Everything You Need to Know About TVS Diodes

There are multiple different types of TVS diode, each with unique characteristics and suited to different applications and circuits.

Both through-hole and surface-mounted types are available. Additionally, these components can be either unidirectional or bidirectional, providing greater flexibility when it comes to choosing the type of TVS diode that is best for your setup.

Some of the main TVS diode types are explained in further detail below:

Zener diodes are one of the more familiar TVS types. These components feature a reduced breakdown Voltage (zener Voltage) which enables them to conduct controlled breakdowns, keeping the current passing across the diode close to the zener Voltage. They can also be used to generate Voltage references and offer circuit protection against overvoltage and ESD events.

Zener diodes are ideal for high-frequency circuits and high-speed data lines. As they are limited to handling low energy, they are widely used for diverting and clamping in these types of circuits.

TVS diodes are used in the automotive industry to protect sensitive components and semiconductor devices from damage caused by transient spikes and discharges. They can be used in several different locations within vehicles to provide protection, including near the alternator and regulator (protects against high-energy events such as field decay or load dump), and electronic data buses (protects against ESD events), to name just a few examples.

Bidirectional diodes can operate at both positive and negative Voltages. This makes them more versatile than unidirectional diodes which only operate with either positive or negative Voltages rather than allowing both.

It is worth noting that other types of TVS diodes can also be bidirectional. For example, zener diodes are bidirectional, making them more adapted to coping with varying Voltages in circuits.

Clamping Voltage diodes are also standard diode types. This term is primarily used to refer to clamps which protect sensitive devices from transients and overvoltage.

Specialised clamping diodes can handle these high Voltages well, diverting the excess away and clamping the residual Voltage. Additionally, TVS clamping diodes can be used to protect particularly sensitive components and circuits, responding to transients much more quickly than alternatives to reduce the potential for damage.

Not all diodes are ESD-sensitive, so choosing the right device is essential if you need to ensure ESD protection. ESD diodes should be placed on the trace, with the distance to ground as short as possible.

ESD protection diodes are designed to protect ICs from high-Voltage ESD events. They absorb abnormal Voltage to provide protection and prevent circuits from malfunctioning. If an ESD event occurs, the device breaks down and creates a low-impedance path to limit and divert the current flow to ground, protecting the circuit.

Littelfuse is a leading supplier of electronic components, providing market-leading circuit protection devices. Littelfuse diodes are high-quality and offer a strong level of protection, making them a great choice for many applications.

Littelfuse components and semiconductors are available in a range of types and configurations to suit every circuit. With a variety of options to choose from, make sure to select the most suitable type for your requirements.

Protection diodes can be used in circuits where current flows in the forward direction. They are designed to protect devices which are sensitive and respond negatively to current flowing through them in the reverse direction. Essentially, the role of a protection diode is to protect the circuit from reverse Voltage.

It is important to check the peak reverse Voltage when choosing a protection diode as this attribute will define how much can be absorbed before it breaks down and current can pass.

Transient Suppression Diodes (also known as Transient Voltage Suppressors or Transorbs) are components used to suppress transient Voltages such as ESD events. They ground the clamped Voltage and therefore prevent spikes from causing damage to circuits and delicate components.

These devices are ideal for moderate frequency circuits and applications and are quick to act, simple to use, and available in either unidirectional or bidirectional formats. However, transient suppression diodes offer a limited frequency due to high capacitance and they can be more expensive than alternative options.

Transil diodes are another variation designed to protect circuits and sensitive components from spikes and surges. Transil diodes can be either unidirectional or bidirectional and they can be found in systems as diverse as PCs, medical devices, and wireless communication systems.