MultiNEC 1.85 ft in SLT30 *** DO NOT MAKE MANUAL EDITS TO THIS FILE *** _ then select Meters / millimeters. _0.604 "_Broadside spacing, wavelengths" "_(wavelengths at design frequency ""T"")" "_For Info Only. Change ""B"" or ""T"" to see new results." _292.5 _Element 1 azimuth position "_=ROUND(2 * Wires!$B$18, 1)" "_=""Circle diameter, "" & LOWER(UnitsXYZLong)" _Use 292.5 (or -67.5) for main lobe on +X axis "_=ROUND(2 * Wires!$B$24 / U, 3)" "_=""Element-to-element spacing, wavelengths (at "" & T & "" MHz)""" _Use 22.5 for main lobe on +Y axis "_=ROUND(Wires!$B$18 / U, 3)" "_=""Circle radius, wavelengths (at "" & T & "" MHz)""" _73.23 "_Series resistance, ohms" "_With a single stand-alone element, the ""Resonate"" button was used" _29.55529 "_Series inductance, uH" "_to set variable ""L"". Then variable ""K"" was set to make the feedpoint" _impedance exactly 75+j0 ohms. _125 "_Phase delay, degrees" "_(degrees at design frequency ""T"")" _1.85 "_Design frequency, MHz" _=299.792458 / UnitsFact / T "_<<< Calculated, do not modify" "_=""(1 wavelength in "" & LOWER(UnitsXYZLong) & "" at design frequency """"T"""")""" _15 _Segments in each wire _To work in Meters rather than Feet: _FALSE "_Single element? (True = 1 element, False = 8 elements)" "_Click ""Change Units"", choose the first option," _W8JI 8 Circle with Top Hat elements "_Basic W8JI top hat element (rxvrhat.ez), centered at 0,0,0" _m _0 _0 _0 _0 _0 _25 _#16 _=X _m _0 _0 _25 _0 _-17.67767 _7.322329 _#16 _=X _m _0 _0 _25 _-17.67767 _0 _7.322329 _#16 _=X _m _0 _0 _25 _0 _17.67767 _7.322329 _#16 _=X _m _0 _0 _25 _17.67767 _0 _7.322329 _#16 _=X "_Basic element moved out along the X axis to give ""B"" broadside spacing in wavelengths at ""T"" MHz" _rz _=$B$12 + B / 2 * U / COS(RADIANS(22.5)) _=$C$12 _=$D$12 _=$E$12 + B / 2 * U / COS(RADIANS(22.5)) _=$F$12 _=$G$12 _#16 _=X _rz _=$B$13 + B / 2 * U / COS(RADIANS(22.5)) _=$C$13 _=$D$13 _=$E$13 + B / 2 * U / COS(RADIANS(22.5)) _=$F$13 _=$G$13 _#16 _=X _rz _=$B$14 + B / 2 * U / COS(RADIANS(22.5)) _=$C$14 _=$D$14 _=$E$14 + B / 2 * U / COS(RADIANS(22.5)) _=$F$14 _=$G$14 _#16 _=X _rz _=$B$15 + B / 2 * U / COS(RADIANS(22.5)) _=$C$15 _=$D$15 _=$E$15 + B / 2 * U / COS(RADIANS(22.5)) _=$F$15 _=$G$15 _#16 _=X _rz _=$B$16 + B / 2 * U / COS(RADIANS(22.5)) _=$C$16 _=$D$16 _=$E$16 + B / 2 * U / COS(RADIANS(22.5)) _=$F$16 _=$G$16 _#16 _=X "_Element 1, basic element rotated by ""G"" degrees about the Z axis to give desired array direction" "_=ROUND($B$18 * COS(RADIANS(G)) - $C$18 * SIN(RADIANS(G)), 9)" "_=ROUND($B$18 * SIN(RADIANS(G)) + $C$18 * COS(RADIANS(G)), 9)" _=$D$18 "_=ROUND($E$18 * COS(RADIANS(G)) - $F$18 * SIN(RADIANS(G)), 9)" "_=ROUND($E$18 * SIN(RADIANS(G)) + $F$18 * COS(RADIANS(G)), 9)" _=$G$18 _#16 _=X "_=ROUND($B$19 * COS(RADIANS(G)) - $C$19 * SIN(RADIANS(G)), 9)" "_=ROUND($B$19 * SIN(RADIANS(G)) + $C$19 * COS(RADIANS(G)), 9)" _=$D$19 "_=ROUND($E$19 * COS(RADIANS(G)) - $F$19 * SIN(RADIANS(G)), 9)" "_=ROUND($E$19 * SIN(RADIANS(G)) + $F$19 * COS(RADIANS(G)), 9)" _=$G$19 _#16 _=X "_=ROUND($B$20 * COS(RADIANS(G)) - $C$20 * SIN(RADIANS(G)), 9)" "_=ROUND($B$20 * SIN(RADIANS(G)) + $C$20 * COS(RADIANS(G)), 9)" _=$D$20 "_=ROUND($E$20 * COS(RADIANS(G)) - $F$20 * SIN(RADIANS(G)), 9)" "_=ROUND($E$20 * SIN(RADIANS(G)) + $F$20 * COS(RADIANS(G)), 9)" _=$G$20 _#16 _=X "_=ROUND($B$21 * COS(RADIANS(G)) - $C$21 * SIN(RADIANS(G)), 9)" "_=ROUND($B$21 * SIN(RADIANS(G)) + $C$21 * COS(RADIANS(G)), 9)" _=$D$21 "_=ROUND($E$21 * COS(RADIANS(G)) - $F$21 * SIN(RADIANS(G)), 9)" "_=ROUND($E$21 * SIN(RADIANS(G)) + $F$21 * COS(RADIANS(G)), 9)" _=$G$21 _#16 _=X "_=ROUND($B$22 * COS(RADIANS(G)) - $C$22 * SIN(RADIANS(G)), 9)" "_=ROUND($B$22 * SIN(RADIANS(G)) + $C$22 * COS(RADIANS(G)), 9)" _=$D$22 "_=ROUND($E$22 * COS(RADIANS(G)) - $F$22 * SIN(RADIANS(G)), 9)" "_=ROUND($E$22 * SIN(RADIANS(G)) + $F$22 * COS(RADIANS(G)), 9)" _=$G$22 _#16 _=X "_=IF(Z, ""X"", """")" "_Element 2, copy of element 1 rotated 45 deg CW" "_=IF(Z, ""X"", """")" "_=ROUND($B$24 * COS(RADIANS(-45)) - $C$24 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$24 * SIN(RADIANS(-45)) + $C$24 * COS(RADIANS(-45)), 9)" _=$D$24 "_=ROUND($E$24 * COS(RADIANS(-45)) - $F$24 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$24 * SIN(RADIANS(-45)) + $F$24 * COS(RADIANS(-45)), 9)" _=$G$24 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$25 * COS(RADIANS(-45)) - $C$25 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$25 * SIN(RADIANS(-45)) + $C$25 * COS(RADIANS(-45)), 9)" _=$D$25 "_=ROUND($E$25 * COS(RADIANS(-45)) - $F$25 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$25 * SIN(RADIANS(-45)) + $F$25 * COS(RADIANS(-45)), 9)" _=$G$25 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$26 * COS(RADIANS(-45)) - $C$26 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$26 * SIN(RADIANS(-45)) + $C$26 * COS(RADIANS(-45)), 9)" _=$D$26 "_=ROUND($E$26 * COS(RADIANS(-45)) - $F$26 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$26 * SIN(RADIANS(-45)) + $F$26 * COS(RADIANS(-45)), 9)" _=$G$26 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$27 * COS(RADIANS(-45)) - $C$27 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$27 * SIN(RADIANS(-45)) + $C$27 * COS(RADIANS(-45)), 9)" _=$D$27 "_=ROUND($E$27 * COS(RADIANS(-45)) - $F$27 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$27 * SIN(RADIANS(-45)) + $F$27 * COS(RADIANS(-45)), 9)" _=$G$27 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$28 * COS(RADIANS(-45)) - $C$28 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$28 * SIN(RADIANS(-45)) + $C$28 * COS(RADIANS(-45)), 9)" _=$D$28 "_=ROUND($E$28 * COS(RADIANS(-45)) - $F$28 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$28 * SIN(RADIANS(-45)) + $F$28 * COS(RADIANS(-45)), 9)" _=$G$28 _#16 _=X "_=IF(Z, ""X"", """")" "_Element 3, copy of element 2 rotated 45 deg CW" "_=IF(Z, ""X"", """")" "_=ROUND($B$30 * COS(RADIANS(-45)) - $C$30 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$30 * SIN(RADIANS(-45)) + $C$30 * COS(RADIANS(-45)), 9)" _=$D$30 "_=ROUND($E$30 * COS(RADIANS(-45)) - $F$30 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$30 * SIN(RADIANS(-45)) + $F$30 * COS(RADIANS(-45)), 9)" _=$G$30 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$31 * COS(RADIANS(-45)) - $C$31 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$31 * SIN(RADIANS(-45)) + $C$31 * COS(RADIANS(-45)), 9)" _=$D$31 "_=ROUND($E$31 * COS(RADIANS(-45)) - $F$31 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$31 * SIN(RADIANS(-45)) + $F$31 * COS(RADIANS(-45)), 9)" _=$G$31 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$32 * COS(RADIANS(-45)) - $C$32 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$32 * SIN(RADIANS(-45)) + $C$32 * COS(RADIANS(-45)), 9)" _=$D$32 "_=ROUND($E$32 * COS(RADIANS(-45)) - $F$32 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$32 * SIN(RADIANS(-45)) + $F$32 * COS(RADIANS(-45)), 9)" _=$G$32 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$33 * COS(RADIANS(-45)) - $C$33 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$33 * SIN(RADIANS(-45)) + $C$33 * COS(RADIANS(-45)), 9)" _=$D$33 "_=ROUND($E$33 * COS(RADIANS(-45)) - $F$33 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$33 * SIN(RADIANS(-45)) + $F$33 * COS(RADIANS(-45)), 9)" _=$G$33 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$34 * COS(RADIANS(-45)) - $C$34 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$34 * SIN(RADIANS(-45)) + $C$34 * COS(RADIANS(-45)), 9)" _=$D$34 "_=ROUND($E$34 * COS(RADIANS(-45)) - $F$34 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$34 * SIN(RADIANS(-45)) + $F$34 * COS(RADIANS(-45)), 9)" _=$G$34 _#16 _=X "_=IF(Z, ""X"", """")" "_Element 4, copy of element 3 rotated 45 deg CW" "_=IF(Z, ""X"", """")" "_=ROUND($B$36 * COS(RADIANS(-45)) - $C$36 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$36 * SIN(RADIANS(-45)) + $C$36 * COS(RADIANS(-45)), 9)" _=$D$36 "_=ROUND($E$36 * COS(RADIANS(-45)) - $F$36 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$36 * SIN(RADIANS(-45)) + $F$36 * COS(RADIANS(-45)), 9)" _=$G$36 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$37 * COS(RADIANS(-45)) - $C$37 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$37 * SIN(RADIANS(-45)) + $C$37 * COS(RADIANS(-45)), 9)" _=$D$37 "_=ROUND($E$37 * COS(RADIANS(-45)) - $F$37 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$37 * SIN(RADIANS(-45)) + $F$37 * COS(RADIANS(-45)), 9)" _=$G$37 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$38 * COS(RADIANS(-45)) - $C$38 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$38 * SIN(RADIANS(-45)) + $C$38 * COS(RADIANS(-45)), 9)" _=$D$38 "_=ROUND($E$38 * COS(RADIANS(-45)) - $F$38 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$38 * SIN(RADIANS(-45)) + $F$38 * COS(RADIANS(-45)), 9)" _=$G$38 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$39 * COS(RADIANS(-45)) - $C$39 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$39 * SIN(RADIANS(-45)) + $C$39 * COS(RADIANS(-45)), 9)" _=$D$39 "_=ROUND($E$39 * COS(RADIANS(-45)) - $F$39 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$39 * SIN(RADIANS(-45)) + $F$39 * COS(RADIANS(-45)), 9)" _=$G$39 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$40 * COS(RADIANS(-45)) - $C$40 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$40 * SIN(RADIANS(-45)) + $C$40 * COS(RADIANS(-45)), 9)" _=$D$40 "_=ROUND($E$40 * COS(RADIANS(-45)) - $F$40 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$40 * SIN(RADIANS(-45)) + $F$40 * COS(RADIANS(-45)), 9)" _=$G$40 _#16 _=X "_=IF(Z, ""X"", """")" "_Element 5, copy of element 4 rotated 45 deg CW" "_=IF(Z, ""X"", """")" "_=ROUND($B$42 * COS(RADIANS(-45)) - $C$42 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$42 * SIN(RADIANS(-45)) + $C$42 * COS(RADIANS(-45)), 9)" _=$D$42 "_=ROUND($E$42 * COS(RADIANS(-45)) - $F$42 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$42 * SIN(RADIANS(-45)) + $F$42 * COS(RADIANS(-45)), 9)" _=$G$42 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$43 * COS(RADIANS(-45)) - $C$43 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$43 * SIN(RADIANS(-45)) + $C$43 * COS(RADIANS(-45)), 9)" _=$D$43 "_=ROUND($E$43 * COS(RADIANS(-45)) - $F$43 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$43 * SIN(RADIANS(-45)) + $F$43 * COS(RADIANS(-45)), 9)" _=$G$43 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$44 * COS(RADIANS(-45)) - $C$44 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$44 * SIN(RADIANS(-45)) + $C$44 * COS(RADIANS(-45)), 9)" _=$D$44 "_=ROUND($E$44 * COS(RADIANS(-45)) - $F$44 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$44 * SIN(RADIANS(-45)) + $F$44 * COS(RADIANS(-45)), 9)" _=$G$44 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$45 * COS(RADIANS(-45)) - $C$45 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$45 * SIN(RADIANS(-45)) + $C$45 * COS(RADIANS(-45)), 9)" _=$D$45 "_=ROUND($E$45 * COS(RADIANS(-45)) - $F$45 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$45 * SIN(RADIANS(-45)) + $F$45 * COS(RADIANS(-45)), 9)" _=$G$45 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$46 * COS(RADIANS(-45)) - $C$46 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$46 * SIN(RADIANS(-45)) + $C$46 * COS(RADIANS(-45)), 9)" _=$D$46 "_=ROUND($E$46 * COS(RADIANS(-45)) - $F$46 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$46 * SIN(RADIANS(-45)) + $F$46 * COS(RADIANS(-45)), 9)" _=$G$46 _#16 _=X "_=IF(Z, ""X"", """")" "_Element 6, copy of element 5 rotated 45 deg CW" "_=IF(Z, ""X"", """")" "_=ROUND($B$48 * COS(RADIANS(-45)) - $C$48 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$48 * SIN(RADIANS(-45)) + $C$48 * COS(RADIANS(-45)), 9)" _=$D$48 "_=ROUND($E$48 * COS(RADIANS(-45)) - $F$48 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$48 * SIN(RADIANS(-45)) + $F$48 * COS(RADIANS(-45)), 9)" _=$G$48 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$49 * COS(RADIANS(-45)) - $C$49 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$49 * SIN(RADIANS(-45)) + $C$49 * COS(RADIANS(-45)), 9)" _=$D$49 "_=ROUND($E$49 * COS(RADIANS(-45)) - $F$49 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$49 * SIN(RADIANS(-45)) + $F$49 * COS(RADIANS(-45)), 9)" _=$G$49 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$50 * COS(RADIANS(-45)) - $C$50 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$50 * SIN(RADIANS(-45)) + $C$50 * COS(RADIANS(-45)), 9)" _=$D$50 "_=ROUND($E$50 * COS(RADIANS(-45)) - $F$50 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$50 * SIN(RADIANS(-45)) + $F$50 * COS(RADIANS(-45)), 9)" _=$G$50 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$51 * COS(RADIANS(-45)) - $C$51 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$51 * SIN(RADIANS(-45)) + $C$51 * COS(RADIANS(-45)), 9)" _=$D$51 "_=ROUND($E$51 * COS(RADIANS(-45)) - $F$51 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$51 * SIN(RADIANS(-45)) + $F$51 * COS(RADIANS(-45)), 9)" _=$G$51 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$52 * COS(RADIANS(-45)) - $C$52 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$52 * SIN(RADIANS(-45)) + $C$52 * COS(RADIANS(-45)), 9)" _=$D$52 "_=ROUND($E$52 * COS(RADIANS(-45)) - $F$52 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$52 * SIN(RADIANS(-45)) + $F$52 * COS(RADIANS(-45)), 9)" _=$G$52 _#16 _=X "_=IF(Z, ""X"", """")" "_Element 7, copy of element 6 rotated 45 deg CW" "_=IF(Z, ""X"", """")" "_=ROUND($B$54 * COS(RADIANS(-45)) - $C$54 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$54 * SIN(RADIANS(-45)) + $C$54 * COS(RADIANS(-45)), 9)" _=$D$54 "_=ROUND($E$54 * COS(RADIANS(-45)) - $F$54 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$54 * SIN(RADIANS(-45)) + $F$54 * COS(RADIANS(-45)), 9)" _=$G$54 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$55 * COS(RADIANS(-45)) - $C$55 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$55 * SIN(RADIANS(-45)) + $C$55 * COS(RADIANS(-45)), 9)" _=$D$55 "_=ROUND($E$55 * COS(RADIANS(-45)) - $F$55 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$55 * SIN(RADIANS(-45)) + $F$55 * COS(RADIANS(-45)), 9)" _=$G$55 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$56 * COS(RADIANS(-45)) - $C$56 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$56 * SIN(RADIANS(-45)) + $C$56 * COS(RADIANS(-45)), 9)" _=$D$56 "_=ROUND($E$56 * COS(RADIANS(-45)) - $F$56 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$56 * SIN(RADIANS(-45)) + $F$56 * COS(RADIANS(-45)), 9)" _=$G$56 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$57 * COS(RADIANS(-45)) - $C$57 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$57 * SIN(RADIANS(-45)) + $C$57 * COS(RADIANS(-45)), 9)" _=$D$57 "_=ROUND($E$57 * COS(RADIANS(-45)) - $F$57 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$57 * SIN(RADIANS(-45)) + $F$57 * COS(RADIANS(-45)), 9)" _=$G$57 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$58 * COS(RADIANS(-45)) - $C$58 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$58 * SIN(RADIANS(-45)) + $C$58 * COS(RADIANS(-45)), 9)" _=$D$58 "_=ROUND($E$58 * COS(RADIANS(-45)) - $F$58 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$58 * SIN(RADIANS(-45)) + $F$58 * COS(RADIANS(-45)), 9)" _=$G$58 _#16 _=X "_=IF(Z, ""X"", """")" "_Element 8, copy of element 7 rotated 45 deg CW" "_=IF(Z, ""X"", """")" "_=ROUND($B$60 * COS(RADIANS(-45)) - $C$60 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$60 * SIN(RADIANS(-45)) + $C$60 * COS(RADIANS(-45)), 9)" _=$D$60 "_=ROUND($E$60 * COS(RADIANS(-45)) - $F$60 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$60 * SIN(RADIANS(-45)) + $F$60 * COS(RADIANS(-45)), 9)" _=$G$60 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$61 * COS(RADIANS(-45)) - $C$61 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$61 * SIN(RADIANS(-45)) + $C$61 * COS(RADIANS(-45)), 9)" _=$D$61 "_=ROUND($E$61 * COS(RADIANS(-45)) - $F$61 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$61 * SIN(RADIANS(-45)) + $F$61 * COS(RADIANS(-45)), 9)" _=$G$61 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$62 * COS(RADIANS(-45)) - $C$62 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$62 * SIN(RADIANS(-45)) + $C$62 * COS(RADIANS(-45)), 9)" _=$D$62 "_=ROUND($E$62 * COS(RADIANS(-45)) - $F$62 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$62 * SIN(RADIANS(-45)) + $F$62 * COS(RADIANS(-45)), 9)" _=$G$62 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$63 * COS(RADIANS(-45)) - $C$63 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$63 * SIN(RADIANS(-45)) + $C$63 * COS(RADIANS(-45)), 9)" _=$D$63 "_=ROUND($E$63 * COS(RADIANS(-45)) - $F$63 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$63 * SIN(RADIANS(-45)) + $F$63 * COS(RADIANS(-45)), 9)" _=$G$63 _#16 _=X "_=IF(Z, ""X"", """")" "_=ROUND($B$64 * COS(RADIANS(-45)) - $C$64 * SIN(RADIANS(-45)), 9)" "_=ROUND($B$64 * SIN(RADIANS(-45)) + $C$64 * COS(RADIANS(-45)), 9)" _=$D$64 "_=ROUND($E$64 * COS(RADIANS(-45)) - $F$64 * SIN(RADIANS(-45)), 9)" "_=ROUND($E$64 * SIN(RADIANS(-45)) + $F$64 * COS(RADIANS(-45)), 9)" _=$G$64 _#16 _=X _1 _0 _1 _=-P * Freq / T _I _6 _0 _1 _0 _I "_=IF(Z, ""X"", """")" _11 _0 _0 _0 _I "_=IF(Z, ""X"", """")" _16 _0 _0 _0 _I "_=IF(Z, ""X"", """")" _21 _0 _1 _0 _I "_=IF(Z, ""X"", """")" _26 _0 _1 _=-P * Freq / T _I "_=IF(Z, ""X"", """")" _31 _0 _0 _0 _I "_=IF(Z, ""X"", """")" _36 _0 _0 _0 _I "_=IF(Z, ""X"", """")" "_Phase is set via variable ""P"". Changes with test case frequency." _Note that a 0 amplitude current source is equivalent to putting "_a small gap at the feedpoint. See ""Using The Sources Window""" _in the EZNEC Help. _1 _0 _=K _=L _Ser _Ser _6 _0 _=K _=L _Ser _Ser "_=IF(Z, ""X"", """")" _11 _0 _=K _=L _Ser _Ser "_=IF(Z, ""X"", """")" _16 _0 _=K _=L _Ser _Ser "_=IF(Z, ""X"", """")" _21 _0 _=K _=L _Ser _Ser "_=IF(Z, ""X"", """")" _26 _0 _=K _=L _Ser _Ser "_=IF(Z, ""X"", """")" _31 _0 _=K _=L _Ser _Ser "_=IF(Z, ""X"", """")" _36 _0 _=K _=L _Ser _Ser "_=IF(Z, ""X"", """")" "_Resistance and inductance values are set via variables ""K"" and ""L""." Controls FALSE TRUE 4 4 1 1 0 1 75 0 20 FALSE TRUE _1 _0 _Freq (MHz) _B _P _1.85 _0.604 _80 _1.85 _0.604 _85 _1.85 _0.604 _90 _1.85 _0.604 _95 _1.85 _0.604 _100 _1.85 _0.604 _105 _1.85 _0.604 _110 _1.85 _0.604 _115 _1.85 _0.604 _120 _1.85 _0.604 _125 _1.85 _0.604 _130 _1.85 _0.604 _135 _1.85 _0.604 _140 14