Light Up Your People

CandleRing1.jpg (166123Bytes)
CandleRing2.jpg (130413Bytes)
CandleRing3.jpg (130192Bytes)
CandleRing4.jpg (163641Bytes)
CandleRing5.jpg (143449Bytes)
CandleRing6.jpg (143694Bytes)
CandleRing7_boards.jpg (144064Bytes)
CandleRing8.jpg (140280Bytes)
Light_Up_Your_PeopleA.pdf (100768Bytes)
Light_Up_Your_PeopleA10.pdf (978618Bytes)
Light_Up_Your_PeopleB.pdf (101374Bytes)
Light_Up_Your_PeopleB10.pdf (983034Bytes)
Light_Up_Your_PeopleC.pdf (101831Bytes)
Light_Up_Your_PeopleC10.pdf (989086Bytes)
Light_Up_Your_PeopleD.pdf (102546Bytes)
Light_Up_Your_PeopleD10.pdf (992915Bytes)
IR_interrupter_OPB606A_1872628.pdf (392042Bytes)
IR_interrupter_qrd1114.pdf (466739Bytes)
IR_PhotoRectr_tint_opb710-730.pdf (193027Bytes)

Infrared diodes and detectors make things fun and magical. We are use to touching or flipping a switch to turn on lights. A simple transistor circuit with an infrared detector and the lights changes with the wave of your finger. My circuit boards are simple and all of the parts to run the detector, transistor and lights are on the board. Once you have my circuit boards you just aim the transmitter at the detectors and your lights move and change. The switch is optional and just there to control your lights. Just remember to put a jumper across the two contacts if you do not install the switch. One switch can control everything. The capacitor slows down both the turn on and off of the lights. Use 22 to 100 microfarads(mf) cap if you want to.

See my articles on Projects Light Up Halloween and Light Up a Candy Dish for information and details.

Using my Light Up Your People (Light Up Halloween) B circuit board to light up a Candle Ring or anything. In this circuit I am using what I call an interrupter. It has both the infrared detector and emitter in one package. This one faces straight up and has four leads. See the pictures. In this B circuit board I needed to change R3 form 10K to 33K to handle the interrupter’s detector. I haven’t done the C & D circuits to use the interrupter yet. Also because the interrupter has its own emitter I just put a 220 ohm resistor on the board next to R3 to power it. The right side of R3 is V+ 9v. You just solder the 220 resistor to R3 on top of my board.

The interrupter has four leads so just solder wires to the outside corners of each lead. The emitter and the detector can share the ground in the A & B circuits. The detector is reversed on the C & D circuits. One small wire or lead trimming can be used the connect pins 2 & 4 on the interrupter. Interrupter Pins 1 is Detector Collector(+), 2 is Detector Emitter(-), 3 is Emitter Anode(+), 4 is Emitter Cathode(-). Just three wires for the A & B circuits boards. Ground(2&4) to detector(-) on my board. Interrupter Collector(+) to detector(+) on my board. Interrupter emitter(+) to the 220 resistor to V+ next to R3.

Infrared emitters can vary in forward voltage because of power output differences. To check your emitter use a 470 ohm resistor to emitter + to 9 volts and emitter’s ground to ground. Measure the emitter + and – to get the forward voltage of your emitter. Then try the 220 ohm and see what the forward voltage is. Most digital volt ohm meters have a diode checker. Clip the positive probe to the emitter’s + and negative probe to the emitter’s -. You should get the diode’s forward voltage. Some digital meters top range for a diode is 3 volts. This still mean your diode is OK so just check you diode manually as describe above. My interrupter has a better range with a 220 ohm resistor.

The interrupter sometimes called a PhotoReFlector or PhotoDetector come clear or tinted to help with ambient light. Here are some current parts and where to get them. OPB606A(same as mine) Part no. 1872628, Line Sensor QRD1114 clear square, OPB730F IR Darlington Photoreflector tinted red round. They all work about the same. Why I call them interrupter is where you find them being used. Your printer has one that tells the printer where the paper is. That is why clear printer sheets have a white stripe label on the top edge. In hobby robots they are used for line tracking and object sensing.

Each Candle Led art has my B circuit board with an emitter, Interrupter and up to 5 Leds. The Interrupter’s Detector is the detector in these circuits. I made them look like a window. You can make anything. Keep the Led leads long while making your art piece. This keeps the heat away from the Led. Trim the leads as needed after you solder them. I taped them down to my desk and soldered together each joint. After the art piece is done then straighten it and then fit it to my board. The Leds are in series Cathode to Anode. The first Led Anode goes to my board’s first Led positive. The last Led Cathode goes to my board’s last Led ground.

In this project the Interrupter lights the Led art and its transmitter by wires and a hook lights the Interrupter of the led art across from it. By combining other circuits you can create motion art. Just aim the emitters at the detectors and the lights move. If it is the last board in a group then you can leave out the switch, the emitter resistor(R5) and the emitter. Normal size Led emitter can light up a big area and many of my circuits at one time. The side shooter two lead type have a very narrow beam and only go about three inches. Shielding stray infrared is a good idea, but stray infrared can also be fun.

A & B circuits the lights come on when the detector is lit up by an emitter. C& D the lights go out when the detector is lit up. A & D circuits the switch is connected to V+ to turn on the emitter. B & C circuits the switch is connected to the transistor so the emitter only turns on if the detector is lit. Many wonderful things can be made with my circuits.

With my circuits you can use a switch to short the detector to turn on the transistor. Connect one wire to the detector+ and the other to the detector-. The switch turns on that art piece is on and the rest of the art pieces connected to it by the transmitter.

Making PCB(Printed Circuit Board) boards is easy in this day and age. has everything to make a PCB at home. One positive resist 4x6 board will make 10 of my circuits. Look for 10 in the name of the PDF file. Print the PDF file at 100%. For laser printers print on the smooth side of the transparency sheet. Cut out the circuit on the board’s outline. My exposer is about 10 minutes for a small board and about 16-20 minutes for a 4x6 board. I have to rotate my 4x6 board half way through because I have a single 17” fluorescent tube exposer frame. Mine is about 5 ½” high. I got it at Fry’s in Burbank. I think it is the same one in under prototyping supplies. Read the instruction that comes with the boards. A good exposer makes a good PCB.

When installing the parts start with the switch if you use it and then the resistors, cap, transistor and leds. For transistors, diodes and Leds wait at least 30 seconds on each lead for it to cool down before you solder the next lead. Heat can damage these parts. Soldering should only take about 3 seconds. 5 seconds is too much. Clean and tin your soldering tip. The brown stuff on you soldering tip is flux and can be scraped off with the back side of an X-Acto knife blade.

Checking parts on my boards. With digital volt/ohm meter on the diode setting the diodes check with their normal forward voltage. The detector is about what is when checked with the diode setting and should fluctuate as normal. Each Led you use a sharp probe like a pin to get to the Anode + and Cathode – to test it. Ground does not work. The transistor can be checked with the diode setting too. Black – probe on the base and Red probe on the emitter and then the collector should show about .6 volts each.

I like those LED’s very

I like those LED’s very much. Your approach is exactly what I need for Christmas, so nothing burns when using real candles with little kids :slight_smile:


sorry, double post…


I like your quirky design…

…and I appreciate the time it took to write and illustrate this. Thanks for explaining things so thoroughly.  I really like your Candle Ring emitter and detector photo, too.