updated Z0 to accepted value, update ZTEM10 <-> a calc/synth as per #9146
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@ -238,6 +238,7 @@ void RECTWAVEGUIDE::get_rectwaveguide_phys()
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/*
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* analyze - analysis function
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* source: https://empossible.net/wp-content/uploads/2018/03/Lecture-5c-Rectangular-waveguide.pdf
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*/
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void RECTWAVEGUIDE::calcAnalyze()
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{
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@ -252,8 +253,7 @@ void RECTWAVEGUIDE::calcAnalyze()
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// Z0 definition using fictive voltages and currents
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m_parameters[Z0_PRM] =
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2.0 * ZF0 * sqrt( m_parameters[MUR_PRM] / m_parameters[EPSILONR_PRM] )
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* ( m_parameters[PHYS_B_PRM] / m_parameters[PHYS_A_PRM] )
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ZF0 * sqrt( m_parameters[MUR_PRM] / m_parameters[EPSILONR_PRM] )
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/ sqrt( 1.0 - pow( ( fc( 1, 0 ) / m_parameters[FREQUENCY_PRM] ), 2.0 ) );
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/* calculate electrical angle */
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@ -278,26 +278,23 @@ void RECTWAVEGUIDE::calcAnalyze()
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/*
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* synthesize - synthesis function
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* source: re-arrangment of calcAnalyze equation
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* TE10 (via fc(1,0) ) results in the b term not influencing the result, as long as
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* 1) fc > f
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* 2) a > b
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*/
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void RECTWAVEGUIDE::calcSynthesize()
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{
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double lambda_g, k_square, beta;
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if( isSelected( PHYS_B_PRM ) )
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{
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/* solve for b */
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m_parameters[PHYS_B_PRM] =
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m_parameters[Z0_PRM] * m_parameters[PHYS_A_PRM]
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* sqrt( 1.0 - pow( fc( 1, 0 ) / m_parameters[FREQUENCY_PRM], 2.0 ) )
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/ ( 2.0 * ZF0 * sqrt( m_parameters[MUR_PRM] / m_parameters[EPSILONR_PRM] ) );
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}
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else if( isSelected( PHYS_A_PRM ) )
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{
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/* solve for a */
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m_parameters[PHYS_A_PRM] =
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sqrt( pow( 2.0 * ZF0 * m_parameters[PHYS_B_PRM] / m_parameters[Z0_PRM], 2.0 )
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+ pow( C0 / ( 2.0 * m_parameters[FREQUENCY_PRM] ), 2.0 ) );
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}
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C0
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/ ( sqrt( ( m_parameters[MUR_PRM] * m_parameters[EPSILONR_PRM] ) ) * 2
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* m_parameters[FREQUENCY_PRM] * sqrt( 1
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- pow( ( ZF0 * sqrt( m_parameters[MUR_PRM]
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/ m_parameters[EPSILONR_PRM] ) )
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/ m_parameters[Z0_PRM]
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,2.0 ) ) );
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k_square = kval_square();
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beta = sqrt( k_square - kc_square( 1, 0 ) );
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@ -59,6 +59,9 @@ inline double atanh( double x )
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#define MU0 12.566370614e-7 // magnetic constant
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#define C0 299792458.0 // speed of light in vacuum
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#define ZF0 376.73031346958504364963 // wave resistance in vacuum
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#define ZF0 376.730313668 // wave resistance in vacuum
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// ZF0 value update:
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// https://physics.nist.gov/cgi-bin/cuu/Value?z0
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#endif /* __UNITS_H */
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