A transient suppressor, also known as a transient voltage suppressor (TVS) or a surge protector, is a device designed to protect electronic devices and circuits from voltage spikes or transients that can occur in AC circuits. Voltage spikes can result from various sources such as lightning strikes, power surges, electromagnetic interference, or switching events in the power grid. These spikes can potentially damage sensitive electronic components and disrupt the normal operation of devices.
Transient suppressors work by providing a low-impedance path for the excess voltage to divert it away from the sensitive components. Here's how they protect electronic devices from voltage spikes:
Voltage Clamping: Transient suppressors are typically constructed using components like metal oxide varistors (MOVs) or zener diodes. These components have a characteristic called "clamping voltage." When the voltage across them exceeds a certain threshold (the clamping voltage), they start conducting heavily. This effectively shunts the excess voltage away from the connected device, preventing it from reaching dangerous levels that could cause damage.
Fast Response Time: Transient suppressors are designed to respond very quickly to voltage spikes, often in nanoseconds. This rapid response time is crucial in preventing the transient voltage from reaching and damaging sensitive components.
High Energy Absorption Capacity: Transients can carry a significant amount of energy due to their high voltage levels. Transient suppressors are designed to absorb this energy by allowing current to flow through them. This prevents the excess energy from being transferred to the protected circuit.
Dissipation and Heat Management: The energy absorbed by the transient suppressor is converted into heat. To prevent the suppressor itself from becoming damaged due to overheating, it is important to ensure that the suppressor is properly sized for the expected transient energy and that it has adequate heat dissipation capabilities.
Parallel Configuration: Transient suppressors are typically connected in parallel with the device or circuit they are protecting. This means that under normal operating conditions, they have a high impedance and do not affect the circuit's operation. However, when a voltage spike occurs, their impedance decreases, allowing them to conduct and divert the excess energy.
It's important to note that transient suppressors are not a one-size-fits-all solution. Different devices and circuits may have different voltage requirements and protection needs. Therefore, it's crucial to select the appropriate type and rating of transient suppressor based on factors like the expected transient voltage levels and the sensitivity of the connected components.
Overall, transient suppressors play a vital role in safeguarding electronic devices and circuits from voltage spikes, ensuring their reliable operation and longevity.