Evaluation and Demonstration Boards and Kits

Image	Part Number	Description / PDF	Quantity	Rfq
	STEVAL-IHM022V1 STMicroelectronics	BOARD DEMO BASED ON STM32F103ZE	0
	STEVAL-PCC008V1 STMicroelectronics	BOARD DEMO TFT DISPLAY STR91	0
	EVAL-VNH5019-P1 STMicroelectronics	BOARD EVAL VNH5019 MOTOR DVR	0
	STEVAL-CCA035V1 STMicroelectronics	BOARD EVAL USB INTERFACE STA120D	0
	STEVAL-IHM005V1 STMicroelectronics	EVAL KIT 3KW POWER DRIVER BOARD	0
	STEVAL-ISB009V1 STMicroelectronics	BOARD EVAL BATT MONITOR STC3100	0
	STEVAL-TCS001V1 STMicroelectronics	BOARD EVAL BASED ON STMPE2401	0
	EVALST7538DUAL STMicroelectronics	BOARD EVAL ST7538 PWR LINE TXRX	0
	STEVAL-IHM009V1 STMicroelectronics	EVAL BOARD POWER SEMITOP 3	0
	STEVAL-ISV006V1 STMicroelectronics	BOARD EVAL FOR SPV1040	0
	DK900-220 STMicroelectronics	KIT DEV FOR PSD9XX FLASH 220V	0
	STEVAL-IFN001V1 STMicroelectronics	EVAL BOARD FOR MOTOR CONTROL	0
	STEVAL-ISB043V1 STMicroelectronics	QI-BASED WIRELESS POWER RECEIVER	0
	STEVAL-ISQ003V1 STMicroelectronics	BOARD EVAL BASED ON STIL08	0
	EVAL6585D-230V STMicroelectronics	DEMO BOARD FOR L6585D	0
	EVAL6561-80 STMicroelectronics	BOARD DEMO WIDE RANGE	0
	EVAL6562-80W STMicroelectronics	EVAL BOARD FOR L6562-80	0
	EVLKST8500GH915 STMicroelectronics	ST8500 HYBRID PLC&RF CONNECTIVIT	0
	STEVAL-ISF001V2 STMicroelectronics	BOARD EVAL FOR L6563/STW88N65M5	0
	STEVAL-IPE001V1 STMicroelectronics	EVAL BOARD ENERGY METER MONO	0

Evaluation and Demonstration Boards and Kits

Evaluation and Demonstration Boards and Kits are hardware platforms designed to facilitate the development, testing, and demonstration of electronic systems. They serve as critical tools for engineers and developers to prototype applications, validate designs, and accelerate time-to-market. These boards integrate processors, sensors, communication interfaces, and software ecosystems, enabling rapid experimentation across diverse industries such as IoT, automotive, and industrial automation.

Type	Functional Features	Application Examples
Microcontroller Development Boards	Embedded CPUs, GPIOs, integrated peripherals	IoT devices, robotics
FPGA Evaluation Boards	Reconfigurable logic, high-speed interfaces	Communication systems, AI accelerators
Sensor Expansion Kits	Multi-sensor integration (temperature, motion, etc.)	Smart agriculture, environmental monitoring
Wireless Communication Modules	Bluetooth/Wi-Fi/LoRa protocols, antenna interfaces	Connected healthcare, smart cities

Typical architecture includes: - Processing Units: Microcontrollers, FPGAs, or SoCs - Memory: RAM, Flash, EEPROM - Interfaces: USB, UART, SPI, I2C, Ethernet - Power Management: Regulators, battery connectors - Software Stack: SDKs, device drivers, IDEs Physical designs often feature standardized form factors (e.g., Arduino Uno, Raspberry Pi HATs) for modular expansion.

Parameter	Description
Processor Performance (MHz/GHz)	Determines computational capability
Memory Capacity (RAM/Flash)	Affects program complexity and data storage
Interface Types	Dictates peripheral compatibility
Power Consumption (mW/MHz)	Critical for battery-operated devices
Operating Temperature (-40 C to +85 C)	Defines environmental durability

- Internet of Things (IoT): Smart home controllers, edge AI nodes - Automotive: ADAS sensor fusion platforms - Industrial Automation: PLC controllers, predictive maintenance systems - Consumer Electronics: Wearables, AR/VR prototypes

Manufacturer	Representative Products
STMicroelectronics	STM32 Nucleo Series, SensorTile Kit
Intel	Intel Edison, Movidius Neural Compute Stick
Xilinx	Zynq UltraScale+ MPSoC Evaluation Kit
Arduino	Arduino MKR Series, Nano 33 IoT

Key considerations: 1. Match processor capabilities to application complexity 2. Verify interface compatibility with target peripherals 3. Assess software ecosystem maturity (e.g., ROS support) 4. Evaluate power budget requirements 5. Consider long-term availability and community support

- Growing adoption of RISC-V-based evaluation platforms - Integration of AI/ML accelerators in edge computing boards - Expansion of open-source hardware ecosystems - Increased focus on energy-efficient architectures for IoT - Standardization of form factors (e.g., SparkFun's Qwiic system)