Title :
High Q spiral-type microinductors on silicon substrates
Author :
Park, Jae Y. ; Allen, Mark G.
Author_Institution :
Microsyst. Lab., LG Corp. Inst. of Technol., Seoul, South Korea
fDate :
9/1/1999 12:00:00 AM
Abstract :
Although integrated microinductors are in high demand for high frequency applications, their usefulness is limited due to their poor performance (e.g., low Q-factor, low inductance, and high parasitics). To expand the range of applicability of integrated microinductors at high frequencies, their electrical characteristics, especially quality factor and inductance, must be improved. In this research, integrated spiral-type microinductors suspended above the silicon substrate using surface micromachining and electroplating techniques are investigated. The silicon substrate used has resistivity ranging from 3~7 ohms-cm and thickness ranging from 330 μm~430 μm. These fabricated inductors have inductance ranging from 10~25 nH and Quality factor ranging from 14~18
Keywords :
Q-factor; electroplating; inductors; micromachining; Si; electroplating; high frequency electrical characteristics; inductance; parasitic capacitance; planar passive element; quality factor; silicon semiconductor substrate; surface micromachining; suspended spiral-type integrated microinductor; Coils; Conductors; Dielectric losses; Dielectric substrates; Frequency; Inductance; Inductors; Q factor; Silicon; Spirals;
Journal_Title :
Magnetics, IEEE Transactions on
