Post on 19-Jan-2016
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SENIOR PROJECT 2008
Ultra Wideband AmplifierSarah KiefSaif Anwar
Advisor: Dr. Shastry
Bradley UniversityElectrical Engineering
Outline
UWB overview Project Description Design procedures
Lumped element Design M-derive Design Layout Microstrip Design Coplanar Wave Guide Design Final Layout
Future work
Applications
Block Diagram
Ultra Wideband Overview
UWB definition Spectrum, 3.1 – 10.6 GHz Large bandwidth, low power, short distances Uses Gaussian Pulses.
Frequency Spectrum
UWB History
History First used in 1901 Gugleilmo Marconi transmitted Morse code using spark-
gap radio transmitters 1960s to 1980s restricted to government use 1998 FCC legalized for commercial use
Previous Work
Senior Project 2007 done by Jarred Cook and Nathan Gove. Goal was to create a scaled down UWB transceiver.
Research done by other members of the scientific community.
Previous Work
Reference
Gain (dB)
NF (dB)
BW (GHz)
PD (mW) Topology Technology
[1] 17.5 3.13.1-10.6 33.2 Distributed
0.18 µm CMOS
[2] 10 6.43.1-10.6 5.4 Distributed
0.35 µm SiGe BiCMOS
[3] 9 5.33.1-10.6 22 Distributed
0.18 µm CMOS
[4] 20 6.51.6-12.1 40
Low Power Distributed
0.35 µm SiGe BiCMOS
[5] 7.34.3-6.1 0-22 53 Distributed
0.18 µm CMOS
[6] 10.63.4-5.3 0-14 52 Distributed
0.18 µm CMOS
[7] 6 6 1-27 68.1 Distributed0.18 µm CMOS
Project Description
Functional Description Topology: Distributed Amplifier (DA) Low Noise Amplifier (LNA) implemented with a Gas FETs-
NE4210S01, Pseudomorphic Hetero-Junction FET Specifications
Gain: 16 dB Noise Figure: 2.5 dB
Requirements Frequency Range External Interferences
External Interferences
Standard Frequency Range Reference
IEEE 802.11a 5 GHz [8]
IEEE 802.11i 2.4GHz and 5GHz [8]
IEEE 802.16WiMAX 2GHz – 11 GHz [9]
DC-IV Curves
Bias Selection
DC-IV curves and bias point selection.
0.5 1.0 1.5 2.0 2.5 3.0 3.50.0 4.0
10
20
30
40
50
60
0
70
VDS
I_P
robe
1.i,
mA
Readout
m1
3.9800.061
m2
4.0000.055
m3
2.0100.010
m4
m1VDS=I_Probe1.i=0.032VGS=-0.520000
3.980m2VDS=I_Probe1.i=0.029VGS=-0.560000
3.980m3VDS=I_Probe1.i=0.026VGS=-0.600000
4.000m4VDS=I_Probe1.i=0.010VGS=-0.680000
2.010
Cin and Cout Calculation
Eqn cin=imag(Y(1,1))/(2*pi*freq)
4 5 6 7 8 9 103 11
2E-13
3E-13
4E-13
5E-13
6E-13
1E-13
7E-13
freq, GHz
cin
Eqn cinavg=mean(cin)
cinavg
3.338E-13
Eqn cout=imag(Y(2,2))/(2*pi*freq)
4 5 6 7 8 9 103 11
5.0E-14
1.0E-13
1.5E-13
2.0E-13
2.5E-13
3.0E-13
3.5E-13
0.0
4.0E-13
freq, GHzco
ut
Eqncoutavg=mean(cout)
coutavg
1.686E-13
Lumped Component Schematic
LGLG/2-
LG/2 LG
LDLDLD/2
LD/2
LL9
R=L=.424 nH
CC5C=.0954 pF
LL8
R=L=.238 nHTerm
Term1
Z=50 OhmNum=1
CC6C=2400 pF
LL19
R=L=.395 nH
LL11
R=L=.238 nH
LL3
R=L=.79 nH
LL17
R=L=.79 nH
LL2
R=L=.395 nH
LL14
R=L=2200 nH
CC9C=2400 pF
CC11C=2400 pF
V_DCSRC2Vdc=-.45 V
RR2R=50 Ohm
CC8C=.0954 pF
LL13
R=L=.424 nH
LL25
R=L=56.31 pH
LL24
R=L=56.31 pH
LL23
R=L=56.31 pH
CC3C=2400 pF
LL7
R=L=2200 nH
CC4C=2400 pF
RR3R=50 Ohm
CC2C=.0954 pF
LL6
R=L=.424 nH
LL5
R=L=.238 nH
V_DCSRC1Vdc=1 V
S_ParamSP1
Step=Stop=10.6 GHzStart=3.1 GHz
S-PARAMETERS
TechInclude_NEC_ACTIVELIBRARYNEC_ACTIVELIBRARY_LibFile=Nominal
LL1
R=L=.395 nH
LL18
R=L=.395 nH
LL4
R=L=.79 nH
LL15
R=L=.79 nH
LL20
R=L=56.31 pH
LL21
R=L=56.31 pH
LL22
R=L=56.31 pH
NEC_FETQ2partName=NE4210S01_v116
NEC_FETQ3partName=NE4210S01_v116
NEC_FETQ1partName=NE4210S01_v116
LL12
R=L=.424 nH
CC7C=.0954 pF
LL10
R=L=.238 nH
TermTerm2
Z=50 OhmNum=2
CC12C=2400 pF
M-Derived Design
Microstrip Line Design
Translated lumped element components into respective lengths and widths in the MSTRIP program Capacitors Zo=30 ohms Inductor Zo=90 ohms
Built layout in ADS and simulated
Microstrip Layout
MSUBMSub1
Rough=0 milTanD=0.0012T=35 umHu=3.9e+034 milCond=5.8E7Mur=1Er=2.94H=20.0 mil
MSub
TechInclude_NEC_ACTIVELIBRARYNEC_ACTIVELIBRARY_LibFile=Nominal
S_ParamSP1
Step=Stop=10.6 GHzStart=3.1 GHz
S-PARAMETERS
MTEE_ADSTee3
W3=.703556 mmW2=25.0 milW1=.703556 mmSubst="MSub1"
MLINL12
L=.9249 mmW=.703556 mmSubst="MSub1"
MSTEPStep5
W2=.703556 mmW1=2.67022 mmSubst="MSub1"
MLINC7
L=.5335 mmW=2.67022 mmSubst="MSub1"
TermTerm1
Z=50 OhmNum=2
CC14C=2400 pF
MLINL17+L11
L=1.3820 mmW=.703556 mmSubst="MSub1"
VIAGNDV14
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
VIAGNDV11
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
MLINL15+L10
L=1.3820 mmW=.703556 mmSubst="MSub1"MTEE_ADS
Tee9
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
MLINTL5
L=.1228 mmW=.703556 mmSubst="MSub1"
NEC_FETQ3partName=NE4210S01_v116
MLINTL6
L=.1228 mmW=.703556 mmSubst="MSub1"
MTEE_ADSTee10
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
MLINTL4
L=.1228 mmW=.703556 mmSubst="MSub1"
MLINL20
L=1.7234 mmW=.703556 mmSubst="MSub1"
VIAGNDV3
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
VIAGNDV13
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
NEC_FETQ2partName=NE4210S01_v116
MLINTL1
L=.1228 mmW=.703556 mmSubst="MSub1"
MTEE_ADSTee5
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
MLINL4
L=1.7234 mmW=.703556 mmSubst="MSub1"MTEE_ADS
Tee6
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
MLINTL2
L=.1228 mmW=.703556 mmSubst="MSub1" VIAGND
V12
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
VIAGNDV2
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
MTEE_ADSTee8
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
MLINL8+L2
L=1.3820 mmW=.703556 mmSubst="MSub1"
NEC_FETQ1partName=NE4210S01_v116
MLINTL3
L=.1228 mmW=.703556 mmSubst="MSub1"
MTEE_ADSTee7
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
MLINL21
L=1.7234 mmW=.703556 mmSubst="MSub1"
VIAGNDV6
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
VIAGNDV5
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
MTEE_ADSTee4
W3=.703556 mmW2=25.0 milW1=.703556 mmSubst="MSub1"
MLINC8
L=.5335 mmW=2.67022 mmSubst="MSub1"
MSTEPStep6
W2=.703556 mmW1=2.67022 mmSubst="MSub1"
MLINL13
L=.9249 mmW=.703556 mmSubst="MSub1"
V_DCSRC2Vdc=-.45 V
CC16C=2400 pF
LL19
R=L=2200 nH
RR2R=50 Ohm
CC15C=2400 pF
MLINL3
L=1.7234 mmW=.703556 mmSubst="MSub1"
VIAGNDV10
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
CC10C=2400 pF
LL18
R=L=2200 nH
V_DCSRC1Vdc=1.0 V
MLINL5+L1
L=1.3820 mmW=.703556 mmSubst="MSub1"
MLINC2
L=.5335 mmW=2.67022 mmSubst="MSub1"
MSTEPStep1
W2=.703556 mmW1=2.67022 mmSubst="MSub1"
MLINL6
L=.9249 mmW=.703556 mmSubst="MSub1"
MTEE_ADSTee2
W3=.703556 mmW2=.703556 mmW1=25.0 milSubst="MSub1"
CC11C=2400 pF
RR1R=50 Ohm
VIAGNDV8
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
MTEE_ADSTee1
W3=.703556 mmW2=.703556 mmW1=25.0 milSubst="MSub1"
MLINC5
L=.5335 mmW=2.67022 mmSubst="MSub1"
MSTEPStep7
W2=.703556 mmW1=2.67022 mmSubst="MSub1"
MLINL9
L=.9249 mmW=.703556 mmSubst="MSub1"
TermTerm2
Z=50 OhmNum=1
CC9C=2400 pF
Simulations
Amplifier Gain
4 5 6 7 8 9 103 11
1
2
3
4
5
6
7
8
9
10
11
12
13
0
14
freq, GHz
dB(S
(2,1
))
Readout
m1
m1freq=dB(S(2,1))=13.146Max
7.329GHz
3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.0 7.5 8.0 8.5 9.0 9.5 10.0 10.53.0 11.0
-150
-100
-50
0
50
100
150
-200
200
freq, GHz
phas
e(S
(2,1
))
Phase Linearity
Stability Factor
Eqn k = stab_fact(S) m2freq=k=1.477Min
10.60GHz
4 5 6 7 8 9 103 11
2
3
4
5
1
6
freq, GHz
k
Readout
m2
m2freq=k=1.477Min
10.60GHzEqn k1=stab_meas(S)
m3freq=k1=0.868Min
10.60GHz
4 5 6 7 8 9 103 11
0.88
0.90
0.92
0.94
0.86
0.96
freq, GHz
k1
Readout
m3
m3freq=k1=0.868Min
10.60GHz
Coplanar Wave Guide Design
Test Transistors Chose RT/Duriod 6002 board
Thickness : .508 mm Dielectric Constant : 2.94 1 oz copper plating High mechanical strength
Designed dimensions Line calc in ADS Width of center conductor = 1.24 mm Air Gap = .63 mm Length of center conductor = 10 mm
Full Coplanar Wave Guide
Half Coplanar Wave Guide Layout
ADS Schematic of Coplanar Waveguide
Layout Simulation
De-Embedding In AdS
Equation 1: Tm = Tmeasured = stot(s)
Equation 2: Tf = Tm/(((stot(simulations_half_cplanarwg(s))))^2
Equation 3: St = ttos((Tf)
V_DCSRC1Vdc=-.68 V
V_DCSRC2Vdc=2.0 V
S_ParamSP1
Step=Stop=11.0 GHzStart=3.0 GHz
S-PARAMETERS
TechInclude_NEC_ACTIVELIBRARYNEC_ACTIVELIBRARY_LibFile=Nominal
LL2
R=L=2200 nH
CC2C=2400 pF
LL1
R=L=2200 nH
CC1C=2400 pF
S2PSNP2File="half_1.s2p"
21
Ref
TermTerm1
Z=50 OhmNum=1
S2PSNP1File="half_1.s2p"
21
Ref
NEC_FETQ2partName=NE4210S01_v116
TermTerm2
Z=50 OhmNum=2
DC-IV Curves of Transistor
Final Amplifier Layout
MLINTL8
L=10 mil {t}W=1.24 mil {-t}Subst="MSub1"
MLINTL7
L=10 mil {t}W=0.62 mil {-t}Subst="MSub1"
MLINTL9
L=5 mil {t}W=1.295 mmSubst="MSub1"
MLINTL10
L=5 mil {t}W=1.295 mmSubst="MSub1"
MLINTL1
L=0.0614 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINL8+L2
L=1.3820 mmW=0.351778 mm {t}Subst="MSub1"
MLINL21
L=3.85844 mmW=1.055334 mm {t}Subst="MSub1"
MLINL9
L=0.46245 mm {t}W=0.8442672 mm {t}Subst="MSub1"
MLINC5
L=0.5335 mm {t}W=3.471286 mm {t}Subst="MSub1"
MLINL3
L=1.92922 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINL17+L11
L=1.2438 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINL13
L=0.46245 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINC8
L=0.26675 mm {t}W=1.33511 mm {t}Subst="MSub1"
MLINTL3
L=0.0614 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINTL4
L=0.0614 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINTL6
L=0.0614 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINTL2
L=0.0614 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINTL5
L=0.0614 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINL15+L10
L=1.1056 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINL20
L=2.315064 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINL5+L1
L=0.691 mm {t}W=1.055334 mm {t}Subst="MSub1"
VIAGNDV5
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
TermTerm1
Z=50 OhmNum=2
MTEE_ADSTee5
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
VIAGNDV3
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
NEC_FETQ2partName=NE4210S01_v116
CC15C=2400 pF
LL19
R=L=2200 nH
CC16C=2400 pF
MSTEPStep6
W2=.703556 mmW1=2.67022 mmSubst="MSub1"
MTEE_ADSTee4
W3=.703556 mmW2=25.0 milW1=.703556 mmSubst="MSub1"
VIAGNDV6
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
MTEE_ADSTee8
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
MTEE_ADSTee10
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
MTEE_ADSTee7
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"MTEE_ADS
Tee1
W3=.703556 mmW2=.703556 mmW1=25.0 milSubst="MSub1"
MSTEPStep7
W2=.703556 mmW1=2.67022 mmSubst="MSub1"
TermTerm2
Z=50 OhmNum=1
CC9C=2400 pF
V_DCSRC2Vdc=-.45 V
S_ParamSP1
Step=Stop=11 GHzStart=2.5 GHz
S-PARAMETERS
MTEE_ADSTee2
W3=.703556 mmW2=.703556 mmW1=25.0 milSubst="MSub1"
MLINL4
L=3.85844 mmW=.703556 mmSubst="MSub1"
V_DCSRC1Vdc=2.0 V
VIAGNDV10
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
CC10C=2400 pF
LL18
R=L=2200 nH
MLINC2
L=.5335 mmW=2.67022 mmSubst="MSub1"
MSTEPStep1
W2=.703556 mmW1=2.67022 mmSubst="MSub1"
MLINL6
L=.9249 mmW=.703556 mmSubst="MSub1"
CC11C=2400 pF
VIAGNDV8
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
MSUBMSub1
Rough=0 milTanD=0.0012T=35 umHu=3.9e+034 milCond=5.8E7Mur=1Er=2.94H=20.0 mil
MSub
TechInclude_NEC_ACTIVELIBRARYNEC_ACTIVELIBRARY_LibFile=Nominal
MTEE_ADSTee3
W3=.703556 mmW2=25.0 milW1=.703556 mmSubst="MSub1"
MLINL12
L=.9249 mmW=.703556 mmSubst="MSub1"
MSTEPStep5
W2=.703556 mmW1=2.67022 mmSubst="MSub1"
MLINC7
L=.5335 mmW=2.67022 mmSubst="MSub1"
CC14C=2400 pF
VIAGNDV14
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
VIAGNDV11
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
MTEE_ADSTee9
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
NEC_FETQ3partName=NE4210S01_v116
VIAGNDV13
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
MTEE_ADSTee6
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
VIAGNDV12
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
VIAGNDV2
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
NEC_FETQ1partName=NE4210S01_v116
MLINTL8
L=10 mil {t}W=1.24 mil {-t}Subst="MSub1"
MLINTL7
L=10 mil {t}W=0.62 mil {-t}Subst="MSub1"
MLINTL9
L=5 mil {t}W=1.295 mmSubst="MSub1"
MLINTL10
L=5 mil {t}W=1.295 mmSubst="MSub1"
MLINTL1
L=0.0614 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINL8+L2
L=1.3820 mmW=0.351778 mm {t}Subst="MSub1"
MLINL21
L=3.85844 mmW=1.055334 mm {t}Subst="MSub1"
MLINL9
L=0.46245 mm {t}W=0.8442672 mm {t}Subst="MSub1"
MLINC5
L=0.5335 mm {t}W=3.471286 mm {t}Subst="MSub1"
MLINL3
L=1.92922 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINL17+L11
L=1.2438 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINL13
L=0.46245 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINC8
L=0.26675 mm {t}W=1.33511 mm {t}Subst="MSub1"
MLINTL3
L=0.0614 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINTL4
L=0.0614 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINTL6
L=0.0614 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINTL2
L=0.0614 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINTL5
L=0.0614 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINL15+L10
L=1.1056 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINL20
L=2.315064 mm {t}W=1.055334 mm {t}Subst="MSub1"
MLINL5+L1
L=0.691 mm {t}W=1.055334 mm {t}Subst="MSub1"
VIAGNDV5
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
TermTerm1
Z=50 OhmNum=2
MTEE_ADSTee5
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
VIAGNDV3
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
NEC_FETQ2partName=NE4210S01_v116
CC15C=2400 pF
LL19
R=L=2200 nH
CC16C=2400 pF
MSTEPStep6
W2=.703556 mmW1=2.67022 mmSubst="MSub1"
MTEE_ADSTee4
W3=.703556 mmW2=25.0 milW1=.703556 mmSubst="MSub1"
VIAGNDV6
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
MTEE_ADSTee8
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
MTEE_ADSTee10
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
MTEE_ADSTee7
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"MTEE_ADS
Tee1
W3=.703556 mmW2=.703556 mmW1=25.0 milSubst="MSub1"
MSTEPStep7
W2=.703556 mmW1=2.67022 mmSubst="MSub1"
TermTerm2
Z=50 OhmNum=1
CC9C=2400 pF
V_DCSRC2Vdc=-.45 V
S_ParamSP1
Step=Stop=11 GHzStart=2.5 GHz
S-PARAMETERS
MTEE_ADSTee2
W3=.703556 mmW2=.703556 mmW1=25.0 milSubst="MSub1"
MLINL4
L=3.85844 mmW=.703556 mmSubst="MSub1"
V_DCSRC1Vdc=2.0 V
VIAGNDV10
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
CC10C=2400 pF
LL18
R=L=2200 nH
MLINC2
L=.5335 mmW=2.67022 mmSubst="MSub1"
MSTEPStep1
W2=.703556 mmW1=2.67022 mmSubst="MSub1"
MLINL6
L=.9249 mmW=.703556 mmSubst="MSub1"
CC11C=2400 pF
VIAGNDV8
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
MSUBMSub1
Rough=0 milTanD=0.0012T=35 umHu=3.9e+034 milCond=5.8E7Mur=1Er=2.94H=20.0 mil
MSub
TechInclude_NEC_ACTIVELIBRARYNEC_ACTIVELIBRARY_LibFile=Nominal
MTEE_ADSTee3
W3=.703556 mmW2=25.0 milW1=.703556 mmSubst="MSub1"
MLINL12
L=.9249 mmW=.703556 mmSubst="MSub1"
MSTEPStep5
W2=.703556 mmW1=2.67022 mmSubst="MSub1"
MLINC7
L=.5335 mmW=2.67022 mmSubst="MSub1"
CC14C=2400 pF
VIAGNDV14
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
VIAGNDV11
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
MTEE_ADSTee9
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
NEC_FETQ3partName=NE4210S01_v116
VIAGNDV13
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
MTEE_ADSTee6
W3=.703556 mmW2=.703556 mmW1=.703556 mmSubst="MSub1"
VIAGNDV12
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
VIAGNDV2
W=25.0 milRho=1.0T=0.15 milD=15.0 milSubst="MSub1"
NEC_FETQ1partName=NE4210S01_v116
Simulationsm1freq=dB(S(2,1))=11.267
10.60GHz
m2freq=dB(S(2,1))=17.295Max
3.970GHz
3 4 5 6 7 8 9 102 11
2
4
6
8
10
12
14
16
0
18
freq, GHz
dB(S
(2,1
))
Readout
m1
Readout
m2m1freq=dB(S(2,1))=11.267
10.60GHz
m2freq=dB(S(2,1))=17.295Max
3.970GHz
3 4 5 6 7 8 9 102 11
-100
0
100
-200
200
freq, GHz
phas
e(S
(2,1
))
Amplifier Gain
Phase Linearity of Amplifier
Stability Factor
k = stability check, k ≥ 1 (unconditionally stable) b = stability measurement, b has to always be
positive
Eqn k = stab_fact(S)
3 4 5 6 7 8 9 102 11
2
4
6
8
10
12
0
14
freq, GHz
k
Eqn b = stab_meas(S)
3 4 5 6 7 8 9 102 11
0.6
0.8
1.0
1.2
0.4
1.4
freq, GHz
b
Noise Figure
nf(2) is the noise figure of the ultra wideband amplifier over the spectrum.
NF is the mean value, 2.06 dB
m3freq=nf(2)=6.676
10.60GHz
3 4 5 6 7 8 9 102 11
5
10
15
0
20
freq, GHz
nf(2)
Readout
m3
m3freq=nf(2)=6.676
10.60GHz
Eqn NF=mean(nf(2)) m4indep(m4)=NF=2.061
0
-8.0E-301
-6.0E-301
-4.0E-301
-2.0E-301
0.0
2.0E-301
4.0E-301
6.0E-301
8.0E-301
-1.0E-300
1.0E-300
2.0609059
2.0609059
2.0609059
2.0609059
2.0609059
NF
Readout
m4
m4indep(m4)=NF=2.061
0
Future Work
Manufacture new full coplanar waveguides Measure S-parameters Do de-embedding Run simulation of amplifier using s-parameter
from de-embedding Re-optimize Manufacture the amplifier
Questions?