This high-efficiency design can power LEDs at 100mA of current and is not much bigger than the battery that powers it. The unique circuit uses 2 commonly available transistors (BC327 and BC337) in an oscillator to boost the 1.2 or 1.5 volts from a rechargeable (nickel) or alkaline battery to the 3+ volts necessary to light a LED. No fancy ferrite inductor is needed as we will be using the metal jacket around the battery as part of our coil.
Step 1: The Circuit and Layout.
The circuit uses a BC327 (PNP) and a BC337 (NPN) transistor. They are connected as a blocking oscillator at about 100kHz through the 150pF capacitor. Each cycle starts with the coil being charged, then this charge, plus the voltage of the battery, about 3.5v, is applied across the LED. The 1N4148 diode takes this voltage and stores it in the .1uF cap, which is used to drive the transistors, resulting in a much more powerful and efficient circuit.
The 22uH coil consists of 35 turns of #28AWG wire over the battery, using the metal in the shell to multiply the inductance.
A simple diagram shows the placement of the parts.
Step 2: The Parts List.
The LEDs are standard 25mA 5mm 120000mcd white LEDs from eBay. The rest are available from Radio Shack or surplus at places like http://www.AllElectronics.com.
BC327 PNP transistor
BC337 NPN transistor
1N4148 Low-signal diode or similar (Virtually any silicon diode)
0.1uF ceramic capacitor (can be anything larger)
150pF ceramic capacitor
12uF 6v tantalum cap (can be anything over 5uF)
100K resistor (controls brightness: 470k for 50mA; 68K for 120mA)
4-ft of #28 or #30 AWG wire wrap
Perforated copper boards, pre-trimmed as shown
Step 3: Making the Tube 'body'
Cut a strip of paper 11" long, 1/4" wider than the length of the battery. Apply stick glue as you wrap it around the battery. This will be stiffen up the tube.
Use the widest battery you have as the template so that the tube is loose enough for the battery to be removed and replaced.
Set aside to dry while you assemble the circuit board.
Step 4: The Assembly
Start by placing the 4 LEDs. Make sure the shorter (-) leads are on the outside. You will need to make sure they are all flat against the perfboard. Solder the shorter leads (only) to keep it secure.
Then 'fold' the longer leads over to its neighbor so that all the + leads are connected. Note that only 3 sides are connected and ends in a 'hook' which extends a bit out from the board. This will be where the coil is connected.
Continue with the BC337 and the BC327 transistors and the other components. Note that one lead (the 'E') of the BC337 and all connetions to B- are also left pointing up. See the images below. The red sleeving is used to prevent shorting - from a connection error... (:P)
When all is soldered and checked, slip the smaller perf-board, copper-side up. This is the level all the B- connections are made. You should be able to wrap the leads so they can touch each other. DO NOT solder them yet!
Step 5: A Quick Test...
If you have a 22uH inductor handy, you can test your circuit by connecting one end of the coil to B+ and the other end to the 'hook' left in Step (4).
Touch B- to the wires at the center of the small perfboard and the LEDs should all light up. SUCCESS!
On to the the final assembly bits now.
Step 6: Final Assembly
Crease and push in one end of the paper tube as much as you can to add support. Then make 2 pin-holes at the base of the crease. Push the negative end of the 12uF capacitor through one of the hole.
Solder this wire to the wire cluster in the middle of the perfboard before pushing it out the other pin-hole.
Start the coil by soldering the stripped end to the 'hook' on the main perfboard and start winding around the tube over the battery and the 12uF capacitor. Solder the other end of the coil to the + side of the capacitor.
The wire of the capacitor is long enough to reach around to the positive of the battery - that is your on-switch. Push it to touch the battery and you get LIGHT!
Do NOT look into the light - it will be bright!
Step 7: What's Next?
I hope you have lots of fun making these lights.
Here are a couple of different combinations: 4-LEDs or 1 120mA LED. The single LED is simple enough that I soldered the components directly onto the leads of the LED. Sealed in 3/4" heat-shrink tubing.
You will find much more about LED circuits at my Website: http://www.quantsuff.com Give me a visit and let me know what you are building this week!