amplifiers and transmitters high-efficiency rf...
TRANSCRIPT
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GMRR VG08-7A Copyright (C) 2009 by GMRR, all rights reserved
HIGH-EFFICIENCY RF POWER AMPLIFIERS AND TRANSMITTERS
Frederick H. Raab, Ph.D.
Green Mountain Radio Research [email protected]
1. Introduction2. Power Amplifiers3. Architectures
1
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AMPLIFIERS vs. ARCHITECTURES
KAHN ARCHITECTURECLASS-F PA
LINEAR ARCHITECTURECLASS-A PA
GMRR VG08-7 2
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INSTANTANEOUS EFFICIENCYINSTANTANEOUS
EFFICIENCYLINEAR-AMPLIFIER
CHAIN
GMRR VG08-7 3
η = Po / Pi
ηA = ( Po - PDR ) / Pi ηO = Po / ( Pi + PDR )
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AVERAGE EFFICIENCYENVELOPE PDF
• Low average efficiency
SRRC
OFDM
• Low amplitudes more likely
GMRR VG08-7 4
ηAVG =PoAVG
PiAVG
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DYNAMIC POWER RANGEPDF OF PEP
OUTPUT
• Wide range of PEP output
MOBILE-BASE GEOMETRY
• Use minimum power
GMRR VG08-7 5
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GMRR VG08-7
RF-POWER AMPLIFIERS
6
HIGH EFFICIENCY
• CLASS D• CLASS E• CLASS F
UTILIZATION FACTOR
CONVENTIONAL
• CLASS A• CLASS B• CLASS C
EFFICIENCY
η = Po / Pi Pmax =Pomax
vDmax iDmax
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CLASS-A POWER AMPLIFIERWAVEFORMSCIRCUIT
• iD > 0 (360° conduction)• No harmonics• Output filter optional
GMRR VG08-7 7
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CLASS A POWER AND EFFICIENCYEFFICIENCY
• Efficiency ~ output power• ηPEP = 1/2 = 0.5
POWER
• Ideal transistors• VDD = 1, R = 1
GMRR VG08-7
Pmax = 0.125
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CLASS-B POWER AMPLIFIERWAVEFORMSCIRCUIT
• RB = (m/n)² Ro
• Q1 and Q2 conduct alternately• ≈ 180° conduction angle
GMRR VG08-7
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CLASS B POWER AND EFFICIENCYEFFICIENCY
• Efficiency ~ output voltage• ηPEP = π/4 = 0.785
POWER
• Ideal transistors• VDD = 1, R = 1
GMRR VG08-7
Pmax = 0.25
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CLASS-C POWER AMPLIFIER
• Drain current < 180°• Increased efficiency• Inherent harmonics and nonlinearity
WAVEFORMSCIRCUIT
GMRR VG08-7
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BIAS - CLASSES A, B, AND C
180°: Class B - linear<180°: Class C
360°: Class A - linear245°: Class AB - maximum power
Gate bias controls conduction angle
POWER CAPABILITYEFFICIENCY
GMRR VG08-7
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CLASS-D POWER AMPLIFIERWAVEFORMS
η = 1 Pmax = 0.318
CIRCUIT
• RD = (m/n)² Ro
• Q1 and Q2 on/off alternately• ≈ 180° conduction angle
GMRR VG08-7A
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CLASS D - CURRENT SWITCHINGWAVEFORMS
η = 1 Pmax = 0.318
CIRCUIT
• RD = (m/n)² Ro
• Q1 and Q2 on/off alternately• ≈ 180° conduction angle
GMRR VG08-7A
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GMRR VG08-7
CLASS D - CHARACTERISTICS
15
TYPICAL USES
• Voltage switching: LF/MF/HF PAs• Current switching: 1 GHz
DISADVANTAGES
• Capacitive loss increases with frequency• Timing errors create short circuit• Soft drive usually needed
LOSSES
• On-state resistance• Switching time• Drain capacitance
ADVANTAGES
• Maximum power for FET ratings• Easy to tune
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GMRR VG08-7
CLASS D - PROTOTYPES
16
VHF/UHF
GaN HEMTs25 - 400 MHz
70 - 100 W60 - 70%
HF
VMOS FETs1.8 - 30 MHz300 - 400 W
70 - 80%
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CLASS-E POWER AMPLIFIERWAVEFORMS
Pmax = 0.098
CIRCUIT
• Transistor = switch• Dynamics → waveform• Discharge CDS
• η = 1GMRR VG08-7
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GMRR VG08-7
CLASS E - CHARACTERISTICS
18
TYPICAL USES
• VHF/UHF PAs (true transient class E)• HF PAs using "low-cost" MOSFETs• Microwave PAs
(transmission-line approximations)
DISADVANTAGES
• Lower output than class D• Higher loss from Ron
LOSSES
• On-state resistance• Switching time
ADVANTAGES
• No loss from drain capacitance• No short from timing error
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GMRR VG08-7
CLASS E - PROTOTYPES
19
VHF/UHF
LDMOS FET25 - 400 MHz
60 - 78 W60 - 80%
HF/VHF
VMOS FET1.8 - 128 MHz
200 W70 - 90%
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CLASS-F POWER AMPLIFIER
GMRR VG08-7
WAVEFORMSCIRCUIT
• Voltage ≈ square wave• Current ≈ half sine wave• Power and efficiency increased
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CLASS-F - ALL HARMONICS
GMRR VG08-7
WAVEFORMS
η = 1 Pmax = 0.159
CIRCUIT
• Quarter-wavelength T line• Voltage = square wave• Current = half sine wave• Half of class-D PA
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CLASS-F - CHARACTERISTICS
GMRR VG08-7
POWER OUTPUTEFFICIENCY
• Efficiency and output increase with number of controlled harmonics• Can (must) tune-out drain capacitance• Transmission-line resonators• Good for UHF, microwave
• Progressively smaller increases• Evens and odds affect efficiency• Odds affect output
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CLASS-F – MICROWAVE
GMRR VG08-7
• Virtual drain of ideal FET sees ideal impedances• 3f and 2f shorts by λ/4 lines• 3f short transforms through W1 and package to virtual drain• Circuit to right does not affect 3f• 2f short transforms through W3, W2, W1, package to virtual drain• Circuit to right does not affect 2f• Remaining components match fundamental
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GMRR VG08-7
CLASS F - PROTOTYPES
24
1.2 GHz
GaN HEMT55 W74%
500 MHz
GaN HEMT54 W71%
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GMRR VG08-7
MICROWAVE CLASS E vs. CLASS F
25
V > 0, I = 0 orV = 0, I > 0No power
V and I: Nonzero90°
No power
CLASS FCLASS E
RR + jX (≈ 45°)FUNDAMENTAL
HARMONICS
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GMRR VG08-7
CLASS C, E, AND F - FINITE HARMONICS
26
Highest for FClass C: Decreases with n
Depends upon nIndependent of class
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GMRR VG08-7
REAL UHF/MICROWAVE HEPAS
27
CLASS EF• T-line network like class F• Resonators control 2f and 3f• Drain capacitance for higher f• Soft switching• Small inductive reactance at f• Power output of class F• Efficiency of class E
REALITY• FET not ideal switch• FET not ideal current source• Varactor drain capacitance• Harmonics happen
CLASS J• Cripps terminology• vD: 2 harmonics• iD: Half sine wave• f: R + jX (≈≈≈≈ 45°)• nf: Drain capacitance• η = 0.785• Pmax = 0.0858
TRANSMISSION-LINE CLASS E• Finite-harmonic approximation• T-line network like class F• f: R + jX (≈≈≈≈ 45°)• 2f: ≈≈≈≈ ideal• Both vD and iD have f and 2f
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ARCHITECTURES - TWO CATEGORIES
1. HIGH EFFICIENCY OVERMODULATION ENVELOPE
2. HIGH EFFICIENCY OVER DYNAMIC RANGE
GMRR VG08-7 28
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PREDISTORTION
Nonlinearity• Backoff• Reduced η
Predistortion• Eliminates nonlinearity• PEP efficiency
29GMRR VG08-7
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KAHN TECHNIQUE
• Saturated RF PA• High-level AM• Average efficiency
3 to 5 times class B
• High-efficiencylinear transmitter
• RF signal: Simultaneous AM, ΦM
30GMRR VG08-7
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MODULATORS FOR KAHN TECHNIQUESPLIT BAND
LF COMPONENTS• Most of power• Amplify efficiently – class SHF COMPONENTS• Amplify linearly – class B
U.S. patent 6,252,634
CLASS S
• Q1-D1 = SPDT switch• Efficiency > 90%• Wide dynamic range• fs > 6-7 BRF
31GMRR VG08-7
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GMRR VG08-7
PROTOTYPE KAHN TRANSMITTERS
32
L BAND
Radar1.2 GHz
500-kHz bandwidthPredistortion50 W PEP
60%2x average efficiency
HF-VHF
MRI10 - 128 MHz
500-kHz bandwidthPredistortion200 W PEP
70-80%2x average efficiency
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DOHERTY TRANSMITTER
HIGH AMPLITUDES• PA #2 active• PA #1 saturated
variable load
LOW AMPLITUDES• PA #1 linear• PA #2 off
GMRR VG08-7 33
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THREE-STAGE DOHERTY
Class B 28.0 %2-S Doherty 60.0 %3-S Doherty 70.0 %
PA1+PA2 = 2-S Doherty at low powerPA1+PA2 = carrier amp at high powerGood efficiency over wide range
GMRR VG08-7 34
AVERAGE EFFICIENCY 10-dB P/APRINCIPLES
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CHIREIX OUTPHASING
• Vary phases in opposite directions• PAs saturated• Sum -> desired amplitude• Tune-out load reactance mid range• Wide bandwidth - limited by phase modulator
GMRR VG08-7 35
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LOAD MODULATION
• Vary bias(es) of electronically tuned filter• Variable load impedance to power amplifier• Variable output power and amplitude• Phase information in drive signal• Wide bandwidth – limited only by bias feed/modulator
U.S. patent 7,202,734
GMRR VG08-7 36
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GMRR VG08-7
PROTOTYPE LOAD-MODULATED PA
37
1 variable element10-dB peak/average ratioAverage efficiency x2.1
30 MHz19 W PEP
Varactor = HV MOSFETs41-dB dynamic range
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RF PULSE-WIDTH MODULATIONCARRIER PWMDELTA-SIGMA RF PWM
GMRR VG08-7 38
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ARCHITECTURES - TWO CATEGORIES
1. HIGH EFFICIENCY OVERMODULATION ENVELOPE
2. HIGH EFFICIENCY OVER DYNAMIC RANGE
GMRR VG08-7 39
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EFFICIENCY OVER DYNAMIC RANGEPEP EFFICIENCY
(TYPICAL)CHARACTERISTICS
• Mobile transmitters
• Wide range of power
• Mostly switched
• Follows PEP,not envelope
GMRR VG08-7 40
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STAGE BYPASSING
• LOW OUTPUT: Use driver
• HIGH OUTPUT: Use final
GMRR VG08-7 41
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ENVELOPE TRACKING - DISCRETE
• RF PA: Linear• Select minimum supply voltage for linear operation• May cause detuning (mismatch)
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ENVELOPE TRACKING - CONTINUOUS
• RF PA: Linear• Supply voltage = minimum + headroom• May cause detuning (mismatch)• Often minimum voltage (boost converter)
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LOAD-IMPEDANCE SWITCHING
• High impedance → low power• Low impedance → high power• Matched both cases
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MULTIPLE SWITCHED PAs
• Number of PAs active ~ PoPEP
• Short PA output → Decouple from outputGMRR VG08-7 45
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CONCLUSIONS
Variety of techniques available.Significant improvements in average efficiency.
Each has advantages and disadvantages.
Combinations possible.Interesting research to be done.
What is old is sometimes new again.
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