Sensor Principles and Microsensors Part 1 · PDF fileBerlinite AlPO 4 ... side using...
Transcript of Sensor Principles and Microsensors Part 1 · PDF fileBerlinite AlPO 4 ... side using...
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Introduction to BioMEMS & Medical Microdevices
Sensor Principles and Microsensors Part 1 Companion lecture to the textbook: Fundamentals of BioMEMS and Medical Microdevices, by Prof. Steven S. Saliterman, http://saliterman.umn.edu/
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Steven S. Saliterman
What is a sensor?
A sensor converts one form of energy to another, and in so doing detects and conveys information about some physical, chemical or biological phenomena.
More specifically, a sensor is a transducer that converts the measurand (a quantity or a parameter) into a signal that carries information.
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Steven S. Saliterman
Features of an ideal sensor: Continuous operation without effecting the
measurand. Appropriate sensitivity and selectivity. Fast and predictable response. Reversible behavior. High signal to noise ratio. Compact Immunity to environment. Easy to calibrate.
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Steven S. Saliterman
Examples of Sensor Methods
Piezoelectric Sensors Direct Piezoelectric Effect Acoustic Wave Propagation
Quart crystal microbalance MEMS Structures Thermal Sensing Thermal and Non-Thermal Flow Sensing Electrochemical Sensors Ion Selective Field Effect Transistors Optical Sensors
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Steven S. Saliterman
Piezoelectric Sensors
Direct transduction from mechanical to electrical domains and vice versa. May be used as sensors or actuators.
The reversible and linear piezoelectric effect manifests as the production of a charge (voltage) upon application of stress (direct effect) and/or as the production of strain (stress) upon application of an electric field (converse effect).
Three modes of operation depending on how the piezoelectric material is cut: transverse, longitudinal and shear.
Amplifiers are needed to detect the small voltage.
Tadigadapa, S., and K. Mateti. 2009. Piezoelectric MEMS sensors: state-of-the-art and perspectives. Measurement Science & Technology 20, no. 9:092001.
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Steven S. Saliterman
Direct and Converse Piezoelectric Effects
Adopted from bme240.eng.uci.edu
Converse Piezoelectric Effect - Application of an electrical field creates mechanical deformation in the crystal.
Direct Piezoelectric Effect - When a mechanical stress (compressive or tensile) is applied a voltage is generated across the material. .
Polling - Random domains are aligned in a strong electric field at an elevated temperature.
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Steven S. Saliterman
SEM image of an etched feature in PZT ceramic substrate with feature dimensions of 3 x 15 μm.
Tadigadapa, S., and K. Mateti. 2009. Piezoelectric MEMS sensors: state-of-the-art and perspectives. Measurement Science & Technology 20, no. 9:092001.
Example: Lead Zirconate Titanate (PZT)
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Steven S. Saliterman
Piezoelectric Materials
Crystals Quart SiO2 Berlinite AlPO4 Gallium Orthophosphate GaPO4 Tourmaline (complex chemical structure)
Ceramics Barium titanate BaTiO3 Lead zirconate titanate PZT, Pb [ZrxTi1-x] O3 ; x = 0,52
Other Materials Zinc oxide ZnO Aluminum nitride AlN Polyvinylidene fluoride PVDF
Adopted from Piezomaterials.com
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Steven S. Saliterman
Typical Piezoelectric Circuit
1
T FOut
T P
Q RVC C R
= − +
TOut
F
QVC
= −
Tadigadapa, S., and K. Mateti. 2009. Piezoelectric MEMS sensors: state-of-the-art and perspectives. Measurement Science & Technology 20, no. 9:092001.
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Steven S. Saliterman
Piezoelectric sensors maybe configured as direct mechanical transducers or as resonators.
The observed resonance frequency and amplitude are determined by the physical dimensions, material and mechanical and interfacial inputs to the device.
Tadigadapa, S., and K. Mateti. 2009. Piezoelectric MEMS sensors: state-of-the-art and perspectives. Measurement Science & Technology 20, no. 9:092001.
Configurations
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Steven S. Saliterman
Two Modes of Operation
Tadigadapa, S., and K. Mateti. 2009. Piezoelectric MEMS sensors: state-of-the-art and perspectives. Measurement Science & Technology 20, no. 9:092001.
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Steven S. Saliterman
Approaches to Fabrication
There are essentially three approaches to realizing piezoelectric MEMS devices: 1. Deposition of piezoelectric thin films on
silicon substrates with appropriate insulating and conducting layers followed by surface or silicon bulk micromachining to realize the micromachined transducer (“additive approach”).
Tadigadapa, S., and K. Mateti. 2009. Piezoelectric MEMS sensors: state-of-the-art and perspectives. Measurement Science & Technology 20, no. 9:092001.
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Steven S. Saliterman
2. Direct bulk micromachining of single crystal or polycrystalline piezoelectrics and piezoceramics (“subtractive approach”).
3. Integrate micromachined structures in silicon via bonding techniques onto bulk piezoelectric substrates (“integrative approach”).
Tadigadapa, S., and K. Mateti. 2009. Piezoelectric MEMS sensors: state-of-the-art and perspectives. Measurement Science & Technology 20, no. 9:092001.
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Steven S. Saliterman
Approaches to Fabrication
Tadigadapa, S., and K. Mateti. 2009. Piezoelectric MEMS sensors: state-of-the-art and perspectives. Measurement Science & Technology 20, no. 9:092001.
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Steven S. Saliterman
Illustration of Surface Micromachining
(a) Substrate silicon wafer. (b) Silicon substrate surface is thermally
oxidized. (c) Bottom electrode such as a (1 1 1) platinum
film is deposited. (d) The piezoelectric thin film is deposited and
annealed. (e) Top electrode metal such as Cr/Au is
deposited. (f) The entire piezoelectric, electrodes and
passive layer stack is patterned and etch to expose the substrate silicon.
(g) Substrate silicon is etched from the front side using anisotropic wet etchant or isotropic vapor phase XeF2 etchant while protecting the transducer stack.
(h) Alternatively, the substrate silicon is anisotropically etched from backside to release the transducer structure.
Tadigadapa, S., and K. Mateti. 2009. Piezoelectric MEMS sensors: state-of-the-art and perspectives. Measurement Science & Technology 20, no. 9:092001.
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Steven S. Saliterman
Piezoelectric Effects
The piezoelectric effect is a linear phenomenon where deformation is proportional to an electric field:
is the mechanical strain, is the piezoelectric coefficient, is the electric field, is the displacment (or charge density) linearly, and is the stress.
WhereSdEDT
S dE and D dT= =
These equations are known as the converse piezoelectric effect and the direct piezoelectric effect respectively.
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Steven S. Saliterman
Surface Acoustic Waves
Generation of surface acoustic waves (SAW) in quartz by interdigitated transducers:
Gardner, JW, VK Varadan and OO Awadelkarim, Microsensors, MEMS and Smart Devices. John Wiley & Sons, Ltd. W. Sussex (2001).
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Steven S. Saliterman
Delay-line SAW
Typically with a sensing film such polyimide deposited on the surface in the area between the interdigitated transducers:
Gardner, JW, VK Varadan and OO Awadelkarim, Microsensors, MEMS and Smart Devices. John Wiley & Sons, Ltd. W. Sussex (2001).
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Steven S. Saliterman
Two Port Delay Line and Resonator
Tadigadapa, S., and K. Mateti. 2009. Piezoelectric MEMS sensors: state-of-the-art and perspectives. Measurement Science & Technology 20, no. 9:092001.
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Steven S. Saliterman
The change in SAW velocity is related to the mass of a thin loss-less film on the sensor surface (left):
1 2
1 2
is the SAW velocity, and are the substrate material constants, is the SAW frequency, is the height of the layer, and is the density of the thin film lay
( )
R
R
RWhereVk kfh
V k k fhV
ρ
ρ
′
∆ = + ′
er.
0
0
0 0
is the frequency change, is the intial SAW frequency, is the phase shift, and
is the total degrees of phase in the sensor delay path (as measured be
RWhere
ff
fVV f
φφ
φφ
∆
∆
∆ ∆∆ = =−
tween the centers of the IDTs)
The change in SAW velocity can be determined experimentally by measuring the phase shift or the frequency shift (right).
Calculating SAW Velocity
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Steven S. Saliterman
Quartz Crystal Microbalance (QCM)
Mass-sensitive devices suitable for detecting a variety of analytes. Thin AT-cut quartz wafer with a diameter of 0.25-1.0 inches, sandwiched between two metal electrodes which are used to establish an electric field across the crystal:
Cahayaalone.blogspot.com Chimique.usherbrooke.ca
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Steven S. Saliterman
Sauerbrey Equation
Mass changes on the QCM surface result in a frequency change according to the Sauerbrey equation:
0
20
is the change in frequency, is the resonant frequency of the quartz resonator, is the mass change,
is the active vibrating area is the is the shear mod
2
Q
Q Q
Wheref
fm
A
f mfA
µ
µ ρ
∆
∆
− ∆∆ =
ulus of the quartz, and
is the the density of quartzQρ
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Steven S. Saliterman
MEMS Structures
Construction: a) Cantilever beam, b) Bridge structure, c) Diagram or
membrane.
Detection Methods: Electrical, Magnetic, Optical, Acoustic.
Gardner, JW, VK Varadan and OO Awadelkarim, Microsensors, MEMS and Smart Devices. John Wiley & Sons, Ltd. W. Sussex (2001).
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Steven S. Saliterman
Cantilever Beam
The displacement x of the beam is related to the applied force and length of the beam:
3
is Young's modulus, is the second moment of inertia, i
or ( is the spring constant)3
m
m
x
x x m mm m
WhereEIF
lx F F k x kE I
∆ = = ∆
s the force or point load, and is the length.l
Gardner, JW, VK Varadan and OO Awadelkarim, Microsensors, MEMS and Smart Devices. John Wiley & Sons, Ltd. W. Sussex (2001).
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Steven S. Saliterman
Bridge Structure
The sinusoidal solution for displacement x of a bridge structure is:
2
2
is a constant, is Young's modulus,
sin and (the buckling force)
m
y m mCritical
m m
WhereAE
F E Ix A FE I y l
π
∆ = =
is the second moment of inertia, is the force and
is the length.
m
y
IF
l
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Steven S. Saliterman
MEMS Sensor – Piezoelectric Pressure
Piezoresistive pressure sensor with reference pressure cavity inside chip.
Esashi, Masayoshi. 2012. Revolution of Sensors in Micro-Electromechanical Systems. Japanese Journal of Applied Physics 51, no. 8:080001.
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Steven S. Saliterman
MEMS Sensor – Capacitive Pressure
Integrated capacitive pressure sensor fabricated by wafer level packaging.
Esashi, Masayoshi. 2012. Revolution of Sensors in Micro-Electromechanical Systems. Japanese Journal of Applied Physics 51, no. 8:080001.
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Steven S. Saliterman
Principle and photograph of SAW passive wireless pressure sensor and example of measurement (change in time converted into phase).
MEMS Sensor – SAW Pressure
Esashi, Masayoshi. 2012. Revolution of Sensors in Micro-Electromechanical Systems. Japanese Journal of Applied Physics 51, no. 8:080001.
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Steven S. Saliterman
Common two-wire tactile sensor network that sequentially selects sensors.
MEMS Sensor – Tactile Sensor
Esashi, Masayoshi. 2012. Revolution of Sensors in Micro-Electromechanical Systems. Japanese Journal of Applied Physics 51, no. 8:080001.
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Steven S. Saliterman
Schematic of event-driven (interrupt) tactile sensor network, example of operation, and photographs of prototype IC.
MEMS Sensor – Tactile Sensor
Esashi, Masayoshi. 2012. Revolution of Sensors in Micro-Electromechanical Systems. Japanese Journal of Applied Physics 51, no. 8:080001.
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Steven S. Saliterman
Poly-Si surface micromachined integrated accelerometer (cross sectional structure and photographs of two-axis accelerometer).
MEMS Sensor - Accelerometer
Esashi, Masayoshi. 2012. Revolution of Sensors in Micro-Electromechanical Systems. Japanese Journal of Applied Physics 51, no. 8:080001.
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Steven S. Saliterman
Schematic of accelerometer with thick epitaxial poly-Si layer and photograph of resonant gyroscope.
MEMS Sensor - Accelerometer
Esashi, Masayoshi. 2012. Revolution of Sensors in Micro-Electromechanical Systems. Japanese Journal of Applied Physics 51, no. 8:080001.
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Steven S. Saliterman
Automotive sensor for yaw rate and acceleration.
MEMS Sensor – Yaw & Acceleration
Esashi, Masayoshi. 2012. Revolution of Sensors in Micro-Electromechanical Systems. Japanese Journal of Applied Physics 51, no. 8:080001.
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Steven S. Saliterman
MEMS Sensor - Gyroscope
Esashi, Masayoshi. 2012. Revolution of Sensors in Micro-Electromechanical Systems. Japanese Journal of Applied Physics 51, no. 8:080001.
Two-axis resonant gyroscope used for image stabilization (photograph and schematic).
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Steven S. Saliterman
Apollo 11 Gyroscope 1969
Gyroscope image courtesy of https://www.flickr.com/photos/blafetra/14524883649
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Steven S. Saliterman
Sensor Fusion: Adafruit BN0055
Absolute Orientation (Euler Vector, 100Hz) Three axis orientation data based on a 360° sphere.
Absolute Orientation (Quaterion, 100Hz) Four point quaternion output for more accurate data manipulation.
Angular Velocity Vector (100Hz) Three axis of 'rotation speed' in rad/s.
Acceleration Vector (100Hz) Three axis of acceleration (gravity + linear motion) in m/s^2.
Magnetic Field Strength Vector (20Hz) Three axis of magnetic field sensing in micro Tesla (uT).
Linear Acceleration Vector (100Hz) Three axis of linear acceleration data (acceleration minus gravity) in m/s^2.
Gravity Vector (100Hz) Three axis of gravitational acceleration (minus any movement) in m/s^2.
Temperature (1Hz) Ambient temperature in degrees celsius.
Courtesy of Adafruit
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Steven S. Saliterman
Thermosensors
Platinum resistor: Linear, stable, reproducible. Material property dependency on
temperature, Thermocouples (e.g.. Type K) Thermistor: a semiconductor device
made of materials whose resistance varies as a function of temperature.
Thermodiode and Thermotransistor.
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Steven S. Saliterman
Thermocouple
Potentiometric devices fabricated by the joining of two different metals forming a sensing junction: Based on the thermoelectric Seebeck effect in which a
temperature difference in a conductor or semiconductor creates an electric voltage:
is the electrical voltage,
is the Seebeck coefficient expressed in volts/K , and is the temperature difference ( - ).
s
S ref
sWhere
V
T T T
V T
α
α
∆
∆
∆ = ∆
Gardner, JW, VK Varadan and OO Awadelkarim, Microsensors, MEMS and Smart Devices. John Wiley & Sons, Ltd. W. Sussex (2001).
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Steven S. Saliterman
Thermodiode and Thermotransistor
When a p-n diode is operated in a constant current (IO) circuit, the forward voltage (Vout) is directly proportional to the absolute temperature (PTAT).
is the Bolzman constant, is temperature, is the charge on an electron, is the operating current and is the saturation current.
ln 1out
b
S
B
S
WherekTqII
k T IVq I
= +
Gardner, JW, VK Varadan and OO Awadelkarim, Microsensors, MEMS and Smart Devices. John Wiley & Sons, Ltd. W. Sussex (2001).
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Steven S. Saliterman
Thermal Flow Sensing
Hot wire or hot element anemometers. Based on convective heat exchange taking
place when the fluid flow passes over the sensing element (hot body).
Operate in constant temperature mode or in constant current mode.
Calorimetric sensors. Based on the monitoring of the asymmetry
of temperature profile around the hot body which is modulated by the fluid flow.
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Steven S. Saliterman
Thermal Flow Sensor
The heat transferred per unit time from a resistive wire heater to a moving liquid is monitored with a thermocouple:
Gardner, JW, VK Varadan and OO Awadelkarim, Microsensors, MEMS and Smart Devices. John Wiley & Sons, Ltd. W. Sussex (2001).
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Steven S. Saliterman
In a steady state, the mass flow rate can be determined:
The volumetric flow rate is calculated as follows:
1 2
2 1
is the mass flow rate, is the heat transferred per unit time, is the specific heat capacity of the fluid and
, are temperature.
( )
m
h
m
hm
mWhereQPcT T
PdmQ T Tdt c= = −
is the volumetric flow rate, is the mass flow rate and is the density.
V
m
m
mV
mWhereQQ
QdVQ dt
ρ
ρ= =
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Steven S. Saliterman
Thermal Flow Sensor with Thermopile
Silvestri, S. and E. Schena Micromachined Flow Sensors in Biomedical Applications. Micromachines 2012, 3, 225-243
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Steven S. Saliterman
Non-Thermal Flow Sensors
Cantilever type flow sensors Measuring the drag-force on a cantilever beam.
Differential pressure-based flow sensors When a fluid flow passes through a duct, or over a surface, it produces a
pressure drop depending on the mean velocity of the fluid. Electromagnetic Laser Doppler flowmeter
The phenomenon is due to the interaction between an electromagnetic or acoustic wave and a moving object: the wave is reflected back showing a frequency different from the incident one.
Lift-force and drag flow sensors Based on the force acting on a body located in a fluid flow.
Microrotor Rotating turbine
Resonating flow sensors Temperature effects resonance frequency of a vibrating membrane.
Silvestri, S. and E. Schena Micromachined Flow Sensors in Biomedical Applications. Micromachines 2012, 3, 225-243
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Steven S. Saliterman
Cantilever Type Sensor
Silvestri, S. and E. Schena Micromachined Flow Sensors in Biomedical Applications. Micromachines 2012, 3, 225-243
Able to Sense Direction
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Steven S. Saliterman
Summary
A sensor is a transducer that converts the measurand (a quantity or a parameter) into a signal that carries information.
The piezoelectric effect is a linear phenomenon where deformation is proportional to an electric field.
Mass changes on the QCM surface result in a frequency change according to the Sauerbrey equation.
MEMS Structures and Sensors Thermo Sensors Flow Sensors Magnetic Sensors
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Steven S. Saliterman
Appendix: Piezoelectric Thin Films
Tadigadapa, S., and K. Mateti. 2009. Piezoelectric MEMS sensors: state-of-the-art and perspectives. Measurement Science & Technology 20, no. 9:092001.
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Steven S. Saliterman
Dry Etching Characteristics
Tadigadapa, S., and K. Mateti. 2009. Piezoelectric MEMS sensors: state-of-the-art and perspectives. Measurement Science & Technology 20, no. 9:092001.
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Steven S. Saliterman
Piezoelectric Constitutive Equations
, , 1 to 6; and , , 1 to 3, is the strain, is the dielectric displacement (or charge density), is the electric field
Ei ij j kl k
Tm nl lm
Wherei j m k l nSDE
S s T d ED d T Eε
= =
= +
= + ln
(The superscripts and refer to measurement at a constant field and stress. )
, is the stress, and
, and are the elastic compliances.E Tij kl
E T
T
s d ε ln