elct564 spring 2012 5/25/20151elct564 chapter 7: power dividers and directional couplers
TRANSCRIPT
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ELCT564 Spring 2012
04/18/23 1ELCT564
Chapter 7: Power Dividers and Directional Couplers
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Power Dividers, Couplers and Hybrids
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• Single components which perform power generation/amplification are interconnected to combine outputs to achieve more power
• Most commonly known: power dividers, couplers and directional couplers
• Requirements: components with low loss and high isolation between ports: component with 3 or 4 ports
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T Junctions
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T-junctionCan not be lossless, reciprocal and matched at all ports.
Clockwise circulation Counterclockwise circulation
Lossless and matched at all ports.
• It is impossible to construct a 3-port network that is lossless, reciprocal and matched at all ports
• If only two ports are matched, then it can be lossless and reciprocal
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Directional Couplers
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The Symmetrical (90o) Coupler
The Antisymmetrical (180o) Coupler
Can be lossless, reciprocal and matched at all ports.
Ideal coupler: input power is split between direct and coupled ports, no power is reflected back or delivered to isolated power.
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Hybrids
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Quadrature Hybrid (90o phase shift)
Quadrature Hybrid (180o phase shift)
90o or 180o couplers which split the power equally between direct and coupled ports are called Hybrids
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T-Junction Power Divider
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E plane waveguide T, H plane waveguide T and Microstrip T-junction
Transmission line model of a lossless T-junction
At low frequencies, parasitic junction capacitance is negligible. At high frequency, performance is affected.
T Junction can only have two of the following: lossless, matched, reciprocal
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T-Junction Power Divider Example
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A lossless T-junction power divider has a source impedance of 50 Ω. Find theoutput characteristic impedances so that the input power is divided in a 2:1 ratio.Compute the reflection coefficients seen looking into the output ports.
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Resistive Divider
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To match all the ports
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The Wilkinson Divider
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Matched at all ports, with isolation between output ports and lossless
Design an equal-split Wilkinson power divider for a 50 Ω system impedance atFrequency f0,and plot the returnloss(S11),insertion loss(:S21=S31),and isolation(S23=S32)v ersus Frequency from 0.5f0 to 1.5f0.
When divider is driven at port 1 and matched output ports, no power is dissipated in the resistorOnly reflected power from ports 2 and 3 is dissipated in the resistorS23=S32=0, ports 2 and 3 are isolatedCan also be designed for unequal power splits: k2=P3/P2𝑍03′ =ඨ1+𝑘2𝑘3
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Coupled Line Couplers
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• When 2 lines are close together, power can be coupled from one to the other (EM filed interaction)
• C12 is capacitance between the 2 strip conductors in the absence of ground conductor, C11 & C22 are capacitance between strip and ground in the absence of the other strip
• Use more section to increase bandwidth
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The Quadrature (90o) Hybrid
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• Bandwidth is 10-20%: more bandwidth with multiple sections
• Equal power division (unequal also possible)
• Excellent isolation and directivity, equal split with 90o difference between outputs
180o Hybrid• Outputs have 180o difference
• Different ways for fabrication, most popular is the “rat race” coupler
• Input port 1, even split in ports 2 & 3, port 4 will be isolated• Input port 4, even split in ports 2 & 3, port 1 will be isolated
Combiner
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The Lange Coupler
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• Coupling in coupled line coupler is to loose to achieve of 3 to dB
• In order to increase coupling between edge-coupled lines : use several lines parallel to each other so that the fringing fields at both edges of a line contribute to the coupling.
• Four coupled lines are used with interconnection to get tight coupling
• Can achieve 3 dB coupling with an octave or more bandwidth
• 90o phase difference between outputs (ports 2 and 3)
• Drawback: very narrow lines close together, difficult to fabricate bonding wires
• Interdigitated geometry