Overview of MC7448TVU1267ND by NXP Semiconductors
The MC7448TVU1267ND is a 32-bit Power Architecture microprocessor that operates at a speed of 1.267 GHz. It features 1 MB of L2 cache and utilizes the AltiVec technology, enhancing its capability for data-intensive and multimedia applications. The part is designed with a 360-ball ceramic BGA (Ball Grid Array) package which ensures a compact footprint while providing robust connectivity options. This microprocessor is compliant with RoHS (Restriction of Hazardous Substances), which makes it suitable for use in applications where environmental considerations are crucial.
Retailing under NXP Semiconductors, the part includes several advanced features such as boundary scan, integrated cache, and low power mode. The technology is based on CMOS, offering a balance between power consumption and performance. The MAX clock frequency can reach up to 200 MHz when sequential operations rely on threading or looping structures within the data. The inclusion of boundary scan and a robust set of terminal features highlights its adaptability for complex digital environments and diagnostic port accessibilities.
Industry Applications for MC7448TVU1267ND
Given the technical specifications and features of the MC7448TVU1267ND, several industries could potentially benefit from its utilization. It’s important to note that the suggestions made here are hypothetical scenarios and should be verified with appropriate analysis and consideration of specific industry standards and requirements.
- Telecommunications – This microprocessor offers high-speed capabilities and robust data management features which could potentially meet the demands of networking equipment, such as routers and switches, which require high data throughput and reliable performance.
- Consumer Electronics – Given its multimedia enhancement capabilities through AltiVec technology, the MC7448TVU1267ND could potentially be ideal for high-performance consumer electronics such as gaming consoles and advanced personal digital assistants (PDAs).
- Robotics and Drones – The integrated cache and the capability for sophisticated sensory data processing could make this microprocessor a suitable candidate for controlling complex movements and operational algorithms in robots and drones.
- Computing and Data Storage – With its high-speed capabilities and floating point computation formats, it is plausible that the MC7448TVU1267ND could serve in high-performance server systems and data centers requiring substantial data processing and floating-point arithmetic operations.
Again, it is essential for design teams to evaluate these potential applications against specific environmental and operational requirements to ensure compliance and functionality.
About NXP Semiconductors
NXP Semiconductors is a renowned leader in the development of semiconductors, particularly in the Microprocessors and broader Microcontrollers and Processors market. Known for their innovations in making energy-efficient and scalable chip designs, NXP’s products are found in a variety of automotive, industrial, and consumer devices. The MC7448TVU1267ND represents NXP’s commitment to advanced technologies in the microprocessor segment, emphasizing performance, integration, and reliability in demanding applications. NXP continues to support a wide range of industries with microprocessors that deliver comprehensive solutions to complex digital tasks.
Where to Find MC7448TVU1267ND by NXP Semiconductors
To locate and purchase the MC7448TVU1267ND, prospective buyers should consider using the comprehensive service provided by findchips.com. It allows for the comparison of current stock levels and pricing from various distributors. Historically, distributors like Flip Electronics and Newark have carried this part, but availability can fluctuate based on market demands and production schedules. For alternatives and potentially comparable products, one can explore the Microprocessors section where a variety of other products from NXP Semiconductors or other manufacturers might be listed.