Product Overview: DMP21D0UFB-7B from Diodes Incorporated
The DMP21D0UFB-7B is a high-performance, P-Channel MOSFET designed and manufactured by Diodes Incorporated, a leading company in the semiconductor market. This MOSFET is a testament to Diodes Incorporated's commitment to providing energy-efficient, compact, and reliable components for a wide range of electronic applications.
Key Features
- Low On-Resistance: The DMP21D0UFB-7B features very low on-resistance (R<sub>DS(on)), which ensures minimal power loss and improved efficiency in operation, making it ideal for power management applications.
- High Power Dissipation: With a power dissipation of 1.25W, this MOSFET is capable of handling significant levels of power, which is beneficial for high-performance circuits.
- Miniature Package: Housed in an ultra-small X2-DFN1006-3 package, it is perfect for space-constrained applications, offering a compact solution without compromising performance.
- Low Threshold Voltage: The device operates at a low threshold voltage, making it suitable for low voltage applications and enabling efficient control at lower gate voltages.
Applications
The DMP21D0UFB-7B is versatile and can be used in a variety of applications, including:
- Load Switches
- Battery Management Systems
- Power Distribution Circuits
- Portable Electronic Devices
- DC/DC Converters
Quality and Reliability
Diodes Incorporated ensures that the DMP21D0UFB-7B meets high standards of quality and reliability. It is designed to withstand the demanding conditions of industrial and commercial use. The product is RoHS compliant, reflecting the company's commitment to environmental responsibility.
Technical Specifications
Parameter
Value
Configuration
Single
Drain-Source Voltage (V<sub>DS)
-20V
Gate-Source Voltage (V<sub>GS)
±8V
Continuous Drain Current (I<sub>D)
-1.7A
R<sub>DS(on)
320mΩ at V<sub>GS = -4.5V
With its combination of efficiency, durability, and size, the DMP21D0UFB-7B MOSFET from Diodes Incorporated is an excellent choice for designers looking to optimize their power-sensitive applications.