Harnessing the Power of the Sun with a Solar Garden Light

2024-03-07 | By Kitronik Maker

License: See Original Project

Courtesy of Kitronik

Guide by Kitronik Maker

With the world's non-renewable resources being consumed at an alarming rate, it's ‎no surprise that when the new curriculum was released, 2½ years ago, the word ‎‎'environmental' appeared in the key concepts. The programme of study goes on to ‎add that this includes the opportunity to explore issues relating to sustainability. ‎Therefore, teachers are now looking for projects that allow students to consider ‎sustainability, and what better way to do this, than with a solar garden light. This ‎project allows electronic construction, resistant materials, renewable energy, and ‎the study of designers, to be included in one scheme of work.‎

This product is very similar to the solar garden lights that can be found in garden ‎centres and hardware stores. During the day, a solar panel is used to charge up a ‎rechargeable cell, and then at night, when the light level falls, the LED turns on ‎allowing a path, step, or other feature to be illuminated. The soldering in the project ‎is fairly simple as the circuit uses just 15 components and no ICs. Assuming ‎students have practiced some soldering prior to assembling the board, any key ‎stage 3 class, should find building it relatively straight forward. With the essential ‎job of making the board complete, the rest of the scheme of work can be designed ‎to cover as many areas as time allows. Students can either design an enclosure ‎for the board to go in to, or, alternatively, if time is short, a large jar can be used to ‎house the board. In this case, reuse/recycling can be added to the project.‎

“The solar garden light is a perfect way to deliver ‎sustainability” Renewable energy can be examined; just as solar, wind, hydro, or ‎any other renewable energy sources could be studied. Math can be included into ‎the project by studying how long it takes to charge the battery. The electronics can ‎be studied in more detail by looking at the components the circuit uses, such as ‎LEDs, resistors, capacitors, and transistors. A case study of product designers or ‎inventors, like Trevor Baylis, who famously designed the wind-up radio, could be ‎included in the project (www.trevorbaylisbrands.com).‎

The circuit diagram (above) shows how the components are connected up to make ‎the solar garden light. The diode allows the battery to be charged during the day ‎and prevents it from discharging through the solar cell at night. The transistor, Q1, ‎turns the rest of the circuit on when it goes dark. Since the LED needs 3.5 Volts, ‎and the cell only delivers 1.2 Volts, some extra circuitry is needed. This turns the ‎LED on for a third of the time, but at 3 times the battery voltage, and, because this ‎happens hundreds of times a second, the human eye thinks the LED is always on. ‎Our solar garden light kit includes the PCB, parts, solar cell, and rechargeable ‎battery. Click here to view ordering information. Learn more about the author read ‎more »‎

‎©Kitronik Ltd – You may print this page & link to it but must not copy the page or part thereof ‎without Kitronik's prior written consent.

制造商零件编号 2134

SOLAR GARDEN LIGHT WITH BATTERY

Kitronik Ltd.

¥75.49

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