Product Overview: D3V3XA4B10LP-7 - Diodes Incorporated

The D3V3XA4B10LP-7 is a cutting-edge transient voltage suppressor (TVS) diode, meticulously engineered by Diodes Incorporated to provide your electronic circuits with superior protection against voltage spikes and transients. This robust device is specifically designed to safeguard sensitive semiconductor components from electrical overstress caused by electrostatic discharges (ESD), lightning, and other transient voltage events.

Key Features

• Low Profile Package: The D3V3XA4B10LP-7 comes in a compact, low-profile X3-DFN1010-2 package, making it an ideal choice for space-constrained applications.
• High ESD Protection: With its ability to withstand ESD events, this TVS diode offers an impressive air discharge rating of ±30kV and a contact discharge rating of ±30kV, as per the IEC 61000-4-2 standard.
• Low Clamping Voltage: The device provides a low dynamic resistance and clamping voltage, ensuring that sensitive circuitry is effectively shielded from the damaging effects of voltage transients.
• Wide Operating Range: It is designed to operate over a broad temperature range, making it suitable for a variety of challenging environments.

Applications

The D3V3XA4B10LP-7 is versatile and can be used in a wide array of applications, including:

• Portable Electronics
• Smartphones and Tablets
• Data Lines for USB and HDMI Interfaces
• High-Speed Data Lines
• Wireless Communication Systems

Product Specifications

Diodes Incorporated ensures that the D3V3XA4B10LP-7 meets rigorous industry standards for performance and reliability. Below are some of the key specifications:

• Package: X3-DFN1010-2
• Peak Pulse Power Dissipation: 10W (8/20μs waveform)
• ESD Protection: ±30kV (air), ±30kV (contact)
• Stand-off Voltage: 3.3V
• Operating Temperature Range: -55°C to +150°C

With its exceptional protection capabilities and reliability, the D3V3XA4B10LP-7 from Diodes Incorporated represents an excellent solution for safeguarding high-performance electronic systems against the most challenging voltage transients.