STMicroelectronics is a leading global semiconductor company that designs and manufactures a broad range of innovative products for various industries. With a focus on delivering high-performance solutions, STMicroelectronics offers a comprehensive portfolio of microcontrollers, sensors, power management solutions, and analog and digital ICs. These products enable efficient and reliable operation in applications such as automotive, industrial automation, IoT, and consumer electronics. STMicroelectronics is committed to sustainability and social responsibility, investing in environmentally friendly manufacturing processes and promoting ethical practices throughout its supply chain. The company's products are designed to meet the highest industry standards, ensuring superior quality and reliability. STMicroelectronics is also dedicated to innovation, investing heavily in research and development to deliver cutting-edge technologies that address the evolving needs of customers. With a global presence and a team of experienced professionals, STMicroelectronics remains a trusted leader in the semiconductor industry, enabling smarter and more sustainable solutions for a better world.
Thyristors are semiconductor devices commonly used in Transient Voltage Suppression (TVS) applications to protect electronic systems from voltage surges or transients. They are specifically designed to provide over-voltage protection by acting as a switch that can rapidly respond to high voltage events. Thyristors have three main states of operation: off-state, on-state, and latching state. In the off-state, the thyristor acts as an open circuit and allows normal current flow in the system. When a voltage surge occurs and exceeds a specific threshold called the breakover voltage, the thyristor enters the on-state. In this state, it behaves like a short circuit, diverting excess current away from sensitive components and protecting them from potential damage. The thyristor remains in the on-state until the current flowing through it drops below a certain level known as the hold current. This drop in current can be triggered by external factors such as a decrease in the transient voltage or the presence of other components in the circuit. Once the hold current is reached, the thyristor returns to the off-state, ready to protect the system against future voltage surges. Thyristors used in TVS applications are designed to handle high surge currents and fast response times, making them suitable for protecting sensitive electronic equipment. They can provide effective protection against various types of transient events, including lightning strikes, electrostatic discharge, and switching noise. Thyristor-based TVS devices are commonly used in a wide range of applications, including power supplies, telecommunications equipment, industrial machinery, automotive electronics, and more. They are reliable and robust devices that help prevent damage to electronic systems caused by voltage surges, ensuring the smooth operation and longevity of the protected equipment. In summary, thyristors are semiconductor devices utilized in TVS applications to protect electronic systems from voltage surges. They function as switches, rapidly transitioning between open and short circuit states in response to over-voltage events. Thyristors offer high surge current handling capabilities and fast response times, making them an effective solution for safeguarding sensitive electronic equipment from transient voltage spikes.