Title :
RF upset susceptibilities of CMOS and low power Schottky D-type flip-flops
Author :
Kenneally, Daniel J. ; Koellen, Daniel S. ; Epshtein, Stan
Author_Institution :
Rome Air Dev. Center, Griffiss Air Force Base, NY, USA
Abstract :
A description is given of measurements of RF upset levels on two D-type flip-flops, the CD4013B and 54ALS74A, which are functionally identical but fabricated from different technologies: CMOS and low-power Schottky. Continuous-wave electromagnetic interference (CW EMI) from 1 MHz to 200 MHz was coupled into the clock, data, and collector bias, Vcc, ports of each device type while test vectors were used to verify normal operation and subsequent upsets. Both the CMOS and the Schottky devices show decreasing RF susceptibility with increasing frequencies from 1 to 200 MHz. The differences in the susceptibility levels measured for the two technologies are apparent in the data and clock ports´ upset levels
Keywords :
CMOS integrated circuits; Schottky gate field effect transistors; electromagnetic interference; flip-flops; radiofrequency interference; 1 to 200 MHz; 54ALS74A; CD4013B; CMOS device; CMOS technology; CW EMI; EMC; RF upset levels; clock; collector bias; continuous wave EMI; data; low power Schottky D-type flip-flops; power supply ports; susceptibility levels; Electromagnetic compatibility; Extraterrestrial measurements; Flip-flops; Integrated circuit measurements; Integrated circuit reliability; Integrated circuit technology; RF signals; Radio frequency; Signal processing; Space technology;
Conference_Titel :
Electromagnetic Compatibility, 1989., IEEE 1989 National Symposium on
Conference_Location :
Denver, CO
DOI :
10.1109/NSEMC.1989.37178
