| -
|}
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{"horn_design_l",emag_horn_l,METH_VARARGS,"horn_design_l(D0_dB,a_lambda,b_lambda) --"},
{"horn_design_a",emag_horn_a,METH_VARARGS,"horn_design_a(D0_dB,a_lambda,b_lambda) --"},
{"horn_design_b",emag_horn_b,METH_VARARGS,"horn_design_b(D0_dB,a_lambda,b_lambda) --"},
{"coaxial_design",emag_coax_dsgn,METH_VARARGS,"coaxial_design(z0,er) --"},
{"waveguide_design",emag_te10_dsgn,METH_VARARGS,"waveguide_design(er,freq_hertz) --"},
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== EM.Cube's Design Python Functions ==
!scope="col"| Notes
|-
| Z0_MSmicrostrip_design(ez0,xer)
| EMAG Python function
| Characteristic impedance Returns the width-to-height ratio of a microstrip transmission line | xz0: width-to-height ratiocharacteristic impedance in Ohms, eer: substrate permittivity
|-
| w_MSmicrostrip_z0(zw,eh,ter)
| EMAG Python function
| Width Returns the characteristic impedance of a microstrip transmission line in Ohms | zw: characteristic impedancemicrostrip width, eh: substrate permittivityheight, ter: substrate thicknesspermittivity
|-
| eeff_MSmicrostrip_eps_eff(ew,xh,er)
| EMAG Python function
| Effective Returns the effective permittivity of a microstrip transmission line | xw: microstrip width-to-, h: substrate height ratio, eer: substrate permittivity
|-
| woh_MSmicrostrip_lambda_g(ew,zh,er,freq_hertz)
| EMAG Python function
| Width-to-height ratio Returns the guide wavelength of a microstrip transmission line in meters| zw: characteristic impedance zmicrostrip width, eh: substrate height, er: substrate permittivity, freq_hertz: frequency in Hz
|-
| style="width:80px;" | Z0_CPWcpw_design_w(ez0,s,xh,yer)| style="EMAG Python function| Returns the slot widthof a coplanar waveguide (CPW) transmission line | z0:80px;" characteristic impedance in Ohms, s: center strip width (or slot spacing), h: substrate height, er: substrate permittivity|-| cpw_design_s(Z0,w,h,er)| EMAG Python function| style="Returns the center strip width:150px;" | Characteristic impedance (or slot spacing) of a coplanar waveguide (CPW) transmission line | style="widthz0:150px;" | xcharacteristic impedance in Ohms, w: slot width-to-, h: substrate height ratio, yer: center strip widthsubstrate permittivity|-to-height | coaxial_design(z0,er)| EMAG Python function| Returns the ratioof radius of the outer conductor to the radius of the inner condutcor of a coaxial transmission line | z0: characteristic impedance in Ohms, eer: substrate core permittivity
|-
| eeff_CPWwaveguide_design(eer,x,yfreq_hertz)
| EMAG Python function
| Effective permittivity Returns the minimum larger dimension in meter of the cross section of a coplanar hollow rectangular waveguide transmission line above cutoff | xer: slot width-to-height ratiofilling permittivity, yfreq_hertz: center strip width-to-height ratio, e: substrate permittivityfrequency in Hz
|-
| horn_ahorn_design_a(dD0_dB,xa_lambda,yb_lambda)
| EMAG Python function
| WavelengthReturns the wavelength-normalized a-larger dimension of the aperture of an optimal pyramidal horn antenna | dD0_dB: directivity d, x and ya_lambda: wavelength-normalized larger dimension of the feed waveguide, b_lambda: wavelength-normalized smaller dimension of the feed waveguide dimensions
|-
| horn_bhorn_design_b(dD0_dB,xa_lambda,yb_lambda)
| EMAG Python function
| WavelengthReturns the wavelength-normalized b-smaller dimension of the aperture of an optimal pyramidal horn antenna | dD0_dB: directivity d, x and ya_lambda: wavelength-normalized larger dimension of the feed waveguide, b_lambda: wavelength-normalized smaller dimension of the feed waveguide dimensions
|-
| horn_lhorn_design_l(dD0_dB,xa_lambda,yb_lambda)
| EMAG Python function
| WavelengthReturns the wavelength-normalized length of an optimal pyramidal horn antenna | dD0_dB: directivity d, x and ya_lambda: wavelength-normalized larger dimension of the feed waveguide, b_lambda: wavelength-normalized smaller dimension of the feed waveguide dimensions
|}