Description
MEMS Training System
MEMS (Micro-electromechanical Systems) based sensors, such as accelerometers, gyroscopes and magnetometers, are crucial components used in smart portable devices, like smartphones and tablets.
KL-630 is designed to facilitate systematic learning in a variety of MEMS functions and applications.
The training system introduces four types of MEMS based sensors, including
Features
- Learning the relation between accelerometer and gravity field in three dimensional space.
- Converting the sensing signal into gravity unit step by step from software interface.
- Converting the gravity data into tilting angle step by step from the software interface.
- Easy to mount on XYZ-axis rotation stand to design and carry out more advanced experiments.
- Under Demo mode operation, the Z-axis gravity data can be measured and displayed without connecting to PC
List of Experiments
- Gravity Measurement
- Measuring Gravitational Acceleration
- Gravitational Acceleration Calculation and Offset
- Calibration
- Tilt Angle
- Pitch Rotation
- Roll Rotation
- Pitch & Roll Demo
- Gravitational Acceleration Waveforms
Features
- Learning the relation between gyroscope and its rotation in three dimensional space.
- Converting the sensing signal into rotation angle step by step from software interface.
- Easy to mount on XYZ-axis rotation stand to design and carry out more advanced experiments.
- The experiment results from XYZ axis can be acquired and analyzed simultaneously from software interface.
- Under Demo mode operation, the Z-axis rotation angle can be measured and displayed without connecting to PC.
List of Experiments
- Angle Measurement
- Measuring Angular Rate
- Angular Rate Calculation and Offset Calibration
- Noise Filtering
- X-Axis Angle Measurement
- Y-Axis Angle Measurement
- Z-Axis Angle Measurement
- Pitch Rotation
- Roll Rotation
- Yaw Rotation
- Angular Rate Waveforms
Features
- Learning the relation between magnetometer and magnetic field in three dimensional space.
- Converting the sensing signal into magnetic field unit step by step from software interface.
- Using sensing signal to find magnetic north step by step from software interface.
- Under Demo mode operation, the magnetic north can be identified and displayed without connecting to PC.
List of Experiments
- Magnetic North Identification
- Measuring Magnetic Field
- Sensing Magnet’s Magnetic Field
- Magnetic Interference and 2D Calibration
- Magnetic Interference and 3D Calibration
- Electronic Compass
- 7. Magnetometer and Accelerometer Output Waveforms
Features:
- Converting the sensing signal into temperature and pressure step by step from software interface.
- Using 2-way portable pump to increase or decrease the pressure of glass locker case.
- Integrating with mechanical-based temperature meter and barometer to compare MEMS-based sensor results.
- Under Demo mode operation, the temperature and pressure can be measured and displayed without connecting to PC.
List of Experiments
- Measuring Temperature and Pressure
- Temperature Measurement
- Temperature Calculation
- Pressure Measurement
- Pressure Calculation
Module Structure
To ensure the quality of experiments, the module with the XYZ- Axis rotation stand was designed to carry out threedimensional motion experiments through the operation of the accelerometer module and the gyroscope module.