STMicroelectronics

STMicroelectronics

The STEVAL-MKI243A is an adapter board designed to facilitate the evaluation of the ASM330LHHXG1 6-axis IMU (inertial measurement unit) in automotive applications. The board offers an effective solution for fast system prototyping and device evaluation directly within the user’s own application. 

The STEVAL-MKI243A can be plugged into a standard DIL24 socket. The adapter provides the complete ASM330LHHXG1 pinout and comes ready to use with the required decoupling capacitors on the VDD power supply line. 

This adapter is supported by the STEVAL-MKI109D evaluation platform, which includes a high-performance 32-bit microcontroller functioning as a bridge between the sensor and a PC, on which it is possible to use the downloadable MEMS Studio graphical user interface or dedicated software routines for customized applications.

STMicroelectronics

The STEVAL-3601CV1 demonstrates a smart converter design able to deliver up to 1A output current from a 3.3 to 36V input, with a 5V output voltage. The board features the DCP3601 miniaturized synchronous step-down converter, which implements enhanced peak current control and advanced design circuitry to minimize quiescent current. The board demonstrates how highly efficient conversion can be achieved with just the DCP3601, an inductor, two small capacitors, and two resistors.

 

The board highlights key application benefits made possible by the DCP3601, including high efficiency and small PCB size, and is ideal for power conversion solutions in major appliances, smart metering, industrial 24V BUS conversion and general-purpose wide power supplies.

STMicroelectronics

The AEK-POW-BMSCC is a compact battery management system module based on the L9963E, optimized for easy mounting in battery packs. It can be used in a centralized daisy-chain as an intermediate node, where the first node is an AEK-POW-BMSCCTX. As an intermediate node, the AEK-POW-BMSCC can be part of a chain of up to 31 BMS nodes.

Each module monitors between 4 and 14 cells and can serve as an intermediate node in a daisy chain of up to 31 BMS nodes. The board provides voltage, current, and temperature sensing for each cell, enabling precise State-of-Charge estimation and cell balancing across the pack. Part of ST’s AutoDevKit ecosystem, the AEK-POW-BMSCC allows engineers to quickly prototype scalable, high-voltage battery management solutions with support for functional safety and real-time monitoring.

STMicroelectronics

The STM32MP215F-DK Discovery Kit is a development platform for the STM32MP215 series. It features the STM32MP215DAN3 MPU, ST STPMIC2L power management, and 2GB of LPDDR4 DRAM, along with Gigabit Ethernet, USB-C, microSD, an LCD-TFT display connector, and a dual-lane MIPI CSI-2 camera connector. The board ships with the ST OpenSTLinux distribution on the A35 cores and STM32CubeMP2 firmware examples on the M33, enabling rapid prototyping and evaluation of industrial and vision-based applications.

STMicroelectronics

STEVAL-3603BC1 evaluation board provides a ready-made 5 V/3 A buck converter solution using the DCP3603 and minimal external parts. It helps engineers quickly evaluate the converter’s performance and jump-start their designs. The board highlights the high efficiency and small footprint achievable with the DCP3603 in applications such as appliances, smart meters, and 24V industrial systems. Using this board, developers can validate the DCP3603’s operation under real-world conditions and accelerate prototyping of their power supply designs.

STMicroelectronics

The EVLSPIN32G0A1 evaluation board from STMicroelectronics provides a hardware platform for assessing the STSPIN32G0A1 integrated motor-control system in three-phase brushless dc (BLDC) motor applications. 

The board operates from a supply range of 7V to 45V, and includes a power stage built from six STD140N6F7 MOSFETs which conduct up to 15Arms of continuous current. A three-shunt sensing topology is implemented to support high-performance field-oriented control and 6-step drive algorithms.

The board integrates voltage monitoring, PCB temperature sensing, an over-current comparator and under-voltage checks on driver supplies, enabling evaluation of the protection functions without external hardware. Digital Hall sensor and encoder inputs are provided for rotor position feedback, and bus voltage measurement is available for control loop implementation. 

The onboard regulators supply 3.3V and 12V rails for the integrated microcontroller and gate driver.

An embedded ST-LINK/V2-1 interface allows programming, debugging and UART communication through a Virtual COM port. User inputs include buttons and a potentiometer for speed and parameter adjustment during motor testing. When used with the STM32 Motor Control SDK, the board supports development and verification of control firmware for power tools, small appliances, fans, robotics and other low- to mid-power BLDC motor drives.

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