| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
 |
DFRobot |
OPENMV CAM M7 A MACHINE VISION |
0 |
|
 |
DFRobot |
ESP32-CAM DEVELOPMENT BOARD |
47 |
|
 |
DFRobot |
MULTI-FUNCTION ENVIRONMENTAL MOD |
16 |
|
 |
DFRobot |
TRIPLE AXIS ACCELEROMETER FXLN83 |
0 |
|
 |
DFRobot |
CCS811 AIR QUALITY SENSOR-BREAKO |
92 |
|
 |
DFRobot |
URM04 V2.0 ULTRASONIC SENSOR |
1 |
|
 |
DFRobot |
LIGHT SENSOR-BH1750 |
16 |
|
 |
DFRobot |
TRIPLE AXIS ACCELEROMETER BMA220 |
3 |
|
 |
DFRobot |
10 DOF MEMS IMU SENSOR |
17 |
|
 |
DFRobot |
MINIQ ROBOT CHASSIS ENCODER |
0 |
|
 |
DFRobot |
TRIPLE AXIS ACCELEROMETER ADXL34 |
9 |
|
 |
DFRobot |
WEATHER-PROOF ULTRASONIC SENSOR |
93 |
|
 |
DFRobot |
SMART GRAYSCALE SENSOR |
0 |
|
 |
DFRobot |
FLIGHT CONTROLLER W/10 DOF IMU |
0 |
|
 |
DFRobot |
MU VISION SENSOR |
3 |
|
 |
DFRobot |
6 DOF SENSOR - MPU6050 |
244 |
|
 |
DFRobot |
ESP-EYE DEVELOPMENT BOARD |
0 |
|
|
DFRobot |
GESTURE SENSOR |
0 |
|
|
DFRobot |
LSM303 BREAKOUT BOARD - TILT COM |
0 |
|
|
DFRobot |
CMPS11-TILT COMPENSATED MAGNETIC |
0 |
|
Evaluation boards for sensors are specialized hardware platforms designed to test, validate, and develop sensor-based applications. These boards integrate sensor elements with processing units, communication interfaces, and power management modules. They play a critical role in accelerating product development cycles in industries such as IoT, industrial automation, healthcare, and consumer electronics by enabling rapid prototyping and performance characterization.
| Type | Functional Features | Application Examples |
|---|---|---|
| Temperature Sensor Boards | High-precision thermal sensing with digital/analog outputs | Climate control systems, medical devices |
| Accelerometer Boards | 3-axis motion detection with programmable sensitivity | Vibration monitoring, fitness trackers |
| Pressure Sensor Boards | Atmospheric/differential pressure measurement | Weather stations, automotive systems |
| Environmental Sensor Boards | Multi-parameter detection (humidity, gas, light) | Smart agriculture, air quality monitors |
| Image Sensor Boards | High-resolution optical sensing with ISP integration | Surveillance cameras, machine vision |
Typical evaluation boards consist of: - Sensor element (MEMS, CMOS, or discrete transducers) - Microcontroller/SoC with ADC/DAC interfaces - Communication modules (I2C, SPI, UART, BLE/Wi-Fi) - Power management ICs and voltage regulators - Debugging interfaces (JTAG, SWD) - Auxiliary components (LED indicators, potentiometers) The PCB layout optimizes signal integrity while minimizing electromagnetic interference.
| Parameter | Description | Importance |
|---|---|---|
| Measurement Range | Minimum/maximum detectable values | Determines application suitability |
| Accuracy | Error margin vs. reference values | Impacts system reliability |
| Sampling Rate | Data acquisition frequency | Defines dynamic response capability |
| Power Consumption | Operating current/voltage requirements | Affects battery life and thermal design |
| Interface Type | Communication protocol compatibility | Dictates system integration complexity |
| Manufacturer | Representative Product | Key Features |
|---|---|---|
| STMicroelectronics | STEVAL-MKI187V1 | 6-axis IMU with advanced calibration |
| Texas Instruments | BOOSTXL-ULTRASONIC | Ultrasonic sensing for distance measurement |
| Analog Devices | EVAL-ADICUP3029 | Low-power Cortex-M4F based platform |
| NXP Semiconductors | FRDM-FXS-MULTI-B | Multi-sensor fusion for IoT applications |
Key considerations include: - Match sensor specifications to target application requirements - Verify compatibility with existing development ecosystems - Evaluate power budget and form factor constraints - Consider available software support (drivers, SDKs) - Assess calibration and certification requirements Example: For a wearable health monitor, prioritize low-power accelerometers with medical-grade accuracy.
Emerging trends include: - Integration of AI accelerators for edge computing - Development of wireless sensor nodes with energy harvesting - Advancements in MEMS fabrication for higher sensitivity - Standardization of sensor fusion algorithms - Growth of open-source hardware ecosystems Market projections indicate a 12% CAGR through 2027 driven by IoT and Industry 4.0 adoption.