Effects of on-chip and off-chip decoupling capacitors on electromagnetic radiated emission

Recently, electromagnetic interference (EMI) and radiated emission has become a major problem for high-speed circuit and package designers, and it is likely to become even severe in the future. However, until recently, designers of integrated circuit and package did not give much consideration to electromagnetic radiated emission and interference in their designs. Decoupling capacitors have been mostly used to reduce the power/ground bounce of high-speed digital system and boards. However, there has not been a systematic study to understand the effects of on-chip and off-chip decoupling capacitors on the electromagnetic radiated emission. In this paper, we report the simulation and the measurement results regarding the radiated emission due to the power/ground bounce. And we discuss the effects of the on-chip and off-chip decoupling capacitors to the power/ground bounce and the electromagnetic radiated emission. This circuit is simulated using HSPICE. Test ICs and printed circuit boards were designed and fabricated. Using a transverse electromagnetic (TEM) cell, the radiated electric field of the device under test (DUT) is measured. Combined placement of the on-chip and off-chip decoupling capacitor achieves more than 10 dB suppression of the radiated emission on the whole spectrum region. The design rule of the optimum placement of the decoupling capacitor was obtained.