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09/17/16 1
Intravascular
MicroBolometer
Catheter
Ashkan Emadi,MD
Said Siadaty,MD
Ward Casscells,MD
James T. Willerson,MD
M...
09/17/16 2
Introduction to Infrared
Technology
• Infrared detectors and detector arrays are used
in many fields of applica...
09/17/16 3
Blackbody & Blackbody Radiation
• Central to radiation thermometry is the
concept of the blackbody. The
blackbo...
09/17/16 4
•  In addition to absorbing all incident
radiation, a blackbody is a perfect radiating
body. To describe the em...
09/17/16 5
• Almost all of the real objects and surfaces
have emissivities less than 1. Objects with
an emissivity less th...
09/17/16 6
09/17/16 7
Result of emissivity measurement
Burn wounds and tissue
Superficial partial thickness burn(scalp) 0.976 ± 0.006...
09/17/16 8
Emissivity Map of Volcano on Venus
09/17/16 9
Planck’s Radiation Law
Planck's distribution shows that as
wavelength varies, emitted radiation
varies continuo...
09/17/16 10
09/17/16 11
Planck’s radiation law states that
every object at a temperature above
absolute zero emits
electromagnetic ra...
09/17/16 12
Trends in Application &
Marketing of Infrared Detectors
 It is notable, that from a global perspective, for
m...
09/17/16 13
09/17/16 14
However, the main future trend will most
certainly be to reexamine one of the strengths
of infrared technolog...
09/17/16 15
A potentially important
civilian market for
uncooled infrared detector
arrays is :
09/17/16 16
Research & Development / Non
Destructive Testing
09/17/16 17
Thermal Images in Security and
Surveillance
09/17/16 18
Hot 2x4s Inside Bedroom Walls (Can be used to locate
secret compartments!)
Visible Image Shows
Surface Only
Un...
09/17/16 19
Condition Monitoring / Preventitive
Maintenance
09/17/16 20
Fire Fighting
Warm body in a dark,
smoke-filled room can be
seen
09/17/16 21
General Motors says it will be the first automaker to offer
night vision technology when its 2000 model Cadill...
09/17/16 22
•Cadillac's Night Vision uses an infrared heat sensor mounted in the
front grille.
•The sensor detects heat as...
09/17/16 23
Medical Diagnosis
Thermal Coronary Angiography
Stenosis
09/17/16 24
It is difficult to
see the veins in
this forearm with
visible light.
The high sensitivity of
an array can dete...
09/17/16 25
Image showing different
facial temperatures. Note
cold nose and ears.
                                        ...
09/17/16 26
Detector Technology
• Detector Types
Photon Detectors
Thermal Detectors
• Infrared Imaging
09/17/16 27
Photon Detectors
The absorption of long-wavelength
radiation by photon detectors results
directly in some spec...
09/17/16 28
Photon detectors normally require cooling
down to cryogenic temperatures in order to
get rid of excessive dark...
09/17/16 29
Background Limited Infrared
Photodetector (BLIP)
• The current from an infrared detector may be
subdivided int...
09/17/16 30
Dark current is by definition present even if the
detector is not illuminated. The origin of dark
current is u...
09/17/16 31
• When photocurrent dominates over dark current
the detector is said to be background limited or
BLIP (Backgro...
09/17/16 32
Photon Detectors
Classification
09/17/16 33
Photoconductive Detectors
The function of photoconductive detectors are
based on the photogeneration of charge...
09/17/16 34
Photovoltaic Detectors
Photovoltaic devices require an internal potential
barrier with a built-in electric fie...
09/17/16 35
Thermal Detector Arrays
In contrast to photon detectors, the operation of
thermal detectors depends on a two-s...
09/17/16 36
Bolometer
• A resistive bolometer contains a
resistive material, whose resistivity
changes with temperature.
•...
09/17/16 37
Resistive Materials in Bolometer
Resistive materials could be metals such as
platinum, or semiconductors (ther...
09/17/16 38
128x128 and 64x64 Pixel Bolometric
Detector Arrays Equipped with On-Chip
ROIC’s
09/17/16 39
ROIC
The electronic chip used to
multiplex or read out the signals
from the detector elements are
usually call...
09/17/16 40
Microbolometer in Cross-Section
09/17/16 41
Bolometer Structure and Operating
Principles
09/17/16 42
Surface Micromachined Bolometric
Detectors
09/17/16 43
Surface Micromachining
is used for the fabrication of the
detector elements, consisting of thin
bridge structu...
09/17/16 44
09/17/16 45
NETD
NETD is an abbreviation for Noise
Equivalent Temperature Difference
and is a measure of the smallest
obje...
09/17/16 46
Thermal Detector specification
The requirement on detector arrays
comprising the detectors integrated
with rea...
09/17/16 47
Vacuum Encapsulation
The major requirement for achieving high
sensitivity is an efficient thermal insulation
b...
09/17/16 48
Advantage & Disadvantage of Thermal
Detectors
• The major advantage of thermal detectors is that
they can oper...
09/17/16 49
Uncooled IR Camera Based on
128x128 Pixel FPA
09/17/16 50
Infrared Imaging
• There are two basic types of infrared imaging
systems: mechanical scanning systems and
syst...
09/17/16 51
Infrared Imaging
Detector arrays operated as focal plane arrays
(FPA) (or staring arrays) are located in the f...
09/17/16 52
Infrared Imaging
• The spatial resolution of the image is determined
by the number of pixels of the detector a...
09/17/16 53
Detector arrays are more complicated to
fabricate, since besides the detector
elements with the function of re...
09/17/16 54
Our Proposal
Intravascular
Microbolometer
Catheter
09/17/16 55
09/17/16 56
09/17/16 57
09/17/16 58
Another Plan
09/17/16 59
Intravascular Microbolometer
Catheter
09/17/16 60
Guiding Catheter
09/17/16 61
09/17/16 62
09/17/16 63
09/17/16 64
Cost Reduction
The price of Infrared Camera:
$40000-$60000
IR Fibro Optic Bundles:
The price of fiber per mete...
09/17/16 65
Comparison between Fibro Optic Camera &
Microbolometer Catheter
09/17/16 66
Cost-Effectiveness of different Options
1. Plaque Imaging Model(10 mm option)
Cost:
Area of each Pixel = 25 x ...
09/17/16 67
Cost-Effectiveness of Different options
2. Linear Imaging Model(1 mm)
Cost:
Area of each Pixel = 25 x 25 =625 ...
09/17/16 68
Help Yourself
See your pocket,play with resolution
09/17/16 69
Planck, Max: Portrait
1947
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Intravascular micro bolometer catheter thi

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Intravascular micro bolometer catheter thi

  1. 1. 09/17/16 1 Intravascular MicroBolometer Catheter Ashkan Emadi,MD Said Siadaty,MD Ward Casscells,MD James T. Willerson,MD Morteza Naghavi,MD Th e Un i v er si t y o f Texas-H o u st o n H eal t h Sc i en c e Cen t er Texas Heart Institute
  2. 2. 09/17/16 2 Introduction to Infrared Technology • Infrared detectors and detector arrays are used in many fields of applications today. • Many of these are based on passive detection of thermally emitted electromagnetic radiations as described by the Planck’s law. • In this way it is possible to image objects in darkness, or carry out contactless temperature measurement.
  3. 3. 09/17/16 3 Blackbody & Blackbody Radiation • Central to radiation thermometry is the concept of the blackbody. The blackbody concept is important because it shows that radiant power depends on temperature. • Kirchhoff defined a blackbody as a surface that neither reflects nor transmits, but absorbs all incident radiation, independent of direction and wavelength.
  4. 4. 09/17/16 4 •  In addition to absorbing all incident radiation, a blackbody is a perfect radiating body. To describe the emitting capabilities of a surface in comparison to a blackbody, Kirchoff defined emissivity of a real surface as the ratio of the thermal radiation emitted by a surface at a given temperature to that of a blackbody at the same temperature and for the same spectral and directional conditions. • Boltzmann showed that the radiation emitted by a blackbody is proportional to the fourth power of the absolute temperature of the surface.
  5. 5. 09/17/16 5 • Almost all of the real objects and surfaces have emissivities less than 1. Objects with an emissivity less than one are named graybodies. Most organic objects are graybodies, with an emissivity between 0.90 and 0.95. • Boylan A. et al reported that emissivities of burn wound tissues were in the range 0.976- 0.992, greater than those of intact skin by 0.01-0.03. • We speculate plaque emissivity is similar to wound lesions.                                                                          
  6. 6. 09/17/16 6
  7. 7. 09/17/16 7 Result of emissivity measurement Burn wounds and tissue Superficial partial thickness burn(scalp) 0.976 ± 0.006 Partial thickness burn(arm) 0.992 ± 0.001 Deep Partial thickness burn(buttock) 0.982 ± 0.004 Full thickness burn(hands) 0.977 ± 0.010 Skin in vitro with epidermis removed 0.970 ± 0.010 Skin in vivo with dermal layer removed 0.985 ± 0.007 Normal Skin Intact skin mean of 12 subjects 0.961 ± 0.007 Intact skin in vitro 0.968 ± 0.003 Set of measurements on one subject Skin dry 0.971 ± 0.001 Skin with layer of moisture 0.978 ± 0.004 Skin covered by layer of cling film 0.968 ± 0.002 Skin with talc applied 0.875 ± 0.011
  8. 8. 09/17/16 8 Emissivity Map of Volcano on Venus
  9. 9. 09/17/16 9 Planck’s Radiation Law Planck's distribution shows that as wavelength varies, emitted radiation varies continuously. As temperature increases, the total amount of energy emitted increases and the peak of the curve shifts to the left, or toward the shorter wavelengths.
  10. 10. 09/17/16 10
  11. 11. 09/17/16 11 Planck’s radiation law states that every object at a temperature above absolute zero emits electromagnetic radiation. The higher the temperature the higher is the emitted intensity. The wavelength of maximum intensity decreases when the temperature increases.
  12. 12. 09/17/16 12 Trends in Application & Marketing of Infrared Detectors  It is notable, that from a global perspective, for many years all the major breakthroughs in infrared technology, and the major purchases of infrared equipment, have been funded by a military sponsor. Consequently, the technology has been developed with the military use in mind, and the emphasis been on high performance IR systems, predominantly cooled photon detectors.
  13. 13. 09/17/16 13
  14. 14. 09/17/16 14 However, the main future trend will most certainly be to reexamine one of the strengths of infrared technology i. e. its suitability to applications outside the military sector, and meeting the needs of the civil customer. The civil sector can accept a lower performance, but the price per unit must be kept low, and the equipment user friendly. The medium performance, uncooled thermal detector technology is certainly suitable for this.
  15. 15. 09/17/16 15 A potentially important civilian market for uncooled infrared detector arrays is :
  16. 16. 09/17/16 16 Research & Development / Non Destructive Testing
  17. 17. 09/17/16 17 Thermal Images in Security and Surveillance
  18. 18. 09/17/16 18 Hot 2x4s Inside Bedroom Walls (Can be used to locate secret compartments!) Visible Image Shows Surface Only Uncooled Image Shows Wall Structure
  19. 19. 09/17/16 19 Condition Monitoring / Preventitive Maintenance
  20. 20. 09/17/16 20 Fire Fighting Warm body in a dark, smoke-filled room can be seen
  21. 21. 09/17/16 21 General Motors says it will be the first automaker to offer night vision technology when its 2000 model Cadillac DeVille goes on sale next year.
  22. 22. 09/17/16 22 •Cadillac's Night Vision uses an infrared heat sensor mounted in the front grille. •The sensor detects heat as low as 0 degrees Fahrenheit from objects as far as 500 yards in front of the car, five times the distance low- beam headlights reach. People, cars and other objects appear as white images in a black background, similar to a photo negative. •The images are projected onto a 4x10-inch area above the steering wheel but below the driver's line of sight.
  23. 23. 09/17/16 23 Medical Diagnosis Thermal Coronary Angiography Stenosis
  24. 24. 09/17/16 24 It is difficult to see the veins in this forearm with visible light. The high sensitivity of an array can detect the increased temperature of venous blood flow in the same arm.
  25. 25. 09/17/16 25 Image showing different facial temperatures. Note cold nose and ears.                                                      Cold Sweat Glands on Fingertip
  26. 26. 09/17/16 26 Detector Technology • Detector Types Photon Detectors Thermal Detectors • Infrared Imaging
  27. 27. 09/17/16 27 Photon Detectors The absorption of long-wavelength radiation by photon detectors results directly in some specific quantum event, such as the photoelectric emission of electrons from a surface, or electronic interband transitions in semiconductor materials. Therefore, the output of photon detectors is governed by the rate of absorption of photons and not directly on the photon energy.
  28. 28. 09/17/16 28 Photon detectors normally require cooling down to cryogenic temperatures in order to get rid of excessive dark current, but in return their general performance is higher, with larger detectivities and smaller response times. In most cases photon detectors need to be cooled to cryogenic temperatures, i. e. down to 77 K (liquid nitrogen) or 4 K (liquid helium). Quantum Well Infrared Photodetector (QWIP) Arrays is a type of photon detector.
  29. 29. 09/17/16 29 Background Limited Infrared Photodetector (BLIP) • The current from an infrared detector may be subdivided into two parts: photocurrent and dark current. The photocurrent is the useful response of the detector, whereas the dark current is an undesired part. • Photocurrent results from absorption of infrared photons in the detector. These photons create charge carriers which can be collected as a photocurrent.
  30. 30. 09/17/16 30 Dark current is by definition present even if the detector is not illuminated. The origin of dark current is usually thermal excitation of charge carriers, a process that competes with photoexcitation. Due to the thermal origin, dark current depends on the detector temperature. The most efficient way of getting rid of dark current is to cool down the detector to a temperature where the photocurrent becomes the dominant one. However, since cooling is expensive, during the detector design phase, every action should be taken to minimize dark current and maximize photocurrent.
  31. 31. 09/17/16 31 • When photocurrent dominates over dark current the detector is said to be background limited or BLIP (Background Limited Infrared Photodetector). Background here means the high temperature (not cooled) surroundings or scene (including imaged objects) within the detector field of view. The background scene emits infrared photons sensed by the detector giving rise to a photocurrent. • Usually BLIP temperature is defined as the temperature where the photocurrent is ten times as large as the dark current.
  32. 32. 09/17/16 32 Photon Detectors Classification
  33. 33. 09/17/16 33 Photoconductive Detectors The function of photoconductive detectors are based on the photogeneration of charge carriers (electrons, holes or electron-hole pairs). These charge carriers increase the conductivity of the device material. Detector materials possible to utilize for photoconductive detectors are: *indium antimonide (InSb) *quantum well infrared photodetector (QWIP) *mercury cadmium telluride (mercad, MCT) *lead sulfide (PbS) *lead selenide (PbSe)
  34. 34. 09/17/16 34 Photovoltaic Detectors Photovoltaic devices require an internal potential barrier with a built-in electric field in order to separate photo-generated electron-hole pair. Whereas the current-voltage characteristics of photoconductive devices are symmetric with respect to the polarity of the applied voltage, photovoltaic devices exhibit rectifying behavior. Examples of photovoltaic infrared detector types are: *indium antimonide (InSb) *mercury cadmium telluride (MCT) *platinum silicide (PtSi) - silicon Schottky barrier
  35. 35. 09/17/16 35 Thermal Detector Arrays In contrast to photon detectors, the operation of thermal detectors depends on a two-step process. 1. The absorption of infrared radiation in these detectors raises the temperature of the device, 2. which in turn changes some temperature- dependent parameter such as electrical conductivity. Thermal detectors may be thermopile (Seebeck effect), Golay cell detectors, pyroelectric detectors, or bolometer.
  36. 36. 09/17/16 36 Bolometer • A resistive bolometer contains a resistive material, whose resistivity changes with temperature. • To achieve high sensitivity the Temperature Coefficient of the Resistivity (TCR) should be as large as possible and the Noise resulting from contacts and the material itself should be low.
  37. 37. 09/17/16 37 Resistive Materials in Bolometer Resistive materials could be metals such as platinum, or semiconductors (thermistors). Metals usually have low noise but have low temperature coefficients (about 0.2 %/K), semiconductors have high temperature coefficients (1-4 %/K) but are prone to be more noisy. Semiconductors used for infrared detectors are,e. g., polycrystalline silicon, or vanadium oxide.
  38. 38. 09/17/16 38 128x128 and 64x64 Pixel Bolometric Detector Arrays Equipped with On-Chip ROIC’s
  39. 39. 09/17/16 39 ROIC The electronic chip used to multiplex or read out the signals from the detector elements are usually called readout integrated circuit (ROIC) or (analogue) multiplexer.
  40. 40. 09/17/16 40 Microbolometer in Cross-Section
  41. 41. 09/17/16 41 Bolometer Structure and Operating Principles
  42. 42. 09/17/16 42 Surface Micromachined Bolometric Detectors
  43. 43. 09/17/16 43 Surface Micromachining is used for the fabrication of the detector elements, consisting of thin bridge structures or membranes
  44. 44. 09/17/16 44
  45. 45. 09/17/16 45 NETD NETD is an abbreviation for Noise Equivalent Temperature Difference and is a measure of the smallest object temperature difference possible to detect by an IR camera.
  46. 46. 09/17/16 46 Thermal Detector specification The requirement on detector arrays comprising the detectors integrated with readout electronics is a temperature resolution (NETD) < 100 mK, for a camera optics f-number = 1 and 50 Hz frame rate.
  47. 47. 09/17/16 47 Vacuum Encapsulation The major requirement for achieving high sensitivity is an efficient thermal insulation between the detector element and the substrate. This necessitates vacuum encapsulation of the detector. Next in importance is a sensitive means of temperature detection. Semiconductor based layers (thermistors) with large temperature coefficient, and pyroelectric materials, are good choices.
  48. 48. 09/17/16 48 Advantage & Disadvantage of Thermal Detectors • The major advantage of thermal detectors is that they can operate at room temperature (Uncooled Detector). • The sensitivity is lower and the response time longer than for photon detectors. This makes thermal detectors suitable for focal plane array (FPA) operation, where the latter two properties are less critical.
  49. 49. 09/17/16 49 Uncooled IR Camera Based on 128x128 Pixel FPA
  50. 50. 09/17/16 50 Infrared Imaging • There are two basic types of infrared imaging systems: mechanical scanning systems and systems based on detector arrays without scanner. • A mechanical scanner utilizes one or more moving mirrors to sample the object plane sequentially in a row-wise manner and project these onto the detector . The advantage is that only one single detector is needed. The drawbacks are that high precision and thus expensive opto- mechanical parts are needed, and the detector response time has to be short.
  51. 51. 09/17/16 51 Infrared Imaging Detector arrays operated as focal plane arrays (FPA) (or staring arrays) are located in the focal plane of a camera system, and are thus replacing the film of a conventional camera for visible light. The advantage is that no moving mechanical parts are needed and that the detector sensitivity can be low and the detector slow.The drawback is that the detector array is more complicated to fabricate. However, with the ascent of rational methods for semiconductor fabrication, economy will be advantageous, provided that production volumes are large. The general trend is that infrared camera systems will be based on FPAs, except for special applications.
  52. 52. 09/17/16 52 Infrared Imaging • The spatial resolution of the image is determined by the number of pixels of the detector array. • Common formats for commercial infrared detectors are 320x240 pixels (320 columns, 240 rows), and 640x480. The latter format (or something close to it), which is nearly the resolution obtained by standard TV, will probably become commercially available in the next few years.
  53. 53. 09/17/16 53 Detector arrays are more complicated to fabricate, since besides the detector elements with the function of responding to radiation, electronic circuitry is needed to multiplex all the detector signals to one or a few output leads in a serial manner. The output from the array is either in analogue or digital form.
  54. 54. 09/17/16 54 Our Proposal Intravascular Microbolometer Catheter
  55. 55. 09/17/16 55
  56. 56. 09/17/16 56
  57. 57. 09/17/16 57
  58. 58. 09/17/16 58 Another Plan
  59. 59. 09/17/16 59 Intravascular Microbolometer Catheter
  60. 60. 09/17/16 60 Guiding Catheter
  61. 61. 09/17/16 61
  62. 62. 09/17/16 62
  63. 63. 09/17/16 63
  64. 64. 09/17/16 64 Cost Reduction The price of Infrared Camera: $40000-$60000 IR Fibro Optic Bundles: The price of fiber per meter:$100-$200 The average number of fibers for each bundle:100 The average length of each bundle:1.5 meter $15000-$30000 Total cost saving $55000-$90000
  65. 65. 09/17/16 65 Comparison between Fibro Optic Camera & Microbolometer Catheter
  66. 66. 09/17/16 66 Cost-Effectiveness of different Options 1. Plaque Imaging Model(10 mm option) Cost: Area of each Pixel = 25 x 25 =625 µ² Detecting Area= [10 x (2 x 3.14 x (½)] = 31.4 x 106µ² Interpixels Area = 10% of each pixel area Net Detecting Area=28.26 x 106µ² The Number of Pixels = 45670 ~ 45500 spots (It is far more than enough because each fiber optic bundle can visualize 100 spots of the plaque) Advantages: Instantaneous Viewing of the Plaque Drawback: High Cost, Inflexibility (Minimal Bending Radius)
  67. 67. 09/17/16 67 Cost-Effectiveness of Different options 2. Linear Imaging Model(1 mm) Cost: Area of each Pixel = 25 x 25 =625 µ² Detecting Area = [1 x (2 x 3.14 x (½)] = 3.14 x 106µ² Interpixels Area = 10% of each pixel area Net Detecting Area = 2.826 x 106µ² The Number of Pixels =4560 ~ 4500 Advantages:Low Cost, Flexible Drawback:Needs software for the image reconstruction
  68. 68. 09/17/16 68 Help Yourself See your pocket,play with resolution
  69. 69. 09/17/16 69 Planck, Max: Portrait 1947

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