Integrated Circuits (ICs) form the foundation of modern electronics, enabling complex functionality in compact packages. NXP, a pioneer in semiconductor technology, has a rich history of delivering high-performance ICs that power a wide range of applications across industries. With their commitment to innovation, reliability, and sustainability, NXP ICs continue to shape the technology landscape.
Product Categories
Discover NXP’s extensive range of ICs designed to cater to various application needs:
Microcontrollers (MCUs)
NXP’s microcontrollers offer a perfect blend of processing power, energy efficiency, and connectivity for a multitude of applications.
NXP Kinetis Series
Kinetis E Series: These energy-efficient MCUs feature Cortex-M0+ cores, making them ideal for battery-powered applications like wearables, IoT devices, and remote sensors.
Kinetis L Series: Designed for ultra-low applications, the Kinetis L Series MCUs combine Cortex-M0+ and Cortex-M4 cores to provide processing power while maintaining energy efficiency. They are commonly used in wearable devices and low-power IoT solutions.
Kinetis K Series: Scalable and versatile, the Kinetis K Series MCUs incorporate Cortex-M cores, offering enhanced performance and connectivity options. These MCUs are suitable for applications such as industrial control, control, and smart energy.
NXP LPC Series
LPC800 Series: These entry-level MCUs are characterized by their small form factors and low power consumption. They are commonly used in cost-sensitive applications like IoT nodes and battery-operated devices.
LPC54000 Series: Geared towards high-performance applications, the LPC54000 Series MCUs feature Cortex-M4 cores and provide ample processing power for applications requiring complex processing, like secure communication and industrial automation.
PC5500Series: Featuring the Armv-8-M architecture, the LPC5500 Series MCU delivers advanced processing power and security features. They are suitable for applications requiring complex processing, like secure communication and industrial automation.
NXP i.MX Series
i.MX RT Series: These crossover MCUs combine Cortex-M cores with real-time coprocessors, enabling real-time capabilities in applications such as industrial control, motor control, and IoT gateways. They provide high-performance computing with low power consumption.
i.MX Application Processors: With a range of performance levels, the i.MX Application processors power a wide array of applications. From multimedia devices like digital signage to automotive infotainment systems, these processors provide versatile solutions for various industries.
Application Processors
NXP’s Application Processors provide high-performance computing for various industrial and consumer applications.
NXP i.MX RT Series
i.MX RT1020: This dual-core Cortex-M7 MCU focuses on power efficiency and real-time performance. It’s suitable for applications like industrial automation, building control, and secure edge computing.
i.MX RT1050: Featuring a Cortex-M7 core, this MCU is optimized for multimedia and HMI applications. It provides high-performance graphics and audio capabilities, making it deal for consumer electronics and industrial displays.
i.MX RT1170: With dual cores (Cortex-M7 and Cortex-M4), this MCU is designed for complex applications that require real-time processing, high-performance graphics, and advanced security features. It’s suitable for applications like advanced industrial control and secure gateways.
NxP Layerscape Series
Layerscape S32 Series: These multicore processors are designed for automotive and industrial control applications. Combining Arm Cortex-A and Cortex-M cores, they offer a balance between high-performance computing and real-time processing.
Layerscape LX Series: These communication processors are equipped with integrated hardware accelerating for networking and virtualization tasks. They are suitable for applications like network appliances and virtualized infrastructure.
Digital Signal Processors (DSPs)
NXP’s DSPs are designed for audio and visual processing applications.
NXP Audio DSP
TFA9894: This audio amplifier and speaker protection DSP enhances sound quality and provides efficient power management for mobile devices, delivering an enhanced audio experience.
TFA9889/TFA9890: With a focus on ultra-low power consumption, this audio DSP features advanced noise reduction and speaker protection features, making it ideal for battery-powered audio devices.
TFA9890: This advanced audio DSP offers dynamic speaker management and compatibility with a wide range of audio codecs, making it suitable for applications where high-quality audio is crucial.
NXP Vision DSPs
NXP Vision C5: Designed for vision and AI processing at the edge, this processor features high-performance neural network acceleration, making it suitable for applications like surveillance, robotics, and industrial automation.
NXP Vision P6: This power-efficient vision processor offers advanced image processing capabilities, making it ideal for applications that require real-time image analysis and processing, such as surveillance and automotive vision systems.
Radio-Frequency ICs (RFICs)
NXP’s RFICs provide solutions for wireless communication and connectivity.
NXP RF Transceivers
TEF810X: Automotive ethernet transceiver supporting BrodR-Reach and 100BASE-T1 providing high-speed communication and meeting the requirements for automotive networking standards.
REF820X: This Gigabit Ethernet transceiver is designed for in-vehicle networking applications, providing high-speed communication and meeting the requirements of automotive networking standards.
NXP Power Management Solutions
PCA945X: This system power management IC provides multiple voltage rails and advanced control features, enabling efficient power management for a wide range of applications.
PF3000: A highly integrated power management IC designed for portable and battery-powered devices. It offers a compact solution for managing power consumption and optimizing battery life.
NXP Voltage Regulators
MMPF0100: This system PMIC integrates multiple DC/DC converters and LDOs to provide efficient power delivery for various components in a system.
MMPF0200: A configurable PMIC suitable for a variety of applications. It supports multiple voltage domains and low-power modes, offering flexibility in power management.
Sensor ICs
NXP’s Sensor ICs enable precise measurement and monitoring across various environments.
NXP Environmental Sensors
MPL3115A2: This digital barometric pressure and altimeter sensor provides high precision and low power consumption, making it suitable for applications like weather stations and altitude tracking.
FXOS8700CQ: Combining a 3-axis accelerometer and a 3-axis magnetometer, this sensor is ideal for motion tracking and orientation sensing applications, such as gaming controllers and augmented reality devices.
NXP Motion Sensors
FXLS8471Q: An ultra-low-power 3-axis accelerometer with high sensitivity and digital output designed for motion detection applications where accuracy and power efficiency are critical.
FXLN8361CP: This high-performance 3-axis accelerometer offers versatile measurement ranges and interrupts capabilities, making it suitable for applications like industrial automation and structural health monitoring.
Automotive Ics
NXP’s Automotive ICs provide advanced solutions for next-generation vehicles.
NXP Automotive Processors
S32K Series: These automotive MCUs are equipped with Arm Cortex cores and are designed to meet safety-critical standards. They are used in applications like automotive control systems, body electronics, and motor control.
NXP Vehicle Networking ICs
TJA1100: An automotive Ethernet PHY designed to support IEE 100BASE-T1 and IEEE1000BASE-T1 standards. It provides reliable and high-speed communication for in-vehicle networking.
TJA1044: A high-speed CAN transceiver designed for in-vehicle networking. It offers robust communication and electromagnetic compatibility, making it suitable for various automotive applications.
Applications
NXP ICs power a multitude of applications across industries:
Consumer Electronics: NXP’s ICs are essential components in devices such as smartphones, tablets, wearables, and multimedia devices, enhancing their performance and functionality.
Industrial Automation: In the field of industrial automation, NXP ICs are used in robotics, control systems, and automation equipment, ensuring efficient and reliable operation.
Automotive Systems: NXP’s automotive ICs play a crucial role in automotive systems, including information systems, advanced driver assistance systems (ADAS), safety features, and autonomous driving technology.
Healthcare Devices: NXP’s sensor and processing ICs are used in medical imaging, patient monitoring, and diagnostic equipment, contributing to accurate and reliable healthcare solutions.
Internet of Things (IoT): NXP’s range of energy-efficient and connectivity-focused ICs are integral to building smart home devices, industrial IoT solutions, and connected sensors that make up the IoT ecosystem.
Why Choose NXP ICs?
NXP stands out as a leader in semiconductor innovation for several reasons:
Industry-Leading Innovation: NXP has a track record of pushing the boundaries of IC design, consistently introducing innovative solutions to meet the evolving needs of various industries.
Reliability and Quality: Their ICs are renowned for their reliability, performance, and longevity. These qualities are vital for mission-critical applications across sectors.
Diverse Product Portfolio: With a wide range of ICs spanning various c