SBAV99LT1G by onsemi

Overview of SBAV99LT1G by onsemi

The SBAV99LT1G by onsemi is a high-performance, dual, series-connected, center-tap rectifier diode, designed for switching applications. Housed in a SOT-23 (TO-236) 3 lead package, this component offers halogen-free and RoHS compliance, aligning with current environmental standards. Its silicon diode element material ensures reliable operation, while the device’s maximum forward voltage of 0.715 V and reverse recovery time of 0.006 microseconds make it highly efficient for fast switching needs.

Rated for a maximum reverse peak voltage of 100V and capable of handling up to 0.215A of output current, the SBAV99LT1G is also specified to tolerate a non-repetitive peak forward current of 2A. Designed to perform within a wide temperature range of -65°C to 150°C, it caters to a broad spectrum of environmental conditions. Moreover, its low power dissipation of 0.225W, coupled with a high moisture sensitivity level (MSL) of 1, denotes its robustness for extensive applications. Importantly, this part meets the AEC-Q101 standard, showcasing its qualification for automotive applications.

Industry Applications for SBAV99LT1G

The versatility of the SBAV99LT1G makes it suitable for various industry applications, particularly those requiring efficient switching and compact package size. While it has explicit applications within consumer electronics, audio and video systems, and entertainment and gaming, its attributes lend itself to broader use cases:

  • Consumer Electronics: Its small size and high efficiency make the SBAV99LT1G ideally suited for portable electronic devices, such as smartphones, tablets, and laptops, where power conservation and space savings are critical.
  • Audio and Video Systems: The fast switching capabilities and low forward voltage of the SBAV99LT1G could be utilized in audio amplifiers, signal processing, and digital display systems to improve performance and reliability.
  • Entertainment and Gaming: In gaming consoles and virtual reality systems, the SBAV99LT1G could provide efficient power management and signal switching, enhancing the user experience with faster response times.
  • Power Supply Units: Given its high reverse voltage capability and low power dissipation, this diode is potentially suitable for use in power supply units requiring efficient conversion and minimal heat generation.

Note that these potential applications are illustrative and would require validation by engineering and design teams to ensure compatibility and optimal performance within specific systems.

About onsemi

onsemi is a leading semiconductor solutions provider, specializing in energy-efficient innovations that help create a smarter, greener, and more connected world. Within the realm of diodes, and specifically Rectifier Diodes, onsemi offers a broad portfolio designed to suit a wide range of applications. Their products, including the SBAV99LT1G, are known for their reliability, performance, and compliance with the highest industry standards, such as the AEC-Q101 automotive qualification. The company’s expertise in silicon and package design enables them to deliver high-quality diodes that address the demanding requirements of modern electronic applications.

Where to Find SBAV99LT1G by onsemi

For those looking to procure the SBAV99LT1G, our site findchips.com offers comprehensive inventory data and pricing from multiple distributors. By utilizing our platform, you can easily compare available stock and pricing information in real-time, ensuring you find the best option for your procurement needs. Historically, the SBAV99LT1G has been available at distributors such as Wuhan P&S, New Advantage Corporation, Flip Electronics, and Avnet Asia, among others. To discover current stock levels, pricing, and to explore alternative Rectifier Diodes that might suit your requirements, visit findchips.com. It is advisable to verify the most current availability and pricing information directly on our website.

Compare pricing for SBAV99LT1G and other Rectifier Diodes / Diodes at findchips.com