Dimmer switch Unit vs Regular Switch?
You can turn on any lights be it at home, in a machine, or vehicle by using the ‘regular switch’ but sometimes for some reasons you don’t want the full beam of light therefore, you use the dimmer switch unit so you can go from high beam to low beam and vice versa.
Sometimes the arrangement is three positions, that is, high, low and off. However some applications demand smooth control of light intensity between low and high. In this case intensity is continuously variable using any of different variations and technique used for dimmer. There are different Variations of Dimmer Switch including:
- Programmable control via ARDUINO etc.
- Some phase shift control by TRIAC
- PWM power control
- Simple transistor control
- Steps Transformer Control
Where is a dimmer switch useful?
A dimmer is actually power control device. It will work with incandescent and LED lights, and DC motors; also heating elements such as power control of heating devices like heating element in Water Bath, Incubator, and hot air oven/sterilizers. However there are design variations and degree of complexity. Simple dimmer do not give smooth control but it does work. One good thing about this is that it is durable and sustainable. Precision seriously but it is accurate.
Dimmer Switch is used in:
- Light intensity control for ophthalmic equipment like microscope: ophthalmoscope, slit lamp, bipolar coagulating diathermy etc.
- Light intensity control for homes and apartment
- Could be adapted to speed control of small electric motors
- Oven control
How do I make a simple Dimmer switch?
The simplest dimmer switch is a variable resistor also commonly called rheostat. You achieve control by varying the resistance between the light and the power supplies. When using variable resistor in a circuit to vary brightness of a light bulb, you make the resistance greater when you want a dimming experience. Meanwhile, you make the resistance smaller when you want a brighter light setting. You increase resistance by increasing the length of the path of resistive material through which the electrons have to flow. Meanwhile, you decrease resistance by decreasing the length of the path.