Help needed - SSR switch / SCR dimmer

  • So - I decided to enter the 21st century and get me some of those LED bulbs for an old chandelier (5 bulbs). Ordered these, dimmable 4W filament bulbs.
    This however means that I will have to replace my old iron core dimmer switch with a SCR-type dimmer (according to the specs on the LED bulbs I ordered from our old chap Ali).

    I've been reading a bit about the topic, and I have come to the conclusion that the solution could be something based of this.
    It would be pretty awesome if it could be combined with this, but for the moment it might be better just to do a perfboard version to prove the concept.

    I need a bit of help on the phase control circuit from Arduino playground:
    R1, R2 and R3: What dissipation is required 1/4, 1/2 or 1 W ? (I assume R4 on the DC side can be as small as I like it to be).
    Where to put the SSR-relay? Position 1. or 2.?

    And then of course the fun part. How to implement the code from Arduino playground in this code?

  • @ksga
    For the R1 R2 it is easy P = I² * R so for 240v rms this gives 8mA² * 30000 gives 1.92W! this wil give you a constant energy loss off 2W only to know the zero crossing (even when the light is out). Keep the old dimmer with the filament bulbs you will save energy 😃
    Possible the circuit is designed for 120VAC then you still need at least 1/2watt resistor (and 1W powerloss)
    When you google a little i find combinations that use a transformer for the zero crossing.
    Also the circuit here on instructables can help you
    integrate this in the switch example is not a real good idea. Build the code for the zero crossing and dimming (firing triac) preferable in a seperate module /code block without the mysensors overhead. maybe you find some clues where you got the schema.
    When you can succesfully dim on/off the lamp with your code then you can start thinking to glue it on the Mysensor lib(s)
    I didn't search the forum here but i can imagine that building a interrupt driven zero crossing dimmer is a real challence. Particulary when it has to co-operate with the mysensor library...
    I hope this helps
    Regards ,

  • @stedew
    Hi Stefan, and thanks.

    I agree that I might have to crawl before I run 😉
    In the link you provided there are two 30k ½W resistors in front of the bridge rectifier. Would they not produce a lot of heat as well?
    He uses a bridge rectifier. As far as I know the only function of that is to convert AC to DC, but it would still be 240V and be in a waveform.
    The zero-point detector I ordered (based on the Arduino playground schematic) can handle a bi-directional input, as opposed to the 4n25 that is used on Instructables, so couldn't I just leave the rectifier out?

  • @ksga
    idd the bridge is not needed because the H1AA1 has two antiparrallel diodes.
    As i said before the heat is a function I³*R. So yes, these resistors will get very hot (1W consumption @ 240V in total) It is ilmho not a good idea to use it like this given the fact that you get a few resistors in your circuit that always consume 1W even when the dimmer is off (and the resistors get very hot when you use a 1/2w type)
    Yust imagine you consume 8760W every year yust to know the zero crossing..

  • @stedew
    But only if I have them before the ON/OFF relay 😉

    Okay... so when looking at the specs for the H11AA1 I can see that the maximum current on the input is 60mA.
    Looking at lthis I've reached the conclusion - that I believe you wanted me to - that I have to lower the ac current before the zero-cross detector using an AC/AC transformer.
    I'm having a bit of trouble finding a suitable (read - cheap) 240 / 6-0-6 AC/AC transformer. Any suggestions (prefer ebay or ali)??

  • @ksga
    well i suggest you use google for this (the trafo). Also your link provide schema and code not so bad as a start. also there is a module (the Bluetooth classs) that set the power output from a literal in %. This is exactly what you need to bind it to Mysensor lib...
    this is what i found on ebay Example link
    This trafo does not provide much power but it is small and maybe sufficiënt for powering the arduino.
    There is one catch when using a trafo : it introduce a phase shift so you must provide e methode (i believe a fix constant will do in most cases ) to trim the "offset" of the zero crossing.
    As i am not a specialist on mysensors internal structure but for a atmega328p (uno) TCCR1A is used inseverall places ,for analog write Altsoftserial (RS485) etc. So you must be sure not to re-use the timer it will behave strange. Same is for the attachInterrupt function it is used in hwSleep function. As there are only 2 HW irq's you must choose the "right" one in most designs i believe irq 1 is used for the NRF24l01 /RFM69 so choose the other one on your mcu . For all these reasons i believe it will take many hours off testing to get the dimmer "glitch" free.
    I believe for this resons it is better to offload the mcu and use a dedicated chip/mcu when you want to use Mysensors in your dimmer.

  • Contest Winner

    Hi. Only my 5 cents...
    Do not doubt. It is not possible to use the mysensors library (or another serious software) and to control a dimmer from one atmega328. Your controller will omit dimmer ISR during handling radio interrupts. I solved this problem using external attiny13 to control triac (it was a little challenge because attiny13 has only one timer and very little rom so I'd written program from scratch without arduino). It is not only one solution but it works and it is low cost. In this case we can use standard atmega328 as main controller (program it as standard arduino) and attiny13 as hardware controller. I have real prototype and may be I will route the board when will have time.

  • @Koresh
    Sounds like a good plan. Have you shared the code/design anywhere?

    Thanks fo the link 🙂
    Browsed Ali and ebay, but shipping is killing me on these trafos.
    Got me wondering... a lot of cheap AC-DC transformers are flooding these sites in 5-12V variants.
    Why not just take one of those apart - salvage the trafo and scrap the rest?

    I only need a few hundred mA to run arduino, radio and relay...

    This is the kind of stuff I'm talking about (claims to be able to deliver 2A 5VDC - but that would only be if you had to start a fire...):

  • @Koresh
    Does your solution looks anything like this?

  • Contest Winner

    @ksga said:

    Does your solution looks anything like this?

    Yes, my solution loks like this, but I use cheaper controller and digital interface between atmega328 and attiny13.

  • @FutureCow
    Looks like it. But no code published...
    Also - is the ESP8266 capable of handling the interrupts without messing up the timing when it is also responsible for communicating with the controller and the rest of the stuff??

  • @Koresh
    Cool.. could you share the code?

  • Contest Winner

    @ksga said:

    Cool.. could you share the code?

    New year holidays is the busy time 🙂 I really want to start production of many boards within the coming weeks (my fulltime job projects and mysensors boards too). So I can't promise to share this project very soon (I am not sure you are interest in a code written in hurry and untested prototype). But I will try to do it asap 😏

  • @Koresh
    No worries - all help is appreciated - fast or slow 🙂

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