company blog about Supply NXP Development Board:Battery Management,Power Management,RF ,RFID

Supply NXP Development Board:Battery Management,Power Management,RF ,RFID

Shenzhen Mingjiada Electronics Co., Ltd. is a well-known distributor of electronic components, offering many types of electronic products.

Supply Advantages:

1‌.Rich product range: IC chips, sensors, Ethernet, IGBT modules, AI artificial intelligence, microcontrollers, IoT, etc., with a wide supply range to meet the diverse needs of customers.

2‌.Stable supply channels: The company has a stable and reliable supply channel to ensure the stability and reliability of product supply. ‌

3.Quality assurance: We have established close cooperative relationships with globally renowned electronic component manufacturers to ensure that the supplied components come from legitimate channels and have reliable quality.

4.Large inventory advantage:has up to 1 million inventory advantage models, which can quickly respond to customer needs and reduce waiting time.

5.Reasonable price: With close cooperation with suppliers and efficient supply chain management, we can provide you with competitive prices.

I. Battery Management Development Boards: Building Secure, Efficient Energy Cores

Batteries form the heart of electric vehicles and energy storage systems, while Battery Management Systems (BMS) serve as their brain. NXP provides comprehensive development solutions spanning high-voltage to low-voltage applications, from evaluation to prototyping.

1. High-Voltage BMS Evaluation Platform: RD33774ADSTEVB

For high-voltage scenarios requiring monitoring of multi-cell series batteries (e.g., electric vehicles, industrial energy storage), the RD33774ADSTEVB evaluation board serves as the core development tool. Designed around the MC33774A battery controller IC, this board enables precise monitoring of voltage, current, and temperature for up to 18 lithium-ion cells, alongside coulomb counting. Its onboard balancing resistors support up to 200mA of battery equalisation current, contributing to extended overall battery pack lifespan.

A standout feature of this evaluation board is its support for daisy-chain topology (TPL), enabling seamless connection of up to 63 nodes via high-speed isolated communication—ideal for large-scale battery pack requirements. Engineers can utilise the accompanying 18-cell battery simulator board for rapid, secure prototyping, significantly accelerating development cycles.

2. Next-Generation Battery Control Solution: MC33772C with S32K312

For applications such as automotive 12V lithium batteries, a typical solution combines the MC33772C battery management IC with the S32K312 microcontroller. The MC33772C is a high-performance monitoring chip offering cell voltage measurement accuracy of ±2mV and supporting ASIL D functional safety standards, providing a reliable data foundation for precise State of Charge (SOC) estimation. Serving as the system control core, the S32K312 MCU is based on the ARM Cortex-M7 core with a clock speed up to 160MHz. Specifically engineered for automotive control, it supports the ASIL B functional safety standard and efficiently executes complex balancing strategies and communication tasks.

3. Cutting-edge chip evaluation: BMx7318/7518 series

Looking ahead, NXP's forthcoming BMx7318/7518 series represents a new pinnacle in battery control technology. Featuring an innovative architecture, each battery channel incorporates an independent analogue-to-digital converter (ADC), eliminating crosstalk and reducing external component requirements by 50%. Supporting single-channel equalisation currents up to 300mA while meeting automotive ASIL-C and industrial SIL-2 functional safety standards, it paves the way for next-generation, more efficient and cost-effective energy system designs.

II. Power Management Development Boards: Delivering System-Level Stability and Intelligent Power Delivery

A stable, efficient and intelligently configurable power supply forms the bedrock of reliable operation for any electronic system. NXP's power management development boards offer a concise yet robust solution for complex multi-rail power systems.

1. Multi-Function PMIC Evaluation Board: KITPF8121FRDMEVM

For advanced processor systems requiring multiple power rails—such as application processors and FPGAs—the KITPF8121FRDMEVM evaluation board serves as an ideal starting point. Based on the PF8121 power management integrated circuit (PMIC), this board delivers up to seven switching regulators and four LDO regulators, supporting multi-phase power delivery. Its highly programmable nature enables engineers to flexibly configure output voltage, current limits, and switching frequencies via the I²C interface, achieving optimal energy efficiency. The on-board button battery charger and RTC power supply also support always-on low-power functionality.

2. Automotive Safety Power Core: KITFS6507LAEEVM

In automotive electronics, power systems must balance efficiency with functional safety. The KITFS6507LAEEVM evaluation board demonstrates the capabilities of the FS6507 System Basic Chip (SBC). This SBC integrates a DC-DC converter for microcontroller power supply, CAN FD and LIN bus transceivers, and is designed to meet ISO 26262 ASIL B functional safety standards. By consolidating power management, communication, and security within a single chip, it significantly simplifies in-vehicle ECU design and reduces component count, serving as a critical tool for developing control nodes compliant with automotive safety requirements.

III. RF Development Boards: Unlocking High-Performance Wireless Connectivity

Wireless connectivity is standard for modern smart devices. NXP's RF development boards cover the full spectrum from short-range Bluetooth to high-performance Wi-Fi 6, simplifying application development for mainstream IoT protocols.

1. Multi-Protocol Wireless MCU Platform: FRDM-MCXW72

The FRDM-MCXW72 development board is an all-in-one RF development platform for IoT edge devices. At its core lies the MCX W72 wireless MCU, integrating an Arm Cortex-M33 core, 2MB flash memory, and a multi-protocol wireless RF unit supporting Bluetooth (including channel detection), Zigbee, Thread, and Matter on a single chip. The board features a compact design with integrated debugger, accelerometer, and ambient light sensors. It offers robust expandability through standard interfaces like Arduino and mikroBUS, enabling developers to rapidly prototype wireless devices such as smart home appliances and industrial sensors.

2. Tri-band High-Performance IoT Solution: RW612 Development Kit

For devices requiring high-bandwidth data processing or complex applications (such as smart home gateways, security cameras, or POS terminals), the RW61x series offers enhanced performance. Taking the RW612 as an example, it integrates a 260MHz Cortex-M33 core, dual-band Wi-Fi 6, Bluetooth 5.3, and 802.15.4 RF (for Thread/Zigbee) – a rare single-chip tri-band solution on the market. Its embedded EdgeLock security subsystem provides comprehensive protection from secure boot and hardware encryption to secure lifecycle management. When paired with NXP's EdgeLock 2GO service, it simplifies security configuration and management for IoT devices, serving as a powerful tool for developing Matter-certified products.

IV. RFID Development Boards: Simplifying Contactless Identification and Payment Design

Near Field Communication (NFC) and Radio Frequency Identification (RFID) technologies are indispensable in smart retail, access control, and IoT device pairing. NXP's development boards make high-frequency RF front-end design intuitive and straightforward.

1. Full-Featured NFC Reader/Writer Development Board: PNEV5190BP

The PNEV5190BP is a development board dedicated to high-performance NFC reader/writer applications. Based on the PN5190 NFC front-end chip, it incorporates an on-board Kinetis K82 microcontroller as the host. Its key advantage lies in seamless integration with NXP's graphical configuration tool, NFC Cockpit, enabling engineers to rapidly configure and test reader/writer functions without coding, significantly lowering the entry barrier. The board comes standard with a 45x45mm antenna and fully supports EMVCo 3.0 (contactless payments), ISO/IEC 14443, and NFC Forum standards. It is ready for use in prototype development and compliance testing for payment terminals or access control readers.

2. Lightweight RFID Chip Solution: SLRC610

For scenarios requiring RFID reading integration into space-constrained devices, the SLRC610 offers a cost-effective RFID front-end chip. Supporting protocols including ISO/IEC 15693 and ICODE EPC UID at 13.56MHz, it connects effortlessly to host controllers via I²C or SPI interfaces. Although dedicated development boards are not mentioned in search results, the chip's mature reference designs and comprehensive driver libraries make it an ideal choice for developing applications such as smart shelving, asset management tags, and printer consumables authentication.