Overview of ES1D-E3/61T by Vishay Intertechnologies
The ES1D-E3/61T is an ultrafast recovery rectifier diode featuring a repetitive peak reverse voltage of 200V and an average forward current of 1A, encapsulated in a DO-214AC (SMA) package. It comprises a single diode element, constructed from silicon, indicating its role in managing high efficiency and reliability in electrical circuits. The diode offers a forward voltage maximum of 920 mV and a reverse recovery time of only 15 ns, highlighting its capability for rapid switching. The part supports a forward surge current up to 30A and operates within a wide temperature range from -55°C to 150°C, making it robust for various industrial applications.
This component is also noted for its plastic/epoxy package body and features a moisture sensitivity level of 1, suggesting it is less prone to moisture-induced damage during handling and operation. The surface mount design allows for denser packing on circuit boards, which is beneficial in compact electronic assemblies. The ES1D-E3/61T is highlight-compliant with Rohs and exhibits high reliability as a defining feature. The factory lead time for this part is currently set at 9 weeks and 3 days as of this writing, making it essential to plan for procurement accordingly.
Industry Applications for ES1D-E3/61T
- Energy and Power Systems: In the energy sector, the ES1D-E3/61T could potentially be employed in applications such as solar inverters or power supply units where efficient power conversion is critical. The diode’s ability to handle high surge currents and rapid reverse recovery makes it suitable for environments where electrical loads can be highly variable and potentially disruptive.
- Aerospace and Defense: For aerospace applications, components are required to operate under extreme environmental conditions. The ES1D-E3/61T, with its wide operating temperature range and robust package design, could possibly be used in power supply systems aboard aircraft or in other aerospace electronics, where reliability and performance are paramount. The importance of high reliability and quick recovery time cannot be overstressed in such critical applications, although specific validation for aerospace standards would be necessary.
- Space Technology: In space applications, components need to sustain performance despite exposure to radiation and extreme temperatures. The ES1D-E3/61T’s high temperature tolerance and fast switching capability might make it suitable for power regulation modules in satellites. However, like all components intended for space use, rigorous testing and compliance to space standards would be essential.
Note that the potential applications mentioned above are conceptual illustrations and require thorough analysis and verification by engineering and design teams to ensure adherence to industry standards and specific application needs.
About Vishay Intertechnologies
Vishay Intertechnologies is a key player in the electronic component industry, renowned for its broad range of products including diodes, capacitors, and resistors. Within the domain of diodes, and particularly Rectifier Diodes, Vishay offers an array of devices characterized by reliability and performance. The ES1D-E3/61T is an exemplary part of their diode lineup that epitomizes the qualities Vishay is known for: durability, efficiency, and cutting-edge performance. Vishay’s diodes are frequently utilized in diverse sectors, ranging from consumer electronics to industrial high-power applications, further validating their versatility and technological adeptness.
Where to Find ES1D-E3/61T by Vishay Intertechnologies
To source the ES1D-E3/61T, buyers and engineers can explore various distributors. Historically, this part has been available through distributors such as LCSC, EBV Elektronik, and Mouser Electronics, among others. However, it is crucial to verify current stock levels and pricing directly on findchips.com. Additionally, by navigating to Rectifier Diodes on findchips.com, alternative parts from Vishay Intertechnologies or other manufacturers can be explored, ensuring that all specifications are adequately met for specific applications.