Title :
Method of creating local semi-insulating regions on silicon wafers for device isolation and realization of high-Q inductors
Author :
Liao, Chungpin ; Huang, Tzuen-Hsi ; Lee, Chwan-Ying ; Tang, Denny ; Lan, Shan-Ming ; Yang, Tsun-Neng ; Lin, Li-Fu
Author_Institution :
ERS, ITRI, Hsinchu, Taiwan
Abstract :
Penetrating proton beams from a compact ion cyclotron (diameter: 1.5 m, height: 2 m) were employed to create local semi-insulating regions within silicon substrates to facilitate device isolation in mixed-mode (analog-digital) integrated circuits (IC´s) and realization of RF IC´s with high-Q inductors. Experiments revealed that resistivity values of I M/spl Omega/-cm could be reached by practical proton fluences on silicon wafers of original resistivity of more than about 1 /spl Omega/-cm. Significant improvement was evidenced on Q values of irradiated inductors. Effect of reduced inductor metal conductivity from bombardment was over-shadowed by the more enhanced Q behavior, if the proton fluence is sufficiently large.
Keywords :
Q-factor; elemental semiconductors; inductors; isolation technology; mixed analogue-digital integrated circuits; proton effects; silicon; Q-value; RF IC; Si; device isolation; inductor; ion cyclotron; local semi-insulating region; metal conductivity; mixed-mode analog-digital integrated circuit; proton beam irradiation; resistivity; silicon wafer substrate; Analog integrated circuits; Analog-digital conversion; Analog-digital integrated circuits; Conductivity; Cyclotrons; Inductors; Particle beams; Protons; Radiofrequency integrated circuits; Silicon;
Journal_Title :
Electron Device Letters, IEEE
