put it back on the resistive load, perfect!
(grumble)
I need to hit the books and data sheets harder!!! (Except it turns out none of my dead-tree books cover triacs- doh!!!)
Useful resources I've found so far include:
Wikipedia:
Example circuit (from here) which is very similar to the one I'm using:
I'll probably upload my circuit if/when I get it working, although it's a very, very eccentric maglev system because I have a subtle and definitively ambitious plan that needs it (rather than it being an end in itself).
Registered Member #2463
Joined: Wed Nov 11 2009, 03:49AM
Location:
Posts: 1546
Triacs are commonly triggered with a Diac in series with the gate terminal. If someone is clever enough to find GE application note 200.35 3/66 , on line you can get all 21 pages from 1966, when thse things were popular.
Registered Member #30
Joined: Fri Feb 03 2006, 10:52AM
Location: Glasgow, Scotland
Posts: 6706
0.1uF and 100 ohms is something of a classic snubber combination.
The issue is: The triac turns off at zero current, but with an inductive load, that's not zero voltage. As soon as the triac turns off, the voltage across the inductor collapses to zero, and the voltage across the triac jumps up to whatever the line voltage is at that instant. If the rate of rise of voltage exceeds the triac's critical dV/dt, it turns straight back on again.
The snubber capacitance fixes this by reducing dV/dt. Driving the gate from a low impedance also helps by increasing the critical dV/dt. Seems like your circuit has no load on the gate at all when the optocoupler is off, so you might want to add a resistor between gate and MT1 to load it.
Registered Member #2529
Joined: Thu Dec 10 2009, 02:43AM
Location:
Posts: 600
Thanks guys, I've snubbed it as best I can, added in 100 ohm resistor and it's half working, i.e. switching properly but only half wave, the other half wave is on all the time.
Dratted thing!
I'm not sure if I've undersnubbed it, and I'm hitting some of the asymmetry you often get with Triacs or whether the triac is partially blown.
But it worked OK with resistive loads, so I'm assuming it's still not enough snubbing.
This site is powered by e107, which is released under the GNU GPL License. All work on this site, except where otherwise noted, is licensed under a Creative Commons Attribution-ShareAlike 2.5 License. By submitting any information to this site, you agree that anything submitted will be so licensed. Please read our Disclaimer and Policies page for information on your rights and responsibilities regarding this site.
triacs and triggering
