High-voltage MOSFET SL8N65CD from Slkor Plays a Crucial Role in the Field of Smart Remote Controllers

2024-03-08 SLKOR News
High-voltage MOSFET,power MOSFET,high-voltage MOSFET,Schottky diodes

The intelligent remote controller, as an important accessory for smart home appliances, plays a crucial role in the smart home market. With the continuous increase in the variety of smart home appliance products and the improvement of their intelligence level, intelligent remote controllers are being more widely used. These controllers integrate various technologies such as automatic control, sensing technology, communication, and electromagnetic compatibility, providing users with a more convenient and intelligent home experience. In recent years, with the rapid development of the smart home market, the proportion of intelligent remote controller applications continues to grow.


SLKOR Micro semicon products also play an important role in the field of intelligent remote controllers, offering a variety of products including Schottky diodes, ESD protection diodes, TVS transient suppression diodes, general-purpose diodes, and transistors. At the same time, its power devices such as high, medium, and low-voltage MOS field-effect transistors, silicon-controlled rectifiers, bridge stacks, as well as power management chips like LDO, AC-DC, ADC chip series are widely used in smart home devices. From basic appliances like TVs, air conditioners, set-top boxes, and fans to smart lighting, smart curtains, robotic vacuum cleaners, and other smart home devices, Salk Micro's semiconductor products are ubiquitous, providing strong support for the development of smart homes.


The High-voltage MOSFET SL8N65CD from Slkor is a power MOSFET produced using advanced superjunction MOSFET technology. Through specialized design, the SL8N65CD can effectively reduce on-state resistance, providing excellent switching performance and the ability to withstand high-energy pulses in avalanche and commutation modes. Therefore, the SL8N65CD is well-suited for high-efficiency switch-mode power applications.

Fig.1

The SL8N65CD has a range of key parameters, including being an N-channel type, a drain-source voltage (Vdss) of 650V, a continuous drain current (Id) of 8A, a power dissipation (Pd) of 69W, an on-state resistance (RDS(on)@Vgs,Id) of 550mΩ@10V,2.5A, and a threshold voltage (Vgs(th)@Id) of 4.5V@250μA. It is packaged in a TO-252 package.


The SL8N65CD possesses several notable features, including ultra-fast switching capability, undergoing 100% avalanche testing, and improved dw/dt capability. These features enable the SL8N65CD to perform exceptionally well in high-voltage applications.

Fig.2

SL8N65CD is widely used in the field of power circuitry, especially in DC-DC power converters and high-voltage H-bridge PWM motor drivers. Power circuits, provide efficient energy conversion and stable power output. In DC-DC power converters, it enable high-efficiency power conversion to meet various power requirements for different applications. Additionally, SL8N65CD can be utilized in high-voltage H-bridge PWM motor drivers, delivering efficient and reliable power output for motors.

Fig.3

In summary, products from Slkor play a crucial role in the field of smart remote controllers, offering a variety of product choices. Among them, the SL8N65CD, as a high-voltage MOSFET utilizing advanced superjunction MOSFET technology, demonstrates excellent switching performance and the ability to withstand high-energy pulses. It finds wide applications in power circuits and DC-DC power converters, as well as excelling in high-voltage H-bridge PWM motor drivers. Through Slkor's products, we can achieve stability and reliability in smart remote controllers, enhancing the user experience.

  • +1 Like
  • Add to Favorites

Recommend

This document is provided by Sekorm Platform for VIP exclusive service. The copyright is owned by Sekorm. Without authorization, any medias, websites or individual are not allowed to reprint. When authorizing the reprint, the link of www.sekorm.com must be indicated.

Contact Us

Email: