ON Semiconductor FQPF22P10T - P-Channel QFET® MOSFET
The FQPF22P10T from ON Semiconductor is a high-performance P-Channel QFET® MOSFET designed to deliver efficient power management and conversion. This MOSFET is an ideal choice for a range of applications, including power supply, lighting, motor control, and automotive systems. It features a -100V drain-source breakdown voltage (V_DSS) and a continuous drain current (I_D) of -22A, making it suitable for high-power applications.
The device is housed in a TO-220F full-pack package, which ensures robustness and ease of mounting on a wide variety of heat sinks and PCBs. The FQPF22P10T is designed with ON Semiconductor's advanced QFET® technology, which provides reduced on-resistance and lower gate charge, leading to improved switching performance and thermal characteristics.
The FQPF22P10T boasts a low threshold voltage (V_GS(th)) of -4V, which allows for operation at lower gate voltages, thus enhancing its efficiency in low voltage applications. Its maximum power dissipation (P_D) is 88W, ensuring it can handle significant power levels without compromising performance. Additionally, the device offers fast switching speeds, which is crucial for reducing switching losses in high-frequency circuits.
With a total gate charge (Q_g) of just 44nC, the FQPF22P10T is optimized for applications that require efficient power usage and minimal heat generation. The device also features a low input capacitance (C_iss), which further contributes to its fast switching capabilities.
The MOSFET's high avalanche energy absorption capability makes it highly reliable in scenarios where unexpected voltage spikes may occur. It also features a 175°C maximum junction temperature, providing a wide operating temperature range that is suitable for challenging environments.
In summary, the ON Semiconductor FQPF22P10T is a versatile and durable P-Channel MOSFET that offers excellent performance for a wide range of power applications. Its combination of high breakdown voltage, low on-resistance, and fast switching speeds make it an efficient solution for designers looking to optimize their power management systems.