fslp presentation: fast source- and load-pull using your vna at its full power - fast, simple and...
TRANSCRIPT
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NM600 FSLP
Source- and Load-Pullusing your VNAat its full power
November 2010
- Fast, Simple and Low-Cost -
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© NMDG 2009 - 2010 2
Outline
● Target Markets and Requirements● Key Benefits of NM600● Problem description● Fast Source- and Load-Pull Concepts● Setup for NM600● NM600 FSLP Application● Examples of Source- and Load-pull● Customization of NM600 for power applications● Conclusion
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© NMDG 2009 - 2010 3
Target Markets and Requirements
● Semiconductor Manufacturers● Low cost and fast characterization● Minimize the number of measurement setups● VNA is typically already being used
● Handsets● Cheap● Small● Talk forever without recharging● Speech, data, movies, conferencing etc...
● Base-stations● Low maintenance cost● More cells● Smaller units
NM600● Needing to perform non-50 Ohm
characterization● Owning a vector network analyzer● Not willing to invest in tuners
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© NMDG 2009 - 2010 4
NM600: Key Benefits● Fast
● Electronic tuning➢ ~0.6s/point in Fast Mode (no control loop of independent variables)➢ ~1.4s/point in Control Loop Mode
● Simple and Accurate● Standard network analyser connection to device under test (*)● Only VNA relative and power calibrations required
● Low-cost● No tuner required (passive techniques)● No expensive external sources required (active techniques)
● Direct feedback● Source and load impedances● Fundamental power and phase spectrum of input and output waves● Derived quantities such as input and output delivered power, PAE
(*) Circulator advised for source protection
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© NMDG 2009 - 2010 5
The Amplifier as essential Power Transformer
InformationSignal
OKLDMOSGaNGaAsSiGe...
Amplify
Do not distort
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© NMDG 2009 - 2010 6
The Amplifier as essential Power Transformer
DC Power
RF Power
InformationSignal
LDMOSGaNGaAsSiGe...
Convert DC Power into RF Power
Avoid Power Dissipation
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© NMDG 2009 - 2010 7
Classic Technique: Fundamental Source and Loadpull
DUT
Bias
f 0
f 0
f 0
PIn
POut
P source
● Measure● Input and output DC and RF power
● For different values of● Input power● Bias● Load impedances● Source impedances
● Display and analyse collected data● Until “some optimal” point is reached
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© NMDG 2009 - 2010 8
What now?
● S-parameters● Small-signal characterisation● Only when no distortion
● 50 Ohm environment● Matching requires non-50 Ohm
● Harmonic and Intermod distortion● Only in 50 Ohm environment
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© NMDG 2009 - 2010 9
Concept of Fast Source-Pull
Calculate mathematically
a1b1
ig
vg
VGG
b
2a2
id
vd
VDD
ZL
To VNAPort 1
To VNAPort 2
Source1
Power SweepP
in
f0
Measure P∀in
vg, i
g, v
d, i
d at DC
a1, b
1, a
2, b
2 at f
0
∀ PAV
and Zsource
Pdelin
, Pdelout
, PAE, ... at f0
Source Pull Contours
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© NMDG 2009 - 2010 10
Concept of Fast Load-Pull
Adapting Pinject
and Φinject
for given Pin
Synthesize ΓL
Calculate
Measure vg, i
g, v
d, i
d at DC
a1, b
1, a
2, b
2 at f
0
a1b1
ig
vg
VGG
b
2a2
id
vd
VDD
To VNAPort 1
To VNAPort 2
Source1
Fixed Pin
f0 Source
2
f0
Active Injection
OptionalPrematch
Tuner
ΓL
Pdelin
, Pdelout
, PAE, ... at f0
Load Pull Contours
Pinject
Φinject
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© NMDG 2009 - 2010 11
NM600
2/4-port VNA + Hardware (opt.) + Software● direct gen. & rec. access● Second internal source
● Circulator● Amplifier● Manual tuner
NM600FSLP
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© NMDG 2009 - 2010 12
NM600 Block Diagram on R&S ZVA24
Port 1 Port 2
DUTPossibleSignal
Conditioning
SRC#1
Receivera1 b1 b2 a2
20 dB
Port 4
PossibleSignal
Conditioning
SRC#2
4-port R&S ZVA24
Test-Set Limitations: 27 dBm
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© NMDG 2009 - 2010 13
NM600 Setup with ZVA and ZVAX
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© NMDG 2009 - 2010 14
NM600 Block Diagram on R&S ZVA24
Port 1 Port 2
DUTPossibleSignal
Conditioning
SRC#1
Receivera1 b1 b2 a2
20 dB
Port 4
PossibleSignal
Conditioning
SRC#2
4-port R&S ZVA24
ZVAX
-22 dBm-3 dBm
35 dB
10 dB 20 dB
26 dB
43 dBm 43 dBm
14 dB
12.5 dB
Test-Set Limitations: 43 dBmCustomized Test-sets are possible
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© NMDG 2009 - 2010 15
NM600 FSLP Application
DataCollection
Off-lineDisplay
Selection of independent variables
Display Configuration● Style➢ Points➢ Contours➢ Contours + Points
● Derived Quantity:➢ Selection of Qty & Unit➢ Multiple quantities at once
Selection of Datasets● Multiple datasets at once➢ Union of indep. variables
Multi-tab Displays
Source- or Load Pull Mode
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© NMDG 2009 - 2010 16
NM600 FSLP Application – Data Collection
Live Status MonitorDesired & realized sweep points
Sweep Plan Configuration
Sweep Start / Pause / Stop
Progress Bar
Tune independent fixed variablesChange value & start automatically a new sweep
Log of messagesVerbose, Warning & Errors
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© NMDG 2009 - 2010 17
NM600 FSLP Application – Sweep Plan
SweepableVariables
Sweep Plan Sequence● Sweep Order● Turn On/Off Sequences
ΓLoad
SweepConfiguration
Advanced Settings● Sweep Mode● Control Loop Settings
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© NMDG 2009 - 2010 18
NM600 FSLP Application – Source Pull Display
For given Γs sets
For a given Pav @ Selectedf
0, Γ
L, v
DC1, v
DC2
Calculatemathematically
DisplaySource Pull Contours
● # Contour levels● Min (▼) & Max (▲)● Colour Scale to map values
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© NMDG 2009 - 2010 19
NM600 FSLP Application – Load Pull Display
@ Selected P
in, f
0, Γ
L, v
DC1, v
DC2
Calculatemathematically
DisplayLoad Pull Contours
● # Contour levels● Min (▼) & Max (▲)● One colour per derived qty
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© NMDG 2009 - 2010 20
Example: EPA120B-100P
● EPA120B-100P● high efficiency heterojunction power FET● power output: + 29.0dBm typ.● power gain: 11.5dB typ. @ 12 GHz
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© NMDG 2009 - 2010 21
Source-Pull
Measure for power sweep Pin = -20 to -5 dBm, F
0 = 1.5GHz
Vg = -1.2V, V
d = 5V
Load
Calculated for Pav
= -12 dBm Class AB
Pdelin
Pdelout PAE
Min = -23.2 dBmMax = -12.2 dBm
Δ = 1 dB
Min = -4.6 dBmMax = 6.6 dBm
Δ = 1 dB
Min = 0.8 %Max = 6.4 %
Δ = 0.4 %
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© NMDG 2009 - 2010 22
Load-Pull
Synthesized load impedanceswith active injection
Pdelout
Min = -5.5 dBmMax = 4.1 dBm
Δ = 1 dB
PAEMin = 0.4 %Max = 5 %Δ = 0.23 %
Pin = -10 dBm, F
0 = 1.5GHz
Vg = -1.2V, V
d = 5V
Class AB
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© NMDG 2009 - 2010 23
A Technical Note: Power Requirements for Active Injection
Amplifier ActiveTunerE Amp
Amp TunerETuner
Load
∣ETunerE Amp ∣=∣Load−Tuner1− AmpLoad ∣
Load=ETunerTuner E AmpE Amp AmpETuner
If perfect circulator: Tuner=0
Load=ETunerE Amp AmpETuner
∣ETunerE Amp ∣=∣Load1− AmpLoad ∣ ∣ETunerE Amp ∣=∣11− Amp∣
Load=1
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© NMDG 2009 - 2010 24
Getting more insight...
Dynamic Load line including Harmonicswith the NM300 ZVxPlus
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© NMDG 2009 - 2010 25
Conclusion
For more information [email protected]
www.nmdg.be
The NM600 FSLP Application enables fundamental Source and Load Pull
using only a VNA
It is fast, simple, low-cost and accurate