+-5 g to +-50 g, Low Noise, Low Power, Single/Dual Axis iMEMS Accelerometers# ADXL250AQC Technical Documentation
## 1. Application Scenarios
### Typical Use Cases
The ADXL250AQC is a dual-axis ±50g accelerometer designed for high-g shock and vibration measurement applications. Typical use cases include:
Impact Detection Systems
- Automotive crash detection and airbag deployment systems
- Sports equipment impact analysis (helmets, protective gear)
- Industrial machinery collision monitoring
- Military applications including munitions testing and armor impact assessment
Vibration Monitoring
- Industrial equipment health monitoring (pumps, motors, compressors)
- Structural health monitoring of bridges and buildings
- Aerospace vibration analysis during launch and flight operations
- Heavy machinery condition-based maintenance systems
Motion Analysis in High-G Environments
- Sports biomechanics for high-impact activities
- Robotics arm movement and collision detection
- Vehicle suspension testing and analysis
- Drop testing for consumer electronics and packaging
### Industry Applications
Automotive Industry
- Crash testing and safety system development
- Vehicle dynamics analysis during extreme maneuvers
- Component durability testing under high-stress conditions
- Advantage : High-g range accommodates severe impact scenarios
- Limitation : May require filtering for low-frequency road vibration analysis
Aerospace and Defense
- Missile and projectile telemetry
- Aircraft structural testing during extreme maneuvers
- Satellite launch vibration monitoring
- Advantage : Robust performance in extreme environmental conditions
- Limitation : Higher power consumption compared to low-g sensors
Industrial Automation
- Robotic arm collision detection and safety systems
- Heavy equipment impact monitoring
- Predictive maintenance for rotating machinery
- Advantage : Dual-axis capability simplifies multi-directional monitoring
- Limitation : Requires careful mounting to avoid cross-axis sensitivity issues
Consumer Electronics
- Ruggedized device drop testing
- Sports equipment performance monitoring
- Gaming controller motion sensing for extreme sports simulations
- Advantage : Compact package suitable for portable devices
- Limitation : May be over-specified for typical consumer motion sensing
### Practical Advantages and Limitations
Advantages
- Wide Dynamic Range : ±50g range suitable for extreme acceleration events
- Dual-Axis Integration : Simultaneous X and Y axis measurement reduces component count
- Temperature Stability : -40°C to +85°C operating range with minimal drift
- Signal Conditioning : Integrated filtering and signal processing simplifies design
- High Shock Survival : Withstands shocks up to 2000g without damage
Limitations
- Power Consumption : 2-3mA typical current draw may be high for battery applications
- Noise Performance : Higher noise density compared to low-g accelerometers
- Cost Consideration : Premium pricing compared to consumer-grade sensors
- Bandwidth Limitation : 2.5kHz bandwidth may be insufficient for very high-frequency applications
- Cross-Axis Sensitivity : Typical 2% cross-axis sensitivity requires careful mounting
## 2. Design Considerations
### Common Design Pitfalls and Solutions
Power Supply Decoupling
- Pitfall : Inadequate decoupling causing noise and measurement errors
- Solution : Use 0.1μF ceramic capacitor placed within 10mm of VCC pin, plus 10μF bulk capacitor
Mechanical Mounting
- Pitfall : Improper mechanical coupling affecting frequency response
- Solution : Use rigid mounting with minimal standoff distance, ensure flat mounting surface
Signal Grounding
- Pitfall : Ground loops introducing noise in analog output
- Solution : Implement star grounding point near sensor, separate analog and digital grounds
Temperature Compensation
- Pitfall : Ignoring temperature effects on zero-g offset and sensitivity
- Solution : Implement software compensation using built-in temperature sensor or external reference
### Compatibility Issues with Other Components
Microcontroller Interface
- ADC
