Overview of 1N914BTR by onsemi
The 1N914BTR is a small signal diode featuring a high conductance design, which makes it suitable for various electronic applications. This axial lead diode is constructed in the DO-35 package style, consisting of two pins. With a repetitive peak reverse voltage of up to 100V and an average forward current of 200mA, this diode can handle decent power levels while maintaining effective performance in signal processing functions.
Some key specifications include a maximum forward voltage of 1V, ensuring low voltage drops during operation. The diode exhibits a reverse recovery time of only 4 nanoseconds, which is particularly advantageous in high-frequency applications, as it can switch states quickly. Additionally, the device can handle a forward surge current of up to 4A, providing robustness under transient conditions. The Rectifier Diodes subcategory, of which this part is a member, emphasizes its application in rectifying processes, converting alternating current (AC) to direct current (DC).
The part is compliant with RoHS standards, making it suitable for environmentally-conscious designs. The current life cycle status of the 1N914BTR is labeled as active by onsemi, indicating that it is still in production as of this writing. The factory lead time is noted to be approximately 23 weeks and 4 days, which may affect procurement timelines.
Industry Applications for 1N914BTR
The 1N914BTR might potentially be utilized across varied sectors. The small signal diode could find its utility in the following industries:
- Electronic Manufacturing: This diode could be integrated into a range of consumer electronics, such as power supplies and low-power switching applications. Its fast switching capabilities may enhance the efficiency of electronic designs.
- Communication and Networking: In telecom equipment, the 1N914BTR might serve in signal detection or modulation circuits, potentially allowing for faster data transmission rates in high-speed networks. The diode’s low forward voltage and rapid recovery time could contribute to better signal integrity.
- Education and Research: The 1N914BTR can be a useful component in educational kits and laboratory experiments focusing on circuit design. Students and researchers could use this diode for studying rectification and signal processing in basic electronics courses.
- Test Equipment: This diode may also be integrated into test instruments for voltage regulation or protection circuits. Its characteristics such as the ability to handle a 4A forward surge current might provide reliability in experimental setups.
It is important to note that these potential applications are illustrative and should require detailed verification and analysis by engineering and design teams to ensure adherence to industry-specific standards and application requirements.
About onsemi
onsemi is a manufacturer known for its broad portfolio of semiconductor components, focusing on efficiency and performance, particularly in the field of diodes. Their expertise in Rectifier Diodes is well-regarded, and the 1N914BTR is part of a larger family of silicon-based diodes designed for a variety of electronic applications. Similar parts manufactured by onsemi could include standard rectifier diodes and Schottky diodes, which also offer rapid switching capabilities and low forward voltages suitable for a wide range of use cases. The company remains committed to producing components that adhere to modern compliance requirements, ensuring that their diodes, including the 1N914BTR, are suitable for contemporary applications.
Where to Find 1N914BTR by onsemi
- New Advantage Corporation
- Master Electronics
- Mouser Electronics
- DigiKey
However, it is essential to visit findchips.com for the most accurate and up-to-date information regarding availability and pricing before making any purchase decisions. Additionally, while investigating the 1N914BTR, you might explore other Rectifier Diodes that may provide alternate specifications or performance characteristics suited for your application needs.