Overview of TLE6250GV33XUMA1 by Infineon Technologies AG
The TLE6250GV33XUMA1 is an interface circuit, specifically designed as a CAN (Controller Area Network) transceiver, characterized by its integration into a small-outline integrated circuit (SOIC) package with 8 pins. This component is built using BiCMOS technology, indicating a blend of Bipolar and CMOS transistor architectures for optimized performance, balancing high speed and low power consumption. It adheres to the rigorous AEC-Q100 standard, which certifies components for automotive applications, highlighting its robustness and reliability in demanding environments. The transceiver boasts a maximum data rate of 1Mbaud, suitable for efficient communication in various applications. Operating within a supply voltage range of 4.5V to 5.5V, it fulfills the power requirements for a broad spectrum of applications while maintaining its functionality. The component is RoHS compliant, ensuring adherence to environmental standards regarding the restriction of hazardous substances.
Industry Applications for TLE6250GV33XUMA1
The versatile features of the TLE6250GV33XUMA1 lend itself to a wide array of industry applications. Here are some potential use cases, keeping in mind that suitability for these applications requires analysis and verification by engineering and design teams:
- Automotive: It could serve as a critical component in vehicle diagnostics systems, powertrain control modules, or in-vehicle networking systems, where reliable data transmission at high speeds is necessary.
- Industrial Automation: Given its high data rate and reliability, this transceiver might find applications in industrial control units, facilitating communication between sensors, actuators, and control systems.
- Renewable Energy Systems: In wind turbines or solar panels, efficient communication between the control unit and sensors is vital. The TLE6250GV33XUMA1 could potentially provide a robust solution for these applications.
- Transportation and Logistics: This CAN transceiver might be utilized in electronic systems within railway networks, shipping vessels, or fleet management technologies for vehicles, ensuring reliable data exchange across complex logistics infrastructures.
Note that the potential applications mentioned require thorough examination by relevant engineering departments to ensure compatibility and compliance with specific system requirements.
About Infineon Technologies AG
Infineon Technologies AG is a leading global provider in the semiconductor industry, specializing in a wide range of electronic components, including Network Interfaces within the field of Telecommunication Circuits. The company’s dedication to innovation and quality has positioned it as a key player in various market segments, particularly in areas demanding high reliability and performance. Infineon’s portfolio includes a variety of CAN transceivers alongside the TLE6250GV33XUMA1, all designed to facilitate efficient and secure communication in complex electronic systems. Infineon’s contributions to the evolution of network interfacing technologies underscore its commitment to advancing the state of the art in telecommunication circuits, catering to the ever-growing demands of the automotive, industrial, and energy sectors, among others.
Where to Find TLE6250GV33XUMA1 by Infineon Technologies AG
For those interested in purchasing the TLE6250GV33XUMA1, a thorough search on findchips.com is recommended. This platform allows users to compare pricing, check current stock levels, and find detailed part information from various distributors. Historically, the part has been available from distributors such as Perfect Parts Corporation, EBV Elektronik, CHIPMALL.COM LIMITED, and Arrow Electronics. However, inventory levels and availability change frequently, so visiting findchips.com will provide the most current information. The website also offers the opportunity to find alternative Network Interfaces components that might be offered by Infineon Technologies AG or other manufacturers, offering potential options that meet specific application requirements.