ON Semiconductor NTR1P02LT1 P-Channel MOSFET

Introducing the NTR1P02LT1, a high-performance P-Channel MOSFET from ON Semiconductor, designed to offer efficient power management in a wide array of electronic applications. This MOSFET is a testament to ON Semiconductor's commitment to providing innovative solutions that enhance energy efficiency and reliability in electronic systems.

Key Features

• Device Type: P-Channel
• Configuration: Single
• Drain-Source Breakdown Voltage (V<sub>DS): -20 V
• Continuous Drain Current (I<sub>D): -1.7 A
• R<sub>DS(on): 300 mOhm at V<sub>GS = -4.5 V
• Gate-Source Voltage (V<sub>GS): ±8 V
• Power Dissipation (P<sub>D): 1.25 W
• Operating Temperature Range: -55°C to +150°C
• Package: SOT-23 (TO-236)

The NTR1P02LT1 is housed in a compact SOT-23 package, making it suitable for space-constrained applications without compromising on power handling capabilities. With a drain-source breakdown voltage of -20 V and a continuous drain current of -1.7 A, this MOSFET can handle significant power for its size. The low on-resistance of 300 mOhm at a gate-source voltage of -4.5 V ensures minimal power loss during operation, contributing to overall system efficiency.

Designed to operate over a wide temperature range from -55°C to +150°C, the NTR1P02LT1 is ideal for harsh environments and can reliably perform under thermal stress. This feature makes it well-suited for industrial, automotive, and consumer applications where temperature fluctuations are common.

ON Semiconductor's NTR1P02LT1 is an excellent choice for designers looking to optimize their power management solutions. It is commonly used in load switch applications, power management tasks, and as a switch for various electronic components. Its robustness, efficiency, and small form factor make it a versatile component for modern electronic designs.

Whether you are designing power supplies, motor controls, or looking to improve the energy efficiency of portable devices, the NTR1P02LT1 provides a reliable solution that integrates seamlessly into your circuit, ensuring optimal performance and longevity of your electronic products.