K&H KL-630
MEMS Training System

K&H develop world’s first series of MEMS-based training system to facilitate students learning various
MEMS functions and applications more systemically.

4 different types of MEMS based sensors are introduced in this training system, including

    • 3-axis Accelerometer,
    • 3-axis Gyroscope,
    • Barometer,
    • Magnetometer

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

  1. Learning the relation between accelerometer and gravity field in three dimensional space.
  2. Converting the sensing signal into gravity unit step by step from software interface.
  3. Converting the gravity data into tilting angle step by step from the software interface.
  4. Easy to mount on XYZ-axis rotation stand to design and carry out more advanced experiments.
  5. 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

  1. Learning the relation between gyroscope and its rotation in three dimensional space.
  2. Converting the sensing signal into rotation angle step by step from software interface.
  3. Easy to mount on XYZ-axis rotation stand to design and carry out more advanced experiments.
  4. The experiment results from XYZ axis can be acquired and analyzed simultaneously from software interface.
  5. 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

  1. Learning the relation between magnetometer and magnetic field in three dimensional space.
  2. Converting the sensing signal into magnetic field unit step by step from software interface.
  3. Using sensing signal to find magnetic north step by step from software interface.
  4. 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:

  1. Converting the sensing signal into temperature and pressure step by step from software interface.
  2. Using 2-way portable pump to increase or decrease the pressure of glass locker case.
  3. Integrating with mechanical-based temperature meter and barometer to compare MEMS-based sensor results.
  4. 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.

CLICK TO SEE KL-630 (PDF)