Elimination of Far-end Noise on Coupled Microstrip Line

• Main Authors: BAO-REN HUANG, 黃保仁
• Other Authors: Chun-Long Wang
• Format: Others
• Language: zh-TW
• Published: 2013
• Online Access: http://ndltd.ncl.edu.tw/handle/34989154695730269158

碩士 === 國立臺灣科技大學 === 電子工程系 === 101 === In this thesis, to eliminate the common mode noise induced by the right-angled differential transmission line, an inductance-compensated and capacitance-compensated right-angled differential transmission line is proposed. The frequency-domain differential-to-common mode conversion is greatly reduced, having a maximum reduction of 30 dB, and the time-domain common mode noise is reduced from 0.056 V to 0.019 V. Besides, as compared with the inductance-compensated right-angled differential transmission line or the capacitance-compensated right-angled differential transmission line, the circuit size is greatly reduced, which in turn saves the production cost and reduces the low frequency reflection coefficient. Besides, to reduce the far-end crosstalk noise induced by the coupled microtrip line, a coupled microstrip line using the front-end capacitor is proposed. As compared with the literatures, the coupled microstrip line using the front-end capacitor can eliminate the routing complexity and reduce the far-end crosstalk noise from 55 mV to 26.8 mV. Also, since the far-end crosstalk noise has an antisymmetric waveform, the far-end crosstalk noise can be totally eliminated when the receiver uses an integrator. In order to reduce the near-end impulse crosstalk noise and further reduce the far-end crosstalk noise induced by the coupled microstrip line using the front-end capacitor, a coupled microstrip line using the distributed capacitors is proposed. As compared with the coupled microstrip line using the front-end capacitor, the near-end crosstalk noise can be reduced from 71 mV to 28 mV while the far-end crosstalk noise is nearly zero.