Overview of PESD5V2S2UT,215 by Nexperia
The PESD5V2S2UT,215 by Nexperia is a double Electrostatic Discharge (ESD) protection diode packaged in a SOT-23 format, known technically as TO-236. This component, characterized as a Transient Voltage Suppressor (TVS) Diode, is designed to protect sensitive electronics from voltage spikes and transient voltages. It features a common anode configuration with two elements, enabling it to manage ESD protection in dual-line applications. The part is unidirectional and crafted from silicon, utilizing avalanche technology for effective voltage suppression.
The diode supports a breakdown voltage range between 6.4V to 7.2V and can tolerate a maximum ESD voltage of up to 5.2V. It boasts a considerable non-repetitive peak reverse power dissipation capacity of 260 watts, making it robust for various demanding applications. Its thermal and electrical characteristics are optimized for high performance, with an operating temperature range up to 150°C and a maximum peak reflow temperature of 260°C during the soldering process.
PESD5V2S2UT,215 complies with several critical industry standards, including IEC-60134 and IEC-61000-4-2, 4-5, ensuring reliability and safety in its operations. This diode’s package is made from a plastic/epoxy material and comes equipped with gull wing terminals for easier surface mounting.
Industry Applications for PESD5V2S2UT,215
Given its specific attributes, the PESD5V2S2UT,215 could find potential use in various high-demand electronics markets. The following industry applications illustrate possible scenarios for incorporating this device:
- Consumer Electronics: Devices such as smartphones, tablets, and other personal electronics might utilize this diode to protect sensitive components from ESD damage when users interact with interfaces.
- Computing and Data Storage: In servers and storage devices, where data integrity and system reliability are crucial, the PESD5V2S2UT,215 could potentially safeguard against electrical transients that could otherwise result in data loss or hardware damage.
- Automotive: Although this application would require adherence to specific standards (like AEC-Q100), if applicable, automotive systems such as onboard computers and sensor arrays could benefit from the high protection level offered by these diodes against transient voltage encountered in automotive environments.
- Telecommunications: Network equipment, including routers and switches, could potentially employ this diode to prevent damage from ESD that can happen due to sudden surges in power lines or lightning strikes affecting outdoor transmission equipment.
Note that these potential industry applications are only conceptual/illustrative and require analysis and verification by engineering and design teams for adherence to industry standards and specific application requirements.
About Nexperia
Nexperia is a leader in the field of discretes, logic, and MOSFET devices, including a specialized portfolio in Transient Suppressors. The PESD5V2S2UT,215 is part of Nexperia’s comprehensive range of ESD protection diodes designed to address the needs of various electronic applications, from automotive systems to portable devices. Their products are recognized for their quality, reliability, and performance, with the PESD5V2S2UT,215 serving as a prime example of their commitment to protecting sensitive electronic components from electrical and thermal stress.
Where to Find PESD5V2S2UT,215 by Nexperia
For those looking to purchase the PESD5V2S2UT,215, it’s advisable to start your search on findchips.com. This site can lead to comprehensive insights into current stock levels across various distributors and competitive pricing information. Previously, this part has been available at distributors such as New Advantage Corporation, Mouser Electronics, DigiKey, and Farnell, among others. However, for the most accurate and up-to-date availability and pricing, future customers should refer to the Transient Suppressors section at findchips.com where alternate parts by Nexperia or other manufacturers can also be explored.