Yes I think that is very good advice for a learner like me. Thankyou.Part of maturing is being able to evaluate the advice you receive and/or data you read. Learn to read the attachments. Advice without links/citations is as valuable as advice at the fish market about high-tech stocks.
Re yr alert to pages 20 and 21:It is not smart to overlook the other contributors (even if trying to be polite) = take time to digest all the provided input you will likely have a lot more questions . . . other than that -- you are dealing with quite high power here
so you must pay attention dealing with "open circuitry" (i usually power the circuitry under TEST - below 200mA - through the multimeter appropriate current range - as one possibility to stay aware what's going on and relay on ?250mA fuse internal to Ammeter)
you also don't want to bend brake the wire attachments to your led module (it's complicated and perhaps destructive to LED module to re-solder these)
ask questions here or perhaps Quora before you attempt something you're not sure about
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i'm likely to exceed your input tolerance here ...
about soldering the heat sink terminals (pg. 20 , 21) (is why you may want to avoid this)
+ common information:
https://www.digikey.com/en/articles...junction-temperature-in-lighting-applications
https://www.digikey.com/en/articles/techzone/2011/oct/advances-in-led-thermal-management
https://www.digikey.com/en/articles/techzone/2011/nov/understanding-and-preventing-led-failure
https://www.digikey.com/en/articles...g-the-cause-of-fading-in-high-brightness-leds
https://www.digikey.com/en/articles/techzone/2011/oct/identifying-the-causes-of-led-efficiency-droop

It is not smart to overlook the other contributors (even if trying to be polite) = take time to digest all the provided input you will likely have a lot more questions . . . other than that -- you are dealing with quite high power here
so you must pay attention dealing with "open circuitry" (i usually power the circuitry under TEST - below 200mA - through the multimeter appropriate current range - as one possibility to stay aware what's going on and relay on ?250mA fuse internal to Ammeter)
you also don't want to bend brake the wire attachments to your led module (it's complicated and perhaps destructive to LED module to re-solder these)
ask questions here or perhaps Quora before you attempt something you're not sure about
___________________
i'm likely to exceed your input tolerance here ...
about soldering the heat sink terminals (pg. 20 , 21) (is why you may want to avoid this)
+ common information:
https://www.digikey.com/en/articles...junction-temperature-in-lighting-applications
https://www.digikey.com/en/articles/techzone/2011/oct/advances-in-led-thermal-management
https://www.digikey.com/en/articles/techzone/2011/nov/understanding-and-preventing-led-failure
https://www.digikey.com/en/articles...g-the-cause-of-fading-in-high-brightness-leds
https://www.digikey.com/en/articles/techzone/2011/oct/identifying-the-causes-of-led-efficiency-droop
you also don't want to bend brake the wire attachments to your led module (it's complicated and perhaps destructive to LED module to re-solder these)
Iyou also don't want to bend brake the wire attachments to your led module (it's complicated and perhaps destructive to LED module to re-solder these)
That can be a problem.However, I now have a dilema: Each AAC member's suggestion is quite different and I have no way of evaluating one from the other

Sorry about the repeated quote just now without my reply. I am clumsily still coming to grips with replying to posts on the AAC website when i want to refer to a single sentence.
You said:
"you also don't want to bend brake the wire attachments to your led module (it's complicated and perhaps destructive to LED module to re-solder these)"
I say:
Yes, you've alerted me to the need to secure the leads at the point of the SMD aluminim heatsink contact. I will put two blobs of heat glue a these points to anchor the wires and stop them spinning on the soldered joint.
I think he might be referring to the baked in resistor on the aluminium SMD board? See my pic in #23#25, is R2 really necessary? Added cost for any benefit. Already has something close to heat sinked 5 ohm R. Presume LEDs are white and all in parallel?
That can be a problem.
here's what I think is one of the simpler solutions for an adjustable PWM control of the LED.
It uses a 555 astable timer with adjustable duty-cycle and a transistor LED driver.
1) This is self triggering. Its therefore known as astable, yes?
2) That means the reset pin #8 is connected directly to the positive voltage source Vcc, (=pin 8), yes?
3) q2 is necessary because you havent drawn the connecting lines to #8 and #4. Why didnt you draw these? something to do with convention?
You didn't read my text.#25, is R2 really necessary?
Yes.1) This is self triggering. Its therefore known as astable, yes?
Pin 8 is the power pin.2) That means the reset pin #8 is connected directly to the positive voltage source Vcc, (=pin 8), yes?
I have no q2, so don't know what you are referring to.3) q2 is necessary because you havent drawn the connecting lines to #8 and #4. Why didnt you draw these? something to do with convention?
My ambiguity. q2 refers to my second question labelled not "q2" but "2)". Sorry. I also just realised Q# also by convention refers to IC output pins. Shows how precise one needs to be in these foraYes.
Pin 8 is the power pin.
But yes, both pin 4 (reset) and pin 8 go directly to power (from the on/off switch).
I have no q2, so don't know what you are referring to.
I didn't draw the connecting lines for all the power connections to minimize drawing clutter.
They are all labeled as node V+ and the convention is that all nodes with the same label are connected together, the same as all nodes with the ground symbol are connected together.
Q# typically is used as a reference designator for transistors.I also just realised Q# also by convention refers to IC output pins.
Yes, you need to learn the jargon of electronics to effectively communicate on these forums.Shows how precise one needs to be in these fora
(there was 10+ ways to get it as not "my correct" . . . in Estonia we work and don't much thank each other . . . also we have a proverb here that "A pig needs to be fed , a fool need to be praized "To tell you the truth I was trying to be polite to each one. I want to justify each one's trouble and kindness by thanking them and acknowledging their efforts.
? become a mind reader (or then it's quite trivial solution) ((i haven't seen such a sahrp person for quite a whiletwo blobs of heat glue
Hey jpanhalt, I am going to try the second circuit. Could you pls advise:Hi Mellisa,
Here's a link to a manufacturer who makes golf carts and other EV stuff. In its ealy (15 years ago) days, it was a wonderful resource for me.
http://www.4qdtec.com/pwmmod.html
The first two circuits shown are triangle/sawtooth to PWM, and the third is a 555-based circuit.
Thanks again crutschow. I made this and it works well! Moreover it seems to work on any LED I throw at it! I'm very encouraged. Encouraged enough to work my way through other designs from the kind AAC member's in this thread. (thank you all)That can be a problem.
I will possibly add to the confusion on that, but here's what I think is one of the simpler solutions for an adjustable PWM control of the LED.
It uses a 555 astable timer with adjustable duty-cycle and a transistor LED driver.
The LTspice simulation is shown below.
The yellow trace is the LED current with the pot (U2) set near maximum brightness, and the blue trace is for the pot set near minimum brightness.
(D3 is the LED and R2 is the resistor that I believe is already in series with the LED).
View attachment 183693
Hey kuikmaa,If you dont want to do any programming, the easiest method if to use something like a 555 timer to create the PWM signal. You would then need to use this PWM signal to drive a transistor (low side MOSFET would be a good choice) connecting to the LED negative.
Here is a reference to get you started:
https://www.electroschematics.com/5834/pulse-generator-with-555/
Hi dl324,A triangle wave oscillator circuit from NatSemi Linear Applications Handbook 1994, page 28:
View attachment 183555
View attachment 183556
For single supply operation, bias the grounded inputs to VCC/2. Opamp common mode input range will dictate minimum VCC.