NXP Automotive Processors – Product Map
Automotive Microcontrollers and Processors product map, listing specification tables.
A broad portfolio of processors built on Power Architecture technology, enabling networking, automotive, consumer and industrial applications.
Our Power-Architecture-based portfolio offers high levels of integration, comprehensive software and hardware enablement and broad performance range.
Based on field-proven Power Architecture technology.
Power-efficient products for networking and industrial applications.
Multimode solutions for femtocell, picocell, metrocell and macrocell.
The PowerQUICC® communications processors, Built on Power Architecture technology, PowerQUICC® communications processors support the entire spectrum of embedded networking equipment, industrial and general embedded applications.
A combination of performance and functionality.
Built on Power Architecture technology, and optimized for embedded applications.
Designed for networking, communications and computing applications.
Offers advanced features and high-speed connectivity for enterprise networking.
Our e600 core includes the AltiVecTM technology engine, enabling software developers to achieve dramatic acceleration in performance-driven, high-bandwidth computing and communications applications.
Ideal for high-performance processing in networking, aerospace and defense, storage and pervasive computing applications.
An MPC5748G automotive microcontroller combined with an LS1043A communications processor for Vehicle Network Processing applications like advanced gateways.
A 32-bit high-performance MCU with optimized radar signal processing acceleration to maximize performance/watt for up to ASIL D radar applications.
Scalable, highly integrated solutions designed for automotive, with a focus on quality and long-term reliability.
Automotive Microcontrollers and Processors product map, listing specification tables.
Learn how to simplify a high-voltage BMS design step-by-step. You will explore how to get started, live-monitor the voltage cells and verify both the temperature and voltage battery stack using an application software development kit (SDK) and dedicated GUI.