Overview of T4240NSN7PQB by NXP Semiconductors
The T4240NSN7PQB is an integrated circuit (IC) categorized as a Microprocessor within the subcategory of Microcontrollers and Processors. Manufactured by NXP Semiconductors, this IC is designed to support high-performance computations in embedded systems. Notably, it makes use of a fixed-point format and operates at a maximum clock frequency of 133.3 MHz, with a processor speed of 1.5 GHz.
This processor is packaged in a 1932-ball fine-pitch ball grid array (FCBGA-1932) which measures 45mm x 45mm, with a seated height of approximately 3.33mm. It features high integration capabilities, including an embedded cache, and supports a 64-bit external data bus width. The part is built using CMOS technology, operates across a voltage range from 0.995 V to 1.055 V, and incorporates low power mode to enhance its power efficiency. Moreover, it is compatible with surface mount technology, facilitating its implementation in various electronic assemblies.
As per its specifications and standards compliance, T4240NSN7PQB adheres to RoHS and REACH guidelines, ensuring it meets current environmental and health standards. It is equipped with a boundary scan feature and supports a peak reflow temperature of 250 degrees Celsius, important for assessing the quality and integrity of surface-mounted devices during assembly. As of the latest update, the component had a factory lead time of four weeks.
Industry Applications for T4240NSN7PQB
The T4240NSN7PQB from NXP Semiconductors is tailored to meet the rigorous demands of computing-intensive applications across various fields. Here are a few industry applications where this microprocessor could potentially be employed:
- Telecommunications: In telecommunications, the T4240NSN7PQB might be utilized in network routers, switches, and base station controllers, where high-speed data processing and reliable operation are essential. The integrated cache, high processing speed, and support for a broad external data bus width facilitate the rapid handling of data packets and signal processing tasks.
- Communication and Networking: This microprocessor could potentially find use in network infrastructure equipment such as network servers and firewall appliances. Given its high-speed processing capabilities and fixed-point arithmetic performance, it would be adept at managing multiple data flows and maintaining robust network security measures.
It is critical to understand that these potential industry applications are conceptual and must be verified by specific engineering and design teams to ensure they meet all regulatory and technical requirements of the given application.
About NXP Semiconductors
NXP Semiconductors is a prominent player in the global semiconductor industry, recognized for its vast range of products including Microprocessors. The T4240NSN7PQB is part of their comprehensive portfolio which also includes a wide array of Microcontrollers, Processors, and other semiconductor devices designed for rigorous and high-performance environments.
The company’s offerings in the microprocessor domain are widely applied in automotive, industrial, and consumer markets, illustrating their commitment to innovation and quality. Besides providing essential components like the T4240NSN7PQB, NXP emphasizes technological advancements in areas such as security and connectivity, aligning with the evolving demands of modern technology applications.
Where to Find T4240NSN7PQB by NXP Semiconductors
To procure the T4240NSN7PQB, it is advisable to consult an established distributor. Historically, this part has been available from distributors such as Flip Electronics, EBV Elektronik, Avnet Silica, Rochester Electronics, Future Electronics, Mouser Electronics, Avnet Americas, and DigiKey. However, for up-to-date stock levels and pricing, potential buyers should visit findchips.com. Here, you can also explore alternative Microprocessors that might be offered by NXP Semiconductors or other manufacturers, ensuring you make an informed purchasing decision based on comprehensive market data.