Add to ORKGThe effect of compressive mechanical stresses on chip solid tantalum capacitors is investigated by monitoring characteristics of different part types under axial and hydrostatic stresses. Depending on part types, an exponential increase of leakage currents was observed when stresses exceeded 10 MPa to 40 MPa. For the first time, reversible variations of leakage currents (up to two orders of magnitude) with stress have been demonstrated. Mechanical stresses did not cause significant changes of AC characteristics of the capacitors, whereas breakdown voltages measured during the surge current testing decreased substantially indicating an increased probability of failures of stressed capacitors in low impedance applications. Variations of leaka...
A detailed investigation of leakage current in MOS capacitors under pulsed electrical stress is pres...
Surface mounted components are being used increasingly in electronics, but the manufacture and assem...
This work provides an innovative understanding of MIM capacitor degradation behavior under a wide ra...
Microchip tantalum capacitors are manufactured using new technologies that allow for production of s...
Resin dipped solid tantalum capacitors subjected to fast switch-on surges from a low impedance sourc...
Abstract Power-on failure has been the prevalent failure mechanism for solid tantalum capacitors in ...
The application of tantalum capacitors in the Viking Lander includes dc voltage and ripple current e...
Solid tantalum capacitors are widely used in space applications to filter low-frequency ripple curre...
Internal gas pressure in hermetic wet tantalum capacitors is created by air, electrolyte vapor, and ...
In this paper we have investigated the long-term reliability of TiN/HfSixOy/TiN Metal-Insulator-Meta...
Two types of failures in solid tantalum capacitors, catastrophic and parametric, and their mechanism...
Historically, it has been difficult to correlate the leakage current of capacitor structures involvi...
Results are presented of a 2,000 hour cycled life test program conducted to determine the effect of ...
The application of tantalum capacitors in the Viking Lander includes dc voltage and ripple current e...
Due to the importance of capacitance temperature stability in precise analog circuit applications, c...
A detailed investigation of leakage current in MOS capacitors under pulsed electrical stress is pres...
Surface mounted components are being used increasingly in electronics, but the manufacture and assem...
This work provides an innovative understanding of MIM capacitor degradation behavior under a wide ra...
Microchip tantalum capacitors are manufactured using new technologies that allow for production of s...
Resin dipped solid tantalum capacitors subjected to fast switch-on surges from a low impedance sourc...
Abstract Power-on failure has been the prevalent failure mechanism for solid tantalum capacitors in ...
The application of tantalum capacitors in the Viking Lander includes dc voltage and ripple current e...
Solid tantalum capacitors are widely used in space applications to filter low-frequency ripple curre...
Internal gas pressure in hermetic wet tantalum capacitors is created by air, electrolyte vapor, and ...
In this paper we have investigated the long-term reliability of TiN/HfSixOy/TiN Metal-Insulator-Meta...
Two types of failures in solid tantalum capacitors, catastrophic and parametric, and their mechanism...
Historically, it has been difficult to correlate the leakage current of capacitor structures involvi...
Results are presented of a 2,000 hour cycled life test program conducted to determine the effect of ...
The application of tantalum capacitors in the Viking Lander includes dc voltage and ripple current e...
Due to the importance of capacitance temperature stability in precise analog circuit applications, c...
A detailed investigation of leakage current in MOS capacitors under pulsed electrical stress is pres...
Surface mounted components are being used increasingly in electronics, but the manufacture and assem...
This work provides an innovative understanding of MIM capacitor degradation behavior under a wide ra...