MEMS & Sensors packaging: Wafer-Level-Packaging
Technology and market trends
Amandine Pizzagalli, Technology & Market Analyst Equipment & Materials
Fields of expertise:Yole Dveloppements 30 analysts operate in the following areas
MEMS &
Sensors
Displays
Compound
Semi LED
& OLEDs
Imaging Photonics
MedTech
Manufacturing
Advanced Packaging
Batteries / Energy
Management
Power
Electronics
A group of companies
Market,
technology and
strategy
consulting
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Due diligences
www.yolefinance.com
Innovation and business maker
www.bmorpho.com
Manufacturing costs analysis
Teardown and reverse engineering
Cost simulation tools
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IP analysis
Patent assessment
www.knowmade.fr
Outline of the presentation
Market trends & MEMS sensors
Focus on Packaging technologies for MEMS
devices
Conclusion
The 5 senses and many more: MEMS, sensors
The 5 senses and many more: Mems, sensors & actuators
MEMS & sensors RoadmapFrom More than Moore towards Beyond Law
Overview of the MEMS sensors & actuators
ACTUATORSSENSORS
Pressure Sound
(microphone)
Environment Optical sensors
Dru
g d
elivery
Microfluidics
Ink j
et
head
s
Au
to-F
ocu
s
Mic
ro m
irro
rs
RFOptical MEMS Micro structures
Parti
cle
s
Hu
mid
ity
Movement
Gas
Magn
eto
mete
rs
IMUs (6 to 9 DOF)
Accele
rom
ete
rs
Gyro
sco
pes
Tem
pera
ture
Op
tical b
en
ch
es
Mic
ro t
ips
Pro
bes
Watc
hes
co
mp
on
en
ts
PIR
& t
herm
op
iles
Mic
ro b
olo
mete
rs
Sw
itch
Filte
r
Bosch BME680
FLIR Lepton One
Infineon
microphoneSTM pressure
sensor
Invensense
MPU9250
Debiotech micro
pump
Texas Instruments
DLP
Avago FBAR Filter
Spiromax Patek
Philippe
Audio
Pixels
MEMS
based
speaker
Reso
nato
r
Bio
ch
ips
poLight AF
SiTime oscillator
Am
bie
nt
ligh
t se
nso
r
Fin
gerp
rin
t
Vis
ion
Optical combosopen package
environmental
combos
closed package
6 to 11 DOF
combos
Possible integration with
environment combos
Possible
integration with
opto combos
MEMS & sensors transitioning towards 3 main Hubs
Closed Package Hub
Accelerometer
Gyroscope
Magnetometer
INERTIAL
DOF6
9IMU
ENVIRONMENTAL
Open Cavity Hub
Gas/Particle
Pressure
Temp/Humidity
Microphone
OPTICAL
Optical Hub
Visible
3D vision
Multi spectral
3D
Proximity/ambient
MEMS & sensors: The inertial hub
Closed Package Hub
Accelerometer
Gyroscope
Magnetometer
DOF6
9IMU
ENVIRONMENTAL
Open Cavity Hub
Gas / Particle
Pressure
Temp/Humidity
Microphone
OPTICAL
Optical Hub
Visible
3D vision
Multi spectral
3D
Proximity/ambient
Complete integration has been
achieved at sensor level
Strong miniaturization race
Still some developments on
power consumption, advanced
packaging
Major developments at Software
level to achieve sensor fusion
Accurate data acquisition
Precise tracking within the
environment
Inertial
Bill Of Materials
$1
MEMS & sensors: The optical hub
Closed Package Hub
Accelerometer
Gyroscope
Magnetometer
INERTIAL
DOF6
9IMU
ENVIRONMENTAL
Open Cavity Hub
Gas / Particle
Pressure
Temp/Humidity
Microphone
Optical Hub
Visible
3D vision
Multi spectral
3D
Proximity/ambient
An ever growing market
Imaging is highly valued
The imaging industry stopped
the low cost/high integration
model by increasing the pixel
size and thus the die size
Imaging
Bill Of Materials
$10
MEMS & sensors: The environmental hub
Closed Package Hub
Accelerometer
Gyroscope
Magnetometer
INERTIAL
DOF6
9IMU
Open Cavity Hub
Gas / Particle
Pressure
Temp/Humidity
Microphone
OPTICAL
Optical Hub
Visible
3D vision
Multi spectral
3D
Proximity/ambientInteresting way for the
MEMS industry to gain value:
More integration at
environmental level
Pressure + Microphone
Add Particles & Gas
detection (market pull)
Environmental
Bill Of Materials
$1.50
Environmental
Bill Of Materials
$0.70
MEMS market by application
Consumer is still the main driver
$ 0.00
$2 000.00
$4 000.00
$6 000.00
$8 000.00
$10 000.00
$12 000.00
$14 000.00
$16 000.00
$18 000.00
$20 000.00
2015 2016 2017 2018 2019 2020 2021 CAGR 2016-21
$M
MEMS $M forecast per application
2016 Yole Dveloppement
Telecom
Medical
Industrial
Defense
Consumer
Automotive
Aeronautics
48%
5.7$B
56%
11.1$B
MEMS average selling priceIs the market able to absorb such a price decrease?
$0.0
$0.5
$1.0
$1.5
$2.0
$2.5
$3.0
$3.5
$4.0
2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020
2000 2020 MEMS ASP decreaseSource Yole Dveloppement
Smartphone wave
CAGR
-6%
CAGR
-13%
New MEMS challenges
Yesterday, the main MEMS challenges were size decrease, which in turn led to price decrease then volume growth.
Today, trends are different. They are: importance of user case (start with the definition of an application), fusion different
sensors with software and power decrease (which paradoxically is linked to an chip size increase because of the ASIC)
Yesterday
ASP decreaseConsumer
volume
Size decrease
2016, a new virtuous cycle?
Power
consumption
decrease
Importance
for user case
Sensor fusion,
software & more
features
Mobiles have to survive for long
periods on battery power while
interacting with environment (voice
calls, Wi-Fi, Bluetooth, GPS, sensors
).
Start with applications, and work
downwards to the chips needed to
support them.
Less silicon, more brain.
Start with more intelligence!
Smarter or smaller? Two different paths in integration
While some companies focus on developing smaller & smaller packaged dies, others prefer to go into another direction integrating
more functions in the package.
Winners are those that can merge both approaches: more functions in a reduced package!
SMALLER (one sensor in a reduced package)
SM
AR
TE
R (
more
fu
nct
ion
s in
a p
ack
age)
SWEET SPOT!
Examples of MEMS companies with a sensors
integration road (e.g., mCube with iGyro, Spectral
Engines with integrated spectrometer, Bosch with
environmental combo sensors, AMS with optical combos,
InvenSense with IMUs .
MEMS Evolution
MEMS die
Ceramic package
Wire Bonding
MEMS accelerometer ceramic package
(Courtesy of MEMSIC)
ASIC
Cap
MEMS Sensor
MEMS accelerometer plastic package with Wafer-level
capping (Courtesy of BOSCH)
MEMS accelerometer in 3D WLCSP
package with TGV (Courtesy of VTI / Murata)
PAST
TODAY
Wafer Level capping combined with
Vertical interconnection
Wafer to wafer bonding
WLCSP
MEMS die is put in a ceramic
or metal package
Wafer Level Packaging
Reduced form factor
Cost reduction
Improved performance
WLP for microbolometers
L3com WLP
17.9 mm
34 mm
ULIS ceramic
packaging
(640x480)
20 mm
Before
Conventional microbolometers
Ceramic or metal package
The air is pumped out before the package is sealed with a
silicon or germanium window
Slow
Costly metal packaging
WLP microbolometers
more chips can be packaged on the wafer cost reduced
Vacuum sealing with a silicon widow in parallel at the wafer
level improve throughput and yield
Sensor size reduced
Cost reduced
Vacuum or temperature resistance improved
WLP technologies
3-Axis Accelerometer Package size comparison TSV Inside!
Surface: SST= 4mm
Package thickness:
TST= 1mm
Surface: SmCube= 4mm
Package thickness:
TmCube= 0.9mm
Surface: SBosch= 1.8mm
Pack