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180 hybrid-coupler

Ahmad Mahfouz
Ahmad Mahfouz
Education
1 of 21
LOGO EENG 541 Project: 180°-Hybrid Coupler Prepared by / Ahmed Mahfouz Marzouk Presented to/ Dr. Amr Safwat
Outline:  INTRODUCTION.  PROBLEM.  METHODOLOGY  Wilkinson-Power-Divider based Design.  Phase reversal Design using CPW Inverter  Compact Folded Line  Artificial Transmission Lines  Using Left-Handed Materials  CONCLUSION.  REFERENCES.
Introduction: The 180° hybrid is a 4 port network widely used in RF and Microwave Circuits Applications:  Balanced Mixers.  Balanced Amplifiers.  Power Multipliers / Dividers  Antenna Feeding Networks
Introduction: Advantages over 3-port lossless balun: In-phase and Out-of-phase power splitting while maintaining:  Port-to-Port Isolation  Ports Matching Balanced Circuits require HYBRID RINGS
Introduction: The 180° hybrid is a 4 port network widely used in RF and Microwave Circuits Applications[2]:  Balanced Mixers.  Balanced Amplifiers.  Antenna Feeding Networks  Power Multipliers / Dividers Implementation: rat-race hybrid as the most popular way.
PROBLEM: The 180°-Hybrid Limitations:  Compactness  Bandwidth  THE 270° SECTION  The resulting 1.5 λ is often large especially in MMIC app.  The 270°-section has the largest phase variation versus frequency, since the phase variation is proportional to the line length (∂ф/ ∂ω α ℓ)
Methodology:[1] Novel Hybrid derived from WILKINSON Power Divider (WPD). Transmission Line Model of the Novel hybrid:
Methodology:[1] The resistor replacement with a 4th port of an equal characteristic impedance MAIN ADVANTAGE: Reduced Size compared to conventional Rat-Race Hybrid
Methodology[2]: PHASE REVERSAL Method  270°-section replacement with a “-90°” section.  The “-90°”-section realization:  A 90° Microstrip line.  A Co-Planar Waveguide phase inverter.
Methodology[3]: Compact Folded Line Configurations:  Rat-Race Configuration using folded line geometry:
Methodology[3]: Compact Folded Line Configurations:  Rat-Race Configuration using folded line geometry:  Design Equations: (Using Even-Odd Analysis for single C- Section Rat-Race Hybrid) :
Methodology[3]: Compact Folded Line Configurations:  Rat-Race Configuration using folded line geomtry:  Design Equations: (Using Even-Odd Analysis for single C- Section Rat-Race Hybrid) :  Result 
Methodology: Artificial Transmission Lines (ATLs) [4]:  270°-section replacement with a “-90°” section.  The “-90°”-section realization:  Left-Handed material: realizing an artificial lumped- element TL section.
Methodology: Artificial Transmission Lines (ATLs) [4]:  270°-section replacement with a “-90°” section.  The “-90°”-section realization:  Left-Handed material: realizing an artificial lumped- element TL section.
Methodology: Artificial Transmission Lines (ATLs) [4]:  270°-section replacement with a “-90°” section.  The “-90°”-section realization:  Left-Handed material: realizing an artificial lumped- element TL section.
Conclusion: 180° hybrids are still to be optimized Rat-Race Implementation of a 180 hybrid is a challenging in PCB technology. Problem: BW and Size especially the (3 λ /4) section. Solutions:  WPD-based Design [1]  Using CPW Phase Inverter [2]  ATL Section [4]  Folded Line Configuration[3][5]
REFERENCES
Thank You Questions?
LOGO
Paper 1: Affiliation Ning Yang, Member, IEEE, Christophe Caloz, Fellow, IEEE, and Ke Wu, Fellow, IEEE.  University: The École Poly-technique de Montréal; The Polytechnical School of Montreal.
Paper 1 Broadband Compact 180 Hybrid Derived From the Wilkinson Divider

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180 hybrid-coupler

  • 1. LOGO EENG 541 Project: 180°-Hybrid Coupler Prepared by / Ahmed Mahfouz Marzouk Presented to/ Dr. Amr Safwat
  • 2. Outline:  INTRODUCTION.  PROBLEM.  METHODOLOGY  Wilkinson-Power-Divider based Design.  Phase reversal Design using CPW Inverter  Compact Folded Line  Artificial Transmission Lines  Using Left-Handed Materials  CONCLUSION.  REFERENCES.
  • 3. Introduction: The 180° hybrid is a 4 port network widely used in RF and Microwave Circuits Applications:  Balanced Mixers.  Balanced Amplifiers.  Power Multipliers / Dividers  Antenna Feeding Networks
  • 4. Introduction: Advantages over 3-port lossless balun: In-phase and Out-of-phase power splitting while maintaining:  Port-to-Port Isolation  Ports Matching Balanced Circuits require HYBRID RINGS
  • 5. Introduction: The 180° hybrid is a 4 port network widely used in RF and Microwave Circuits Applications[2]:  Balanced Mixers.  Balanced Amplifiers.  Antenna Feeding Networks  Power Multipliers / Dividers Implementation: rat-race hybrid as the most popular way.
  • 6. PROBLEM: The 180°-Hybrid Limitations:  Compactness  Bandwidth  THE 270° SECTION  The resulting 1.5 λ is often large especially in MMIC app.  The 270°-section has the largest phase variation versus frequency, since the phase variation is proportional to the line length (∂ф/ ∂ω α ℓ)
  • 7. Methodology:[1] Novel Hybrid derived from WILKINSON Power Divider (WPD). Transmission Line Model of the Novel hybrid:
  • 8. Methodology:[1] The resistor replacement with a 4th port of an equal characteristic impedance MAIN ADVANTAGE: Reduced Size compared to conventional Rat-Race Hybrid
  • 9. Methodology[2]: PHASE REVERSAL Method  270°-section replacement with a “-90°” section.  The “-90°”-section realization:  A 90° Microstrip line.  A Co-Planar Waveguide phase inverter.
  • 10. Methodology[3]: Compact Folded Line Configurations:  Rat-Race Configuration using folded line geometry:
  • 11. Methodology[3]: Compact Folded Line Configurations:  Rat-Race Configuration using folded line geometry:  Design Equations: (Using Even-Odd Analysis for single C- Section Rat-Race Hybrid) :
  • 12. Methodology[3]: Compact Folded Line Configurations:  Rat-Race Configuration using folded line geomtry:  Design Equations: (Using Even-Odd Analysis for single C- Section Rat-Race Hybrid) :  Result 
  • 13. Methodology: Artificial Transmission Lines (ATLs) [4]:  270°-section replacement with a “-90°” section.  The “-90°”-section realization:  Left-Handed material: realizing an artificial lumped- element TL section.
  • 14. Methodology: Artificial Transmission Lines (ATLs) [4]:  270°-section replacement with a “-90°” section.  The “-90°”-section realization:  Left-Handed material: realizing an artificial lumped- element TL section.
  • 15. Methodology: Artificial Transmission Lines (ATLs) [4]:  270°-section replacement with a “-90°” section.  The “-90°”-section realization:  Left-Handed material: realizing an artificial lumped- element TL section.
  • 16. Conclusion: 180° hybrids are still to be optimized Rat-Race Implementation of a 180 hybrid is a challenging in PCB technology. Problem: BW and Size especially the (3 λ /4) section. Solutions:  WPD-based Design [1]  Using CPW Phase Inverter [2]  ATL Section [4]  Folded Line Configuration[3][5]
  • 19. LOGO
  • 20. Paper 1: Affiliation Ning Yang, Member, IEEE, Christophe Caloz, Fellow, IEEE, and Ke Wu, Fellow, IEEE.  University: The École Poly-technique de Montréal; The Polytechnical School of Montreal.
  • 21. Paper 1 Broadband Compact 180 Hybrid Derived From the Wilkinson Divider

Editor's Notes

  1. Applications: separating the sum and the difference of two input signals
  2. While the lossless 3-port balun provides the out-of-phase power splitting, the rat-race ring achieves such splitting while maintaining port-to-port isolations and return losses, in addition to keeping the ports matched. And as a result the rat-race hybrid ring is better than the lossless 3-port network in the balanced circuits.
  3. Applications: separating the sum and the difference of two input signals as shown.The 180 hybrid may be implemented in several forms , among which the rat –race hybrid is most popularly used in microwave circuits for its simple design and its planar form.
  4. The conventional rat-race is composedof three quarter-wavelength sections and one 3 quarters transmission line sections forming aring. The limiting factor in these hybrids in term of both com-pactness and bandwidth is the270 DEGREE transmission-linesection.
  5. As shown this is the proposed rat-race configuration using folded line geometry. Here the TL sections of conventional rat-race hybrid are replaced by folded lines sections connecting through TL sections of small lengths.The folding can be in either edge-coupled (single-level) or broadside-coupled (multilevel) configurations.
  6. As shown this is the proposed rat-race configuration using folded line geometry. Here the TL sections of conventional rat-race hybrid are replaced by folded lines sections connecting through TL sections of small lengths.The folding can be in either edge-coupled (single-level) or broadside-coupled (multilevel) configurations.
  7. As shown this is the double C-section hybrid in comparison to the conventional design.
  8. Equivalent Circuit
  9. In-Phase Operation
  10. 180-out-of-phase operation