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Parts by Number Top

Part # Distributor Manufacturer Product Category Description
MPU-3050 Digi-Key InvenSense Sensors, Transducers GYRO/ACCELEROMETER 3-AXIS 24QFN
MPU-9150 Digi-Key InvenSense Sensors, Transducers GYRO/ACCELEROMETER 9-AXIS 24LGA
BMA222 Digi-Key Bosch Sensortec Sensors, Transducers 3-AXIS ACCELEROMETER DIGITAL SMD
KXTC9-2050 Digi-Key Kionix Inc Sensors, Transducers IC ACCELEROMETER TRI-AXIS 10-LGA
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Conduct Research Top

  • Accelerometer Calibration FAQ (.pdf)
    . With traditional mechanical flexure-based exciters, the undesired. transverse motion of the shaker can be more than 100% more than the desired primary. axis motion. This large cross-axis excitation motion, coupled with a small transverse. sensitivity in accelerometers, can cause an undesirable “glitch
  • The History of the Accelerometer (.pdf)
    of the past ten years of accelerometer de-. initiated Dytran in September 1980. (2) The contributory work of. velopment (1996-2006), as well as a vision of the future direction. both Mr. Verne Siegel and Mr. Bob Lally in integrating MOSFET. of accelerometer technology. 84 SOUND AND VIBRATION/JANUARY
  • TN 2: Choosing an Impedence Head
    . the axis of symmetry of the head and the plan of the contacting surface between. head and specimen must be much less than the lineal and rotational impedance. of the specimen and the point of the head. Attaching vibration generators to the impedance head. Impedance heads can be driven most conveniently
  • Force Balance Sensor Technology
    the restoring current. Fig. 2—Block Diagram of Force Balance Sensor. Fig. 3—Frequency Response. The Columbia “HP” (High Performance Torquer). A force balance accelerometer requires a suspended mass in order to translate accelera on into a measureable force, also a. means must be present to apply a current
  • Measure Tilt Using PIC16F84A & ADXL202
    the differential capacitor resulting in a. rounding area becomes the signal conditioning and. square wave output with the amplitude proportional to. output circuitry. the acceleration. Each axis has a demodulator that rec-. tifies the signal and determines the direction of the. FIGURE 2: SILICON STRUCTURE
  • Inertial Sensor Theory 101
    to internal alignments. Published data sheet initial bias setting accuracy and bias temperature sensitivity can generally be improved by 2 to 1 for requirements where improved bias enhances the sensor 's application suitability. Back To Top. Input Axis Misalignment. The input axis misalignment
  • Designing a Digital Compass Using the PIC18F2520
    . These films can be. Earlier, we discussed the need to measure the tilt. compared to magnetic recording tapes. When exposed. angles (pitch and roll). To measure these angles, we. to a strong magnetic field, the data on the tape can be. used a 2-axis accelerometer. Accelerometers are. corrupted. The same
  • A Simple Frequency Response Function
    gauge instrumented hammer, as shown in Figure 1 as a time history. Figure 1: X(t). In this case the response or output would be the accelerometer, as shown in Figure 2. Figure 2: Y(t). However as discussed earlier the frequency response function is a frequency domain analysis, therefore the input

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