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| *http://www.radioradar.net/docs/varistor.php some info in russian. | *http://www.radioradar.net/docs/varistor.php some info in russian. | ||
| * Free IC DataSheet Search Site : http://www.Datasheet4U.com | |||
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Revision as of 06:39, 28 February 2006
A varistor is an electronic component with a significant non-ohmic current-voltage characteristic. The name is a portmanteau of variable resistor. Varistors are often used to protect circuits against excessive transient voltages. A varistor is also known as Voltage Dependent Resistor or VDR.
Metal oxide varistor
The most common type of varistor is the Metal Oxide Varistor (MOV). This contains a mass of zinc oxide grains, in a matrix of other metal oxides, sandwiched between two metal plates (the electrodes). The boundary between each grain and its neighbour forms a diode junction, which allows current to flow in only one direction. The mass of randomly oriented grains is electrically equivalent to a network of back-to-back diode pairs, each pair in parallel with many other pairs. When a small or moderate voltage is applied across the electrodes, only a tiny current flows, caused by reverse leakage through the diode junctions. When a large voltage is applied, the diode junctions break down because of the avalanche effect, and a large current flows. The result of this behaviour is a highly nonlinear current-voltage characteristic, in which the MOV has a high resistance at low voltages and a low resistance at high voltages.
If the size of the transient pulse (often measured in joules) is too high, the device may melt, burn, vaporize, or otherwise be damaged or destroyed. For example, a nearby lightning strike may permanently damage a varistor.
Important parameters for varistors are response time (how long it takes the varistor to break down), maximum current and a well-defined breakdown voltage. When varistors are used to protect communications lines (such as phone lines used for modems), their capacitance is also important because high capacitance would absorb high-frequency signals, thereby reducing the available bandwidth of the line being protected.
Varistors compared to other transient-suppressors
Another method for suppressing voltage spikes is the transient voltage suppression diode (TVS). There are two significant differences between a varistor and a TVS:
- Varistors typically have an order of magnitude more leakage current, that is, they will drain a battery 10 times faster.
- Varistors degrade over time. This shows up after repeated transient events.
Another transient voltage suppression device is the gas discharge tube which, unfortunately, has a much higher breakdown voltage, but also a very much higher current capacity, and can withstand multiple high-voltage hits (for example, from lightning) without significant degradation.
*Note: only non-ohmic variable resistors are usually called varistors. Other, ohmic types of variable resistor include the potentiometer and the rheostat.
See also
- http://www.radioradar.net/docs/varistor.php some info in russian.
- Free IC DataSheet Search Site : http://www.Datasheet4U.com