Low Cost +-2 g/+-10 g Dual Axis iMEMS Accelerometers with Digital Output# ADXL202AQC Technical Documentation
## 1. Application Scenarios
### Typical Use Cases
The ADXL202AQC is a low-cost, low-power, complete 2-axis accelerometer with digital output, making it suitable for various motion detection and measurement applications:
Motion Sensing Applications
- Tilt Sensing : Used in industrial equipment for angle measurement and inclination detection
- Shock/Vibration Monitoring : Deployed in machinery health monitoring systems to detect abnormal vibrations
- Free-Fall Detection : Critical in portable electronics (laptops, handheld devices) for hard disk protection
- Activity Monitoring : Fitness trackers and wearable devices for step counting and activity recognition
Control Systems
- Gaming Controllers : Motion-based input for gaming consoles and VR controllers
- Robotics : Orientation sensing for autonomous navigation and balance control
- Camera Stabilization : Image stabilization systems in photography and videography equipment
### Industry Applications
Automotive Industry
- Electronic Stability Control : Vehicle dynamics monitoring
- Airbag Deployment Systems : Crash detection and impact sensing
- Anti-theft Systems : Vehicle tilt and movement detection
- Navigation Systems : Dead reckoning when GPS signals are lost
Industrial Automation
- Machine Condition Monitoring : Predictive maintenance through vibration analysis
- Platform Leveling : Construction equipment and industrial platforms
- Structural Health Monitoring : Building and bridge vibration monitoring
Consumer Electronics
- Mobile Devices : Screen orientation switching and gesture recognition
- Smart Home Devices : Motion-activated lighting and security systems
- Wearable Technology : Activity tracking and fall detection for elderly care
Medical Devices
- Patient Monitoring : Activity level tracking and fall detection
- Surgical Instruments : Orientation sensing in minimally invasive procedures
- Rehabilitation Equipment : Motion analysis and progress tracking
### Practical Advantages and Limitations
Advantages
- Low Power Consumption : Typically 0.6 mA at 3V, ideal for battery-operated devices
- Digital Output : Direct PWM output eliminates need for external ADCs
- Wide Measurement Range : ±2g range suitable for most motion sensing applications
- Temperature Stability : Excellent performance across industrial temperature ranges (-40°C to +85°C)
- Small Form Factor : 14-lead ceramic package (0.81" × 0.41" × 0.18")
Limitations
- Limited Dynamic Range : ±2g maximum range may be insufficient for high-g applications
- Cross-Axis Sensitivity : Typical 1% cross-axis sensitivity requires calibration for precision applications
- Noise Performance : 500 μg/√Hz noise density may limit resolution in low-vibration applications
- Bandwidth Limitation : User-selectable bandwidth up to 5 kHz may be insufficient for high-frequency vibration analysis
## 2. Design Considerations
### Common Design Pitfalls and Solutions
Power Supply Issues
- Pitfall : Inadequate power supply decoupling causing measurement noise
- Solution : Use 0.1 μF and 1 μF ceramic capacitors close to VDD pin, with proper grounding
Signal Integrity Problems
- Pitfall : Long PWM output traces introducing signal degradation
- Solution : Keep digital outputs close to microcontroller, use proper termination if traces exceed 6 inches
Mechanical Mounting Errors
- Pitfall : Improper mechanical coupling affecting measurement accuracy
- Solution : Ensure rigid mounting to measured surface, use appropriate adhesives or mechanical fasteners
Temperature Compensation
- Pitfall : Ignoring temperature effects on zero-g bias and sensitivity
- Solution : Implement temperature compensation algorithms or use the internal temperature sensor
### Compatibility Issues with Other Components
Microcontroller Interface
- PWM Capture : Requires microcontroller with PWM input capture capability
- Timing Resolution : Need sufficient timer
