How dimmers and motor controllers work: Difference between revisions
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==Mode of Operation== | ==Mode of Operation== | ||
[[file:TriacDimmer.png|thumb|right|A basic triac dimmer circuit.]] | [[file:TriacDimmer.png|thumb|right|A basic triac dimmer circuit.]] | ||
The simple circuit shown in the graphic was used in the original light dimmers that you can fit in place of a normal on/off light switch, and is still used in motor speed controllers in many appliances. (It works poorly with modern low energy light bulbs.) | |||
The key circuit element is a triac, a 3-terinal semiconductor device with few if any other applications. It operates as a switch, controlled by the the gate (the side connection in the diagram). When a voltage is applied to the gate it suddenly turns on and remains on (irrespective of the gate voltage) until the mains supply drops to zero at the end of a half-cycle. A triac is in fact very similar to a thyristor or SCR (silicon controlled recitifier) except that it works equally well with either positive or negative voltages. This makes it ideal for use in AC circuits where the voltage reverse twice per cycle. | |||
You will notice another component in the circuit with a similar symbol, but lacking a gate. This is a diac, similar to a triac except that it suddenly turns on when the voltage across it reaches a certain value, perhaps 35V. | |||
As the mains voltage rises at the start of a cycle, current flows through the resistor R1 and variable resistor VR1, charging the capacitor C1. As soon as the voltage across C1 reaches a certain value, the diac starts to conduct and the capacitor discharges into the triac gate, switching it on. It remains on for the rest of the cycle, only switching off when the mains voltage drops to zero, after which the same hapens in the other half cycle. | |||
Thus, depending on the setting of the variable resistor VR1, power will be supplied to the lamp or motor for only a portion of each half cycle, so varying its brightness or speed. | |||
==Faults== | |||
Either the diac or the triac can fail, causing a motor either to run only at full speed, or not at all. First try replacing the diac. Any with a voltage rating in the 30 - 40V range should do. If that doesn't fix it, check the markings on the triac and replace it it with one of the same type. | |||
==Low-energy lamp dimmers== | |||
Old fashioned dimmer switches are unsuitable for use with low energy bulbs as they tend not to like the current being switched on suddenly in the middle of a half cycle. Modern dimmer switches operate differently, often including a microcontroller, and instead, switch the current off part way through each half cycle, or offer several modes of operation. ven so, it's important to use bulbs with are specifically marked as "dimmable". | |||
==LED dimmer switches== | ==LED dimmer switches== | ||
[[Category:General]] | [[Category:General]] | ||
Revision as of 22:33, 6 January 2024
Motor controllers and dimmers are commonly built around a simple circuit. Sometimes, this can fail, but may well be repairable.
Summary
Many household appliances such as vacuum cleaners and kitchen mixers and blenders have a continuously variable speed control using a triac. Older light dimmers use the same circuit though they work poorly with low energy CCFL and LED bulbs
Safety
- As with all mains-operated devices, an understanding of electrical safety is essential for any dissasembly or repair.
Mode of Operation
The simple circuit shown in the graphic was used in the original light dimmers that you can fit in place of a normal on/off light switch, and is still used in motor speed controllers in many appliances. (It works poorly with modern low energy light bulbs.)
The key circuit element is a triac, a 3-terinal semiconductor device with few if any other applications. It operates as a switch, controlled by the the gate (the side connection in the diagram). When a voltage is applied to the gate it suddenly turns on and remains on (irrespective of the gate voltage) until the mains supply drops to zero at the end of a half-cycle. A triac is in fact very similar to a thyristor or SCR (silicon controlled recitifier) except that it works equally well with either positive or negative voltages. This makes it ideal for use in AC circuits where the voltage reverse twice per cycle.
You will notice another component in the circuit with a similar symbol, but lacking a gate. This is a diac, similar to a triac except that it suddenly turns on when the voltage across it reaches a certain value, perhaps 35V.
As the mains voltage rises at the start of a cycle, current flows through the resistor R1 and variable resistor VR1, charging the capacitor C1. As soon as the voltage across C1 reaches a certain value, the diac starts to conduct and the capacitor discharges into the triac gate, switching it on. It remains on for the rest of the cycle, only switching off when the mains voltage drops to zero, after which the same hapens in the other half cycle.
Thus, depending on the setting of the variable resistor VR1, power will be supplied to the lamp or motor for only a portion of each half cycle, so varying its brightness or speed.
Faults
Either the diac or the triac can fail, causing a motor either to run only at full speed, or not at all. First try replacing the diac. Any with a voltage rating in the 30 - 40V range should do. If that doesn't fix it, check the markings on the triac and replace it it with one of the same type.
Low-energy lamp dimmers
Old fashioned dimmer switches are unsuitable for use with low energy bulbs as they tend not to like the current being switched on suddenly in the middle of a half cycle. Modern dimmer switches operate differently, often including a microcontroller, and instead, switch the current off part way through each half cycle, or offer several modes of operation. ven so, it's important to use bulbs with are specifically marked as "dimmable".