TISP61089MDR-S Datasheet/PDFThyristors are a class of semiconductor devices with three terminals: anode, gate, and cathode. They are typically used in the switching of a wide variety of electrical, electro-mechanical, and electro-optical systems. The TISP61089MDR-S is a surface mount thyristor that is typically used in high-voltage applications, such as in motor control, relay switching, DC-DC converters, and LED lighting.
The TISP61089MDR-S is a 600V thyristor that can operate at peak temperatures up to 175°C and can handle energies up to 5000A2sec. It has two configurable gate terminals that support both AC and DC input signals. It is designed to be triggered by a reverse biased gate current with an on-state voltage drop of 0.65V at 5A. The device features a latch-up immunity of 500mA, which provides additional protection against false triggering. It also has a rated surge current of 4500A and a peak power of 500W.
The TISP61089MDR-S is designed to be resistant to various contaminants, such as dust, moisture, and dirt. Its package is hermetically sealed, and its casing is designed with a heat resistant coating to minimize thermal stress. It also features a wide safety margin for overvoltage protection, making it suitable for use in high-voltage applications.
The TISP61089MDR-S works by using a special thyristor design that eliminates the need for an external circuit, as it does not require an additional power source to activate. When the gate terminal of the device receives an external electrical signal, it triggers the thyristor, turning it from an OFF state to an ON state. The thyristor remains latched, and the device will remain on until the gate current is reversed to de-energize the device. As such, it is a cost-effective and reliable solution for controlling large currents in applications involving high voltage.
The TISP61089MDR-S is a highly reliable and efficient thyristor designed for a variety of applications. It is suitable for use in motor control, relay switching, DC-DC converters, and LED lighting, and provides a cost-effective and reliable solution for controlling large currents in high voltage applications. Its hermetically sealed package and wide safety margin for overvoltage protection makes it an ideal choice for high-voltage applications.