Design of Pulse OximetersJohn G. Webster Design of Pulse Oximeters describes the hardware and software needed to make a pulse oximeter, and includes the equations, methods, and software required for them to function effectively. The book begins with a brief description of how oxygen is delivered to the tissue, historical methods for measuring oxygenation, and the invention of the pulse oximeter in the early 1980s. Subsequent chapters explain oxygen saturation display and how to use an LED, provide a survey of light sensors, and review probes and cables. The book closes with an assessment of techniques that may be used to analyze pulse oximeter performance and a brief overview of pulse oximetry applications. The book contains useful worked examples, several worked equations, flow charts, and examples of algorithms used to calculate oxygen saturation. It also includes a glossary of terms, instructional objectives by chapter, and references to further reading. |
Contents
IV | 1 |
V | 2 |
VII | 3 |
X | 4 |
XI | 5 |
XIII | 6 |
XVI | 7 |
XVII | 8 |
CXLIII | 104 |
CXLIV | 105 |
CXLV | 107 |
CXLVI | 108 |
CXLVII | 109 |
CXLVIII | 111 |
CXLIX | 112 |
CL | 113 |
XVIII | 9 |
XX | 10 |
XXII | 11 |
XXIV | 12 |
XXV | 13 |
XXVIII | 14 |
XXIX | 16 |
XXX | 17 |
XXXI | 18 |
XXXII | 19 |
XXXV | 20 |
XXXVI | 21 |
XXXVII | 23 |
XXXIX | 24 |
XLI | 26 |
XLII | 28 |
XLIV | 29 |
XLV | 30 |
XLVII | 32 |
XLIX | 33 |
L | 34 |
LI | 35 |
LII | 36 |
LIV | 37 |
LV | 38 |
LVIII | 39 |
LX | 40 |
LXI | 41 |
LXII | 42 |
LXIV | 43 |
LXVI | 44 |
LXVII | 46 |
LXVIII | 47 |
LXX | 48 |
LXXI | 49 |
LXXII | 50 |
LXXIV | 51 |
LXXVII | 52 |
LXXVIII | 53 |
LXXIX | 54 |
LXXXIII | 55 |
LXXXIV | 56 |
LXXXV | 57 |
LXXXVI | 58 |
LXXXIX | 59 |
XCII | 60 |
XCIV | 62 |
XCV | 64 |
XCVI | 66 |
XCVII | 67 |
XCVIII | 68 |
C | 69 |
CI | 70 |
CII | 74 |
CIV | 75 |
CVI | 77 |
CX | 78 |
CXI | 80 |
CXII | 81 |
CXIII | 82 |
CXIV | 83 |
CXV | 84 |
CXVII | 85 |
CXVIII | 86 |
CXIX | 88 |
CXX | 89 |
CXXII | 90 |
CXXIII | 91 |
CXXIV | 92 |
CXXVI | 93 |
CXXIX | 94 |
CXXXI | 95 |
CXXXIII | 96 |
CXXXIV | 97 |
CXXXV | 98 |
CXXXVI | 99 |
CXXXVII | 100 |
CXXXVIII | 101 |
CXXXIX | 102 |
CXL | 103 |
CLI | 114 |
CLII | 115 |
CLV | 116 |
CLVI | 117 |
CLVII | 118 |
CLIX | 119 |
CLXI | 120 |
CLXIII | 122 |
CLXVI | 123 |
CLXVII | 124 |
CLXVIII | 127 |
CLXIX | 128 |
CLXX | 131 |
CLXXI | 132 |
CLXXII | 133 |
CLXXIII | 141 |
CLXXIV | 142 |
CLXXV | 147 |
CLXXVI | 155 |
CLXXVII | 156 |
CLXXIX | 157 |
CLXXX | 160 |
CLXXXI | 161 |
CLXXXII | 162 |
CLXXXIII | 166 |
CLXXXIV | 169 |
CLXXXV | 170 |
CLXXXVI | 171 |
CLXXXVII | 172 |
CLXXXIX | 173 |
CXC | 174 |
CXCII | 175 |
CXCIII | 176 |
CXCIV | 177 |
CXCV | 178 |
CXCVI | 179 |
CXCVIII | 180 |
CXCIX | 181 |
CC | 182 |
CCI | 183 |
CCII | 185 |
CCIV | 186 |
CCV | 187 |
CCVI | 188 |
CCIX | 189 |
CCX | 190 |
CCXIV | 192 |
CCXVI | 193 |
CCXVIII | 194 |
CCXIX | 196 |
CCXX | 197 |
CCXXI | 198 |
CCXXII | 199 |
CCXXIII | 201 |
CCXXIV | 202 |
CCXXV | 204 |
CCXXVI | 207 |
CCXXVII | 208 |
CCXXIX | 209 |
CCXXX | 210 |
CCXXXI | 211 |
212 | |
CCXXXV | 213 |
CCXXXVI | 214 |
CCXXXVII | 215 |
CCXXXIX | 216 |
CCXL | 217 |
CCXLII | 218 |
CCXLIII | 219 |
CCXLV | 220 |
CCXLVI | 222 |
CCXLVII | 225 |
CCXLIX | 229 |
CCLI | 230 |
CCLIV | 231 |
CCLV | 232 |
CCLVI | 234 |
CCLVII | 235 |
CCLVIII | 241 |
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Common terms and phrases
accuracy alarms algorithm ambient light amplifier amplitude arterial blood arterial oxygen saturation Beer's law blood flow calculated calibration curve carboxyhemoglobin cardiac cause chapter circuit Clark electrode CO-oximeter coding resistor COHb DC components desaturation Describe detected determined device display drive current ECG signal ECG synchronization electrode equation extinction coefficient fetal Figure filter finger frequency function HbO2 heart rate hypoxemia hypoxia incident light increases infrared input light absorbance light intensity lungs maximum measured MetHb microprocessor monitoring motion artifacts muscles Nellcor noise normal Ohmeda operation optical fiber optical pulse optical signal output oximetry oxygen saturation oxygen saturation levels oxyhemoglobin p-n junction partial pressure patient peak wavelength photodetector photodiode plethysmographic pulsatile component pulse oximeter pulse oximeter probe pulse rate red and infrared red LED respiratory sample SaO2 scattering sensor Severinghaus simulate skin sleep apnea SpO2 readings temperature tissue transimpedance amplifier transmittance voltage waveform wavelength
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Page xi - All contributors are from the Department of Electrical and Computer Engineering at the University of Wisconsin, Madison, WI, USA, and worked as a team to write this book.