DESD18VF1BLP3-7 TVS Diode by Diodes Incorporated

The DESD18VF1BLP3-7 is a cutting-edge transient voltage suppressor (TVS) diode designed by Diodes Incorporated, a leading manufacturer in the semiconductor industry. This product is meticulously engineered to provide high-level protection for sensitive electronic components from voltage transients induced by system inductive load switching and lightning strikes.

Key Features

• Low Capacitance: With an ultra-low capacitance design, the DESD18VF1BLP3-7 ensures that there is minimal signal distortion, making it ideal for high-speed data lines and other sensitive applications.
• Unidirectional Protection: This TVS diode offers unidirectional protection, guarding against transient voltages that may occur in one direction, which is particularly useful for DC power applications.
• Low Leakage Current: It has an exceptionally low leakage current, which enhances the energy efficiency of the application it is used in.
• Small Package Size: The DESD18VF1BLP3-7 comes in a small, leadless package (DFN1006-3), which allows for space-saving PCB designs and is suitable for use in compact electronic assemblies.

Applications

The DESD18VF1BLP3-7 is versatile and can be used across various applications, including:

• USB interfaces
• Portable electronics
• Power supply lines
• Computer peripherals
• Networking devices

Product Specifications

Here are some of the technical specifications that make the DESD18VF1BLP3-7 a robust choice for overvoltage protection:

• Peak Pulse Power Dissipation: 18W
• ESD Capability: ±20kV (air), ±15kV (contact)
• Stand-off Voltage: 5V
• Clamping Voltage: 9.8V
• Reverse Leakage Current: < 0.5µA
• Operating Temperature Range: -55°C to +150°C

With its impressive electrical characteristics and compact form factor, the DESD18VF1BLP3-7 from Diodes Incorporated is an excellent choice for designers looking to enhance the durability and reliability of their electronic systems. It ensures that sensitive circuits remain protected from the potentially destructive effects of voltage spikes, thereby maintaining system integrity and prolonging the life of the electronic product.