MSMLJ10CAE3

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

TVS diodes are widely used in electrical and electronic devices to protect them from potential damage from high-voltage spikes and other power surges. The MSMLJ10CAE3 is a type of transient voltage suppressor (TVS) diode commonly used in such applications. In this article, we will take a look at the application field and working principle of the MSMLJ10CAE3.

MSMLJ10CAE3 Application Field

The MSMLJ10CAE3 is a bi-directional low-power TVS diode that is commonly used to protect electronic circuits and components from transient overloads caused by static discharge, electrostatic discharge (ESD), or electrical transients. The diode is designed to provide protection for electronic components and systems from both transient voltage overshoot and undershoot, and from other power overloads. The diode can be used to protect a wide range of components, including integrated circuits, screens, displays, and control systems that are exposed to high-voltage spikes. It offers a low working voltage of 5V, which makes it suitable for use in low-voltage systems.

The diode features a very fast response time of less than 5ns, which ensures that it can protect the connected components from voltage surges quickly and effectively. Additionally, the diode is capable of withstanding high voltage spikes of up to 1500W, making it suitable for use in systems that are vulnerable to high-voltage spikes. The MSMLJ10CAE3 also features a low reverse leakage current of up to 100mA, which ensures that it consumes only a negligible amount of power when the circuit is not in use.

MSMLJ10CAE3 Working Principle

The MSMLJ10CAE3 utilizes a zener diode architecture to protect circuits and components from transient voltage surges. In normal operation, the diode operates as an open circuit, allowing current to pass through it without any resistance. However, when the diode is exposed to a voltage spike, the voltage across the diode exceeds the breakdown voltage of the diode, causing it to become an active component and introducing a voltage limit.

As the voltage across the diode rises, the diode reduces the current flowing through the circuit until the voltage reaches a safe level. Once the transient has passed, the diode reverts to its normal open circuit state and allows current to flow through the circuit without hindrance. The diode works even faster when a large voltage spike occurs, providing faster protection for the connected components.

The diode is also self-balancing, meaning it can handle transient voltages in both directions and maintain a safe level of voltage across the circuit. This makes it ideal for use in applications where surges from both positive and negative directions can occur. The diode also features a low clamping voltage, which reduces the amount of energy that is transferred to the circuit during a transient voltage spike.

Conclusion

The MSMLJ10CAE3 is a bi-directional low-power TVS diode commonly used to protect electronic circuits and components from transient overloads caused by static discharge, electrostatic discharge, or electrical transients. The diode is designed to provide protection for electronic components and systems from both transient voltage overshoot and undershoot, and from other power overloads. It can handle voltage spikes of up to 1500W and is capable of providing fast protection with a response time of less than 5ns. The diode is self-balancing and features a low clamping voltage, making it suitable for use in a wide range of applications.

The specific data is subject to PDF, and the above content is for reference