The 60V/17A N-channel MOSFET SL17N06DN1, An Ideal Choice for Various Technical Applications In the Smart Home Sector
The SLKOR SL17N06DN1 is an N-channel MOSFET with a 60V drain-source voltage and a continuous drain current of 17A. It is renowned for its low on-state resistance (73mΩ@10V, 6A) and relatively low threshold voltage (2.5V@250μA). These characteristics make the SL17N06DN1 an ideal choice for various technical applications in the smart home sector, particularly in situations requiring high efficiency and precise control.
Slkor Medium Voltage MOSFET SL17N06DN1 product photo
Slkor Medium Voltage MOSFET SL17N06DN1 specification
With its continuous drain current reaching 17A, the MOSFET SL17N06DN1 can handle loads with a certain power rating, making it suitable as a switching or driving element for functions like remote control and timed switching. Additionally, its low threshold voltage and low on-state resistance imply the potential for more efficient energy conversion and control, thus enhancing the overall performance and stability of smart home devices. For the SL17N06DN1 MOSFET, the relatively low on-state resistance of 73mΩ means that it can provide lower conduction resistance under given voltage and current conditions, effectively conducting current. This is highly desirable for many applications, particularly in circuit designs requiring low power consumption and high efficiency.
Parameters of Slkor Medium Voltage MOSFET SL17N06DN1
The SL17N06DN1 medium voltage MOSFET from Slkor has broad prospects for applications in smart technologies. In the smart home sector, it can be used in devices such as smart sockets and intelligent lighting fixtures. In the smart sensor domain, it is suitable for driving and controlling various types of sensors. In the field of smart medical equipment, it can be employed to control medical instruments and monitoring devices.
When selecting the Slkor SL17N06DN1 medium-voltage MOSFET, we need to consider a series of key electrical parameters to ensure that the chosen MOSFET can adapt well to our design requirements. Firstly, we need to determine whether to choose a PMOS or NMOS. PMOS and NMOS have different operating principles and characteristics, hence their use in different application scenarios. PMOS is primarily used in load and switch circuits, while NMOS finds widespread application in digital and analog circuits.
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