PUBLICATIONS BY THE AUTHOR CONCERNING TRANSMISSION LINES

A. BOOKS

[A.1] Introduction to Electromagnetic Fields, 2nd edition, McGraw-Hill, New York, 1987 (with S.A. Nasar).

[A.2] Analysis of Linear Circuits, McGraw-Hill, New York, 1989.

[A.3] Introduction to Electromagnetic Compatibility, 2nd edition, John Wiley Interscience, New York, 2006.

[A.4] Essential Engineering Equations, CRC Press, Boston, MA, 1991 (with S.A. Nasar).

[A.5] Fundamentals of Electric Circuit Analysis, John Wiley & Sons, Inc., New York, 2001.

[A.6] Electromagnetics for Engineers: with Applications to Digital Systems and Electromagnetic Interference, John Wiley & Sons, Inc., New York, 2004.

[A.7] Handbook of Electromagnetic Compatibility, Chapter 2, Part II, “Crosstalk”, Chapter 3, Part II, “Radiated and conducted emissions”, Appendix, “Effect of interspersed grounds”, Academic Press, 1995.

[A.8] Encyclopedia of RF and Microwave Engineering, John Wiley Interscience, Hoboken, NY, 2005, “Electromagnetic compatibility”, pp.1137–1151, “Coupled transmission lines”, pp. 863–882.

[A.9] Analysis of Multiconductor Transmission Lines, 1st edition, John Wiley Interscience, Hoboken, NY, 1994.

B. GENERAL

[B.1] On uniform multimode transmission lines, IEEE Transactions on Microwave Theory and Techniques, 21(8), 556–558, 1973.

[B.2] Useful matrix chain parameter identities for the analysis of multiconductor transmission lines, IEEE Transactions on Microwave Theory and Techniques, 23(9), 756–760, 1975.

[B.3] Comments on ‘On the properties of the product of the impedance and admittance matrices of three-conductor transmission lines’, Proceedings of IEEE, 63(12), 1720, 1975.

[B.4] Application of multiconductor transmission line theory to the prediction of cable coupling — vol. I — multiconductor transmission line theory, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-76–101, April 1976 (A025028).

[B.5] Applications of multiconductor transmission line theory to the prediction of cable coupling — Vol. VII — Digital computer programs for the analysis of multiconductor transmission lines, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-76–101, July 1977 (A046662).

[B.6] Solution of the transmission line equations for three-conductor lines in homogeneous media, IEEE Transactions on Electromagnetic Compatibility, 20(1), 216–222, 1978.

[B.7] Analysis of electromagnetic coupling in branched cables, IEEE International Symposium on Electromagnetic Compatibility, San Diego, CA, October 1979.

[B.8] Design of wire routing for EMC, 1979 IEEE International Symposium on Electromagnetic Compatibility, San Diego, CA, October 1979.

[B.9] A probabilistic approach to wire coupling interference prediction, 4th Symposium and Technical Exhibition on Electromagnetic Compatibility, Zurich, Switzerland, March 1981.

[B.10] Adequacy of low-frequency, crosstalk prediction models, 4th Symposium and Technical Exhibition on Electromagnetic Compatibility, Zurich, Switzerland, March 1981.

[B.11] Computation of crosstalk in a multiconductor transmission line, IEEE Transactions on Electromagnetic Compatibility, 23(4), 352–358, 1981.

[B.12] On the superposition of inductive and capacitive coupling in crosstalk prediction models, IEEE Transactions on Electromagnetic Compatibility, 24(3), 335–343, 1982.

[B.13] Coupling to transmission lines: an overview, 1983 International Symposium and Technical Exhibition on Electromagnetic Compatibility, Zurich, Switzerland, March 1983.

[B.14] A simple technique for estimating crosstalk, 1983 IEEE International Symposium on Electromagnetic Compatibility, Washington, DC, August 1983.

[B.15] Lumped model approximations of transmission lines: effect of load impedances on accuracy, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-82-286, vol. IV E, August 1984 (with W.W. Everett III).

[B.16] Estimation of crosstalk in three-conductor transmission lines, IEEE Transactions on Electromagnetic Compatibility, 26(4), 182–192, 1984.

[B.17] Lumped circuit modeling of transmission lines, 1985 IEEE International Symposium on Electromagnetic Compatibility, Wakefield, MA, August, 1985 (with L. Monroe).

[B.18] Sensitivity of crosstalk to variations in wire position in cable bundles, 1987 International Symposium and Technical Exhibition on Electromagnetic Compatibility, Zurich, Switzerland, 1987.

[B.19] A Simple SPICE model for coupled transmission lines, 1988 IEEE International Symposium on Electromagnetic Compatibility, Seattle, WA, September 1988.

[B.20] Derivation of common impedance coupling from the transmission-line equations, IEEE Transactions on Electromagnetic Compatibility, 34(3), 315–319, 1992.

[B.21] Literal solutions for time-domain crosstalk on lossless transmission lines, IEEE Transactions on Electromagnetic Compatibility, 34(4), 433–444, 1992.

[B.22] Incorporation of terminal constraints in the FDTD analysis of transmission lines, IEEE Transactions on Electromagnetic Compatibility, 36(2), 85–91, 1994.

[B.23] Finite-difference, time-domain analysis of lossy transmission lines, IEEE Transactions on Electromagnetic Compatibility, 38(1), 15–24, 1996 (with J.A. Roden, W.T. Smith and S.D. Gedney).

[B.24] FDTD analysis of lossy, multiconductor transmission lines terminated in arbitrary loads, IEEE Transactions on Electromagnetic Compatibility, 38(3), 1–12, 1996 (with A. Orlandi).

[B.25] Decoupling the multiconductor transmission line equations, IEEE Transactions on Microwave Theory and Techniques, 44(8), 1429–1440, 1996.

[B.26] State-variable characterization of transmission Line terminations for FDTD analysis, 1996 International Symposium on Electromagnetic Compatibility, Santa Clara, CA, August 1996 (with A. Orlandi).

[B.27] Analysis of multiconductor transmission lines networks: state-variable characterization of junctions and terminations, 1998 International Symposium on Electromagnetic Compatibility, Rome, Italy, September 1998 (with M. Baccala and A. Orlandi).

[B.28] An improved method of modeling lossy transmission lines in finite-difference, time-domain analysis, 1999 IEEE International Symposium on Electromagnetic Compatibility, Seattle, WA, August 1999, (with G. Antonini and A. Orlandi).

[B.29] An efficient characterization of interconnected multiconductor transmission line net-works, IEEE Transactions on Microwave Theory and Techniques, 48(3), 466–470, 2000 (with A. Orlandi).

[B.30] Solution of the transmission-line equations under the weak-coupling assumption, IEEE Transactions on Electromagnetic Compatibility, 44(3), 413–423, 2002.

C. PER-UNIT-LENGTH PARAMETERS

[C.1] Computation of the capacitance matrix for dielectric-coated wires, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-74-59, March 1974 (with J.C. Clements).

[C.2] Two-dimensional systems of dielectric-coated, cylindrical conductors, IEEE Transactions on Electromagnetic Compatibility, 17(4), 238–248, 1975 (with J.C. Clements and A.T. Adams).

[C.3] Applications of multiconductor transmission line theory to the prediction of cable coupling — Vol. II — Computation of the capacitance matrices for ribbon cables, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-76-101, April 1976 (with A.E. Feather) (A025029).

[C.4] Computation of the transmission line inductance and capacitance matrices from the generalized capacitance matrix, IEEE Transactions on Electromagnetic Compatibility, 18(4), 175–183, 1976 (with A.E. Feather).

[C.5] Application of moment methods to the characterization of ribbon cables, Computers and Electrical Engineering, 4, 173–184, 1977 (with A.E. Feather).

[C.6] Application of moment methods to the characterization of ribbon cables, International Symposium on Innovative Numerical Analysis in Applied Engineering Science, Paris, France, May 1977 (with A.E. Feather).

[C.7] Reference potential terms in static capacitance calculations via the method of moments, IEEE Transactions on Electromagnetic Compatibility, 20(1), 267–269, 1978.

[C.8] Moment method calculation of the per-unit-length parameters of cable bundles, 1994 IEEE International Symposium on Electromagnetic Compatibility, Chicago, IL, August 1994 (with J.S. Savage and W.T. Smith).

[C.9] Internal impedance of conductors of rectangular cross section, 1998 International Symposium on Electromagnetic Compatibility, Denver, CO, August 1998 (with A. Orlandi and G. Antonini).

[C.10] Internal impedance of conductors of rectangular cross section, IEEE Transactions on Microwave Theory and Techniques, 47(7), 979–985, 1999 (with G. Antonini and A. Orlandi).

[C.11] Comments on ‘Internal Impedance of Conductors of Rectangular Cross Section’, Reply, IEEE Transactions on Microwave Theory and Techniques, 49(8), 1512–1513, 2001 (with G. Antonini and A. Orlandi).

D. CABLE HARNESSES

[D.1] Sensitivity of multiconductor cable coupling to parameter variations, 1974 IEEE International Symposium on Electromagnetic Compatibility, San Francisco, California, July 16–18, 1974.

[D.2] Applications of multiconductor transmission line theory to the prediction of cable coupling — Vol. III — Prediction of crosstalk in random cable bundles, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-76-101, February 1977 (A038316).

[D.3] Sensitivity of crosstalk to variations in wire position in cable bundles, 1987 International Symposium and Technical Exhibition on Electromagnetic Compatibility, Zurich, Switzerland, 1987.

[D.4] Sensitivity of crosstalk to variations in wire position in cable bundles, 1987 IEEE Inter-national Symposium on Electromagnetic Compatibility, Atlanta, GA, September 1987.

E. RIBBON CABLES

[E.1] Applications of multiconductor transmission line theory to the prediction of cable coupling — Vol. IV — Prediction of crosstalk in ribbon cables, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-76-101, February 1978 (A053548).

[E.2] Prediction of crosstalk in ribbon cables: comparison of model predictions and experiment results, IEEE Transactions on Electromagnetic Compatibility, 20(3), 394–406, 1978.

[E.3] Prediction of crosstalk in ribbon cables, IEEE International Symposium on Electromagnetic Compatibility, Atlanta, GA, June 1978.

F. SHIELDED WIRES

[F.1] Effect of pigtails on coupling to shielded wires, IEEE International Symposium on Electromagnetic Compatibility, San Diego, CA, October 1979.

[F.2] Applications of multiconductor transmission line theory to the prediction of cable coupling — Vol. VIII — Prediction of crosstalk involving braided-shield cables, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-76-101, August 1980.

[F.3] Effect of pigtails on crosstalk to braided-shield cables, IEEE Transactions on Electromagnetic Compatibility, 22(3), 161–172, 1980.

[F.4] Transmission-line modeling of shielded wires for crosstalk prediction, IEEE Transactions on Electromagnetic Compatibility, 23(4) 345–351, 1981.

[F.5] SHIELD — A digital computer program for computing crosstalk between shielded cables, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-82–286, vol. IV B, November 1982.

[F.6] SHIELD — A digital computer program for the prediction of crosstalk to shielded cables, 1983 International Symposium and Technical Exhibition on Electromagnetic Compatibility, Zurich, Switzerland, March 1983.

[F.7] Prediction of crosstalk in flatpack, coaxial cables, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-82–286, vol. IV F, December, 1984 (with W.E. Beech).

[F.8] Prediction of crosstalk in flatpack, coaxial cables, (with W.E. Beech), 1984 IEEE International Symposium on Electromagnetic Compatibility, San Antonio, Texas, April 1984.

[F.9] Literal solution of the transmission-line equations for shielded wires, 1990 IEEE Inter-national Symposium on Electromagnetic Compatibility, Washington, DC, August 1990 (with B.A. Bowles).

[F.10] Symbolic solution of the multiconductor transmission-line equations for lines containing shielded wires, IEEE Transactions on Electromagnetic Compatibility, 33(3), 149–162, 1991 (with B.A. Bowles).

G. TWISTED PAIRS OF WIRES

[G.1] Applications of multiconductor transmission line theory to the prediction of cable coupling — Vol. V — Prediction of crosstalk involving twisted wire pairs, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-76-101, February 1978 (A053559).

[G.2] Prediction of crosstalk in twisted pairs of wires: A simplified, low-frequency model, IEEE International Symposium on Electromagnetic Compatibility, Atlanta, GA, June 1978.

[G.3] Prediction of crosstalk involving twisted pairs of wires, Part I, A transmission line model for twisted wire pairs, IEEE Transactions on Electromagnetic Compatibility, 21(2), 92–105, 1979 (with J.A. McKnight).

[G.4] Prediction of crosstalk involving twisted pairs of wires, Part II, A simplified, low-frequency prediction model, IEEE Transactions on Electromagnetic Compatibility, 21(2), 105–114, 1979 (with J.A. McKnight).

[G.5] Coupling to twisted-pair transmission lines, 4th Symposium and Technical Exhibition on Electromagnetic Compatibility, Zurich, Switzerland, March 1981.

[G.6] Crosstalk in balanced, twisted-pair circuits, 1981 IEEE International Symposium on Electromagnetic Compatibility, Boulder, CO, August 1981 (with M.B. Jolly).

[G.7] Crosstalk in twisted-wire circuits, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-82–286, vol. IV C, November 1982 (with M.B. Jolly).

[G.8] Sensitivity of crosstalk in twisted-pair circuits to line twist, IEEE Transactions on Electromagnetic Compatibility, 24(3), 359–364, 1982 (with M. Jolly).

[G.9] Sensitivity of coupling to balanced, twisted pair lines to line twist, 1983 International Symposium and Technical Exhibition on Electromagnetic Compatibility, Zurich, Switzerland, March 1983 (with D. Koopman).

[G.10] Prediction of crosstalk in balanced, twisted pair circuits, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-82–286, vol. IV D, August 1984 (with D. Koopman).

H. EFFECTS OF INCIDENT FIELDS

[H.1] Efficient numerical computation of the frequency response of cables illuminated by an electromagnetic field, IEEE Transactions on Microwave Theory and Techniques, 22(4), 454–457, 1974.

[H.2] Frequency response of multiconductor transmission lines illuminated by an incident electromagnetic field, 1975 IEEE International Symposium on Electromagnetic Compatibility, San Antonio, TX, October 1975.

[H.3] Frequency response of multiconductor transmission lines illuminated by an incident electromagnetic field, IEEE Transactions on Electromagnetic Compatibility, 18(4), 183–190, 1976.

[H.4] Applications of multiconductor transmission line theory to the prediction of cable coupling — vol. VI — A digital computer program for determining terminal currents induced in a multiconductor transmission line by an incident electromagnetic field, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-76-101, February 1978 (A053560).

[H.5] WIRE: a digital computer program for determining terminal currents induced on a multiconductor transmission line by an incident electromagnetic field, 1978 National Aerospace and Electronics Convention, Dayton, OH, May 1978.

[H.6] Coupling of electromagnetic fields to transmission lines, 1981 IEEE International Symposium on Electromagnetic Compatibility, Boulder, CO, August 1981 (with R.T. Abraham).

[H.7] Coupling of electromagnetic fields onto transmission lines: a comparison of the transmission line model and the method of moments, Technical Report, Rome Air Development, Griffiss AFB, New York, RADC-TR-82–286, vol. IV A, November 1982 (with R.T. Abraham).

[H.8] Coupling of electromagnetic fields to transmission lines, 1982 IEEE International Symposium on Electromagnetic Compatibility, Santa Clara, CA, September 1982 (with D.F. Herrick).

[H.9] Bounds on currents induced in transmission lines by incident fields, 1984 IEEE SOUTH-EASCON, Louisville, KY, April 1984 (with D.R. Bush).

[H.10] A SPICE model for multiconductor transmission lines excited by an incident electromagnetic field, IEEE Transactions on Electromagnetic Compatibility, 36(4), 342–354, 1994.

[H.11] Literal solutions for the time-domain response of a two-conductor transmission line excited by an incident electromagnetic field, IEEE Transactions on Electromagnetic Compatibility, 37(2), 241–251, 1995.

I. PRINTED CIRCUIT BOARDS

[I.1] Modeling crosstalk on printed circuit boards, Technical Report, Rome Air Development Center, Griffiss AFB, New York, RADC-TR-85–107, July 1985 (with W.W. Everett, III).

[I.2] Printed circuit board EMC, 1985 International Symposium and Technical Exhibition on Electromagnetic Compatibility, Zurich, Switzerland, March 1985.

[I.3] Printed circuit board crosstalk, 1985 IEEE International Symposium on Electromagnetic Compatibility, Wakefield, MA, August 1985 (with W.W. Everett, III).

[I.4] Modeling and prediction of ground shift on printed circuit boards, 1986 IERE Symposium on Electromagnetic Compatibility, University of York, England, September 1986.

[I.5] Modeling of printed circuit boards for the prediction of crosstalk and ground drop, IBM Journal of Research and Development, 33(1), 1989.

J. POWER TRANSMISSION LINES

[J.1] Solutions of the transmission line equations for lossy conductors and imperfect earth, Proceedings of IEE (London), 122(2), 177–182, 1975.

[J.2] A modal decomposition for power transmission lines with imperfect earth return, Proceedings of IEE (London), 124(7), 647–648, 1977.