Title :
Power distribution fidelity of wirebond compared to flip chip devices in grid array packages
Author :
Hashemi, Hassan ; Herrell, Dennis J.
Author_Institution :
Rockwell Semicond. Syst., Newport Beach, CA, USA
fDate :
8/1/1997 12:00:00 AM
Abstract :
We have simulated the power fidelity of wirebond and flip chip grid array packages suitable for next generation microprocessors. The dc power droop across the chip from resistive losses and the ac power noise from switching events were studied as a function of the number of package power planes, dielectric constant, the number of chip connections, decoupling capacitors, and their location. Simulation program with integrated circuit emphasis (SPICE) was used to simulate the effects of the package and printed wiring board (PWB) characteristics on the differential power supply noise. We varied the number of package power planes, their dielectric constant, and the use of discrete decoupling capacitors and capacitor location with a goal of finding the best low cost design for effective power delivery to the chip
Keywords :
CMOS digital integrated circuits; SPICE; flip-chip devices; integrated circuit packaging; lead bonding; microprocessor chips; permittivity; PWB characteristics; SPICE; ac power noise; capacitor location; chip connections; dc power droop; decoupling capacitors; dielectric constant; differential power supply noise; effective power delivery; flip chip devices; grid array packages; next generation microprocessors; package power planes; power distribution fidelity; resistive losses; switching events; wirebond; Capacitors; Circuit simulation; Dielectric constant; Dielectric losses; Flip chip; Integrated circuit noise; Integrated circuit packaging; Microprocessors; Power distribution; SPICE;
Journal_Title :
Components, Packaging, and Manufacturing Technology, Part B: Advanced Packaging, IEEE Transactions on
