The purpose of a metal oxide varistor (MOV) in surge protection is to safeguard electronic devices and electrical systems from voltage spikes or transient overvoltages, commonly referred to as electrical surges. MOVs are a type of voltage-activated resistor made from a ceramic material, typically zinc oxide, that exhibits non-linear electrical characteristics.
Here's how an MOV works in surge protection:
Voltage Regulation: Under normal operating conditions, the MOV presents a very high resistance and has little effect on the electrical circuit. This allows the normal flow of electricity within acceptable voltage limits.
Surge Response: When a sudden voltage surge occurs, such as from a lightning strike, power grid fluctuations, or other electrical disturbances, the voltage across the MOV rises. At a certain threshold voltage, the MOV enters a low-resistance state. This means that the MOV conducts excess current away from the protected circuit and diverts it to the ground.
Absorbing Surge Energy: As the MOV conducts the excess current, it dissipates the surge energy as heat. This absorption of energy prevents the voltage spike from reaching sensitive electronic components downstream, thereby protecting them from damage.
Fast Response Time: MOVs have fast response times, typically in nanoseconds. This ensures that they can react quickly to sudden voltage spikes and clamp the voltage before it reaches damaging levels.
It's essential to note that MOVs are designed to handle transient overvoltages and not continuous high-voltage conditions. After a surge event, the MOV might degrade slightly due to the energy absorbed, and it may not have the same surge protection capability in subsequent events. Thus, if a MOV has been activated (in other words, it has experienced a surge), it is advisable to replace it to maintain proper surge protection for the equipment.
MOV components are commonly used in surge protection devices like surge protectors and power strips. They are also employed in electronic equipment and electrical distribution systems to provide an additional level of protection against electrical surges.