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Damage susceptibility of integrated circuits to a simulated IEMP transient

Conference · · IEEE (Inst. Elec. Electron. Eng.), Trans. Nucl. Sci., v. NS-20, no. 6, pp. 40-47
OSTI ID:4312924
Recent investigations have been directed toward gaining insight into the effect of electrical pulse overstressing in integrated circuits, especiQly simple gates and bipolar LSI arrays. In order to determine the effect of ionizing radiation on the pulse-power failure susceptibility levels of small scale, monolithic, junctionisolated integrated circuits (simple gates), an experimental study was undertaken such that device failures could be induced in a simulated EMP or IEMP environment. The device types investigated included low- and high- power, quadruple, dual-input, positive NAND TTL gates. Permanent damage levels for these devices were determined for both positive and negntive-polarity submicrosecond pulses, introduced into the input, output and bias terminals of active devices, some of which were simultaneously irradiated by gamma radiation. The radiation dose rates ranged from 1 x 10/sup 10/ to 5 x 10/sup 10/ rads(Si)/ sec. The failure susceptibility level of a device was found to depend uniquely upon the ionizing radiation, the device terminal subjected to the electrical stress pulse, and the polarity of the pulse. The data for device failures in the simulated EMP environment agree with the existing thermalfailure models characterized by P = At/sup m/ where P is the power required to induce failure and t is the time to failure. In a radiation environment it was observed that initial ionization tends to reduce the magnitude of the constant A and shifts the time to failure t from the constant-energy regime (m = --1) to another. ( auth)
Research Organization:
Harry Diamond Labs., Washington, DC
NSA Number:
NSA-29-029570
OSTI ID:
4312924
Conference Information:
Journal Name: IEEE (Inst. Elec. Electron. Eng.), Trans. Nucl. Sci., v. NS-20, no. 6, pp. 40-47
Country of Publication:
Country unknown/Code not available
Language:
English

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Related Subjects

*INTEGRATED CIRCUITS-- PHYSICAL RADIATION EFFECTS
*INTERNAL ELECTROMAGNETIC PULSES
FAILURES
GAMMA RADIATION
N46300* --Instrumentation--Radiation Effects on Instrument Components
Instruments
or Electronic Systems
TRANSIENTS INTERNAL ELECTROMAGNETIC PULSES