| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
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Honeywell Aerospace |
KIT COMPASS SENSOR 3-AXIS |
0 |
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KitsSensor Kits are integrated collections of sensors designed to detect and measure physical, chemical, or biological parameters. These kits serve as foundational components in data acquisition systems, enabling real-time monitoring and control across diverse applications. Their importance in modern technology stems from their role in enabling IoT (Internet of Things), industrial automation, healthcare diagnostics, and smart infrastructure. By converting real-world signals into electrical data, KitsSensor Kits bridge the gap between physical environments and digital systems.
| Type | Functional Features | Application Examples |
|---|---|---|
| Temperature Sensor Kits | High-precision thermistors/thermocouples with 0.1 C accuracy | Climate control systems, food storage monitoring |
| Pressure Sensor Kits | MEMS-based transducers with 0.01% full-scale resolution | Medical devices, automotive tire pressure monitoring |
| Accelerometer Kits | 3-axis motion detection with 0.001g sensitivity | Vibration analysis, drone stabilization systems |
| Environmental Sensor Kits | Multi-parameter detection (humidity, gas, PM2.5) | Indoor air quality monitors, smart agriculture |
| Optical Sensor Kits | Light intensity, color, and proximity detection | Display brightness control, automated lighting systems |
A typical Kitsensor Kit comprises: 1. Sensing Elements: Physical transducers (e.g., thermocouples, piezoelectric crystals) 2. Signal Conditioning Circuits: Amplifiers, filters, and ADCs for noise reduction 3. Communication Modules: Wireless (Bluetooth/Zigbee) or wired (I2C/SPI) interfaces 4. Power Management Units: Energy-efficient regulators for battery/solar operation 5. Mechanical Housing: IP67-rated enclosures for environmental protection
| Parameter | Description | Importance |
|---|---|---|
| Measurement Range | Operational limits (e.g., -40 C to 150 C) | Determines application suitability |
| Accuracy | Error margin vs. reference standards | Impacts data reliability |
| Response Time | Speed of output stabilization (ms) | Crucial for dynamic systems |
| Operating Temperature | Environmental tolerance range | Affects deployment flexibility |
| Communication Protocol | Interface standard (e.g., Modbus, CANbus) | Determines system compatibility |
Key industries utilizing KitsSensor Kits include: - Industrial Automation: Predictive maintenance systems, robotic arms - Healthcare: Wearable ECG monitors, infusion pump controls - Automotive: ADAS sensors, battery management systems - Smart Buildings: HVAC optimization, occupancy detection - Environmental Monitoring: Air/water quality networks, weather stations
| Manufacturer | Representative Product | Key Features |
|---|---|---|
| Texas Instruments | AFE5921 Sensor AFE | Ultrasonic sensor interface with 128 channels |
| STMicroelectronics | LSM6DSL IMU | 6-axis inertial measurement unit |
| Honeywell | MLX90614 IR Sensor | Contactless temperature measurement |
| Bosch Sensortec | BMI160 Motion Sensor | Low-power accelerometer/gryoscope |
| Omron | D6T Thermal Sensor | Array-type presence detection |
Key consideration factors: 1. Application Requirements: Match sensor range/specifications to operational needs 2. Environmental Conditions: Consider temperature, humidity, and vibration levels 3. Integration Compatibility: Verify communication protocol and mechanical fit 4. Power Constraints: Optimize for battery life or wired power availability 5. Cost vs. Performance: Balance precision requirements with budget limitations 6. Scalability: Select modular designs for future expansion
Emerging developments include: - Miniaturization through MEMS/NEMS technology - Wireless self-powered sensors using energy harvesting - AI-enhanced edge processing capabilities - Multi-sensor fusion for comprehensive data acquisition - Increased adoption of open-source hardware platforms - Development of self-calibrating and self-healing sensor networks