Overview of SI32282-A-FMR by Skyworks Solutions Inc.
The SI32282-A-FMR is a digital subscriber line integrated circuit (IC) designed specifically for telecommunications applications. This product, classified under the electronic parts subcategory of Digital Transmission Interfaces, features a 56-pin quad flat non-lead package (56QFN). The SI32282-A-FMR is categorized as an interface part that contributes to various telecommunications functionalities, particularly in the domain of Digital Subscriber Loop (DSL) technology.
Manufactured by Skyworks Solutions Inc., the part emphasizes a strong compliance framework characterized by its RoHS (Restriction of Hazardous Substances) and REACH (Registration, Evaluation, Authorisation, and Restriction of Chemicals) compliance codes, highlighting its alignment with modern environmental standards. The part currently holds an active life cycle code, indicating its availability and relevance in contemporary telecommunications design.
Industry Applications for SI32282-A-FMR
The SI32282-A-FMR could potentially find applications across various industries. Below are some examples of possible sectors and use cases:
- Energy and Power Systems: This part may support smart grid applications which rely on effective communication between distributed energy resources and utility managers. The digital SLIC capabilities could potentially facilitate data transmission between various components, ensuring that real-time data is available for monitoring and control.
- Transportation and Logistics: In transportation, the SI32282-A-FMR might be employed in telematics systems. These systems rely on accurate data transmission to enhance fleet management, optimize routes, and improve vehicle diagnostics. The part’s telecommunications interface could be crucial in maintaining reliable communication channels.
- Renewable Energy: The utilization of smart meters in renewable energy setups could benefit from the communications capabilities offered by the SI32282-A-FMR. This part may enable direct data reporting from solar panels or wind turbines, contributing to efficiency monitoring and energy distribution.
- Automotive: If automotive standards such as AEC-Q100, AEC-Q101, or AEC-200 compliance are relevant, the SI32282-A-FMR might find applications in automotive telecommunication systems that require reliable digital signal processing for connectivity and user engagement. Use cases may include in-vehicle infotainment systems or advanced driver-assistance systems (ADAS).
Please note that these potential industry applications are only conceptual and illustrative. They require thorough analysis and verification by engineering and design teams to ensure adherence to industry standards and specific application requirements.
About Skyworks Solutions Inc.
Skyworks Solutions Inc. is a recognized leader in the field of telecommunications and semiconductor manufacturing, specializing in integrated circuits for a variety of applications, including those related to telecommunication circuits. The company’s focus on innovation and high-performance solutions has led to the development of a wide range of products, including the SI32282-A-FMR. Their portfolio includes various types of digital SLICs, RF solutions, and other digital transmission interfaces that serve different telecommunications needs. Skyworks continuously aims to enhance the functionalities of communication systems, which is evident in their range of products designed for both consumer and industrial applications.
Research Price and Stock for SI32282-A-FMR by Skyworks Solutions Inc on Findchips.com
For those interested in purchasing the SI32282-A-FMR, it is advisable to research stock and pricing on Findchips.com. This platform provides comprehensive data on availability and pricing, allowing you to compare offerings across various distributors. The part has historically been available at distributors such as Win Source Electronics, Richardson RFPD, and DigiKey. However, it is important to visit Findchips for the most current stock levels and pricing information.