Title :
Interconnect characterization using time-domain reflectometry
Author :
Corey, Steven D. ; Yang, Andrew T.
Author_Institution :
Dept. of Electr. Eng., Washington Univ., Seattle, WA, USA
fDate :
9/1/1995 12:00:00 AM
Abstract :
An approach is presented for modeling board-level, package-level, and multichip module substrate-level interconnect circuitry based on measured time-domain reflectrometry data. The scattering poles and residues of a multiport system are extracted and used as a model that can be evaluated in linear time by recursive convolution in a SPICE-based simulator. This allows any linear or nonlinear circuits to be connected to the model ports, and the entire circuit may be simulated in in a SPICE-based simulator. Two-port and four-port example microstrip circuits are characterized, and the simulation results are compared with measured data. Delay, reflection, transmission, and crosstalk are shown to be accurately modeled in each case
Keywords :
SPICE; circuit analysis computing; crosstalk; delays; digital simulation; integrated circuit interconnections; microstrip circuits; multichip modules; multiport networks; packaging; printed circuit layout; time-domain reflectometry; two-port networks; SPICE-based simulator; board-level interconnect; crosstalk; delay; four-port circuits; interconnect characterization; microstrip circuits; multichip module substrate-level interconnect; multiport system; package-level interconnect; recursive convolution; reflection; scattering poles; time-domain reflectometry; transmission; two-port circuits; Circuit simulation; Convolution; Data mining; Integrated circuit interconnections; Multichip modules; Nonlinear circuits; Packaging; Reflectometry; Scattering; Time domain analysis;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
