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w20t5.result

w20t5.result 6.6 KB
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  1. 

  2. 2002 09 17 11:21:45 zahn NMMTL_2DLF
    3. 

  3. 

  4. Node = /users/zahn/em/tests/w20t5:/users/zahn/em/tests/w20t5
    5. 

  5. Number of Signal Lines  =   5
    6. 

  6. Number of Ground Planes =   1
    7. 

  7. Number of Ground Wires  =   0
    8. 

  8. Coupling Length =   0.02540 meters
    9. 

  9. Rise Time = 3000000026.0770 picoseconds
    10. 

  10. Contour (conductor) segments [cseg] = 10
    11. 

  11. Ground Plane/Dielectric segments [dseg] = 10
    12. 

  12. Conductivity ::Trap1T4 = 5.8e+07 siemens/meter
    13. 

  13. Conductivity ::Trap1T3 = 5.8e+07 siemens/meter
    14. 

  14. Conductivity ::Trap1T2 = 5.8e+07 siemens/meter
    15. 

  15. Conductivity ::Trap1T1 = 5.8e+07 siemens/meter
    16. 

  16. Conductivity ::Trap1T0 = 5.8e+07 siemens/meter
    17. 

  17. Note: minimum frequency for surface current assumptions is 17470 MHz.
    18. 

  18. Mutual and Self Electrostatic Induction:
    19. 

  19. B(Active Signal , Passive Signal) Farads/Meter
    20. 

  20. B( ::Trap1T4 , ::Trap1T4 )=   7.0444942e-11
    21. 

  21. B( ::Trap1T4 , ::Trap1T3 )=  -4.9855870e-12
    22. 

  22. B( ::Trap1T4 , ::Trap1T2 )=  -4.6954297e-13
    23. 

  23. B( ::Trap1T4 , ::Trap1T1 )=  -1.8034745e-13
    24. 

  24. B( ::Trap1T4 , ::Trap1T0 )=  -1.0416390e-13
    25. 

  25. B( ::Trap1T3 , ::Trap1T4 )=  -4.9724738e-12
    26. 

  26. B( ::Trap1T3 , ::Trap1T3 )=   7.0941447e-11
    27. 

  27. B( ::Trap1T3 , ::Trap1T2 )=  -4.9484752e-12
    28. 

  28. B( ::Trap1T3 , ::Trap1T1 )=  -4.6407756e-13
    29. 

  29. B( ::Trap1T3 , ::Trap1T0 )=  -1.8141815e-13
    30. 

  30. B( ::Trap1T2 , ::Trap1T4 )=  -4.6989832e-13
    31. 

  31. B( ::Trap1T2 , ::Trap1T3 )=  -4.9669995e-12
    32. 

  32. B( ::Trap1T2 , ::Trap1T2 )=   7.0688844e-11
    33. 

  33. B( ::Trap1T2 , ::Trap1T1 )=  -4.9701280e-12
    34. 

  34. B( ::Trap1T2 , ::Trap1T0 )=  -4.7053312e-13
    35. 

  35. B( ::Trap1T1 , ::Trap1T4 )=  -1.8125655e-13
    36. 

  36. B( ::Trap1T1 , ::Trap1T3 )=  -4.6400828e-13
    37. 

  37. B( ::Trap1T1 , ::Trap1T2 )=  -4.9512261e-12
    38. 

  38. B( ::Trap1T1 , ::Trap1T1 )=   7.0928118e-11
    39. 

  39. B( ::Trap1T1 , ::Trap1T0 )=  -4.9719278e-12
    40. 

  40. B( ::Trap1T0 , ::Trap1T4 )=  -1.0417477e-13
    41. 

  41. B( ::Trap1T0 , ::Trap1T3 )=  -1.8051473e-13
    42. 

  42. B( ::Trap1T0 , ::Trap1T2 )=  -4.6987506e-13
    43. 

  43. B( ::Trap1T0 , ::Trap1T1 )=  -4.9818587e-12
    44. 

  44. B( ::Trap1T0 , ::Trap1T0 )=   7.0460096e-11
    45. 

  45. 

  46. Mutual and Self Inductance:
    47. 

  47. L(Active Signal , Passive Signal) Henrys/Meter
    48. 

  48. L( ::Trap1T4 , ::Trap1T4 )=   4.6228578e-07
    49. 

  49. L( ::Trap1T4 , ::Trap1T3 )=   3.9031917e-08
    50. 

  50. L( ::Trap1T4 , ::Trap1T2 )=   1.1170276e-08
    51. 

  51. L( ::Trap1T4 , ::Trap1T1 )=   5.0629079e-09
    52. 

  52. L( ::Trap1T4 , ::Trap1T0 )=   2.8693581e-09
    53. 

  53. L( ::Trap1T3 , ::Trap1T4 )=   3.9031399e-08
    54. 

  54. L( ::Trap1T3 , ::Trap1T3 )=   4.6203849e-07
    55. 

  55. L( ::Trap1T3 , ::Trap1T2 )=   3.8977603e-08
    56. 

  56. L( ::Trap1T3 , ::Trap1T1 )=   1.1151549e-08
    57. 

  57. L( ::Trap1T3 , ::Trap1T0 )=   5.0630438e-09
    58. 

  58. L( ::Trap1T2 , ::Trap1T4 )=   1.1169412e-08
    59. 

  59. L( ::Trap1T2 , ::Trap1T3 )=   3.8976946e-08
    60. 

  60. L( ::Trap1T2 , ::Trap1T2 )=   4.6202715e-07
    61. 

  61. L( ::Trap1T2 , ::Trap1T1 )=   3.8977639e-08
    62. 

  62. L( ::Trap1T2 , ::Trap1T0 )=   1.1170536e-08
    63. 

  63. L( ::Trap1T1 , ::Trap1T4 )=   5.0625135e-09
    64. 

  64. L( ::Trap1T1 , ::Trap1T3 )=   1.1150604e-08
    65. 

  65. L( ::Trap1T1 , ::Trap1T2 )=   3.8976967e-08
    66. 

  66. L( ::Trap1T1 , ::Trap1T1 )=   4.6203849e-07
    67. 

  67. L( ::Trap1T1 , ::Trap1T0 )=   3.9032450e-08
    68. 

  68. L( ::Trap1T0 , ::Trap1T4 )=   2.8690772e-09
    69. 

  69. L( ::Trap1T0 , ::Trap1T3 )=   5.0624709e-09
    70. 

  70. L( ::Trap1T0 , ::Trap1T2 )=   1.1169369e-08
    71. 

  71. L( ::Trap1T0 , ::Trap1T1 )=   3.9031395e-08
    72. 

  72. L( ::Trap1T0 , ::Trap1T0 )=   4.6228720e-07
    73. 

  73. 

  74. Asymmetry Ratios:
    75. 

  75. 

  76.   Asymmetry ratio for inductance matrix:
    77. 

  77.      0.011315% (max), 0.006299% (average)
    78. 

  78. 

  79.   Asymmetry ratio for electrostatic induction matrix:
    80. 

  80.      0.504084% (max), 0.246037% (average).
    81. 

  81. 

  82. 

  83. Characteristic Impedance (Ohms):
    84. 

  84. For Signal Line ::Trap1T4= 81.0085
    85. 

  85. For Signal Line ::Trap1T3= 80.7029
    86. 

  86. For Signal Line ::Trap1T2= 80.846
    87. 

  87. For Signal Line ::Trap1T1= 80.7105
    88. 

  88. For Signal Line ::Trap1T0= 80.9999
    89. 

  89. 

  90. Effective Dielectric Constant:
    91. 

  91. For Signal Line ::Trap1T4= 2.90893
    92. 

  92. For Signal Line ::Trap1T3= 2.90801
    93. 

  93. For Signal Line ::Trap1T2= 2.89699
    94. 

  94. For Signal Line ::Trap1T1= 2.90746
    95. 

  95. For Signal Line ::Trap1T0= 2.90956
    96. 

  96. 

  97. Propagation Velocity (meters/second):
    98. 

  98. For Signal Line ::Trap1T4=   1.7577379e+08
    99. 

  99. For Signal Line ::Trap1T3=   1.7580158e+08
    100. 

  100. For Signal Line ::Trap1T2=   1.7613550e+08
    101. 

  101. For Signal Line ::Trap1T1=   1.7581811e+08
    102. 

  102. For Signal Line ::Trap1T0=   1.7575462e+08
    103. 

  103. 

  104. Propagation Delay (seconds/meter):
    105. 

  105. For Signal Line ::Trap1T4=   5.6891303e-09
    106. 

  106. For Signal Line ::Trap1T3=   5.6882309e-09
    107. 

  107. For Signal Line ::Trap1T2=   5.6774471e-09
    108. 

  108. For Signal Line ::Trap1T1=   5.6876962e-09
    109. 

  109. For Signal Line ::Trap1T0=   5.6897507e-09
    110. 

  110. 

  111. Rdc:
    112. 

  112. Rdc(Active Signal , Passive Signal) Ohms/Meter
    113. 

  113. Rdc( ::Trap1T4 , ::Trap1T4 )=   1.8148605e+02
    114. 

  114. Rdc( ::Trap1T4 , ::Trap1T3 )=   0.0000000e+00
    115. 

  115. Rdc( ::Trap1T4 , ::Trap1T2 )=   0.0000000e+00
    116. 

  116. Rdc( ::Trap1T4 , ::Trap1T1 )=   0.0000000e+00
    117. 

  117. Rdc( ::Trap1T4 , ::Trap1T0 )=   0.0000000e+00
    118. 

  118. Rdc( ::Trap1T3 , ::Trap1T4 )=   0.0000000e+00
    119. 

  119. Rdc( ::Trap1T3 , ::Trap1T3 )=   1.8148766e+02
    120. 

  120. Rdc( ::Trap1T3 , ::Trap1T2 )=   0.0000000e+00
    121. 

  121. Rdc( ::Trap1T3 , ::Trap1T1 )=   0.0000000e+00
    122. 

  122. Rdc( ::Trap1T3 , ::Trap1T0 )=   0.0000000e+00
    123. 

  123. Rdc( ::Trap1T2 , ::Trap1T4 )=   0.0000000e+00
    124. 

  124. Rdc( ::Trap1T2 , ::Trap1T3 )=   0.0000000e+00
    125. 

  125. Rdc( ::Trap1T2 , ::Trap1T2 )=   1.8148743e+02
    126. 

  126. Rdc( ::Trap1T2 , ::Trap1T1 )=   0.0000000e+00
    127. 

  127. Rdc( ::Trap1T2 , ::Trap1T0 )=   0.0000000e+00
    128. 

  128. Rdc( ::Trap1T1 , ::Trap1T4 )=   0.0000000e+00
    129. 

  129. Rdc( ::Trap1T1 , ::Trap1T3 )=   0.0000000e+00
    130. 

  130. Rdc( ::Trap1T1 , ::Trap1T2 )=   0.0000000e+00
    131. 

  131. Rdc( ::Trap1T1 , ::Trap1T1 )=   1.8148749e+02
    132. 

  132. Rdc( ::Trap1T1 , ::Trap1T0 )=   0.0000000e+00
    133. 

  133. Rdc( ::Trap1T0 , ::Trap1T4 )=   0.0000000e+00
    134. 

  134. Rdc( ::Trap1T0 , ::Trap1T3 )=   0.0000000e+00
    135. 

  135. Rdc( ::Trap1T0 , ::Trap1T2 )=   0.0000000e+00
    136. 

  136. Rdc( ::Trap1T0 , ::Trap1T1 )=   0.0000000e+00
    137. 

  137. Rdc( ::Trap1T0 , ::Trap1T0 )=   1.8148808e+02
    138. 

  138. 

  139. Far-End (Forward) Cross Talk:
    140. 

  140. FXT(Active Signal, Passive Signal)
    141. 

  141. FXT( ::Trap1T4 , ::Trap1T3 )= -3.41537e-10 =  -189.33123 dB
    142. 

  142. FXT( ::Trap1T4 , ::Trap1T2 )= -4.23293e-10 =  -187.46717 dB
    143. 

  143. FXT( ::Trap1T4 , ::Trap1T1 )= -2.02999e-10 =  -193.85010 dB
    144. 

  144. FXT( ::Trap1T4 , ::Trap1T0 )= -1.14217e-10 =  -198.84542 dB
    145. 

  145. FXT( ::Trap1T3 , ::Trap1T2 )= -3.44316e-10 =  -189.26085 dB
    146. 

  146. FXT( ::Trap1T3 , ::Trap1T1 )= -4.26354e-10 =  -187.40459 dB
    147. 

  147. FXT( ::Trap1T3 , ::Trap1T0 )= -2.03284e-10 =  -193.83794 dB
    148. 

  148. FXT( ::Trap1T2 , ::Trap1T1 )= -3.49535e-10 =  -189.13018 dB
    149. 

  149. FXT( ::Trap1T2 , ::Trap1T0 )= -4.23338e-10 =  -187.46625 dB
    150. 

  150. FXT( ::Trap1T1 , ::Trap1T0 )= -3.38348e-10 =  -189.41274 dB
    151. 

  151. 

  152. Near-End (Backward) Cross Talk:
    153. 

  153. BXT(Active Signal, Passive Signal)
    154. 

  154. BXT( ::Trap1T4 , ::Trap1T3 )= 3.72804e-09 =  -168.57040 dB
    155. 

  155. BXT( ::Trap1T4 , ::Trap1T2 )= 7.42436e-10 =  -182.58682 dB
    156. 

  156. BXT( ::Trap1T4 , ::Trap1T1 )= 3.25573e-10 =  -189.74704 dB
    157. 

  157. BXT( ::Trap1T4 , ::Trap1T0 )= 1.85084e-10 =  -194.65264 dB
    158. 

  158. BXT( ::Trap1T3 , ::Trap1T2 )= 3.72039e-09 =  -168.58823 dB
    159. 

  159. BXT( ::Trap1T3 , ::Trap1T1 )= 7.38655e-10 =  -182.63116 dB
    160. 

  160. BXT( ::Trap1T3 , ::Trap1T0 )= 3.25253e-10 =  -189.75556 dB
    161. 

  161. BXT( ::Trap1T2 , ::Trap1T1 )= 3.70814e-09 =  -168.61687 dB
    162. 

  162. BXT( ::Trap1T2 , ::Trap1T0 )= 7.40883e-10 =  -182.60501 dB
    163. 

  163. BXT( ::Trap1T1 , ::Trap1T0 )= 3.73027e-09 =  -168.56520 dB
    164. 

  164. 

  165. NOTE: Cross talk results assume there are no reflections.
    166. 

  166.