Title :
Integral decoupling capacitance reduces multichip module ground bounce
Author :
Takken, Todd ; Tuckerman, David
Author_Institution :
Dept. of Electr. Eng., Stanford Univ., CA, USA
Abstract :
A multichip module technology in which the module´s power planes cover the entire module surface and are separated by 0.15-μm of anodized aluminum (Al2O3) is discussed. The module provides 50 nF/cm2 decoupling capacitance across the power supply planes with negligible series inductance. The large capacitance eliminates the need for most if not all discrete capacitors, thereby saving space, reducing delays and increasing packing density. The negligible inductance yields modules having less inductive voltage drop between power levels than any equivalent module relying on discrete decoupling capacitors
Keywords :
SPICE; capacitance; integrated circuit technology; multichip modules; Al2O3; CMOS chip; MCM ground bounce; SPICE simulation; discrete decoupling capacitors; integral decoupling capacitance; multichip module technology; nCHIP integral decoupling capacitor; packing density; printed circuit board; series inductance; Aluminum; Capacitors; Dielectric thin films; Inductance; Multichip modules; Parasitic capacitance; Power supplies; Substrates; Switches; Voltage;
Conference_Titel :
Multi-Chip Module Conference, 1993. MCMC-93, Proceedings., 1993 IEEE
Conference_Location :
Santa Cruz, CA
Print_ISBN :
0-8186-3540-1
DOI :
10.1109/MCMC.1993.302147
