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RobotDyn AC Light Dimmer Module
Hi guys, I've only seen some scattered mentions of this module so far so I thought I'd create a thread for it.

It has been mentioned somewhere here that this module is a combined ZCD and sort of SSR and that it would work well for controlling heaters, but needs a snubber circuit to control inductive loads like AC fans.

So I was wondering if anyone here is actually using this board for more than just the ZCD and if yes how did you set it up? In particular it has been mentioned that it will work with the Arduino TC4/TC4+ shields and that it can be used both for PWM and phase angle control?

IT IS actually a ZCD and a SSR (True SSR, no sort of... Grin) on same board.

Setup scenarios used so far:
- CONFIG_PWM: PWM pin to TC4 OT1 output, Gnd to Gnd, ready to use as SSR.
- CONFIG_PAC2: PWM pin to OT1 output, Gnd to Gnd, ZCD to TC4 IO2, working as ICC for heater, not tested PAC on OT2, no need, DC fan was been controlled by PWM on IO3.

Vcc pin not needed to be connected for TC4 usage, is provided for other projects.

Snubber can ba added directly on load terminals, if needed.

Nothing to comment or add, it just works as it should... if you want to rave about something, it's the price, simply ridiculous...
Actually I am trying to use the RobotDyn board to control my AC fan pulled from a vacuum cleaner.

I use CONFIG_PAC2 and try to use OT2 (but directly connected Arduino pin 10 to the PWM input on the RobotDyn

I am getting somewhat odd behavior. But then I don't have added a snubber circuit yet.

- ZCD seems to be working, I can see the Arduino's built-in LED pulse and my OT1 heater control works

- PWM on the RobotDyn seems inverted: 0% fan leads to PWM always on = fan at full speed on the RobotDyn

- Going up to around 40% fan, the fan abruptly switches off and there is no gradual control possible

Any thoughts?
First, some terminology/meaning clarification:
In PAC or ICC control modes, the pulse issued by OT1/2 are no more PWM, but short (microseconds) triac control pulses.
The PWM input of RobotDyn is such triac control input, exactly as any SSR input, so PWM label is not 100% accurate for all scenarios.

The above clarification is related to your statement related to "PWM inversion". This simply can't happen, if everything is right done.
In PAC mode, to have on the load 100% power, this means you need to apply rigorously a switch on pulse to the triac, some microseconds after every half sine zero cross pulse. The output power is a timing thing, not voltage level. For example, for 50% load power you need to apply the same pulse as for 0, 100, 25 or whatever %, but delayed differently to the zero cross moment.

The motor behaviour depends a lot on the motor type, if synchronous (induction) or not.
PAC is used to control brushed motors, i.e. those you can see sparks inside.
Synchronous motors can't be controlled directly by TC4, needs an interface converting PWM to variable frequency power, which is bulky and costly.

You can test if the power control of fan works ok, if connecting a bulb instead the fan. If the behaviour is similar with a dimmer, with a smooth linear light decrease/increase, then you should look at the motor.
Edited by renatoa on 10/14/2020 12:20 PM


renatoa wrote:
First, some terminology/meaning clarification:

I see, thanks for the clarification!


renatoa wrote:
You can test if the power control of fan works ok, if connecting a bulb instead the fan. If the behaviour is similar with a dimmer, with a smooth linear light decrease/increase, then you should look at the motor.

Got it, I'll test with a lightbulb first. However I believe I'll still have to add a snubber circuit later? My motor is an AC brushed motor.
Quick update on the situation if anyone will be in a similar situation, that is the fan motor speed somehow inverted and full on when according to TC4 it should be off.

Turns out the RobotDyn works nicely with my fan motor (an universal motor pulled from a vacuum cleaner), the reason I had messy and inverted behaviour was as I started adding features to the "aArtisanQ_PID" firmware for my TC4+ I put the lookup array for the phase delays


in phase_ctrl.cpp) into PROGMEM to save RAM on the Atmega, turns out it didn't like it. I reverted the code line to the original and the fan is working now with the RobotDyn.
Edited by JackH on 10/26/2020 9:10 AM
I have a few of these to play with and have a few scenarios I'd like thoughts on.

1. Would I be ok running 8A at 240V with a resistive load (heat element) through one of these with only a heatsink upgrade?

2. Would I need a snubber circuit to power a 6A 240V inductive load? Using phase angle control. Edit: Maybe I can replace the BTA16-600B triac with the Snubberless version BTA16-600BW

From another thread regarding the Robotdyn ZCD/Triac


renatoa wrote:
With original heatsing I am using it for more than one year to drive an 1300W heater from 230V AC, so about 6 Amps.
The heatsink temperature don't exceed 60C, estimated based on ASTM C1055 test (skin touch possible for some seconds at 140F/60C)

Edited by greencardigan on 11/13/2020 10:18 PM
1. So you have response in the quote Grin I would give it a try without heatsink replacement, just to the point where touch with finger no more possible. If this happens in less than a minute, then heatsink upgrade is a must.
Was tempted in a time to mount mine on a heatsink of type RAD-A4463/75, with the triac re-soldered on the opposite PCB side, and the whole dimmer board placed in the internal space of the heatsink, as an enclosure, for more protection. Never did it Grin

2. No idea, not a big PAC fan... used ICC even with a motor and works.
To snub... or replace triac... depends who is easier and cheaper to do Grin
I can buy locally the BW version for about $1.50, if bought online shipping is more than triac cost.
I was wondering about the PCB traces and what current they can handle.

I have some snubber parts and also some BW version triacs from a previous project. I'll try both options.
The width is 2.5mm, assuming it is standard copper thickness PCB (35 um), this give about 34 C degrees temperature increase over ambient, at 8 Amps. Formulas from IPC-2221.

At 25 C ambient will result 59 C for PCB... about the same as the heatsink.
Edited by renatoa on 11/15/2020 1:42 AM
I modified one of my boards and swapped the BTA16-600B with a BTA16-600BW. It doesn't seem to make any noticeable difference in performance. Both the modified board and unmodified board can control my 600W universal motor with smooth dimming using phase angle control.

There was some false triggering with both boards at very low power levels but I think that may possibly be related to my washing machine running nearby causing interference. After the washing machine was off, I ran the non modified board for 20 minutes on 10% power with no issues. EDIT: Both boards are still false triggering and power output is occasionally unstable at low % power outputs (<11%) but my ZCD/Random fire SSR have the same issue at very low power levels.

The heatsink reached maybe 40-45 Celsius (slightly warm but easy to touch) after 20 minutes. I don't have a 1200W vacuum motor to test at the moment

Edit 2: Running my 2000W (probably more like 2150W at 248V) element for about 60 seconds on full resulted in the heatsink being too hot to touch for more than about 0.25 seconds. Definitely need a larger heatsink or forced air flow.
Edited by greencardigan on 11/17/2020 3:15 AM
Some airflow, forced or natural, is a must anyway...
Electronics placement in a complete closed enclosure, without any slot, is a mistake.
The heatsink purpose is to transfer/evacuate heat to air, but if air is still, will saturate sooner or later.
Placing a small 2" fan on top of the actual heatsink could be as efficient as doubling its area.
The cone tree heatsinks that are sold today as combo for some SSR are way too much oversized.
Edited by renatoa on 11/17/2020 6:43 AM
It's around USD9 for the single channel and USD5 for the dual channel in my country. Different dealers though. Is it exactly the same thing?
This dual unit contains the SSR only part, without ZCD.
Is like two SSR on a single board, uncased.

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