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Solar Charged LED Utility Light



Solar Charged LED Utility Light

(C) G. Forrest Cook June 7, 2001

Introduction

Tired of always spending money on flashlight batteries only to have them fail just when you need them? Try this simple circuit out. It would make an excellent science fair project. The white LEDs are quite bright, they provide enough light to illuminate a small room at night. The LEDs produce a nicely focused beam. You can read by the light of this device. The red, orange, yellow and green LEDs broaden the lamp’s color spectrum to produce a slighly warmer color temperature.

The box also doubles as a 12V power source and can run other small loads such as a transistor radio. This project was built with theĀ Simpler is Better approach, the materials are common and many substitutions are possible.

Specifications

Operating Voltage: 11-12.8V DC
Solar Charging Current: 60ma approx.
LED Lamp Operating Current: 60ma approx.

Theory

The solar panel puts out about 60ma of current, this is enough to float-charge the 12V gell cell without overcharging. With this limited amount of current, a charge controller is not required. Other batteries may be used such as smaller lead acid batteries or NiCd cells (use 10 in series), but overcharging and leaking battery goo may result if you exceed the battery charge ratings. A smaller and lighter 3.5 Amp Hour 12V lead acid battery has been successfully used in a different version of this circuit, the price is about the same as the more common 7 Amp Hour battery.

There are 3 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The white LEDs have a higher voltage drop and only 3 can be used in series with a 12V (11-13V) source. The red/orange/yellow LEDs have a lower voltage drop per diode, so 4 can be wired in series. The colored LEDs are optional, they are used to increase the red side of the color spectrum. White LEDs can be expensive. If you are on a budget, try building the light with just one string of three white LEDs and a single resistor.

It is possible to adapt this basic circuit to work with a lower battery voltage, such as 6V. At 6V, the lamp circuit would need to be changed to one white LED and one resistor per string, and a set of red/yellow LEDs and one resistor per string. The resistor values would need to be changed to maintain a 20-25ma current through each LED. A lower voltage solar panel could be used to charge the 6V battery, a 7.2V (open circuit voltage) panel would be a good fit.

Construction

Most of the effort went into building the box, any shape will do, but I built this unit so that the battery just fit inside and the solar panel is mounted at approximately 45 degrees from horizontal. I used particle board and wood screws to hold the box together, other materials will be more rain proof. White gloss paint was applied to give the particle board some protection from rain and keep the box cool in the sun.

The LED mounting system is somewhat fragile but allows the light to be rotated up and down. The cylinder is made from an unthreaded spacer with a 4-40 screw hole tapped in the middle for connecting the LED circuit board. The C mount is just a piece of flat aluminum that I bent in a vise, hammered into shape, trimmed with a pair of tin snips, and filed smooth. The LED circuit board is mounted behind a white plastic water bottle cap, the cap shields the light that escapes from the sides of the white LEDs.

The LED circuit board was custom built with press-n-peel film but can easily be built with a piece of perforated board or prototype PCB material. The resistors are mounted on the circuit board, along with the LEDs. Don’t overheat the LED wires when soldering, white LEDs are expensive and LEDs in general can be destroyed by over heating. When soldering, clip a heat sink to the LED leads.

All wiring was done with stranded #22 gauge wire and wire nuts. Note that the specified solar panel comes with its own built in diode, that will work fine, but a 1N5818 schottky diode in parallel with the existing diode will give slightly more charging current due to a lower voltage drop.

Use

Turn off the LED switch and point the solar panel at the sun in the morning, adjust the panel towards the sun a few times a day, or simply point the panel in the direction of the sun at noon. The battery will charge. Turn the light on at night, it should run for many hours. The box will maintain a charge if it is left in a sunny spot indoors. One full day of charging should be enough for several nights of light.

The pin jacks can be used to occasionally check the battery voltage, under sunlight the voltage rises up to about 12.8V and at night, it should not be allowed to go below 11V or the battery life will be shortened. A new, fully charged battery will run the light for around 100 hours, so if you put the box in the sun during the day, total discharge should not be a big problem.

Experimenters will want to measure the current in and out of the battery, this can be done by inserting an ammeter in series with the fuse and the battery. Other 12V loads can be powered by this system, just plug them into the pin jacks or better, add a polarized output connector.

I have been using this device for four years. It sits in a sunny window and continues to provide a reliable source of light at night.

Parts

1x 12V 7AH sealed lead acid battery, Panasonic LC-R127R2P or Yuasa NP7-12, from DigiKey
1x GM-684 12V 60ma solar panel, p/n 08SLC09 from Elecronix Express
1x red LED, T1-3/4 size
1x orange LED, T1-3/4 size
1x yellow LED, T1-3/4 size
1x green LED, T1-3/4 size
6x white LEDs, T1-3/4 size from Jameco
2x 120 ohm 1/4 W resistors
1x 220 ohm 1/4 W resistor
1x 1/2 Amp 28VDC fuse
1x fuse holder
2x crimp on battery clips
3x wire nuts
1x 1N5818 diode
1x spst toggle switch
2x pin jacks
1x box large enough to fit the battery and solar panel.
   misc hardware
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