NXP EV charging station solutions
An Electric Vehicle (EV) charging station supplies power for recharging electric vehicles. Typical EV charging stations are made up of at least one smart controller board and one power socket board. The smart controller manages security, services and connectivity to a remote server and the power socket board distributes and measures energy.
EV charging stations require high levels of efficiency, accuracy, connectivity and security. NXP solutions meet the requirements with accurate power measurement, device management and data security. The company’s rich enablement supports faster time to market with less complexity and reduced cost, and its product longevity program supports longer product lifecycles.
- Security and Authentication
- Processors and Microcontrollers
- RFID / NFC
- Peripherals and Logic
- Power Management
EdgeLock® SE050
The EdgeLock SE050 secure element (SE) product family offers enhanced Common Criteria EAL 6+ and FIPS 140-2 certified security, for strong protection against the latest attack scenarios, and an extended feature set for a broad range ofDownload datasheet IoT use cases. This ready-to-use secure element for IoT devices provides a root of trust at the IC level and delivers real end-to-end security – from edge to cloud – without the need to implement security code nor handle critical keys and credentials.
Features
- Plug & Trust for fast and easy design-in with complete product support package and example codes for a broad range of use cases
- Extended user memory with dynamic file system to store credentials for multiple applications running on one chip
- Easy integration with different MCU/MPU platforms and OSs (Linux®, RTOS, Android®)
- Turnkey solution to reach system-level security with any MCU/MPU without the need to implement security nor handle critical keys and credentials
- Supports compliance to many security standards like
- IEC 62443, DLMS/COSEM, OPC-UA and ISO15118-2
- Real end-to-end security, from edge to cloud
- Trust anchor for IoT devices with secure credential injection at hardware level

i.MX6ULL
The i.MX 6ULL is a power efficient and cost-optimized applications processor family featuring an advanced implementation of a single Arm Cortex-A7 core, which operates at speeds up to 900 MHz. The i.MX 6ULL applications processor includes an integrated power management module that reduces the complexity of an external power supply and simplifies power sequencing. Each processor in this family provides various memory interfaces, including 16-bit LPDDR2, DDR3, DDR3L, raw and managed NAND flash, NOR flash, eMMC, Quad SPI and a wide range of other interfaces for connecting peripherals such as WLAN, Bluetooth®, GPS, displays and camera sensors.
i.MX-RT1064
i.MX RT1064 crossover MCUs are part of the EdgeVerse™ edge computing platform and build on the popular i.MX RT series. As the first i.MX RT devices to include on-chip flash, it provides 4 MB of on-chip flash and 1 MB of on-chip SRAM while keeping pin-to-pin compatibility with i.MX RT1050 and i.MX RT1060 MCUs. The i.MX RT1064 MCU runs on the Arm® Cortex®-M7 core at 600 MHz.
This device is fully supported by NXP’s MCUXpresso Software and Tools, a comprehensive and cohesive set of free software development tools for Kinetis, LPC and i.MX RT microcontrollers. MCUXpresso SDK also includes project files for Keil MDK and IAR Embedded Workbench for Arm.

LPC553x
The LPC553x/S3x MCU family further expands the world’s first general purpose Cortex-M33-based MCU series, offering significant performance enhancement, all on-chip RAM with Parity or ECC, renewed security features and precision analog additions, leveraging the cost-effective 40-nm NVM process technology.
The LPC553x/S3x family includes a proprietary DSP accelerator offering 10x clock cycle reduction, bringing significant signal processing efficiency gains.

KM3x
The KM3x MCU family enables single-chip one-, two-, and three-phase electricity meters, as well as flow meters and other precision measurement applications. This family of MCUs:
- Provides security with active and passive tamper detection with time stamping
- Supports high-precision internal voltage reference with low temperature drift
- Features a comprehensive enablement suite including reference designs

MC56F83xxx
The MC56F83xxx family is NXP’s performance level digital signal controller product and the world's first DSC product with both USB and CAN-FD integrated. It leverages the high-performance 56800EX DSP core, with both core and bus frequency up to 100MHz. Plus the integration of all kinds of high-performance peripherals, this product extends the DSC performance to its highest level, which is extremely suitable for high-performance digital power conversion and high-performance single/dual motor control applications. the MC56F83xxx family is NXP’s first DSC product to support dual partition Flash, Flash ECC, USB, CAN FD and boot ROM. In addition, MC56F83xxx family has lots of enhancement include enhanced DMA function (eDMA), more flexible event generator (EVTG), low-power high-speed ADC, extended RAM size and up to 16 channel high-resolution PWM.

i.MX 8M Nano Family - Arm® Cortex®-A53, Cortex-M7
NXP's i.MX 8M Nano family of applications processors provide cost-effective integration and affordable performance for smart, connected, power-efficient devices requiring graphics, vision, voice control, intelligent sensing and general-purpose processing.
The i.MX 8M Nano family includes the *i.MX 8M Nano UltraLite (*currently in preproduction), the i.MX 8M Nano Lite, and i.MX 8M Nano.
more informationCLRC66303HN
If you need high NFC performance or the lowest power consumption, use this remarkably efficient yet highly flexible frontend family to push your design further. It offers an extended temperature range, pin-to-pin compatibility within the CLRC663 plus family, and time-saving software tools. Supporting, among others, MIFARE®, ISO/IEC 14443, ISO/IEC 15693, and ISO/IEC 18000-3m3, the CLRC663 plus family is the natural companion to match with NXP NFC tags.
The CLRC663 plus family is a great choice for NFC applications with high performance requirements: access control, gaming, and industrial.

PN7160
Designed for quick integration into a very wide range of systems, the PN7160 supports all NFC Forum modes, includes drivers for Android and Linux, and supports RTOS and no OS applications. Embedded NFC firmware reduces the need for host interactions and minimizes code size, making design-in that much easier. Available with an I2C or SPI interface, the PN7160 is compatible with popular MCUs, including LPC, Kinetis and i.MX. The PN7161 version adds support for Apple ECP.

NTAG I2C plus
The NTAG I2C plus combines a passive NFC interface with a contact I2C interface. Designed to be an enabler for NFC in home-automation and consumer applications, this connected NFC tag is a fast, cost effective way to add tap-and-go connectivity to just about any electronic device.
These devices maintain full backward compatibility with first-generation NTAG I2C while adding advanced features for password protection, a full memory-access configuration from both interfaces, and an originality signature for protection against cloning.

PCF2131
The PCF2131 is a CMOS real time clock (RTC) and calendar with an integrated temperature compensated crystal (Xtal) oscillator (TCXO) and a 32.768 kHz quartz crystal optimized for very high accuracy and ultra-low power consumption.
Features:
- Selectable I2C-bus or SPI-bus interfaces for full flexibility when selecting the associated MCU/MPU
- Backup battery input and switch-over circuit, allowing the RTC to keep track of the time, even when the main power supply is removed
- Calendar capabilities to keep tracking of the time from years down to 1/100 seconds
- Up to 4 timestamp registers, which can be associated to timestamp input in order to register tampering events
- Up to 2 interrupt outputs to enable/disable systems to reduce the overall current consumption

TEA1723DT
The TEA1723 is a small and low cost module Switched Mode Power Supply (SMPS) controller IC for low power applications (up to 11 W) and operates directly from the rectified universal mains input. The device includes a high voltage power switch (700 V) and has been optimized for flyback converter topologies to provide high-efficiency over the entire load range with ultra-low power consumption in the no-load condition. It provides a circuit for start-up directly from the rectified mains voltage without any external bleeder circuits. The Burst mode frequency of 1270 Hz enables no-load power consumption below < 35 mW at high mains input.


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