ucsb and teledyne...teledyne technologies – four segments – $2.3b in fy 2015 april 2017 1 • rf...
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UCSB and Teledyne
(37 years)
Bobby Brar
0
Teledyne Technologies – Four Segments – $2.3B in FY 2015
April 2017 1
• RF & Microwave Components
• Digital Flight Data Systems
• Satcom Amplifiers and Modems
• Jamming & Electronic Warfare
• Offshore Energy
• Ocean Health & Climatology
• Aging U.S. Infrastructure
• Air & Water Quality
• Military & Space System
Development and Integration
• Radiological Analysis
• Energy Systems
Engineered Systems
Aerospace and Defense
Electronics Instrumentation Digital Imaging
• Visible & Infrared
Sensors and Cameras
• LIDAR
• Signal/Image
Processing
• Optics
Teledyne’s Acquisition History(a)
2
Teledyne
Scientific &
Imaging
TDY Financial Metrics Excellent ROI Track Record
$37 $43 $47
$67
$101
$125
$162
$189
$166
$179
$227
$243 $240
$295
$282
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50
100
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2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015
EBIT $M EPS $
$M
4.9% 5.6% 5.6% 6.6% 8.3% 8.7% 10.0% 10.0% 9.4% 10.9% 11.7% 11.4% 10.3% 12.3% 12.3% EBIT %
April 2017 3
Teledyne Central Research Laboratory
A Unique Asset
April 2017 4
Government, Customer and Teledyne funded R&D
Our Business Model
Government funding supports early stages of novel, high-risk technology development
Researchers work jointly with Teledyne’s operating businesses, their customers, and strategic partners to commercialize technology
Established in 1962 100 technical staff ~ 45% PhDs Over 300 active patents
History of Teledyne and UCSB = People
April 2017 5
• Robert Mehrabian
• Larry Coldren
• John Bowers
• Mark Rodwell
• Scott Grafton
• Brad Chmelka
• Umesh Mishra
• Herb Kroemer
• Art Gossard
• David Awschalom
• Elliot Brown
• Steve Long
• Pochi Yeh
• David Clarke
• Fred Lange
• Miguel Urteaga
• Zach Griffith
• Adam Young
• Chanh Nguyen
• Bobby Brar
• Olivier Sudre
• Sergio Lucato
• Janet Davis
• Sid Bhargava
• Liz Rangel
• Andy Carter
• Andrea Arias
• Bo Shojaei
• Gerry Sullivan
• Richard Blank
• Dan Denninghoff
• Mark Field
• Dennis Scott
• Devin Leonard
• Mason Thomas Recent
GaAs Electronics
Grew out of DoD funding in mid-70’s & SC’s Si Valley entreprenurial spirit
Assembled world’s strongest technical team > 100 researchers at SC in mid-70s
> 30 years of DoD funding with diverse applications
Co-invested with DARPA to establish GaAs “Pilot Line” (‘85)
Seeded many GaAs-based companies Gigabit Logic, Vitesse (1st gen tech)
Rockwell Semiconductor > Connexant - Skyworks - Mindspeed
SC technology in every iPhone! (produced at the “pilot line”)
Licensing success with MOCVD Generated > $75 M in royalty income
From Derek Cheung
High Level Capabilities
April 2017 7
R&D Business – Impact to Tdy
Semiconductor Fab
RF/mmWave MMICs (Design/Pkg)
Gsps ADC/DAC (Design/Pkg)
MEMS
Chip-Scale Atomic Clocks
Resonators for Gyros
Thermal analysis/design
Signal Processing/Algorithms
Materials
Failure Analysis / Test
New Materials
Ceramics
Coatings In Partnership with UCSB
mmWave is as much an integration/packaging challenge as a
device/circuit challenge
April 2017 8
Device, Circuit
mmWave “Package”
ADC
Low-loss 2.5D
interconnect
Heterogeneous
3D Integration
InP
GaN
SiGe
InP Started with Mark Rodwell (DARPA TFAST)
Key scaling challenges
emitter & base contact resistivity
current density→ device heating
collector-base junction width scaling
& Yield !
key fig
ure
s o
f merit
for lo
gic
speed
Rodwell 2002: InP HBT Scaling Roadmaps
2002 2012
“THz” CPW-G Common-Base Amplifier Designs
130nm InP Technology
April 2017 10
CPW-G Common Base amplifier designs used for tracking process yield and
performance
8-stage (550GHz) and 9-stage (670GHz) amplifier designs with separate emitter and
collector bias supplies
550GHz Amp Design 670GHz Amp Design
Integrated 580GHz PLL receiver with Differential
Common-base Amplifier
April 2017 11
• Functional testing of PLL-RX and PLL-TX components underway
• Receiver with a 6-stage stacked differential common-base amplifier with an
integrated 190GHz Phase Locked Loop driving a 3rd order sub-harmonic mixer
• Chip dimensions: 1.95x0.7mm2
• DC power dissipation ~0.7W
Chip Photograph
195GHz PLL
LO Buffer
Amp
SH
Mixer
PLL
REF
IF
Input RF
Output
Differential Low Noise Amplifier
UCSB Low-power mm-wave transceiver study
Phase Shifter
VGA
PA_V
PA_H
LNA Phase Shifter
VGA
V_Antenna
H_Antenna
Rx_V Output/ Tx Inpout
Rx_H Output
V/H Switch
InputT/Rx Switch
OutputT/Rx Switch
• Designed at UCSB • Fabricated at Teledyne in 130 nm InP • Tested at Teledyne by UCSB • Excellent fidelity between
measurement and simulations • Validates path to higher efficiency
transceivers at mmWave
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75 80 85 90 95 100 105 110
S(2,1), VS(2,1), HS(1,1), V
S(2,2), VS(1,1), H
S(2,2), H
S(2
,1)
(dB
)
S(1
,1), S
(2,2
) (dB
)
Frequency (GHz)
Tx, 1.5 V
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75 80 85 90 95 100 105 110
S(2,1), VS(2,1), HS(1,1), VS(2,2), VS(1,1), HS(2,2), H
S(2
,1)
(dB
)
S(1
,1), S
(2,2
) (dB
)
Frequency (GHz)
Tx, 1 V
@ ICtrl = 0.4 mA, QCtrl = 0.3 mA (Phase shifter gain: -5 dB)
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-10
-5
0
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-40 -35 -30 -25 -20 -15 -10
Gain, VGain, HPout, VPout, H
Gain
(d
B)
Ou
tpu
t Po
wer (d
Bm
)
Input Power (dBm)
Tx, 1.5 V
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-10
-5
0
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-40 -35 -30 -25 -20 -15 -10
Gain, VGain, H
Pout, VPout, H
Ga
in (
dB
)
Ou
tpu
t Po
wer (d
Bm
)
Input Power (dBm)
Tx, 1 V
-30
-20
-10
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10
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-20
-10
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S(2,1), VS(2,1), HS(1,1), V
S(2,2), VS(1,1), H
S(2,2), H
S(2
,1)
(dB
)
S(1
,1), S
(2,2
) (dB
)
Frequency (GHz)
Rx, 1 V
@ ICtrl = 0.4 mA, QCtrl = 0.3 mA (Phase shifter gain: -5 dB)
-30
-20
-10
0
10
20
30
-30
-20
-10
0
10
20
30
75 80 85 90 95 100 105 110
S(2,1), VS(2,1), HS(1,1), V
S(2,2), VS(1,1), H
S(2,2), H
S(2
,1)
(dB
)
S(1
,1), S
(2,2
) (dB
)
Frequency (GHz)
Rx, 1.5 V
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20
22
24
-20
-15
-10
-5
0
5
-40 -35 -30 -25 -20 -15
Gain, VGain, HPout, VPout, H
Gain
(d
B)
Ou
tpu
t Po
wer (d
Bm
)
Input Power (dBm)
Rx, 1.5 V
10
15
20
25
-15
-10
-5
0
-40 -35 -30 -25 -20 -15
Gain, VGain, H
Pout, VPout, H
Ga
in (
dB
)
Ou
tpu
t Po
wer (d
Bm
)
Input Power (dBm)
Rx, 1 V
Transmit
Receive
InP HBT ICs
• 250 nm 350/600GHz Ft/Fmax, 4.5V process
– mmWave amps, samplers, edge-generators
– Design and Fab
13
250 nm InP HBT
4-level Interconnect 14-bit RF RZ-DAC
235 GHz Power Amplifier
Track-and-Hold with 40 – 50GHz
100GHz
InP Amplifier Products 14
200GHz PA Product
http://www.teledyne-si.com/ps-mmic-power-amplifier.html
Chart 15
InP switch product
40 Gbps 48 Gbps 56 Gbps
N-polar GaN with Umesh Mishra
April 2017 16
• Very promising technology
for higher output power at
mmWave frequencies
Chart 17
mmWave Experience: SiGe RFIC Design Services
20/30GHz
44-50GHz
94GHz
4-20GHz
Chart 18 The future of mmWave Packaging
2.5D On-Wafer Heterogeneous Integration