linearizing high power amplifiers - ieeeewh.ieee.org/r8/norway/ap-mtt/files/lin-basics-0409...
TRANSCRIPT
![Page 1: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/1.jpg)
LINEARIZATION:
BY: DR. ALLEN KATZ, APRIL 2009
REDUCING DISTORTION IN POWER AMPLIFIERS
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• WHY LINEARIZE
• TYPES OF LINEARIZERS
• THEORY/IDEAL LIMITER
• PREDISTORTION LINEARIZERS
• PHOTONIC LINEARIZERS
• PERFORMANCE EVALUATION
• RESULTS
• MEMORY EFFECTS
• CONCLUSIONS
OUTLINE
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IN PAST MOST AMPS USED FOR SC FM
MOD SIGNALS
- NL PRODUCTS ELIMINATED WITH LP FILTER
-OPERATER AT SATURATION (MAX PWR & EFF)
TODAY MULTI-CARRIER AND COMPLEX MODULATED SIGNALS COMMON
WHEN MORE THAN ONE CARRIER - DISTORTION PRODUCED (IM)
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TO REDUCE DISTORTION TO AN
ACCEPTABLE LEVEL
-MUST OPERATE AMPLIFIER AT REDUCED POWER LEVEL(BACKOFF FROM SATURATION)
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Pin 2.5 dB/DIV
TWTA PHASE
TWT POUT
PHASE 5.0 deg/DIV
PHASE
OUT
Ac cos(wct + M cos[wmt]) = Ac SJn(M) cos([wc+nwm]t)n=
n= -
DISTORTION ALSO PRODUCED BY
CHANGE IN PHASE WITH POWER LEVEL
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FOR A DIGITALLY MODULATED CARRIER
DISTORTION PRODUCES SPECTRAL REGROWTH
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SYSTEMATIC PROCEDURE FOR REDUCING DISTORTIONS
USUALLY EXTRA COMPONENTS ADDED TO AN AMPLIFIER
WHEN CONFIGURED IN A SUBASSMBLY OR BOX KNOWN
AS A LINEARIZER
THREE COMMON FORMS:
1) FEEDFORWARD
2) FEEDBACK
3) PREDISTORTION
+ TECHNIQUES TO IMPROVE EFFICIENCY USING NL PAs
LINEARIZATION --
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CHOICE OF LINEARIZATION
• LEVEL OF LINEARITY (DISTORTION REDUCTION)
NEEDED.
• BANDWIDTH REQUIRED
(SIGNAL AND OPERATIONAL).
• COST/COMPLEXITY CONSTRAINTS.
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LINEARIZERS HAVE BEEN USED WITH
•FET SSPAs (GaAs, MOS, LDMOS)
•PHOTONIC (DIRECT, MZM, PIN)
•TWTAs and KLYSTRONS
•BIPOLAR SSPAs (CLASS A, AB, B)
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AMP LAMP AMP LAMP
AMP LAMP AMP LAMP
“SAME” Distortion
“SAME” Distortion
POWER OUT
Greater Ouput Power
Efficiency
Greater Efficiency
LINEARIZERS ALLOW HPAs TO OPERATE
CLOSER TO SAT
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WANT TO OPTIMIZE EFFICIENCY AND
SATURATED POWER, NOT LINEARITY
EXCELLENT RESULTS CAN BE OBTAINED WITH
CLASS A-B AND B AMPS BOTH FET AND BIPOLAR
YOU CAN’T LINEARIZE AN AMPLIFIER
THAT IS ALREADY LINEAR!
FIRST RULE:
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IDEAL AMPLIFIER CHARACTERISTIC
WANT CONSTANT GAIN AND PHASE
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SATELLITE --•IMD PRODUCTS ADD TO THERMAL NOISE
IF C/I = CNR THEN CNR DEGRADES BY 3 dB
•WANT C/I > CNR + 10 dB FOR NEGLIGIBLE DEG. (< .5 dB)
IF CNR = 16 dB THEN C/I = 26 dB
•IF C/I = CNR + 6 THEN CNR = CNR DEG. BY 1 dB
CELLULAR --•INTERFERENCE FROM TX TO ADJACENT RX A PROBLEM --
CAN NEED C/I > 35 ~ 70 dB.
•FOR DIGITAL MOD, 16QAM … 8PSK NEED HIGH C/I TO
KEEP BER DOWN.
IMPROVEMENT DEPENDS ON ACCEPTABLE DIST
LEVEL
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FEEDFORWARD
•RELATIVELY COMPLEX
•NOT WORKABLE AS STAND-ALONE UNIT
•NOT EFFECTIVE FOR OPBOs < 6 dB
•MOST USEFUL FOR VERY HIGH LINEARITY APPLICATIONS
Sin Sout 1 Sout 2
MAIN AMP
AUX AMP Scor
IMD
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MINIMUM FEEDFORWARD OPBO FOR
IMD CANCELATION (20 dB)
1) AUX AMP SIZE,
2) OUTPUT COUPLER COEF.
9
8
7
6
5
4
3
2
1
0
0 1 2 3 4 5 6 7 8 9 10
Aux Amp Size Relative to Main Amp in dB
K2 3 dBK2 10 dBK2 6dB
DEPENDS ON: 1) AUX AMP SIZE,
2) OUTPUT COUPLER COEF.
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FEEDBACK LINEARIZATION
*FEEDBACK (NETWORK)
- NARROW BAND
- STABILITY PROB
- REDUCED GAIN
- DIFF TO ADJ
*INDIRECT FEEDBACK
-OPERATES ON ENVELOPE
-VERY LIMITED BW < 1/(4tS)
-CAN BE POLAR OR CARTESIAN
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CARTESIAN FEEDBACK ELIMINATES THE NEED
FOR PHASE CORRECTION CIRCUITRY
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•RELATIVELY SIMPLE CIRCUITRY
PREDISTORTION
•WIDE BAND (>20% – MULTI OCT/GHz BW ACHIEVED)
•MOST POPULAR FOR MICRO/MILLIMETER WAVE
•EASILY IMPLEMENTED AS A STAND-ALONE UNIT
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LINEARIZER GAIN DEPENDS ON
INPUT TO HPA
• THE GAIN OF THE LINEARIZER (GL) MUST INCREASE BY THE SAME
AMOUNT THE HPA’s GAIN (GA) DECREASES.
• GL(PoutL) - GLss = - [GA(PinA) - GAss] PoutL = PinA
• L(PoutL) - Lss = - [A(PinA) - Ass] PoutL = PinA
• GL(PinL) = GLss+ GAss - GA(PinL + GL(PinL))
• L(PinL) = Lss+ Ass - A(PinL + GL(PinL))
• L DEPENDS ON THE GL AND CANNOT BE SET IDENPENDENTLY
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0
-20 -18 -16 -14 -12 -10 -8 -6 -4 -2 0
10
15
20
5
PIN dB
25
30
35
40
LIN PHASE
LIN GAIN
45
-4.5
-3.5
-3.0
-2.5
-4.0
-2.0
-1.5
-1.0
-0.5
0
AN IDEAL LINEARIZER MUST PROVIDE A GAIN EXPANSION
THAT APPROACHES INFINITY NEAR SATURATION
dG/dP =>as Pin => Sat
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FORMS OF PREDISTORTION LINEARIZERS
Vout (HIGH)
Vin
Vout (LOW)
Vnl
1. TRANSMISSION
2. REFLECTIVE
3. IN LINE
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BASIC DSP PREDISTORTION (PD) LINEARIZER
• Every input level has a corresponding output level
• Correction (mag & phase) in look up tables (LUT) depends on input level
• LUT often adaptively updated for slow changes over time
90ºLOPA
DAC LPF
DAC LPF
COMPLEX
MULTIPLIER
I
Q
I’
Q’
X Y
LUT
jQIS nin )(
2
)(ninS
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DIGITAL PREDISTORTION
• CAN PRODUCE CURVES OF ANY SHAPE
• NORMALLY PROCESS AT BASEBAND
• CAN USE EITHER G AND OR I AND Q
• MUST SAMPLE AT > 2 X CORRECTION BW FOR G AND
• BUT ONLY > CORRECTION BW FOR I AND Q
• CORRECTION BW (CBW) >> 3 x BW OF SIGNAL
• MUST USE MANY BITS FOR HIGH CANCELATION (<6 dB/)
MIX DOWN TO BB MIX UP TO IFIF RF
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DIGITAL ADAPTIVE PREDISTORTION
CORRECTION BW MUST BE >> SIGNAL BW
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DIGITAL ADAPTIVE PREDISTORTION
ADAPTIVE SYSTEMS CORRECT AT << ENVELOPE RATE
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• ADVANTAGES:
* ACCURATE CORRECTION OVER WIDE DYNAMIC
RANGE AND FOR IRREGULAR
NON MONOTONIC CHARACTERISTICS
* EASY TO MODIFY AND UPDATE
* SIMPLE TO IMPLEMENT AS ADAPTIVE SYSTEM
• DISADVANTAGES:
* CORRECTION BANDWIDTH LIMITED BY
SAMPLING RATE: SR = CBW = N X BW
* COST CAN BE HIGHER THAN ANALOG
* POWER CONSUMPTION CAN BE HIGH
* WIDE BW SYSTEMS DIFFICULT TO IMPLEMENT
DIGITAL PREDISTORTION
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TECHNIQUES TO IMPROVE EFFICIENCY USING
NL PAs
• MANY WAYS TO ACCOMPLISH.
• CLASSICAL “KHAN METHOD” DEMODS ENVELOPE
AND LIMITS SIGNAL. THEN REMODULATES AT
OUTPUT PA.
• LINC SYSTEMS USE OBTAIN LINEAR AMPLIFICATION
BY COMBINING TWO NON-LINEAR PAs.
• LOAD MODULATION AND OUTPHASING
(DOHERTY – ONE EXAMPLE)
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EER – ENVELOPE ELIMINATION AND
RESTORATION
IF ELIMINATE ENVELOPE, SIGNAL CAN BE AMPLIFIED
IN NL PA OPERATED AT OR NEAR SATURATION.
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LINC – LINEAR AMPLIFICATION WITH NON-LINEAR
COMPONENTS
CAN OBTAIN ANY AMPLITUDE FROM THE SUM OF 2CONSTANT AMPLITUDE SIGNALS OF VARIABLE PHASE
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PERFORMANCE EVALUATION
MAGNITUDE & PHASE IMPORTANT INDICATORS OF PERFORMANCE
** OBTAIN WITH POWER SWEEP
SEPARATION OF 1 dB COMPRESSION AND SATURATION
PROVIDES GAGE FOR COMPARISON
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C/I (CARRIER TO IMD) MEASUREMENT
• MANY DIFFERENT STANDARDS MAKE COMPARISON DIF.
• DATA USUALLY PRESENTED REL TO BACKOFF FROM SAT.
• SAT POINT SHOULD BE SINGLE CARRIER SAT.
2 CARRIER SAT ABT 1 dB LOWER, NOISE ABT 1.5 dB.
• CAN NOT USE COMPRESSION POINT FOR REFERENCE.
1 dB = SAT - D
• BOTH IPBO AND OPBO USED … IPBO CAN BE MISLEADING.
BEST TO REFER TO OPBO
- OUTPUT LEVEL IS WHAT’S IMPORTANT!
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OFTEN RESULTS PRESENTED FOR C/I3 ONLY
7 73 3
5th 5th
th thrd rd
With Linearizers, not uncommon
for 5th order terms to be greater
than 3rds or of same order
Total C/I preferred to
C/I3
C/Imin is a good
compromise
C/I total = C/ Ι3 2 + Ι5 2 + Ι7 2 + ...S
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IMD TERMS CAN BE NON-SYMMETRICAL
UPPER & LOW ODD ORDER
AM/AM TERMS IN PHASE
UPPER & LOW ODD ORDER
AM/PM TERMS OUT OF PHASE
DUE TO MEMORY EFFECTS (AM/AM AND AM/PM)
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A LINEARIZER IMPROVES LINEARITY OF A
CLASS A SSPA
START -10.0 dBm CW 1.9500 GHz STOP 15.0 dBm
SAT
AMPL/AMP
GAIN
PHASE
AMPSAT
AMP
L/AMP
L/AMP
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70
65
60
55
50
45
40
35
30
25
20
15
10
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
OUTPUT BACKOFF IN dB
L/SSPA
SSPA
LINEARIZATION OF A CLASS A SSPA PROVIDES ONLY
A 0.5 dB POWER INCREASE FOR A C/I OF 26 dB,BUT A 2.5 dB POWER INCREASE FOR A C/I OF 50 dB
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45
40
35
30
25
20
15
101 2 3 4 5 6 7 8 9 10
C/I (MIN) IN dB
OUTPUT POWER BACKOFF IN dB
L/SSPA
SSPA26 dB
LINEARIZATION OF LESS LINEAR CLASS AB SSPA
PROVIDES > 1.5 dB POWER INCREASE FOR C/I OF 26 dB.
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WITH A TWTA A C/I = 26 dB CAN OBTAIN
> 3 dB POWER INCREASE
WITH MULTIPLE CARRIERS THE IMPROVEMENT IS EVEN GREATER!
1 2 3 4 5 6 7 8 9 10
10
15
20
25
30
35
OUTPUT POWER BACKOFF IN dB
40
45
>3dB
LTWTA
TWTA
High Band
Mid Band
Low Band
6dB
![Page 38: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/38.jpg)
MULTIPLE CARRIERS (N>2)
• NO SIMPLE RELATIONSHIP BETWEEN C/I FOR 2 AND N CARRIER CASE
• EXERCISE OVER RANGE Ppk = 2NPav
14 16 18 20 22 24 26 28 30 32
1
2
3
4
5
6
0
C/I IN dB
7
OPBO IMPROVEMENT
2-TONE
4-TONE
NPR
• GREATER IMPROVEMENT
(REDUCTION IN OPBO) FOR A GIVEN C/I AS N INCREASES
![Page 39: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/39.jpg)
NPR - NOISE POWER RATIO
MEASURE OF N-CARRIER C/I
WANT DEPTH OF GENERATOR NOTCH > 10 dB BELOW NPR OF INTEREST
![Page 40: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/40.jpg)
NPR PREDICTS AMPLIFIER PERFORMANCE
WITH MANY CARRIERS
1 2 3 4 5 6 7 8 9 10 11
10
15
20
25
30
35
5
LTWTA
TWTA
OUTPUT POWER BACKOFF IN dB
4 dB
FOR C/I = 25 dB OBTAIN ALMOST 6 dB INCREASE IN POWER.
![Page 41: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/41.jpg)
NPR OF CLASS AB SSPA
![Page 42: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/42.jpg)
PROVIDES SIGNIFICANT REDUCTION IN
SPECTRUM
![Page 43: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/43.jpg)
> 2 dB POWER INCREASE
EVEN NEAR SAT
![Page 44: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/44.jpg)
REDUCTION IN SPECTRAL REGROWTH PROVIDED
BY LINEARIZATION OF A TWTA
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
25
30
35
40
45
50
20
OPBO IN dB
15dB
LTWTA
TWTA
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ETSI STANDARDS
• THE EUROPEAN TELECOMMUNICATIONS STANDARDS
INSITUTE (ETSI) HAS PRODUCED STANDARDS FOR THE
TRANSMISSION OF MPEG-2 TRANSPORT STREAMS OVER
SATELLITES USING BEM.
- QPSK (EN 300 421)
- 8PSK and 16QAM (EN 301 210).
• PROVIDES A MECHANISM FOR ENCAPSULATING INTERNET
PROTOCOL (IP) DATAGRAMS WITHIN A DIGITAL VIDEO
BROADCAST (DVB) WAVEFORM (EN 301 192).
• PROVIDES AN OPEN FRAMEWORK FOR DELIVERING
INTERNET SERVICES OVER SATELLITE.
• THE EUROPEAN TELECOMMUNICATIONS STANDARDS
INSITUTE (ETSI) HAS PRODUCED STANDARDS FOR THE
TRANSMISSION OF MPEG-2 TRANSPORT STREAMS OVER
SATELLITES USING BEM.
- QPSK (EN 300 421)
- 8PSK and 16QAM (EN 301 210).
• PROVIDES A MECHANISM FOR ENCAPSULATING INTERNET
PROTOCOL (IP) DATAGRAMS WITHIN A DIGITAL VIDEO
BROADCAST (DVB) WAVEFORM (EN 301 192).
• PROVIDES AN OPEN FRAMEWORK FOR DELIVERING
INTERNET SERVICES OVER SATELLITE.
![Page 46: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/46.jpg)
MULTI-CARRIER QAM• A TYPICAL DVB QAM SIGNAL REQUIRES ABOUT 2 MHz OF
BW.
• A STANDARD 36 MHz SATELLITE TRANSPONDER CAN
ACCOMMODATE AT LEAST 12 16QAM FDM SIGNALS.
• THIS FORMAT GREATLY INCREASES THROUGHPUT AND
REVENUE AND IS IDEAL FOR INTERNET VIA SATELLITE.
• A TYPICAL DVB QAM SIGNAL REQUIRES ABOUT 2 MHz OF
BW.
• A STANDARD 36 MHz SATELLITE TRANSPONDER CAN
ACCOMMODATE AT LEAST 12 16QAM FDM SIGNALS.
• THIS FORMAT GREATLY INCREASES THROUGHPUT AND
REVENUE AND IS IDEAL FOR INTERNET VIA SATELLITE.
![Page 47: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/47.jpg)
• IMD IS THE MAJOR PROBLEM. IT LIMITS THE BIT
ERROR RATE (BER) OF DIGITAL SIGNAL.
• CODING USED TO INCREASE BER FOR A SMALL
SACRIFIC IN BW EFFICIENCY.
• NO DATA AVAILABLE ON THE AFFECT OF
DISTORTION ON MULTI-CARRIER QAM WITH OR
WITHOUT CODING.
• A HARDWARE TEST PLATFORM WAS SET UP TO
INVESTIGATE THE PERFORMANCE OF CODED FDM
QAM THROUGH A LINEARIZED TWTA.
MULTI-CARRIER QAM
• IMD IS THE MAJOR PROBLEM. IT LIMITS THE BIT
ERROR RATE (BER) OF DIGITAL SIGNAL.
• CODING USED TO INCREASE BER FOR A SMALL
SACRIFIC IN BW EFFICIENCY.
• NO DATA AVAILABLE ON THE AFFECT OF
DISTORTION ON MULTI-CARRIER QAM WITH OR
WITHOUT CODING.
• A HARDWARE TEST PLATFORM WAS SET UP TO
INVESTIGATE THE PERFORMANCE OF CODED FDM
QAM THROUGH A LINEARIZED TWTA.
![Page 48: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/48.jpg)
BER OF UNCODED DATAQEF CAN NOT BE ACHIEVED
B E R o f u n c o d e d 1 6 Q A M ( i n m u l t i c a r r i e r e n v i r o n m e n t t h r o u g h T W T A )
v s O u t p u t b a c k o f f
1 E - 0 6
1 E - 0 5
1 E - 0 4
1 E - 0 3
1 E - 0 2
1 E - 0 1
1 E + 0 0
- 1 2 - 1 0 - 8 - 6 - 4 - 2 0
O u t p u t B a c k o f f o f T W T A ( d B )
BE
R
B E R [ L in e a r iz e r
O N , U n c o d e d ]
B E R [ L in e a r iz e r
O F F , U n c o d e d ]
LINEARIZER PROVIDES A HUGH ADVANTAGELINEARIZER PROVIDES A HUGH ADVANTAGE
![Page 49: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/49.jpg)
BER OF 3/4 CONVOLUTIONAL FEC DATAQEF STILL CAN NOT BE ACHIEVED
LINEARIZER PROVIDES ~ 3 dB ADVANTAGE
B E R o f F E C c o d e d 1 6 Q A M ( i n m u l t i c a r r i e r e n v i r o n m e n t t h r o u g h T W T A )
v s O u t p u t b a c k o f f
1 E - 0 6
1 E - 0 5
1 E - 0 4
1 E - 0 3
1 E - 0 2
- 1 2 - 1 0 - 8 - 6 - 4 - 2 0
O u t p u t B a c k o f f o f T W T A ( d B )
BE
R
B E R [ L in e a r iz e r
O N , A fte r F E C ]
B E R [ L in e a r iz e r
O F F , A fte r F E C ]
LINEARIZER PROVIDES ~ 3 dB ADVANTAGE
![Page 50: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/50.jpg)
BER OF FEC/REED-SOLOMON CODED DATA
LINEARIZER PROVIDES > 2 dB ADVANTAGE AT QEF
B E R o f F E C & R e e d - S o l o m o n c o d e d 1 6 Q A M ( i n m u l t i c a r r i e r
e n v i r o n m e n t t h r o u g h T W T A ) v s O u t p u t b a c k o f f
1 E - 2 1
1 E - 1 8
1 E - 1 5
1 E - 1 2
1 E - 0 9
1 E - 0 6
1 E - 0 3
- 1 2 - 1 0 - 8 - 6 - 4 - 2 0
O u t p u t B a c k o f f o f T W T A ( d B )
BE
R
B E R [ L in e a r iz e r
O N , A fte r R e e d
S o lo m o n ]
B E R [ L in e a r iz e r
O F F , A fte r R e e d
S o lo m o n ]
LINEARIZER PROVIDES > 2 dB ADVANTAGE AT QEF
![Page 51: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/51.jpg)
0
1 2 3 4 5 6 7 8 9 10
20
30
40
10
OUTPUT BACKOFF IN dB
50
60
70
80
IDEAL LINEARIZER PERFORMANCE IS LIMITED BY SIGNAL
PEAK-TO-AVERAGE CHARACTERISTICS (PAC)
2-TONE
MANY-TONE (NPR)
PAC SETS MINIMUM BACKOFF OF PA!
CANNOT IMPROVE BY LINEARIZATION.
MUST USE PA WITH HIGHER POWER/EFFICIENCY
![Page 52: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/52.jpg)
DSP L/TWTA AT 3 dB OPBO – C/I > 50 dB
![Page 53: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/53.jpg)
IMD CANCELLATION> 30 dB
![Page 54: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/54.jpg)
MULTI-TONE
![Page 55: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/55.jpg)
Digital linearization across 100 MHz using filters to correct for frequency memory effects
WIDE BAND (100 MHz)
![Page 56: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/56.jpg)
• USEFULL LINEARIZER
CHARACTERISTICS
< 2 GHz TO > 20 GHz.
• ~3 dB GAIN INCREASE
FROM 6 TO 16 GHz.
• DECREASING PHASE
CHANGE OF 5° TO 10°
ANALOG PREDISTORTION CAN PROVIDE
A VERY BROAD FREQUENCY RESPONSE
2 GHz 20 GHz
![Page 57: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/57.jpg)
1 dB CP IS MOVED > 6 dB CLOSER TO SAT FROM 6 TO 16 GHz
PHASE SHIFT IS REDUCED FROM > 30° TO < 10 ° OVER THIS BAND
LINEARIZER’S PERFORMANCE WITH GaN PA
![Page 58: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/58.jpg)
• NON-LINEAR CHARACTERISTICS OF THE MODULATORS USED FOR THE
TRANSMISSION OF SIGNALS OVER FIBER OPTIC LINKS ARE SIMILAR TO
CHARACTERISTICS OF PAs
• WIDEBAND GaN LINEARIZER WAS TESTED WITH A MACH ZEHNDER MODULATOR
(MZM) FIBER OPTIC LINK OVER 4 TO 12 GHz BAND
• FOR MZM LINKS, LITTLE OR NO NONLINEAR PHASE CHANGE IS PRODUCED AND
THE LINEARIZER WAS THUS BIASED FOR MINIMUM PHASE CORRECTION
LINEARIZER PERFORMANCE WITH PHOTONIC LINK
AMP AMP/
EQ
PRE-
DISTORTER MZMMPR0020
PHOTO
RECEIVER
1550nm
SOURCE
LASER
![Page 59: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/59.jpg)
• MZM HAS FREQUENCY
INDEPENDENT NON-LINEAR
CHARACTERISTICS
• THE LINEARIZER MOVES THE 1 dB
CP 5 dB CLOSER TO SATURATION
• SIMILAR RESULTS WERE
ACHIEVED FROM 4 TO 12 GHz
• WITH NO SIGNIFICANT
DEGRADATION OF THE LINK’S
NEAR ZERO PHASE SHIFT
GAIN TRANSFER RESPONSE OF MZM LINK AT 8 GHz WITH
AND WITHOUT LINEARIZATION
![Page 60: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/60.jpg)
BIG IMPROVEMENT IN C/I AT ALL LEVELS EXCEPT NEAR SAT
> 10 dB OVER MUCH OF THE RANGE WITH A PEAK OF > 30 dB
2-TONE C/I OF NONLINEARIZED AND LINEARIZED LINK
INPUT POWER BACKOFF PBO (dB)
0 2 4 6 8 10 12 14 16 18 20
8 GHz
6 GHz 10 GHz
12 GHz
4 GHz
4,6, 8, 10, 12 GHz
LINEARIZED4 - 12 GHz
NON-LINEARIZED4 - 12 GHz
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Frequency
(GHz)
IMD
Improvement
(dB)
IIP3
Improvement
(dBm)
SFDR3
Improvement
(dB·Hz2/3
)
4 13.3 6.65 4.43
6 20.0 10.0 6.67
8 23.6 11.8 7.87
10 17.9 8.95 5.97
12 12.3 6.15 4.10
SIGNIFICANT IMPROVEMENT IN LINEARITY PROVIDED OVER 1.5
OCTAVE FREQUENCY RANGE
SFDR INCREASED BY > 4 dB OVER THIS RANGE
IMD, IIP3 AND SFDR IMPROVEMENTS
OF LINEARIZED LINK
![Page 62: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/62.jpg)
• SOURCES OF ME
- Frequency ME
- Drain/collector ME
- Gate/base ME
- Device related ME
- Thermal ME
MEMORY EFFECTS (ME)
![Page 63: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/63.jpg)
MEMORY EFFECTS
• Memory Effects are changes in a Power Amplifier’s (PA) non-linear characteristics resulting from the past history of the input signal.
Vo = f(Vin, time)
• Primary cause drain/collector and gate/base bias change.
• Thermal, device and frequency are also factors.
• Standard predistortion linearizers depend on a stable non-linear response, and can be particularly degraded by memory effects.
![Page 64: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/64.jpg)
GAIN VS. INPUT POWER IS
AFFECTED BY FREQUENCY
PHASE VS. INPUT POWER IS
AFFECTED BY FREQUENCY
• Standard predistorter look-up tables have the same correction for every frequency
• Real PA non-linearities do change with frequency
FREQUENCY MEMORY EFFECTS
![Page 65: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/65.jpg)
TWO KINDS OF BANDWIDTH
1) STATIC BANDWIDTH - ABILITY OF LIN MAG/PHASE TRANSFER RESP TO
EQUALIZE AMP AT ALL FREQ OF INTEREST
2) DYNAMIC BANDWIDTH - ABILITY OF LIN MAG/PHASE TRANSFER RESP
TO FOLLOW ENVELOPE OF SIGNALS
- MEAS WITH 2 CLOSE SPACED TONES
AT ALL FREQ OF INTEREST
- MEAS WITH 2-TONE SIGNAL IN WHICH THE
SPACING OF THE TONES IS INCREASED
![Page 66: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/66.jpg)
THE LINEARITY OF AMPLIFIERS DEGRADE WITH
INCREASING CARRIER SPACING
![Page 67: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/67.jpg)
MAJOR CAUSE OF DEGRADATION --
ENVELOPE FREQUENCY Fe = F/2
TRANSFER CHARACTERISTICS CHANGE WITH Fe
INABILITY OF AMPLIFIERS TO FOLLOW RAPIDLY CHANGING ENVELOPE
![Page 68: LINEARIZING HIGH POWER AMPLIFIERS - IEEEewh.ieee.org/r8/norway/ap-mtt/files/LIN-BASICS-0409 Allen...A LINEARIZER IMPROVES LINEARITY OF A CLASS A SSPA START -10.0 dBm CW 1.9500 GHz](https://reader034.vdocuments.us/reader034/viewer/2022051406/5aaa0ccd7f8b9a72188db14b/html5/thumbnails/68.jpg)
RF ENVELOPE (GREEN) IS ~ 140º OUT OF PHASE WITH
DRAIN RIPPLE (YELLOW)
IMDs caused by the PA non-linearity subtract from the
ripple induced IMDs
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A low impedance network at envelope frequencies across the drain and effective power supply decoupling can minimize memory
effects
BIAS (DRAIN) INDUCED ME
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IMPROVEMENT IN C/I RESULTING FROM ADDED LOW
INDUCTANCE DRAIN CAPACITORS (RESONATE AT 12 MHz)
40
35
30
25
20
15
10
Linearizer with Caps
Linearizer without Caps
No Linearizer with Caps
No Linearizer without Caps
Linearized (1MHz Average)
Non-Linearized (1 MHz Average)
OUTPUT BACKOFF IN dB
30 MHz CARRIER SPACING
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LINEARIZERS INCREASE HPA POWER CAPACITY AND
EFFICIENCY FOR MULTI-CARRIER AND COMPLEX
DIGITAL SIGNALS
NEW LINEARIZER DESIGNS HAVE GREATLY
ENHANCED PERFORMANCE
SSPAs - BENEFIT GREATEST FOR CLASS B AND AB
2 X POWER INCREASE IN HIGH LIN APPLICATIONS
TWTAS - 4 X POWER INCREASE AND DOUBLE
EFFICIENCY
SUMMARY
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PREDISTORTION:
ADVANTAGES SIMPLICITY, WIDEBAND,
VIABLE BOTH LOW AND HIGH LIN.
DSP CAN PROVIDE VERY HIGH LIN.
INDIRECT FEEDBACK:
WORKS WELL, BUT LIMITED
IN BANDWIDTH.
FEEDFORWARD:
LINEARIZATION IS MOST VALUABLE
WHEN VERY HIGH LIN REQUIRED.
SUMMARY
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FOR MORE INFORMATION
1. A. Katz, “Linearization: Reducing Distortion in Power Amplifiers,” IEEE
Microwave Magazine, pp. 37-49, December 2001.
2. Vuolevi and Rahkonen, “Distortion in RF Power Amplifiers”, Artech
House, 2003.
3. S. Cripps, “Advanced Techniques in RF Power Amplifier Design”,
Artech House, 2002.
4. A. Katz and R. Gray, “The Linearized Microwave Power Module,” MTT-S
International Microwave Symposium Digest, June, 2003.
5. A. Katz, “Performance Of Multi-carrier 16QAM Over a Linearized TWTA
Satellite Channel,” AIAA 20th International Communications Satellite
Systems Conference Proceedings, Montreal, May 2002.
6. P. Kenington, “Methods Linearize RF Transmitters and Power Amps,
Part 1, ”Microwaves & RF Magazine,” pp. 103-116, December 1998,
Part 2, pp. 79-89, January 1999.