SCURVE$ is an iCell. See “Intelligent Cells (iCells)” for an explanation.
|ANG||Angle of bend||Angle||90 Deg|
|R||Radius of curvature to centerline||Length||Rad|
 User-modifiable default. Modify by editing under $DEFAULT_VALUES in the
 If only one SSUB is present in the schematic, this substrate is automatically used. If multiple SSUB substrate definitions are present, you must specify.
This circuit component models a curved section Stripline Transmission Line including the end effect. The model assumes a TEM (Transverse Electric Magnetic) mode of propagation and incorporates the effects of dielectric and conductive losses. The model determines an effective length and impedance of linear Stripline to incorporate this model. The parameters W (Strip Width) and Rad (Centerline Strip Radius) are lengths entered in the default length units. The parameter ANG (Angle of Curvature) is expressed in the default angular units. The parameter SSUB specifies the Stripline Substrate element, which defines additional cross sectional parameters of the transmission line. This model also warns of the possibility of higher order propagating modes if they exist.
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.
Discontinuity models function most accurately when attached to lines that match their corresponding edges. Directly connecting discontinuity models to one another reduces their accuracy.
 H.A. Wheeler, "Transmission-Line Properties of a Strip Line Between Parallel Planes", IEEE Trans on Microwave Theory and Techniques, Vol. MTT-26, No. 11, November 1978 p.866-876
 S.B. Cohn, "Characteristic Impedance of the Shielded-Strip Transmission Line", IRE Transactions MTT, July 1954 p. 52-55
 H.A. Wheeler, "Formulas for the Skin Effect", Proceedings of the IRE September, 1942 p.412-424
 K.C. Gupta "Computer-Aided Design of Microwave Circuits", Artech House1981 p.60