Title :
Ultra-high-speed ring oscillators based on self-aligned-gate modulation-doped n+-(Al, Ga)As/GaAs FETs
Author :
Cirillo, N.C. ; Abrokwah, J.K. ; Fraasch, A.M. ; Vold, P.J.
Author_Institution :
Honeywell Inc., Physics Sciences Center, Bloomington, USA
Abstract :
Ultra-high-speed ring oscillator test circuits based on modulation-doped n+-(Al, Ga)As/GaAs field-effect transistors have been fabricated using a completely planar, self-aligned gate by an ion-implantation process. A gate propagation delay of 11.6 ps/gate at a power dissipation of 1.56 mW/gate was measured at room temperature. On cooling to 77 K the gate delay decreased to 8.5 ps/gate at a power dissipation of 2.59 mW/gate. These ring oscillator gate delay times are the fastest ever reported for any semiconductor digital circuit technology.
Keywords :
III-V semiconductors; aluminium compounds; field effect integrated circuits; gallium arsenide; high electron mobility transistors; integrated logic circuits; oscillators; 11.6 ps/gate; 8.5 ps/gate; HEMT; III-V semiconductors; MODFET; digital IC; field-effect transistors; gate delay times; ion implantation process; logic circuits; n+-(Al,Ga)As/GaAs; ring oscillators; self-aligned-gate; test circuits; ultra high speed circuits;
Journal_Title :
Electronics Letters
DOI :
10.1049/el:19850544
