• Title of article

    Investigation into socketed CDM (SDM) tester parasitics

  • Author/Authors

    Gieser، H. نويسنده , , Chaine، M. نويسنده , , Verhaege، K. نويسنده , , Avery، L. نويسنده , , Bock، K. نويسنده , , Henry، L.G. نويسنده , , Meuse، T. نويسنده , , Brodbeck، T. نويسنده , , Barth، J. نويسنده , , KELLY، M. نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 1999
  • Pages
    -1530
  • From page
    1531
  • To page
    0
  • Abstract
    The ESD Association standards working group 5.3.2 is analyzing the procedure and stress that is applied to a device under test (DUT) using a socketed discharge model (SDM) test system, formerly referred to as socketed CDM. Our final goal is to define an SDM tester specification that will guarantee test result reproducibility across different test equipment. This paper investigates the effect of tester background parasitics on the discharge current waveforms of an SDM tester. Characteristic waveforms were studied and SDM testing was performed on actual devices. It is shown that SDM tester parasitics determine the stress applied to the DUT. This directly impacts the SDM failure threshold voltage levels and may lead to miscorrelation and non-reproducibility of test results across different SDM test systems. This paper empirically determines the relative contributions of the various tester parasitic to the total stress applied to the DUT. Our investigations indicate that the tester provides a 10-20 pF parasitic capacitance discharge into each pin of the device. Tester background parasitic elements play such an important role in the SDM discharge event that correlation between test systems built by different manufacturers is unlikely without completely duplicating a particular tester. © 1999 Elsevier Science Ltd. All rights reserved.
  • Keywords
    Operational amplifiers , Pulsed irradiation , LINAC , Time dependent phenomena , Relaxation
  • Journal title
    MICROELECTRONICS RELIABILITY
  • Serial Year
    1999
  • Journal title
    MICROELECTRONICS RELIABILITY
  • Record number

    13185