
Current local date and time: Tue Feb 17 2009 04:12:48

C++ version of Program B6-3
Newton - Raphson Solution then Levy Matching found in text:
Circuit Design Using Personal Computers
Thomas R. Cuthbert, Jr.
1983 John Wiley and Sons

Cuthbert_B6_3n .cpp .exe
Rev: n January 30, 2009
Steven Schultz, WB8WGY

Inputs:
   Text Result File Name:                Hubler_T1_N1_Parallel_Load.txt
   CSV Result File Name:                 Hubler_T1_N1_Parallel_Load.csv
   N =                                   1
   Low Frequency (f1) (MHz) =            25.000000
   High Frequency (f2) (MHz) =           30.000000
   Load Decrement obtained from Load Parameters
      Parallel Load Parameters entered
         average conductance (Siemens) = 8.263954e-004
         delta bandwidth (MHz) =         1.720000e-001
         delta susceptance (Siemens) =   1.137166e-004

Output Part 1: Preliminary
   Center Frequency     (f0)    (MHz) =      27.386128
   Match Bandwidth      (f2-f1) (MHz) =      5.000000
   Fractional Match Bandwidth ((f2-f1)/f0) (wm) =  0.182574186
   Susceptance Slope Parameter =             9.053073689e-003
   Load Decrement =                          4.999798052e-001
   Load Q =                                  1.095489361e+001

Output Part 2: Fano; Levy; Newton - Raphson Solution
   FV =                   5.194e-010
   IT (iterations in Newton - Raphson Solution) = 12
   A  =                   1.258514062
   B  =                   0.584280199
   Magnitude of Reflection Coefficient Min = 0.381999384
   Magnitude of Reflection Coefficient Max = 0.618045241
   Mismatch Loss Min (dB) = -0.685032426
   Mismatch Loss Max (dB) = -2.089974139
   Return Loss Min (dB) = -8.358746745
   Return Loss Max (dB) = -4.179594668
   SWR Min =              2.236242730
   SWR Max =              4.236222228

Output Part 3: Resistive Source with g(i) Prototype Values
   G(0) (load)   =     1.000000000
   G(1)          =     2.000080782
   G(2) (source) =     0.447178791

Output Part 4: Network Element Values Calculated
   Load Resistance (ohms) =   1.210074499e+003
   L(1) (H) =                 6.419385317e-007
   C(1) (F) =                 5.261209012e-011
   Source Resistance (ohms) = 5.411196511e+002
