Light Canvas - LEDs 5: All the LEDs

Here are all the LEDs running - 12 panels, each with 5 LEDs. They're not fixed in place yet, just taped in the approximate location.

It turns out that the 555 dimmer circuit isn't quite right, as it seems that the LEDs aren't getting a large enough current - 0.16A, rather than 0.45A (when powering all the LEDs without the dimmer).

I guess it's something due to the transistor not putting/allowing enough current through...

Video:

Light Canvas - LEDs 4: Progress!

Having important things to do can be really motivating - for other projects. I've household repairs to organise, but can't figure out an elegant way for it to be done - so I'm ignoring that for the moment, and have made some progress on the Light Canvas :-)

Subsequent to my last post on this project, I satisfied myself that the circuit was ok, and ordered a bunch of components, and took the opportunity of a OxHack session to  breadboard the control circuit, which I did - except for the minor point that the circuit didn't actually work... Oh well, it was a nice event, and good to meet some more hackers and see what they were up to - I need to get along to more of that sort of thing!

Many months later, I've a working breadboard with the 555 astable circuit producing a pulse width modulation varied from 0-100% depending on a potentiometer. The 555 PWM doesn't have enough power to drive the LEDs directly, so it's used to control a transistor which effectively amplifies the power of the PWM enough for the LEDs. W00t!

This happened by:

1. Getting the 555 PWM working on a single LED directly,
2. then on a panel of 5 (on a breadboard) via the transistor, then (the next day),
3. making up 9 perfboard versions of the LED panel, powered via the LED.

Video evidence:

Next steps;

1. Convert the 555 circuit from breadboard to perfboard.
2. Modify the frame to house the circuit, controls, and wiring.
3. Modify the frame so the back can be attached, and hung on the wall.
4. Stretch the canvas onto the frame.
5. Install the electronics in the frame, and put it all together.
6. Put on wall and bask in its glow :-)

I really ought to...

I really ought to pimp Listing Ships a bit more, especially the EP we're putting out in a couple of weeks. I done a video for it and everything, innit. We've got a gig on Dec 9th as well...

For the record...

The Ribbon interface in MS Office pisses me off.

Light Canvas - LEDs 3: Circuit development

It's great what you can learn with some time and t'interweb - when finding time between band, family, and the rest of real life, that is...

This LED wizard (and generally informative site) helped me realise that "forward voltage" is the same as "voltage" as generally used, but relating to correctly wired in components, rather than what's coming out of the power source.

My previous tests were under-driving the LEDs not by current, but by voltage: A 12V source isn't enough to power four 3.3V LEDs - obviously 4x3.3 = 13.2V.

So, rather than four LEDs in series, I can have up to three. Three seems too few though, so after trying some different combinations, I've decided each column will have three 5mm in series, in parallel with two 3mm LEDs in series. This will add up to 420mA, which at 12V is 5.04W.

After a bit more reading I realised that just slinging a potentiometer between the power source and the LEDs wouldn't work (safely at least), as regular potentiometers won't handle power around 5 watts.

Some helpful people on the sci.electronics.basics Usenet group answered my query about what to use instead, and the consensus was to use pulse width modulation - a PWM circuit based on the 555 timer.

Although the intention with the light frame was to do something without that level of complication, it's just accelerating my schedule a bit, as PWM is something I know I'll need for other projects I have in mind.

Here's what I've got so far:

That schematic is missing quite a few important details - like values of the capacitors, diodes, and resistors surrounding the 555 chip. Oh, and there'll be 3 times the number of LEDs.

I've not yet learnt exactly why this circuit should work - specifically how the current flows around the diodes - but the basic principle is that the discrete components around the 555 tell it how long to turn pin 3 on for (the pulse width), with the variable resistor (R3) allowing manual modification of that duration.

Pin 3 goes to the base (B) of a high power resistor, telling it when to allow current to flow between its collector (C) and emitter (E) - acting as a switch between the power and the LEDs.

That gives us: a small (safe) current through the pot, making the 555 turn the transistor on & off, which varies the power going through the LEDs - controlling their brightness. Hurrah!

Now I need to satisfy myself that I understand all the circuit, and figure out the values for those discrete components to get the timing I want, then I can figure out a list of what I need to buy (AKA Bill Of Materials).

There's a possibility that I'll revisit the LED/resistor configuration to see if I can make it more efficient with a higher voltage source, but it's too late in the evening to think about that now :-)

Light Canvas - LEDs 2: Choosing and Testing

After shopping around a bit online, I bought 100 3mm and 100 5mm warm white diffuse LEDs - buying in bulk for this project and the next. As well as size, the two models differ in viewing/beam angle, and brightness. Two types to experiment with is manageable, and should let me play with brightness/diffusion.

One hundred pounds worth of LEDs don't come in a big box...





(I should've included something for scale in those pics. Nevermind.)

Once I had the frame put together, it occurred to me that three or four LEDs could be put serially in little columns on perfboard, each with their own resistor and connection to the power supply - something like the plan on the right.

Lets remove some unknowns: I want it bright, and nine columns of four LEDs should be pretty good, I reckon.

I've already got wires, resistors, and a breadboard so now I can do some testing.

For prototyping, I attached a couple of crocodile clips to a mains adaptor at it's lowest setting and ran that through a breadboard with one 5mm LED and the recommended resistor, to check that the basics were working, then bumped up the voltage to 12, as I plan to use in the final piece. That worked fine, so I put four LEDs in series and, using an online LED resistor calculator, found a (lower) value of resistor, accommodating the greater voltage drop caused by the additional LEDs (assuming a 2V drop per LED).

If I'm to learn anything here, I ought to figure the resistor stuff out myself, rather than using the online calculator.  For the moment though, I think I get the gist:

• Power source provides a electrical potential difference,
• generation of light by each LED is an electrical load, which uses some of that potential, hence
• voltage drop gives a lower effective voltage over the circuit, hence
• a lower value resistor is necessary.

I need to do some testing to see how this fits in with Ohms law so I understand it a bit better - but not right now, as there's more hands-on stuff first!

I was quite happy with the 5mm LEDs in a row of four, so did the same with the 3mm LEDs. Here's the breadboard:


...here it is lit up:


...with 80gsm paper as a diffuser:


...and with 160gsm card as a diffuser:


Of course, those pictures don't really convey the quality of the light - although they're HDR (taken with Bless N900) so they're not utterly terrible.

I'll need to play around a bit to see if I can/should use lower value resistors and get the LEDs brighter - they could take a higher current, but I need to verify that the voltages and currents used aren't going to be a fire risk, and look into whether higher current might give a significantly shorter LED lifespan - although this is probably a good point to find a canvas (or some similar looking material) to go on the front...

Light Canvas - LEDs 1: Known Unknowns

This is the more complicated part; or at least I have little idea what I'm doing when it comes to electronics. I know basic theory (e.g. Ohms law), and what various components do, but - so far - no practical experience beyond giving glowing red eyes to a toy raven.




The electronics for this shouldn't be too tricky though, as it's all simple analog circuits, with no digital components. The plan is to have:

1. A mains power source (I don't want the hassle and inefficiency of batteries), connected to an input socket in the frame, which itself connects to...
2. An on/off switch, which connects to...
3. A linear fader, to control brightness of...
4. A bunch of LEDs, set up to give an even glow through the canvas (some subtle pattern would be acceptable though).

So, onto the known unknowns:

• What voltage and amperage should the power source provide? It'll depend on the number and specification of LEDs  it'll be supplying - which I don't know yet. I'm thinking 12V is a fair place to start, and conveniently I've got a 3.5 - 12V adapter to prototype with.
• I've got a little toggle switch of the type I want to use, but don't know what power it's rated for.
• The fader could be a potentiometer - or might need to be something else, if the electrical load is too high for a pot. I bought a mixed bag of pots to play around with a while back, and it contained just one linear fader - hopefully it'll be suitable.
• LEDs - this is the biggest area of uncertainty. There are lots of LEDs with differering specifications available, and I don't know which type and how many I'm going to need for the canvas to glow like I want it to. Aspects to consider:
  
  • Brightness (enough to shine through the canvas)
  • Viewing angle (wider is better, as I want an even glow, not visible bright points)
  • Number of LEDs to use (more at lower brightness would give more even illumination)
  • Clear vs diffuse finish (at last, an easy one - diffuse)
    
  • Configuration - rows and columns, random distribution, or some other pattern?
  • How to choose and wire up the right combination of LEDs?
  • Cost - no need to start taking out loans for a hobby...

I think this a fair example of too many choices, not enough knowledge, so I decided that the only way to get started was to just buy some LEDs and fit everything else around that.

Time passing whilst I researched LEDs will be represented by this post ending, and a new one starting...