MSTEP2$ is a Microstrip iCell and has no parameters. See “Intelligent Cells (iCells)” for more information.
|W1||Width of line @ port 1||Length||W|
|W2||Width of line @ port 2||Length||W|
|Modes||# of higher order modes||4|
|MSUB||Microstrip substrate definition||Text||MSUB#|
The model assumes a Quasi-TEM mode of incident and reflected propagating waves and also calculates the stored energy in higher order evanescent waves. The model is based on the Full Wave Solution of an equivalent parallel plate wave guide impedance step and incorporates the frequency-dependent nature of the parasitic inductance and capacitance and further incorporates the effects of dispersion. The model does not incorporate the resistive effects due to radiation or dielectric and conductive losses. The parameters W1 and W2 (Strip Widths) are lengths entered in the default length units. The parameter MSUB specifies the Microstrip Substrate element, which defines additional cross sectional parameters of the transmission line. The Modes parameter (Number of Higher Order Modes) indicates the number of modes to sum to determine the amount of stored energy in the junction. As the number of modes increase, the accuracy and calculation time increases. Further, as the aspect ratio (W1/W2) deviates away from unity (1) the number of modes required for a given accuracy increases.
This element uses line types to determine its layout. By default, the layout uses the first line type defined in your Layout Process File (LPF). You can change the element to use any of the line types configured in your process:
Select the item in the layout.
Right-click and chooseto display the Cell Options dialog box.
Click the Layout tab and select a Line Type.
Clickto use the new line type in the layout.
See “Cell Options Dialog Box: Layout Tab ” for Cell Options dialog box Layout tab details.
See “The Layout Process File (LPF)” for more information on editing Layout Process Files (LPFs) and to learn about adding or editing line types.
|0.05 ≤ W1 or 2/H ≤ 20 Recommended||εr ≤ 16.0 Recommended|
|T/Wmin ≤ 0.5 Recommended||1 ≤ εr Required|
|T/H ≤ 0.5 Recommended||0.05 ≤ W1/W2 ≤ 20 Recommended|
|1 ≤ Modes ≤ 20 Recommended|
 Menzel, W. and Wolff, I. "A Method of Calculating the Frequency Dependent Properties of Microstrip Discontinuities" IEEE Trans. On MTT Vol.25 pp.,107-112 February 1977
 Chu, T.S., Itoh, T. and Shih, Y.C. "Comparative Study of Mode-Matching Formulations for Microstrip Discontinuity Problems" IEEE Trans. on MTT Vol-33 No.10 Oct. 1985
 Chu, T.S. and Itoh, T. "Analysis of Microstrip Step Discontinuity by the Modified Residue Calculus Technique" IEEE Trans. on MTT Vol-33 No.10 Oct. 1985
 Gupta, K.C. "Microstrip Lines and Slotlines" Artech 1996 pp.190
 Itoh, Tatsuo, "Numerical Techniques for Microwave and Millimeter-Wave Passive Structures" John Wiley & Sons Inc. 1989 p. 466-472