Overview of BAT54CW,115 by Nexperia
The BAT54CW,115 is a Schottky barrier diode with a dual configuration, designed to handle general-purpose applications. This component, characterized by its small SC-70 (SOT-323-3) package, features three pins and is suitable for surface mount technology, allowing for efficient integration into compact electronic designs. The diode has a maximum output current rating of 200 milliamps (0.2 A) and can operate over a wide temperature range, from -55 °C to 150 °C, making it versatile for various environmental conditions. The part’s forward voltage drop is significantly lower than that of standard diodes, which contributes to its efficiency and rapid switching capabilities.
Manufactured by Nexperia, the BAT54CW,115 also includes compliance with the RoHS directive, indicating that it is free from hazardous substances. The device is designed to have a reverse recovery time of a mere 0.005 microseconds, which enhances its performance in high-speed switching applications. As of the current writing, this part is listed under an active life cycle code, indicating its availability for ongoing usage in various applications.
Industry Applications for BAT54CW,115
Given the characteristics of the BAT54CW,115, there are several industry applications where this component might be effectively utilized. Below are a few potential industries and applications:
- Space Technology: The BAT54CW,115 could potentially be used in satellite communication systems, where its low reverse recovery time contributes to enhanced signal integrity. Components such as RF amplifiers and power management circuits in satellites might find usefulness for this diode.
- Aerospace and Defense: In aerospace applications, the diode may serve as part of power distribution systems or in sensor circuits where rapid switching is essential. Its operational temperature range makes it suitable for demanding environments encountered in aerospace settings.
- Energy and Power Systems: The efficiency of the BAT54CW,115 could be beneficial in photovoltaic systems, where Schottky diodes are often utilized in bypass applications. Its configuration may support the performance of battery management systems or inverters.
- Consumer Electronics: The device could be integrated into various consumer electronics such as smartphones and tablets, where space is at a premium. Its compact size and efficiency make it suitable for power regulation circuits.
- Telecommunications: The diode might play a role in enabling power supply circuits for communication equipment, where its fast switching characteristics can improve system response times.
It is important to note that these potential industry applications are conceptual and illustrative. Verification and analysis by engineering and design teams are essential to ensure adherence to industry standards and specific application requirements.
About Nexperia
Nexperia is a global semiconductor manufacturer specializing in the production of discrete, logic, andMOSFET components. The company has a reputation for its focus on high-quality production and innovation, particularly in the field of diodes, including Schottky diodes, rectifier diodes, and other similar components. The BAT54CW,115 is one of their offerings that exemplifies their commitment to providing reliable electronic components for various applications. Nexperia’s diode portfolio includes a range of devices tailored for specific purposes, emphasizing efficiency, size, and operational stability.
Where to Find BAT54CW,115 by Nexperia
For those interested in acquiring the BAT54CW,115, it is advisable to research purchasing options on findchips.com. This platform can provide guidance on obtaining this component as well as other Rectifier Diodes that may be offered by Nexperia or different manufacturers. Historically, the part has been available from various distributors, including New Advantage Corporation, Chip1Stop, Avnet Asia, and DigiKey, among others. However, checking findchips.com is recommended to obtain the most current stock levels and pricing information.