Bonding Reliability Testing for Wafer Level Packaged MEMS ...
Transcript of Bonding Reliability Testing for Wafer Level Packaged MEMS ...
![Page 1: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/1.jpg)
Bonding Reliability Testing for Wafer Level Packaged
MEMS Devices
Michael Shillinger
Vice President of Operations
Innovative Micro Technology
Santa Barbara, CA, USA
October 20, 2011
![Page 2: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/2.jpg)
2
Innovative Micro Technology
• Established in 2000, IMT is a privately-held, profitable company
• Acknowledged leader in complex MEMS foundry/contract manufacturing
• Offering flexible turn-key services:
– Cooperative design for manufacturability
– Process development
– Prototyping
– Volume manufacturing
– Testing
– Metrology/analytical services
• IMT’s Mission:
– To enable the shortest time to market and greatest overall value while leading our customers into volume production
![Page 3: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/3.jpg)
3
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
• MEMS perform best as fabricated in the clean room
• Airborne contamination generally causes
device failure
– Lead to development of wafer level packaging (WLP)
• WLP forced the need for bond quality testing
– Hermeticity testing
• Fine and gross leak verification
• Gross leaks > 1 x 10-5 > Fine Leaks
![Page 4: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/4.jpg)
4
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
• Gross Leak Testing Set up (Mil-Std-883G Method 1014)
4
P
FC-84
Fluid
Preconditioning
Chamber
Test
Chamber
With FC-40
V
VP
V
N2
V
1
2,3 5,6
1,2,3
1) Parts are placed in the preconditioning
chamber
2) A vacuum is pulled on the chamber to 5.0 in Hg
3) The Vacuum is maintained for the prescribed time
4) Fluorocarbon FC-84 is pumped into the chamber
covering the parts
5) Chamber pressurized to 90 PSIA with N2
6) Pressure is maintained for the prescribed time
7) Pressure vented, fluid drained
1) Parts are placed into the test
chamber
2) Temperature is elevated to 125°C
3) Operator views the parts through an
illuminated port for 60 sec looking for
bubbles
![Page 5: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/5.jpg)
5
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
• Gross Leak Testing Set up (Mil-Std-883G Method 1014)
Pros:
• Historical Military
Specification procedure with
abundant data
• Commercial equipment exists
for performing this test
Cons:
• Not enough resolution for the
small cavity volume of MEMS
devices
• Can be destructive for certain
types of MEMS devices
• Not wafer level
![Page 6: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/6.jpg)
6
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
• Fine Leak Testing Set Up (Mil-Std-883G Method 1014)
Vacuum
Chamber
Vacuum
Pump
Vent to
ATM Helium leak
detector
Compressor
Device
Steps:1 & 5
Steps: 2 & 4
Step: 6
Step: 3
v v
v
Helium
Source
v
Step 1: Evacuate chamber
Step 2: Vent Chamber to atmosphere
Step 3: Pressurize chamber with helium
Step 4: Vent chamber to atmosphere
Step 5: Evacuate chamber
Step 6: Residual gas analysis to detect helium
![Page 7: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/7.jpg)
7
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
• Fine Leak Testing Set Up (Mil-Std-883G Method 1014)
Pros:
• Historical Military
Specification procedure with
abundant data
• Commercial equipment exists
for performing this test
Cons:
• Not enough resolution for the
small cavity volume of MEMS
devices
• Can be destructive for certain
types of MEMS devices
• Not wafer level
![Page 8: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/8.jpg)
8
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
• Not adequate for MEMS with small device cavities
– Insufficient resolution
• New testing techniques have been developed specifically
for MEMS devices
– Applicable for other device technologies also
![Page 9: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/9.jpg)
9
Six new testing techniques with more than
adequate resolution for MEMS
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
Name of Technique Basic Principles Pros Cons Wafer or Die Level Fine or Gross Leak
Membrane deflection
Measurement of membrane
deflection to determine
hermeticity
Quick,
economical, and
precise
Requires capital
equipment (Wyko
Interferometer) Wafer level Both
Radio isotope
Measurement of radio active
particles within a cavity Very precise
Licensing required,
requires handling of
radioactive material Die level Both
Cumulative Helium
Leak Detection
(CHLD)
Detection of helium, in a
cumulative fashion, using a
mass spectrometer
Sensitive, Mil
Spec approved
Requires capital
equipment (Inficon’s
Pernkica 700 Series
System) Die level Both
![Page 10: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/10.jpg)
10
Six new testing techniques with more than
adequate resolution for MEMS
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
Name of Technique Basic Principles Pros Cons Wafer or Die Level Fine or Gross Leak
Change in resistance
measurement
Resistance measurement of
an in package thermistors
Allows for 100%
testing
Requires in package
thermistors , requires
electrical auto probe
system Wafer level Both
Q measurement
Looking at the quality factor
of a resonant structure as it
it affected by gas damping
Quick,
economical, and
precise
Only works for
devices that resonate
(i.e. accelerometer) Wafer level Both
Pressurized steam
Inspection of a delidded
device looking for in
package moisture Definitive
Destructive, requires
autoclave Die level N/A
![Page 11: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/11.jpg)
11
• Membrane is formed during fabrication of lid or capping wafers that is ~30 microns in thickness
• Membrane deflection for packages in vacuum or pressurized is optically measured with an interferometer
– Concave membranes = vacuum
– Convex membranes = pressure
• Angstrom resolution
• Automated wafer level non destructive test
• In use at IMT for production screening
Membrane Deflection Testing
Wyko interferometer image of a
deflected lid membrane indicating
hermeticity
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
![Page 12: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/12.jpg)
12
• Measures both gross
and fine leaks
• NorCom Systems
– Optical hermeticity tester
– Interferometer with an
integrated holographic
camera
– Enables recorded images
to be superimposed on to
live images for comparison
Membrane Deflection Testing
LT-550 optical leak test system
Courtesy of NorCom Systems
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
![Page 13: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/13.jpg)
13
Membrane Deflection Testing
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
Pros:
• Precise
• Fast
• Low cost
• Wafer level
• Non destructive
• Automated
• Will measure vacuum and
pressure
Cons:
• Requires capital equipment
• Wyko interferometer or
LT-550 optical leak test
system manufactured by
NorCom Systems
• Device must have a
cavity in the lid ~30
microns in thickness and
it needs to be opaque
![Page 14: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/14.jpg)
14
• Measures both gross and fine leaks
• Similar to helium leak testing
– Packages are subject to pressurized radioactive gas
• Measures alpha radiation from krypton 85 N2 gas
– Uses a scintillator
– Presence of gamma radiation indicates non-hermetic packaging
• Die level testing – higher cost
• Atomic energy license required
Radioisotope Testing
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
![Page 15: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/15.jpg)
15
Radioisotope Testing
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
Pros:
• Extremely precise
• Delectability1011 KR-85
molecules
Cons:
• Requires handling
radioactive material
• Requires an Atomic
Energy license
• Expensive test set up
![Page 16: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/16.jpg)
16
• Only hermetic device testing method
currently approved by the military
(Mil-Std-750 Method 1071) with
sufficient resolution for MEMS
• Die level, sufficient for both gross
and fine leak testing
– Can detect leaks < 1x10-14 ATM-cc/sec
• Detects krypton, fluorocarbons,
argon, and helium
Cumulative Helium Leak Detection (CHLD)
Inficon’s Pernkica
700 Series System
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
![Page 17: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/17.jpg)
17
Cumulative Helium Leak Detection (CHLD)
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
Pros:
• Sensitive
• Meets military specification
• Mil-STD-750 Method
1071
Cons:
• Die level • Requires purchase of capital
equipment
• Inficon’s Pernkica 700
Series System
![Page 18: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/18.jpg)
18
• Comparison of
resistance of MEMS
device or an on board
thermistor to baseline
resistance
• Screening for low
resistance indicates that
high vacuum is not
present
– Automated probe station
Resistance-Hot vs. Resistance-Cold
(R-Hot vs. R-Cold)
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
![Page 19: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/19.jpg)
19
• 100% and performed at wafer
level
– Wafer maps generated
to indicate pass-fail
– Ideal for production
Resistance-Hot vs. Resistance-Cold
(R-Hot vs. R-Cold)
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
![Page 20: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/20.jpg)
20
Resistance-Hot vs. Resistance-Cold
(R-Hot vs. R-Cold)
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
Pros:
• Allows for 100% testing
• Automated
• Wafer level
Cons:
• Requires in package
thermistors
• Requires electrical probe
system
![Page 21: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/21.jpg)
21
• Quality (Q) factor
• Low pressure = low viscous drag on resonating structure
– High Q factor
• Wafer level test (laser doppler vibrometry or integrated piezo-resistive device)
• Vibration induced electrostatically
• Good for both gross and fine leak testing
Q Measurement of MEMS Resonators
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
![Page 22: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/22.jpg)
22
Q Measurement of MEMS Resonators
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
Pros:
• Quick
• Economical
• Precise
• Wafer level
Cons:
• Devices applicability • Accelerometer
• Microbolometer
![Page 23: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/23.jpg)
23
• Devices placed in autoclave chamber
• Chamber filled with high temperature pressurized steam
– 130°C at 2.7 ATM and 100% RH for a prescribed time
• Pressurized steam will penetrate into device cavity if the bond is not hermetic
• Devices are de-lidded and optically inspected for moisture
– Destructive
• Test would be performed in
development only
Pressurized Steam Testing
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
![Page 24: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/24.jpg)
24
Pressurized Steam Testing
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
Pros:
• Conclusive
• Equipment is commonly
available
Cons:
• Destructive
• Die level
• Not a production test
• Not economical
![Page 25: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/25.jpg)
25
• Fine and gross leak testing has been around for many years
• Due to small cavity size of MEMS devices current tests do not exhibit sufficient resolution
• Battery of 2nd generation tests have been developed which work with MEMS and other devices
– Membrane deflection
– R-hot vs. R-cold
– CHLD
– Q measurement testing
– Pressurized steam
• IMT currently uses both membrane lid deflection and thermistor measurement screening (R-Hot vs. R-Cold) in production testing of MEMS devices
Summary
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices
![Page 26: Bonding Reliability Testing for Wafer Level Packaged MEMS ...](https://reader034.fdocuments.in/reader034/viewer/2022051517/627f0b78fc81375b8e75a1c6/html5/thumbnails/26.jpg)
26
Thank you for your attention.
Questions??
Bonding Reliability Testing for Wafer Level Packaged MEMS Devices