Indian Journal of Science and Technology

Open Access Open Access  Restricted Access Subscription Access

Design, Analysis and Testing of Multi-axis Vibration Fixture for Electronic Devices


Affiliations
1 MTRDC, DRDO, Bangalore, India
2 Manipal University Jaipur, Jaipur Campus, India
 

Objectives: Any device required to operate under vibration environment has to be tested for the same. The mounting pattern of vibration shaker is fixed. Hence a fixture as adaptor is needed for mounting the Device Under Test (DUT). Method/Analysis: These fixtures are to be stiff (natural frequency > highest frequency of test spectrum) to avoid fixture resonance leading to amplification of loads. In the present study, two fixtures – 1) with single mount 3 orientation capability and 2) capable of for 3 axes simultaneous loading were designed, analysed (using ANSYS16) and developed with the aim of reducing time in a single test and effort during testing. Findings: The fixtures were tested by regular vibration shaker as well as a hand held analyser. The analysis and testing yielded good correlation for the natural frequency estimate (< 15% deviation).Using fixture-1, 4 units with 3 orientations can be tested simultaneously and each of the devices can be tested for the remaining orientations during the subsequent tests. With fixture-2 one can test the device for all 3 axes loading in a single test thus reducing the testing time when accounted across a number of devices. Applications: As most of the time and effort during vibration testing goes in change of orientation and arrangement of slip-table (assembly and dis-assembly of the fixture-DUT) the fixtures designed can go a long way in minimising the time and manual labour when accounted across many units.

Keywords

Frequency Response Function (FRF), GRMS, Modal Testing, Random Vibration, Vibration Fixture.
User

Abstract Views: 216

PDF Views: 0




  • Design, Analysis and Testing of Multi-axis Vibration Fixture for Electronic Devices

Abstract Views: 216  |  PDF Views: 0

Authors

Venkat
MTRDC, DRDO, Bangalore, India
Varun
MTRDC, DRDO, Bangalore, India
Arun Kumar Singh
MTRDC, DRDO, Bangalore, India
Srikrishna
MTRDC, DRDO, Bangalore, India
Sharan Mudda
Manipal University Jaipur, Jaipur Campus, India
Ravinder Jhorar
Manipal University Jaipur, Jaipur Campus, India

Abstract


Objectives: Any device required to operate under vibration environment has to be tested for the same. The mounting pattern of vibration shaker is fixed. Hence a fixture as adaptor is needed for mounting the Device Under Test (DUT). Method/Analysis: These fixtures are to be stiff (natural frequency > highest frequency of test spectrum) to avoid fixture resonance leading to amplification of loads. In the present study, two fixtures – 1) with single mount 3 orientation capability and 2) capable of for 3 axes simultaneous loading were designed, analysed (using ANSYS16) and developed with the aim of reducing time in a single test and effort during testing. Findings: The fixtures were tested by regular vibration shaker as well as a hand held analyser. The analysis and testing yielded good correlation for the natural frequency estimate (< 15% deviation).Using fixture-1, 4 units with 3 orientations can be tested simultaneously and each of the devices can be tested for the remaining orientations during the subsequent tests. With fixture-2 one can test the device for all 3 axes loading in a single test thus reducing the testing time when accounted across a number of devices. Applications: As most of the time and effort during vibration testing goes in change of orientation and arrangement of slip-table (assembly and dis-assembly of the fixture-DUT) the fixtures designed can go a long way in minimising the time and manual labour when accounted across many units.

Keywords


Frequency Response Function (FRF), GRMS, Modal Testing, Random Vibration, Vibration Fixture.



DOI: https://doi.org/10.17485/ijst%2F2016%2Fv9i34%2F116685