STMicroelectronics 1.5KE39A
- 1.5KE39A
- STMicroelectronics
- TVS DIODE 33.3VWM 69.7VC DO201
- TVS - Diodes
- 1.5KE39A Лист данных
- DO-201AA, DO-27, Axial
- DO-201AA, DO-27, Axial
- Lead free / RoHS Compliant
- 28547
- Запасы спот / разрешенные дилеры / излишки на заводе
- Гарантия качества на 1 год 》
- Нажмите, чтобы узнать цены
Part Number 1.5KE39A |
Category TVS - Diodes |
Manufacturer STMicroelectronics |
Description TVS DIODE 33.3VWM 69.7VC DO201 |
Package DO-201AA, DO-27, Axial |
Series 1.5KE, TRANSIL? |
Type Zener |
Mounting Type Through Hole |
Package / Case DO-201AA, DO-27, Axial |
Supplier Device Package DO-201 |
Applications General Purpose |
Unidirectional Channels 1 |
Voltage - Reverse Standoff (Typ) 33.3V |
Voltage - Breakdown (Min) 37.1V |
Voltage - Clamping (Max) @ Ipp 69.7V |
Current - Peak Pulse (10/1000µs) 143A (8/20µs) |
Power - Peak Pulse 1500W (1.5kW) |
Power Line Protection No |
Capacitance @ Frequency 2400pF @ 1MHz |
Package_case DO-201AA, DO-27, Axial |
1.5KE39A Гарантии
• Ответьте оперативно
• Гарантированное качество
• Глобальный доступ
• Конкурентоспособная рыночная цена
• Универсальные услуги цепочки поставок
Jinftry, это ваш самый надежный поставщик компонентов, добро пожаловать, чтобы отправить нам запрос, спасибо!
У вас есть вопросы о 1.5KE39A ?
Не стесняйтесь связаться с нами:
+86-755-82518276
+8615019224070, annies65, +8615118125813
568248857, 827259012, 316249462
+8615019224070, +8615118118839, +8615118125813
( Электронная почта в первую очередь )
Комментарии
STMicroelectronics
1.5KE30A
TVS DIODE 25.6VWM 53.5VC DO201
1.5KE220ARL
TVS DIODE 25.6VWM 53.5VC DO201
1.5KE36CA
TVS DIODE 25.6VWM 53.5VC DO201
SM15T39A
TVS DIODE 25.6VWM 53.5VC DO201
STIEC45-30AS
TVS DIODE 25.6VWM 53.5VC DO201
ITA6V1U1RL
TVS DIODE 25.6VWM 53.5VC DO201
SM15T22CA
TVS DIODE 25.6VWM 53.5VC DO201
SM15T30A
TVS DIODE 25.6VWM 53.5VC DO201
ST released a number of new MEMS sensors, breaking through the performance power ratio and unlocking the new field of wearable applications
ST released a number of new MEMS sensors, breaking through the performance power ratio and unlocking the new field of wearable applications
218g 888 • Source: Contributed by the manufacturer • Author: STF Semiconductor • 2022-06-08 14:43 • 1924 readings
0
STC will soon release a series of new sensors with higher performance to power ratio. LSM6DSV16X is the latest member of MEMS inertial sensor with machine learning core, which has higher accuracy and lower power consumption. In addition, Qva
STM icroelectronics TSV7723 Gain Stabilized Amplifier
STM icroelectronics TSV7723 Gain Stabilized Amplifier
STMicroelectronics TSV7723 Single Gain Stabilized Amplifiers are single and dual 22MHz bandwidth single gain stabilized amplifiers. With an input offset voltage of 200µV maximum at room temperature and optimized for common mode near ground, the TSV7723 is ideal for low-side current measurements. The TSV7723 operates from a single 1.8V--5.5V supply, and all parameters are scaled at a load of 47pF, making it easy to use as an analog-to-digital
Embedded Security Solutions for the IoT Industry
Embedded Security Solutions for the IoT Industry
According to Gartner's forecast, the number of IoT devices worldwide will reach 26 billion by 2020, and the IoT market will reach $1.9 trillion. In the process of continuously promoting more secure IoT devices and applications, hardware products that ensure embedded security have also ushered in the development trend. Market analysis by ABI Research shows that sales of secure hardware for digital authentication and embedded security will reach
STMicroelectronics L9908 Three-Phase Motor Gate Driver
STMicroelectronics L9908 Three-Phase Motor Gate Driver
STMicroelectronics L9908 Three-Phase Motor Gate Driver Unit (GDU) is designed to control brushless motors in automotive applications. The three half-bridge driver channels (HS/LS coupling) can be independently configured to drive different loads, and the STMicroelectronics L9908 can tolerate -14V--+95V offset on the motor pins. The pre-driver stage is controlled via 6 dedicated parallel inputs supporting 0%--100% duty cycle operation. This