Title :
Low-Resistance Integrated Toroidal Inductor for Power Management
Author :
Orlando, B. ; Hida, R. ; Cuchet, R. ; Audoin, M. ; Viala, B. ; Pellissier-Tanon, D. ; Gagnard, X. ; Ancey, P.
Author_Institution :
STMicroelectronics, Limoges
Abstract :
5.6 mm times 5.6 mm integrated toroidal inductors with reduced thickness down to 200 mum have been realized. A high inductance-to-dc resistance ratio have been achieved using a toroidal geometry. The realization features thick Cu winding and a thick laminated Ni80 Fe20 core with crossed anisotropy. Impedance measurements have been performed up to 100 MHz with dc bias current applied. As a typical result, we show an inductor with an inductance of 500 nH up to 10 MHz and a dc resistance of 95 mOmega. To the best of our knowledge, this is the highest inductance-to-dc-resistance ratio demonstrated by a fully integrated inductor. This demonstrates the interest of such integrated inductors to replace discrete components in compact low-power modules
Keywords :
electric impedance measurement; magnetic cores; magnetic thin film devices; nickel compounds; thin film inductors; 200 micron; 5.6 mm; 95 mohm; DC-DC power conversion; NiFe; bias current; crossed anisotropy; impedance measurements; inductance-to-dc-resistance ratio; integrated toroidal inductor; magnetic cores; solenoids; thin-film inductors; toroidal geometry; Electronic packaging thermal management; Energy management; Fabrication; Inductance; Magnetic cores; Solenoids; Technology management; Thermal conductivity; Thin film inductors; Toroidal magnetic fields; DC–DC power conversion; magnetic cores; solenoids; thin-film inductors;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.879571
