5STP10T1600 is a control thyristor produced by ABB. It has high operational capability and can be used in series and parallel connection. It is mainly used in controlled rectifiers and AC drives.
This datasheet provides the technical specifications of the ABB 5STP20Q8500 control thyristor, including rated voltage, maximum current, switching losses, etc.
This datasheet provides the specifications of the ABB 5STP08G6500 Control Thyristor. The thyristor uses patented free-floating silicon technology, has low on-state and switching losses, is designed for traction, energy and industrial applications, and has optimum power handling capability and interdigitated amplifying gate.
This datasheet provides detailed information on the ABB 5STP42U6500 Control Thyristor, including rated values, characteristic values, technical specifications, etc.
The ABB 5STP09D2201 is a control thyristor produced by ABB. It has high operational capability and can be connected in series and parallel. It is suitable for controlled rectifiers and AC drives.
This is a datasheet for the ABB 5STP25L5200 control thyristor. The thyristor has patented free-floating silicon technology, low on-state and switching losses, and is designed for traction, energy and industrial applications.
5STP20T1600 is a high performance control thyristor produced by ABB, with the capability of serial and parallel connection, and is used in controlled rectifiers and AC drives.
5STP 16F2800 is a phase control thyristor product of ABB company. It adopts patented free-floating silicon technology and has the characteristics of low on-state and switching losses. It is suitable for traction, energy and industrial applications.
5STP 18T1800 Control Thyristor is a high performance thyristor from ABB. It can be connected in series and parallel. The maximum working voltage is 1 800 V and the maximum working current is 1 870 A. It is suitable for various controlled rectifiers and AC drives applications.
This product is ABB's 5STP12K6500 control thyristor, which has patented floating silicon technology, low on-state and switching losses, is suitable for traction, energy and industrial applications, optimal power handling capability and interdigitated amplifying gate.
