555 Timer Contest entry – Le Dominoux
- March 1st, 2011
- Posted in 555 timer contest
- By relwin
- Write comment
Winner of a Fluke Multimeter donated by http://www.designspark.com
555 Timer Contest entry video:
http://www.youtube.com/user/dirtypinball#p/a/u/0/PQOjkuJtBfM
Description:
Le Dominoux are “LED dominoes”, a blinking LED that propagates from device to device. Each Dominoux comprises a coin cell-powered 555 timer circuit configured as a one-shot, triggered either by a photo transistor or CdS photocell. Using a bunch of Dominoux enables creating various lighting patterns, trains, and continuous loops. Other Dominoux variants are the basic blinky for generating light pulses, and a tone generator for making annoying beeps.
For construction I chopped up RadioShack protoboards into small squares and placed the 555 on the component side and direct-soldered all other components on the solder side. I bent a paper clip to make a combination battery holder and stand, insulating the + side with a piece of masking tape. The shiny clips take to solder, the duller ones don’t (perhaps corroded?) I left the CdS cell leads long and insulated one of them so they could be bent a bit — this gives placement flexibility and worked well.
When operating (with the LED off) the power consumption is around 100 microAmps, depending on ambient lighting. This low power is typical of the CMOS variant of the 555. The CdS variant will draw more power in brighter ambient light. The LEDs draw about 10mA when lit.
I intended to build more tone generators but the piezo speakers I acquired weren’t suitable for lower tones, and the green LEDs I used weren’t bright enough to trigger other Dominoux when operating in pulse mode. The brighter red LEDs worked but my supply ran out.
I also found that the CdS photocells responded better to red light than green, and they’re more sensitive to ambient light. This makes videoing these variants difficult as they won’t operate reliably if there’s enough light to capture good video.
Improvements:
LED selection – using high-efficiency red wide-angle (30 degrees or more) work best. Unfortunately I had mostly green 20 degree LEDs which worked, but restricted the Dominoux placement angle.
Photo transistor selection – I used Vishay ambient light detectors ($0.35 at Mouser) which have a detection cone of 40 degrees. Using a wider-angle detector may help improve placement angle, but these devices are very low power and relatively cheap. The RadioShack CdS cells work well at most angles but cost more and may not trigger with brighter ambient light.
Cost: most of the components were purchased from Mouser.com and a few items from a local RadioShack (they surprisingly carry hobby items!) Each Dominoux costs about $1.75, not including labor.
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License.
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- tone burst circuit
Dude. You should get these mass produced. Email if you need a referral for a good contract manufacturer in China. mike@ossmann.com
Is there a reason you choose the photo transistor you did instead of 638-PT334-6C off mouser? This one is considerably cheaper. However not knowing much about photo transistors, I didn’t know if it had some flaw that would make it not work as well.
The Everlight PT334-6C data sheet states Wavelength of Peak Sensitivity as 940 nm (IR), with a range of 400-1100 nm. The Vishay TEPT4400 has peak at 570 nm (visible greenish light) with a range of 440 to 800 nm. I didn’t have a lot of time to sample various brands and the TEPT4400 worked ok.
Hi, I just built the cds type, but instead of the led being off and blinking on, it is on and blinks off. The only part of the circuit I changed is R1, I just used a 1Mohm. Also, I am using a 5v source.
Trigger is active below 1/3 Vs. Perhaps change R2 to account for 5V instead of 3V source.
Ok, I changed the voltage to 3v. The circuit works but, the LED is very dim. I do not have any 3M ohm resistors so I used 3 1M ohm in series. What could be causing the led to be so dim?
Thanks
A standard LED may not be bright enough to trigger a photosensor. I used high-efficiency LEDs for Le Dominoux.
I’ve been trying to simulate this circuit in “Livewire”, but it only works when I turn the phototransistor around so that it is forward biased. Is this an error in your diagram (heavens forbid!) or is this a deliberate design feature? I’m a complete noob at using 555 timers so I hope you don’t mind me asking a dumb question.
Anyway, I think this project is terrific, I am planning to make maybe 20 of these little critters and add a few features of my own such as an on-off switch and perhaps multiple LED outputs (to allow branching at sharper angles), these could be implemented as jumpers and sockets without incresing the build complexity very much.
Good stuff!
(I saw this project on hackaday)
It was late when I made schematics so there might be an error. I also should use the proper phototransistor symbol instead of a photodiode.
Very nice project. I wouldn’t be surprised if you won something. I’d love to see these optimized onto SMD PCBs and packaged in octagonal (1 side input – 5 sides output) and hexagonal (1 side input – 3 sides output) plastic blocks.
Fair enough. Anyway I’ve now got a breadboarded version working nicely as per your diagram (I’m using a press switch because I haven’t got a phototransistor in my parts bin, although I’m running it off a 9v battery and a NE555 chip. Thank you for providing the information, it’s very helpful for me, just starting out at electronics as a hobby.
Wow great post I love it.
hi i have just build to LeDominoux one SMD and a basic one
have som pics if interested
in the url
https://picasaweb.google.com/102080542495941287233/Ledominoux#
he is at couple of shoot of a SMD version of the LeDominoux
https://picasaweb.google.com/102080542495941287233/Ledominoux#
Excellent fabrication Lasse!
- What type of light sensor is used?
- Is the light sensor angled?
- does it work properly? Show video if possible!
no the light sensor is not angled at the moment. but i will try to solder it in an upright position for better reception.
the sensor is the Vishay TEMT6200FX01 the SMD version of the one you have used
and yes it does work the only problem i have i the angel of the sensor
i will try to make a video soon
Here’s a PCB design by Adam Ward:
http://www.flickr.com/photos/adamneilward/5505963616/
This is awesome, and congratulations on the contest! I think I’m going to have to whip up my own version – with a MIC1555 chip and 0805 SMD parts, this could be *very* small.
See Lasse Blomgren Jørgensen’s SMD version:
https://picasaweb.google.com/102080542495941287233/Ledominoux#
Almost too small to solder!
congrats!
Congratulations Randy. Le Dominoux will be in stores before Christmas I hope.
Nice project Randy.
CrashSpace, a Los Angeles Hacker Space, is going to be Maker Faire next month and one of the things we like to do is a soldering class for beginners. We’re thinking about making a big batch of these and selling them as a fund raiser.
I wanted to contact you and make sure that was OK with you. Drop me an email.
Hi,
I really like your project Dominoux. I really would like to test it out during workshop I organise in France, Paris.
Can you send me a message, that we can discuss about it ?
Regards,
Antoine
Randy,
I notice that you released this under Creative Commons Non-Commercial (CC-BY-NC-SA) license. Does that mean you don’t want anyone making kits or selling them?
I see lots of interest and would love to produce a kit if I could get the cost low enough for people to buy a bunch of these.
Thanks!
Curtis
Curtis,
CC-BY-NC-SA is for the benefit of Maker clubs/educators/hobbyists and any other non-profit that wants to fabricate Le Dominoux — they don’t have to ask my permission.
For those wishing to sell kits commercially and label them as “Le Dominoux” I would need to approve. My intent here is to ensure the assembled product works as I’ve described here. There are design/cost improvements available — some folks out there in hackerspace have demonstrated already.
–r.e.
Here’s a variant using a CMOS 4011 quad NAND instead of a 555 — improved battery standby life at the expense of adding 6 more pins:
https://fedetft.wordpress.com/2011/04/26/improving-battery-lifetime-of-le-dominoux/
Congrats on the win, what a great idea!
My wife and I own an art gallery in Calgary Canada, and we love the idea of merging art and tech. I’d like to use your concept for an open art project where volunteers help make Le Dominoux and then create temporary art projects at events and around the city.
I think to make this project doable by the adoring public we’d need a pcb board like the one by Adam Ward, although I’m interested in the power savings demonstrated by the 4011 chip. Does anyone know how we’d go about getting 100 or so pcb’s printed at a low cost for the project?
If you’ve never made PCBs before you might want to solicit help from local/regional Maker clubs, such as those listed here:
http://makezine.com/groups/index.csp
http://hackerspaces.org/wiki/Hackerspaces
http://protospace.ca/ (your local Calgary hackerspace)
If you have some electronics expertise but not with PCB fab here’s some good starting info:
http://www.ladyada.net/library/pcb/manufacturers.html
–r.e.
Here’s a fancy RGB variant using an IR emitter/detector (electronic Chrominoes):
http://www.youtube.com/watch?v=T568iNWlF6U&feature=watch_response
Here’s another version called “Daryll’s Digital Domino” (DDD) from CrashSpace, a LA Hackspace.
http://lahack.com/2011/05/the-digital-domino/
And a YouTube video of the action:
http://www.youtube.com/watch?v=UOHGO_3pyYk
These DDD were featured at the Maker Faire.
Hi,
I love the idea of Le Dominoux so much that I’m making a whole bunch of them using PCBs and SMD parts, based on the NAND gate version linked to in a previous comment.
I’ve come up with an “optimized” NAND gate version which only requires a single dual NAND gate IC. I found a nice dual NAND gate IC in DIP and SO8 packages, it has open drain outputs but that’s an advantage – it can sink more current so the LED can be brighter.
Here’s the circuit if anyone is interested.
http://www.flickr.com/photos/wilba/6081905518
Unlike the 555 version, if you “pulse” the NAND gate version quickly, it starts acting like an inverter, i.e. output LED is the inverse of the sensor input.
Here’s my interview on the French Silicon Maniacs blog:
http://www.siliconmaniacs.org/bidouille-le-dominoux-de-randy-elwin/