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RF Power Amplifiers for Wireless Communications

RF Power Amplifiers for Wireless Communications. Steve C. Cripps 이창현. 2.5 Loadline Theory. Ideal Loadline match. 2.5 Loadline Theory. R L 값의 변동 V=IR. 2.5 Loadline Theory. Reactance, Susceptance. .6 Package Effects and Refinements to Load-Pull Theory.

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RF Power Amplifiers for Wireless Communications

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  1. RF Power Amplifiers for Wireless Communications Steve C. Cripps 이창현

  2. 2.5 Loadline Theory • Ideal Loadline match

  3. 2.5 Loadline Theory • RL값의 변동 • V=IR

  4. 2.5 Loadline Theory • Reactance, Susceptance

  5. .6 Package Effects and Refinements to Load-Pull Theory • Load-Pull theory needs a simple extension • Comparisons with measured data

  6. .8 ClassA Design Example • Define target specs, select device • 제조사에서 제공한 data ㅡ> Loadline match • Set up schematic and output matching topology to give ROPT at plane “A” • Parasitic components에 주의 • Design input match using linear (s-parameter) methods

  7. 3. Conventional High-Efficiency Amplifier Modes • High-efficiency amplifier modes • “reduced conduction angle” • class AB, B, C • Low quiescent current 로 bias • Harmonics be shorted at the output • PUF(power utilization factor) • Ratio of Rfpower delivered by a device

  8. .1 Reduced Conduction Angle-Waveform Analysis Class C Class B Class AB Class A

  9. .1 Reduced Conduction Angle-Waveform Analysis • Efficiency vs • PUF Imax/π

  10. .2 OutputTermination

  11. .2 OutputTermination

  12. .3 Reduced Conduction Angle Mode Analysis • 이상적인 소자특성 가정 • 4개의 parameters • Vq : input dc bias point • Vs : amplitude of input signal(Vs = 1 - Vq) • Vk : turn-on transistor character(knee = 0) • RL

  13. .3 Reduced Conduction Angle Mode Analysis • Vq = 0.5 • Vs = 0.5

  14. .3 Reduced Conduction Angle Mode Analysis • Vq = 0.25 • Vs = 0.75

  15. .3 Reduced Conduction Angle Mode Analysis • Vq = 0 • Vs = 1

  16. .3 Reduced Conduction Angle Mode Analysis • Vq = -0.5 • Vs = 1.5 • Breakdown

  17. .4 Effect of Transistor “Knee” • Class B • Vq = 0, Vs = 1 • Vk = 0.2, Vout = 1 • Vq = 0, Vs = 1 • Vk = 0.2, Vout = 0.9

  18. .5 Power Transfer Characteristics and Linearity

  19. .5 Power Transfer Characteristics and Linearity

  20. .5 Power Transfer Characteristics and Linearity

  21. .6 Input Drive Requirements

  22. .6 Input Drive Requirements

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