Summary

North America sensor market is expected to reach USD 152.79 billion by 2032 from USD 65.41 billion in 2024, growing with a CAGR of 11.3% in the forecast period of 2025 to 2032.
Market Segmentation:
North America Sensor Market, By Type (Temperature Sensor, Image Sensor, Motion Sensor, Pressure Sensor, Touch Sensor, Proximity and Displacement Sensor, Accelerometer and Speed Sensor, Humidity and Moisture Sensor, Gas Sensor, Optical Sensor, Force Sensor, Flow Sensor, Level Sensor, Biosensor, Position Sensor, and Others), Technology (MEMS, CMOS, NEMS, and Others), End User (Automotive, Consumer Electronics, Healthcare, Manufacturing, Aerospace & Defence, Energy & Power, IT & Telecommunication, Oil & Gas, Chemical, Food & Beverages, Construction, Mining, Paper & Pulp, and Others), Country (U.S., Canada, and Mexico) – Industry Trends and Forecast to 2032
Overview of North America Sensor Market Dynamics :
Drivers
• Advancements in AI and ML enhance sensor capabilities for predictive analytics
• Expansion of smart healthcare increases demand for biosensors and wearable devices
• Increasing defence and aerospace investments accelerate the adoption of high-precision sensors
Restraints
• High implementation costs limit sensor adoption in small and mid-sized businesses
• Harsh environmental conditions reduce sensor durability and long-term efficiency
Opportunities
• Expansion of industry 4.0 will accelerate sensor deployment in automation and manufacturing
• Growth of autonomous and electric vehicles will increase demand for lidar and radar sensors
Market Players:
The key market players operating in the North America sensor market are listed below:
• Taiwan Semiconductor Manufacturing Company Limited
• Bosch Sensortec GmbH
• Sony Semiconductor Solutions Corporation
• Mitsubishi Electric Corporation
• Honeywell International Inc
• Qualcomm Technologies, Inc.
• Endress+Hauser Group Services AG
• NXP Semiconductors
• TE Connectivity
• Renesas Electronics Corporation
• Teledyne Technologies Incorporated
• Rockwell Automation
• Infineon Technologies AG
• ams-OSRAM AG
• TDK Corporation
• Sensirion AG
• Figaro Engineering Inc.
• Omega Engineering inc
• First Sensor AG
• Dwyer Instruments, LLC.
• Safran
• Amphenol Corporation
• Panasonic Holdings Corporation
• Emerson Electric Co.
• STMicroelectronics
• Microchip Technology Inc.
• Siemens
• Texas Instruments Incorporated
• Yokogawa Electric Corporation

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Table of Contents

TABLE OF CONTENTS
1 INTRODUCTION 117
1.1 OBJECTIVES OF THE STUDY 117
1.2 MARKET DEFINITION 117
1.3 OVERVIEW OF NORTH AMERICA SENSOR MARKET 117
1.4 CURRENCY AND PRICING 120
1.5 LIMITATIONS 120
1.6 MARKETS COVERED 120
2 MARKET SEGMENTATION 140
2.1 MARKETS COVERED 140
2.2 GEOGRAPHICAL SCOPE 141
2.3 YEARS CONSIDERED FOR THE STUDY 142
2.4 DBMR TRIPOD DATA VALIDATION MODEL 143
2.5 PRIMARY INTERVIEWS WITH KEY OPINION LEADERS 146
2.6 DBMR MARKET POSITION GRID 147
2.7 VENDOR SHARE ANALYSIS 148
2.8 MULTIVARIATE MODELING 149
2.9 TYPE TIMELINE CURVE 150
2.10 MARKET END USER COVERAGE GRID 151
2.11 SECONDARY SOURCES 152
2.12 ASSUMPTIONS 152
3 EXECUTIVE SUMMARY 153
4 PREMIUM INSIGHTS 159
4.1 INDUSTRY ANALYSIS & FUTURISTIC SCENARIO 160
4.2 COMPETITOR KEY PRICING STRATEGIES 163
4.3 TECHNOLOGY ANALYSIS OF THE NORTH AMERICA SENSOR MARKET 164
4.4 PENETRATION AND GROWTH PROSPECT MAPPING 166
4.5 GROWTH PROSPECT ANALYSIS: 167
4.6 COMPETITIVE INTELLIGENCE 170
5 MARKET OVERVIEW 175
5.1 DRIVERS 177
5.1.1 ADVANCEMENTS IN AI AND ML ENHANCE SENSOR CAPABILITIES FOR PREDICTIVE ANALYTICS 177
5.1.2 EXPANSION OF SMART HEALTHCARE INCREASES DEMAND FOR BIOSENSORS AND WEARABLE DEVICES 179
5.1.3 INCREASING DEFENSE AND AEROSPACE INVESTMENTS ACCELERATE THE ADOPTION OF HIGH-PRECISION SENSORS 180
5.1.4 DEMAND FOR SMART RETAIL SOLUTIONS IS DRIVING THE EXPANSION OF RFID AND TRACKING SENSOR TECHNOLOGY 181
5.1.5 EXPANSION OF PRECISION FARMING INCREASES DEMAND FOR SOIL MOISTURE, TEMPERATURE, NUTRIENT, AND REMOTE SENSING SENSORS 183
5.2 RESTRAINTS 184
5.2.1 HIGH IMPLEMENTATION COSTS LIMIT SENSOR ADOPTION IN SMALL AND MID-SIZED BUSINESSES 184
5.2.2 HARSH ENVIRONMENTAL CONDITIONS REDUCE SENSOR DURABILITY AND LONG-TERM EFFICIENCY 185
5.3 OPPORTUNITIES 186
5.3.1 EXPANSION OF INDUSTRY 4.0 WILL ACCELERATE SENSOR DEPLOYMENT IN AUTOMATION AND MANUFACTURING 186
5.3.2 GROWTH OF AUTONOMOUS AND ELECTRIC VEHICLES WILL INCREASE DEMAND FOR LIDAR AND RADAR SENSORS 187
5.3.3 INCREASING INTEGRATION OF SENSORS IN BUILDINGS AND INFRASTRUCTURE TO DETECT STRESS POINTS 189
5.3.4 ONGOING ADVANCEMENTS IN SENSOR TECHNOLOGIES, ALONG WITH GOVERNMENT INVESTMENTS 190
5.4 CHALLENGES 191
5.4.1 SECURITY AND PRIVACY CONCERNS POSE RISKS FOR IOT-ENABLED SENSORS 191
5.4.2 COMPLEX INTEGRATION WITH EXISTING SYSTEMS INCREASES DEPLOYMENT DIFFICULTIES 192
6 NORTH AMERICA SENSORS MARKET, BY TYPE 194
6.1 OVERVIEW 195
6.2 TEMPERATURE SENSOR 197
6.2.1 TEMPERATURE SENSOR, BY TYPE 197
6.2.1.1 CONTACT 197
6.2.1.1.1 CONTACT, BY TYPE 198
6.2.1.1.1.1 THERMISTORS 198
6.2.1.1.1.2 THERMOCOUPLES 198
6.2.1.1.1.3 RESISTIVE TEMPERATURE DETECTORS (RTDS) 198
6.2.1.1.1.4 TEMPERATURE SENSOR ICS 198
6.2.1.1.1.5 BIMETALLIC TEMPERATURE SENSORS 198
6.2.1.2 NON-CONTACT 199
6.2.1.2.1 NON-CONTACT, BY TYPE 199
6.2.1.2.1.1 INFRARED TEMPERATURE SENSORS 199
6.2.1.2.1.2 FIBER OPTIC TEMPERATURE SENSORS 199
6.2.2 TEMPERATURE SENSOR, BY OUTPUT 200
6.2.2.1 DIGITAL 200
6.2.2.1.1 DIGITAL, BY TYPE 200
6.2.2.1.1.1 SINGLE CHANNEL 200
6.2.2.1.1.2 MULTI CHANNEL 200
6.2.2.2 ANALOG 200
6.2.3 TEMPERATURE SENSOR, BY CONNECTIVITY 201
6.2.3.1 WIRED 201
6.2.3.2 WIRELESS 201
6.2.4 TEMPERATURE SENSOR, BY MATERIAL 202
6.2.4.1 IRON/CONSTANTAN (CODE J) 202
6.2.4.2 NICKEL CHROMIUM/CONSTANTAN (CODE E) 202
6.2.4.3 COPPER/CONSTANTAN (CODE T) 202
6.2.4.4 CERAMIC 202
6.2.4.5 POLYMER 203
6.2.4.6 NICKEL MOLYBDENUM-NICKEL COBALT THERMOCOUPLES (TYPE M) 203
6.2.4.7 OTHERS 203
6.3 IMAGE SENSOR 203
6.3.1 IMAGE SENSOR, BY TECHNOLOGY 203
6.3.1.1 CMOS 204
6.3.1.2 CCD 204
6.3.1.3 OTHERS 204
6.3.2 IMAGE SENSOR, BY PROCESSING TECHNIQUE 204
6.3.2.1 2D IMAGE SENSORS 204
6.3.2.2 3D IMAGE SENSORS 204
6.3.3 IMAGE SENSOR, BY RESOLUTION 205
6.3.3.1 12 MP TO 16 MP 205
6.3.3.2 5 MP TO 10 MP 205
6.3.3.3 LESS THAN 3MP 205
6.3.3.4 MORE THAN 16 MP 205
6.3.4 IMAGE SENSOR, BY SPECTRUM 206
6.3.4.1 VISIBLE 206
6.3.4.2 NON-VISIBLE 206
6.3.5 IMAGE SENSOR, BY ARRAY TYPE 206
6.3.5.1 AREA IMAGE SENSOR 206
6.3.5.2 LINEAR IMAGE SENSOR 206
6.4 MOTION SENSOR 207
6.4.1 MOTION SENSOR, BY MOTION TECHNOLOGY 207
6.4.1.1 PASSIVE 207
6.4.1.1.1 PASSIVE, BY TYPE 208
6.4.1.1.1.1 INFRARED MOTION SENSOR 208
6.4.1.1.1.2 DUAL OR HYBRID TECHNOLOGY 208
6.4.1.1.1.3 OTHERS 208
6.4.1.2 ACTIVE 209
6.4.1.2.1 ACTIVE, BY TYPE 209
6.4.1.2.1.1 MICROWAVE SENSOR 209
6.4.1.2.1.2 ULTRASONIC SENSOR 209
6.4.1.2.1.3 TOMOGRAPHIC SENSOR 209
6.4.2 MOTION SENSOR, BY FUNCTION 210
6.4.2.1 FULLY-AUTOMATIC 210
6.4.2.2 SEMI-AUTOMATIC 210
6.5 PRESSURE SENSOR 211
6.5.1 PRESSURE SENSOR, BY TYPE 211
6.5.1.1 WIRED 211
6.5.1.2 WIRELESS 211
6.5.2 PRESSURE SENSOR, BY PRODUCT 212
6.5.2.1 GAUGE PRESSURE SENSORS 212
6.5.2.2 DIFFERENTIAL PRESSURE SENSORS 212
6.5.2.3 ABSOLUTE PRESSURE SENSORS 212
6.5.2.4 VACUUM PRESSURE SENSORS 212
6.5.2.5 SEALED PRESSURE SENSORS 212
6.5.3 PRESSURE SENSOR, BY TECHNOLOGY 213
6.5.3.1 PIEZORESISTIVE 213
6.5.3.2 CAPACITIVE 213
6.5.3.3 PIEZOELECTRIC 213
6.5.3.4 OPTICAL 213
6.5.3.5 RESONANT SOLID-STATE 213
6.5.3.6 THERMAL 214
6.5.3.7 ELECTROMAGNETIC 214
6.5.3.8 POTENTIOMETRIC 214
6.6 TOUCH SENSOR 214
6.7 PROXIMITY AND DISPLACEMENT SENSOR 215
6.7.1 PROXIMITY AND DISPLACEMENT SENSOR, BY TYPE 215
6.7.1.1 ADJUSTABLE DISTANCE PROXIMITY SENSOR 215
6.7.1.2 FIXED DISTANCE PROXIMITY SENSOR TYPE 215
6.7.2 PROXIMITY AND DISPLACEMENT SENSOR, BY TECHNOLOGY 216
6.7.2.1 INDUCTIVE 216
6.7.2.2 CAPACITIVE 216
6.7.2.3 PHOTOELECTRIC 216
6.7.2.4 MAGNETIC 216
6.8 ACCELEROMETER AND SPEED SENSOR 217
6.8.1 ACCELEROMETER AND SPEED SENSOR, BY DIMENSION 217
6.8.1.1 1-AXIS 217
6.8.1.2 2-AXIS 217
6.8.1.3 3-AXIS 217
6.8.2 ACCELEROMETER AND SPEED SENSOR, BY TYPE 218
6.8.2.1 PIEZORESISTIVE 218
6.8.2.2 MEMS 218
6.8.2.3 PIEZOELECTRIC 218
6.8.2.4 OTHERS 218
6.9 HUMIDITY AND MOISTURE SENSOR 219
6.9.1 HUMIDITY AND MOISTURE SENSOR, BY TYPE 219
6.9.1.1 DIGITAL 219
6.9.1.1.1 DIGITAL, BY TYPE 220
6.9.1.1.1.1 RELATIVE HUMIDITY AND TEMPERATURE (RHT) SENSORS 220
6.9.1.1.1.2 RELATIVE HUMIDITY SENSOR (RHS) 220
6.9.1.2 ANALOG 220
6.9.2 HUMIDITY AND MOISTURE SENSOR, BY PRODUCT 221
6.9.2.1 RELATIVE HUMIDITY SENSORS 221
6.9.2.2 OSCILLATING HYGROMETER 221
6.9.2.3 ABSOLUTE HUMIDITY SENSORS 221
6.9.2.4 OPTICAL HYGROMETER 221
6.9.2.5 GRAVIMETRIC HYGROMETER 221
6.10 GAS SENSOR 222
6.10.1 GAS SENSOR, BY GAS TYPE 222
6.10.1.1 CARBON MONOXIDE 223
6.10.1.2 METHANE 223
6.10.1.3 CARBON DIOXIDE 223
6.10.1.4 OXYGEN 223
6.10.1.5 HYDROGEN SULFIDE 223
6.10.1.6 NITROGEN OXIDES 223
6.10.1.7 VOLATILE ORGANIC COMPOUNDS 223
6.10.1.8 AMMONIA 223
6.10.1.9 CHLORINE 223
6.10.1.10 HYDROCARBONS 223
6.10.1.11 HYDROGEN 223
6.10.2 GAS SENSOR, BY TECHNOLOGY 224
6.10.2.1 ELECTROCHEMICAL 224
6.10.2.2 SOLID STATE/METAL-OXIDE-SEMICONDUCTORS 224
6.10.2.3 CATALYTIC 224
6.10.2.4 INFRARED 224
6.10.2.5 ZIRCONIA 224
6.10.2.6 PHOTOIONIZATION DETECTORS (PID) 224
6.10.2.7 LASER-BASED 225
6.10.2.8 HOLOGRAPHIC 225
6.10.3 GAS SENSOR, BY PRODUCT TYPE 225
6.10.3.1 GAS DETECTORS 225
6.10.3.2 GAS ANALYZER AND MONITOR 225
6.10.3.3 AIR QUALITY MONITOR 225
6.10.3.4 HVAC 225
6.10.3.5 MEDICAL EQUIPMENT 226
6.10.3.6 AIR PURIFIER/AIR CLEANER 226
6.10.3.7 OTHERS 226
6.10.4 GAS SENSOR, BY OUTPUT TYPE 226
6.10.4.1 DIGITAL 226
6.10.4.2 ANALOG 226
6.10.5 GAS SENSOR, BY CONNECTIVITY 227
6.10.5.1 WIRED 227
6.10.5.2 WIRELESS 227
6.11 OPTICAL SENSOR 228
6.11.1 OPTICAL SENSOR, BY SENSING 228
6.11.1.1 INTRINSIC 228
6.11.1.1.1 INTRINSIC, BY TYPE 229
6.11.1.1.1.1 ENCODERS 229
6.11.1.1.1.2 OPTICAL COHERENCE TOMOGRAPHY (OCT) 229
6.11.1.1.1.3 SPECTROSCOPY 229
6.11.1.1.1.4 PYROMETERS 229
6.11.1.1.1.5 LASER DOPPLER VELOCIMETRY (LDV) 229
6.11.1.1.1.6 FABRY–PEROT INTERFEROMETERS 230
6.11.1.2 EXTRINSIC 230
6.11.1.2.1 EXTRINSIC, BY TYPE 230
6.11.1.2.1.1 SCATTERING BASED 230
6.11.1.2.1.2 SCATTERING BASED, BY TYPE 230
6.11.1.2.1.3 RAYLEIGH SCATTERING 231
6.11.1.2.1.4 RAMAN SCATTERING 231
6.11.1.2.1.5 BRILLOUIN SCATTERING 231
6.11.1.2.1.6 Fiber Bragg Grating Based 231
6.11.1.2.1.7 FIBER BRAGG GRATING BASED, BY TYPE 231
6.11.1.2.1.8 SPATIALLY CONTINUOUS BASED 231
6.11.1.2.1.9 POINT FBG BASED 231
6.11.2 OPTICAL SENSOR, BY APPLICATION 232
6.11.2.1 PRESSURE AND STRAIN SENSING 232
6.11.2.2 TEMPERATURE SENSING 232
6.11.2.3 BIOCHEMICAL 232
6.11.2.4 BIOMETRIC AND AMBIENCE 232
6.11.2.5 GEOLOGICAL SURVEY 232
6.11.2.6 OTHERS 232
6.12 FORCE SENSOR 233
6.12.1 FORCE SENSOR, BY FORCE TYPE 233
6.12.1.1 COMPRESSION 233
6.12.1.2 COMPRESSION AND TENSION 233
6.12.1.3 TENSION 233
6.12.2 FORCE SENSOR, BY TECHNOLOGY 234
6.12.2.1 STRAIN GAUGE 234
6.12.2.2 LOAD CELL 234
6.12.2.3 PIEZOELECTRIC 234
6.12.2.4 CAPACITIVE 234
6.12.2.5 MAGNETOELASTIC 234
6.12.2.6 OTHERS 234
6.12.3 FORCE SENSOR, BY OPERATION 235
6.12.3.1 DIGITAL 235
6.12.3.2 ANALOG 235
6.13 FLOW SENSOR 235
6.13.1 FLOW SENSOR, BY TYPE 236
6.13.1.1 LIQUID 236
6.13.1.2 GAS 236
6.13.2 FLOW SENSOR, BY APPLICATION 236
6.13.2.1 MAGNETIC 237
6.13.2.1.1 MAGNETIC, BY TYPE 237
6.13.2.1.1.1 IN-LINE MAGNETIC 237
6.13.2.1.1.2 LOW FLOW MAGNETIC 237
6.13.2.1.1.3 INSERTION MAGNETIC 237
6.13.2.2 ULTRASONIC 237
6.13.2.2.1 ULTRASONIC, BY TYPE 238
6.13.2.2.1.1 CLAMP-ON ULTRASONIC 238
6.13.2.2.1.2 INSERTION MAGNETIC 238
6.13.2.2.1.3 INSERTION MAGNETIC 238
6.13.2.3 DIFFERENTIAL FLOW 238
6.13.2.4 CORIOLIS 238
6.13.2.5 VORTEX 238
6.13.2.6 POSITICE DISPLACEMENT 238
6.13.2.7 OTHERS 238
6.14 LEVEL SENSOR 239
6.14.1 LEVEL SENSOR, BY TYPE 239
6.14.1.1 ULTRASONIC 240
6.14.1.2 RADAR/MICROWAVE 240
6.14.1.3 HYDROSTATIC 240
6.14.1.4 CAPACITANCE 240
6.14.1.5 MAGNETIC & MECHANICAL FLOAT 240
6.14.1.6 GUIDED WAVE RADAR 240
6.14.1.7 VIBRATORY PROBE 240
6.14.1.8 OPTICAL 240
6.14.1.9 MAGNETOSTRICTIVE 240
6.14.1.10 PNEUMATIC 240
6.14.1.11 NUCLEAR 240
6.14.1.12 LASER 241
6.14.1.13 OTHERS 241
6.14.2 LEVEL SENSOR, BY TECHNOLOGY 241
6.14.2.1 CONTACT 241
6.14.2.2 NON CONTACT 241
6.14.3 LEVEL SENSOR, BY MONITORING TYPE 241
6.14.3.1 CONTINUOUS LEVEL MONITORING 242
6.14.3.2 POINT LEVEL MONITORING 242
6.15 BIOSENSOR 242
6.15.1 BIOSENSOR, BY TYPE 242
6.15.1.1 ELECTROCHEMICAL 242
6.15.1.2 SENSOR PATCH 242
6.15.2 BIOSENSOR, BY TECHNOLOGY 243
6.15.2.1 ELECTROCHEMICAL 243
6.15.2.1.1 ELECTROCHEMICAL, BY TYPE 243
6.15.2.1.1.1 AMPEROMETRIC SENSORS 243
6.15.2.1.1.2 CONDUCTOMETRIC SENSORS 244
6.15.2.1.1.3 POTENTIOMETRIC SENSORS 244
6.15.2.2 OPTICAL BIOSENSORS 244
6.15.2.2.1 OPTICAL BIOSENSORS, BY TYPE 244
6.15.2.2.1.1 COLORIMETRIC BIOSENSORS 244
6.15.2.2.1.2 SPR 244
6.15.2.2.1.3 FLUORESCENCE BIOSENSORS 244
6.15.2.3 PIEZOELECTRIC BIOSENSORS 245
6.15.2.3.1 PIEZOELECTRIC BIOSENSORS, BY TYPE 245
6.15.2.3.1.1 ACOUSTIC BIOSENSORS 245
6.15.2.3.1.2 MICROCANTILEVER BIOSENSORS 245
6.15.3 BIOSENSOR, BY COMPONENT 245
6.15.3.1 BIORECEPTOR MOLECULES 246
6.15.3.2 TRANSDUCER 246
6.15.3.3 BIOLOGICAL ELEMENT 246
6.15.3.4 OTHERS 246
6.15.4 BIOSENSOR, BY PRODUCT TYPE 246
6.15.4.1 NON-WEARABLE BIOSENSORS 246
6.15.4.2 WEARABLE BIOSENSORS 246
6.15.4.2.1 WEARABLE BIOSENSOR, BY TYPE 247
6.15.4.2.1.1 WRISTWEAR 247
6.15.4.2.1.2 FOOTWEAR 247
6.15.4.2.1.3 BODYWEAR 247
6.15.4.2.1.4 EYEWEAR 247
6.15.4.2.1.5 NECKWEAR 247
6.15.4.2.1.6 OTHERS 247
6.16 POSITION SENSOR 248
6.16.1 POSITION SENSOR, BY TYPE 248
6.16.1.1 PROXIMITY SENSORS 248
6.16.1.2 DISPLACEMENT SENSORS 248
6.16.1.3 LINEAR SENSORS 249
6.16.1.3.1 LINEAR SENSOR, BY TYPE 249
6.16.1.3.1.1 MAGNETOSTRICTIVE SENSORS 249
6.16.1.3.1.2 LINEAR VARIABLE DIFFERENTIAL TRANSFORMERS 249
6.16.1.3.1.3 LASER POSITION SENSORS 249
6.16.1.3.1.4 LINEAR ENCODERS 250
6.16.1.3.1.5 LINEAR POTENTIOMETERS 250
6.16.1.4 PHOTOELECTRIC SENSORS 250
6.16.1.5 ROTARY SENSORS 250
6.16.1.5.1 ROTARY SENSORS, BY TYPE 250
6.16.1.5.1.1 ROTARY ENCODERS 250
6.16.1.5.1.2 ROTARY POTENTIOMETERS 250
6.16.1.5.1.3 ROTARY VARIABLE DIFFERENTIAL TRANSFORMERS 251
6.16.1.5.1.4 RESOLVERS 251
6.16.1.6 3D SENSORS 251
6.16.2 POSITION SENSOR, BY CONTACT TYPE 251
6.16.2.1 CONTACT 251
6.16.2.2 NON CONTACT 251
6.16.3 POSITION SENSOR, BY OUTPUT 252
6.16.3.1 ANALOG 252
6.16.3.2 DIGITAL 252
6.16.4 POSITION SENSOR, BY APPLICATION 252
6.16.4.1 MATERIAL HANDLING 252
6.16.4.2 MOTION SYSTEMS 252
6.16.4.3 ROBOTICS 253
6.16.4.4 TEST EQUIPMENT 253
6.16.4.5 MACHINE TOOLS 253
6.16.4.6 OTHERS 253
6.17 OTHERS 253
7 NORTH AMERICA SENSORS MARKET, BY TECHNOLOGY 254
7.1 OVERVIEW 255
7.2 MEMS 256
7.3 CMOS 257
7.4 NEMS 257
7.5 OTHERS 258
8 NORTH AMERICA SENSORS MARKET, BY END USER 259
8.1 OVERVIEW 260
8.2 AUTOMOTIVE 263
8.2.1 AUTOMOTIVE, BY APPLICATION 263
8.2.1.1 POWERTRAIN 263
8.2.1.2 DRIVER ASSISTANCE & APPLICATION 264
8.2.1.3 SAFETY & CONTROLS SYSTEMS 264
8.2.1.4 CHASSIS 264
8.2.1.5 TELEMATICS SYSTEMS 264
8.2.1.6 VEHICLE BODY ELECTRONICS 264
8.2.1.7 EXHAUST SYSTEMS 264
8.2.1.8 OTHERS 264
8.2.2 AUTOMOTIVE, BY VEHICLE TYPE 264
8.2.2.1 PASSENGER CAR 265
8.2.2.2 LIGHT COMMERCIAL VEHICLE 265
8.2.2.3 HEAVY COMMERCIAL VEHICLE 265
8.2.3 AUTOMOTIVE, BY SALES CHANNEL 265
8.2.3.1 OEMS 265
8.2.3.2 AFTERMARKETS 265
8.2.4 AUTOMOTIVE, BY TYPE 266
8.2.4.1 RADAR SENSORS 266
8.2.4.2 IMAGE SENSORS 266
8.2.4.3 LIDAR SENSORS 266
8.2.4.4 CURRENT SENSORS 266
8.2.4.5 LEVEL SENSORS 267
8.2.4.6 INERTIAL SENSORS 267
8.2.4.7 ULTRASONIC SENSORS 267
8.2.4.8 TEMPERATURE SENSORS 267
8.2.4.9 PRESSURE SENSORS 267
8.2.4.10 OXYGEN SENSORS 267
8.2.4.11 POSITION SENSORS 267
8.2.4.12 SPEED SENSORS 267
8.2.4.13 CHEMICAL SENSORS 267
8.2.4.14 NOX SENSORS 267
8.2.4.15 OTHERS 267
8.3 CONSUMER ELECTRONICS 268
8.3.1 CONSUMER ELECTRONICS, BY TYPE 269
8.3.1.1 IMAGE SENSOR 269
8.3.1.2 MOTION SENSOR 269
8.3.1.3 TEMPERATURE SENSOR 269
8.3.1.4 PRESSURE SENSOR 269
8.3.1.5 PROXIMITY AND DISPLACEMENT SENSOR 270
8.3.1.6 OPTICAL SENSOR 270
8.3.1.7 ACCELEROMETER & SPEED SENSOR 270
8.3.1.8 HUMIDITY AND MOISTURE SENSOR 270
8.3.1.9 GAS SENSOR 270
8.3.1.10 FLOW SENSOR 270
8.3.1.11 LEVEL SENSOR 270
8.3.1.12 POSITION SENSOR 270
8.3.1.13 BIOSENSOR 270
8.3.1.14 FORCE SENSOR 270
8.3.1.15 OTHERS 270
8.4 HEALTHCARE 271
8.4.1 HEALTHCARE, BY TYPE 272
8.4.1.1 BIOSENSOR 272
8.4.1.2 TEMPERATURE SENSOR 272
8.4.1.3 PRESSURE SENSOR 272
8.4.1.4 IMAGE SENSOR 272
8.4.1.5 FLOW SENSOR 273
8.4.1.6 OPTICAL SENSOR 273
8.4.1.7 GAS SENSOR 273
8.4.1.8 ACCELEROMETER & SPEED SENSOR 273
8.4.1.9 MOTION SENSOR 273
8.4.1.10 PROXIMITY AND DISPLACEMENT SENSOR 273
8.4.1.11 FORCE SENSOR 273
8.4.1.12 HUMIDITY AND MOISTURE SENSOR 273
8.4.1.13 LEVEL SENSOR 273
8.4.1.14 POSITION SENSOR 273
8.4.1.15 OTHERS 273
8.5 MANUFACTURING 274
8.5.1 MANUFACTURING, BY TYPE 275
8.5.1.1 IMAGE SENSOR 275
8.5.1.2 FLOW SENSOR 275
8.5.1.3 TEMPERATURE SENSOR 275
8.5.1.4 PRESSURE SENSOR 275
8.5.1.5 LEVEL SENSOR 276
8.5.1.6 HUMIDITY AND MOISTURE SENSOR 276
8.5.1.7 GAS SENSOR 276
8.5.1.8 PROXIMITY AND DISPLACEMENT SENSOR 276
8.5.1.9 BIOSENSOR 276
8.5.1.10 OPTICAL SENSOR 276
8.5.1.11 MOTION SENSOR 276
8.5.1.12 FORCE SENSOR 276
8.5.1.13 ACCELEROMETER & SPEED SENSOR 276
8.5.1.14 POSITION SENSOR 276
8.5.1.15 OTHERS 276
8.6 AEROSPACE & DEFENCE 277
8.6.1 AEROSPACE & DEFENCE, BY TYPE 278
8.6.1.1 IMAGE SENSOR 278
8.6.1.2 PRESSURE SENSOR 278
8.6.1.3 TEMPERATURE SENSOR 278
8.6.1.4 ACCELEROMETER & SPEED SENSOR 278
8.6.1.5 PROXIMITY AND DISPLACEMENT SENSOR 279
8.6.1.6 OPTICAL SENSOR 279
8.6.1.7 POSITION SENSOR 279
8.6.1.8 MOTION SENSOR 279
8.6.1.9 FLOW SENSOR 279
8.6.1.10 GAS SENSOR 279
8.6.1.11 FORCE SENSOR 279
8.6.1.12 HUMIDITY AND MOISTURE SENSOR 279
8.6.1.13 LEVEL SENSOR 279
8.6.1.14 BIOSENSOR 279
8.6.1.15 OTHERS 279
8.7 ENERGY & POWER 280
8.7.1 ENERGY & POWER, BY TYPE 281
8.7.1.1 CURRENT SENSOR 281
8.7.1.2 PRESSURE SENSOR 281
8.7.1.3 TEMPERATURE SENSOR 281
8.7.1.4 FLOW SENSOR 281
8.7.1.5 GAS SENSOR 282
8.7.1.6 LEVEL SENSOR 282
8.7.1.7 HUMIDITY AND MOISTURE SENSOR 282
8.7.1.8 OPTICAL SENSOR 282
8.7.1.9 PROXIMITY AND DISPLACEMENT SENSOR 282
8.7.1.10 MOTION SENSOR 282
8.7.1.11 ACCELEROMETER & SPEED SENSOR 282
8.7.1.12 POSITION SENSOR 282
8.7.1.13 FORCE SENSOR 282
8.7.1.14 BIOSENSOR 282
8.7.1.15 OTHERS 282
8.8 IT & TELECOMMUNICATION 283
8.8.1 IT & TELECOMMUNICATION, BY TYPE 284
8.8.1.1 PRESSURE SENSOR 284
8.8.1.2 TEMPERATURE SENSOR 284
8.8.1.3 OPTICAL SENSOR 284
8.8.1.4 PROXIMITY AND DISPLACEMENT SENSOR 285
8.8.1.5 ACCELEROMETER & SPEED SENSOR 285
8.8.1.6 HUMIDITY AND MOISTURE SENSOR 285
8.8.1.7 GAS SENSOR 285
8.8.1.8 MOTION SENSOR 285
8.8.1.9 FLOW SENSOR 285
8.8.1.10 LEVEL SENSOR 285
8.8.1.11 POSITION SENSOR 285
8.8.1.12 IMAGE SENSOR 285
8.8.1.13 FORCE SENSOR 285
8.8.1.14 BIOSENSOR 285
8.8.1.15 OTHERS 286
8.9 OIL & GAS 286
8.9.1 OIL & GAS, BY TYPE 287
8.9.1.1 GAS SENSOR 287
8.9.1.2 FLOW SENSOR 287
8.9.1.3 PRESSURE SENSOR 287
8.9.1.4 TEMPERATURE SENSOR 288
8.9.1.5 LEVEL SENSOR 288
8.9.1.6 HUMIDITY AND MOISTURE SENSOR 288
8.9.1.7 OPTICAL SENSOR 288
8.9.1.8 PROXIMITY AND DISPLACEMENT SENSOR 288
8.9.1.9 POSITION SENSOR 288
8.9.1.10 MOTION SENSOR 288
8.9.1.11 ACCELEROMETER & SPEED SENSOR 288
8.9.1.12 IMAGE SENSOR 288
8.9.1.13 FORCE SENSOR 288
8.9.1.14 BIOSENSOR 288
8.9.1.15 OTHERS 288
8.10 CHEMICAL 289
8.10.1 CHEMICAL, BY TYPE 290
8.10.1.1 GAS SENSOR 290
8.10.1.2 FLOW SENSOR 290
8.10.1.3 PRESSURE SENSOR 290
8.10.1.4 TEMPERATURE SENSOR 291
8.10.1.5 LEVEL SENSOR 291
8.10.1.6 HUMIDITY AND MOISTURE SENSOR 291
8.10.1.7 BIOSENSOR 291
8.10.1.8 OPTICAL SENSOR 291
8.10.1.9 POSITION SENSOR 291
8.10.1.10 MOTION SENSOR 291
8.10.1.11 IMAGE SENSOR 291
8.10.1.12 PROXIMITY AND DISPLACEMENT SENSOR 291
8.10.1.13 FORCE SENSOR 291
8.10.1.14 ACCELEROMETER & SPEED SENSOR 291
8.10.1.15 OTHERS 291
8.11 FOOD & BEVERAGES 292
8.11.1 FOOD & BEVERAGES, BY TYPE 293
8.11.1.1 BIOSENSOR 293
8.11.1.2 FLOW SENSOR 293
8.11.1.3 LEVEL SENSOR 293
8.11.1.4 TEMPERATURE SENSOR 294
8.11.1.5 POSITION SENSOR 294
8.11.1.6 HUMIDITY AND MOISTURE SENSOR 294
8.11.1.7 GAS SENSOR 294
8.11.1.8 OPTICAL SENSOR 294
8.11.1.9 MOTION SENSOR 294
8.11.1.10 ACCELEROMETER & SPEED SENSOR 294
8.11.1.11 FORCE SENSOR 294
8.11.1.12 IMAGE SENSOR 294
8.11.1.13 PROXIMITY AND DISPLACEMENT SENSOR 294
8.11.1.14 PRESSURE SENSOR 294
8.11.1.15 OTHERS 295
8.12 CONSTRUCTION 295
8.12.1 CONSTRUCTION, BY TYPE 296
8.12.1.1 PRESSURE SENSOR 296
8.12.1.2 TEMPERATURE SENSOR 296
8.12.1.3 PROXIMITY AND DISPLACEMENT SENSOR 296
8.12.1.4 HUMIDITY AND MOISTURE SENSOR 297
8.12.1.5 LEVEL SENSOR 297
8.12.1.6 MOTION SENSOR 297
8.12.1.7 FLOW SENSOR 297
8.12.1.8 GAS SENSOR 297
8.12.1.9 FORCE SENSOR 297
8.12.1.10 OPTICAL SENSOR 297
8.12.1.11 POSITION SENSOR 297
8.12.1.12 ACCELEROMETER & SPEED SENSOR 297
8.12.1.13 IMAGE SENSOR 297
8.12.1.14 BIOSENSOR 297
8.12.1.15 OTHERS 297
8.13 MINING 298
8.13.1 MINING, BY TYPE 299
8.13.1.1 GAS SENSOR 299
8.13.1.2 PRESSURE SENSOR 299
8.13.1.3 FLOW SENSOR 299
8.13.1.4 LEVEL SENSOR 299
8.13.1.5 TEMPERATURE SENSOR 300
8.13.1.6 HUMIDITY AND MOISTURE SENSOR 300
8.13.1.7 OPTICAL SENSOR 300
8.13.1.8 PROXIMITY AND DISPLACEMENT SENSOR 300
8.13.1.9 ACCELEROMETER & SPEED SENSOR 300
8.13.1.10 MOTION SENSOR 300
8.13.1.11 POSITION SENSOR 300
8.13.1.12 IMAGE SENSOR 300
8.13.1.13 FORCE SENSOR 300
8.13.1.14 BIOSENSOR 300
8.13.1.15 OTHERS 300
8.14 PAPER & PULP 301
8.14.1 PAPER & PULP, BY TYPE 302
8.14.1.1 FLOW SENSOR 302
8.14.1.2 TEMPERATURE SENSOR 302
8.14.1.3 PRESSURE SENSOR 302
8.14.1.4 LEVEL SENSOR 303
8.14.1.5 HUMIDITY AND MOISTURE SENSOR 303
8.14.1.6 OPTICAL SENSOR 303
8.14.1.7 POSITION SENSOR 303
8.14.1.8 GAS SENSOR 303
8.14.1.9 PROXIMITY AND DISPLACEMENT SENSOR 303
8.14.1.10 MOTION SENSOR 303
8.14.1.11 FORCE SENSOR 303
8.14.1.12 ACCELEROMETER & SPEED SENSOR 303
8.14.1.13 IMAGE SENSOR 303
8.14.1.14 BIOSENSOR 303
8.14.1.15 OTHERS 303
8.15 OTHERS 304
9 NORTH AMERICA SENSORS MARKET, BY REGION 305
9.1 NORTH AMERICA 307
9.1.1 U.S. 335
9.1.2 CANADA 361
9.1.3 MEXICO 387
10 NORTH AMERICA SENSORS MARKET 413
10.1 COMPANY SHARE ANALYSIS: NORTH AMERICA 413
11 SWOT ANALYSIS 414
12 COMPANY PROFILES 415
12.1 TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY LIMITED 415
12.1.1 COMPANY SNAPSHOT 415
12.1.2 REVENUE ANALYSIS 415
12.1.3 COMPANY SHARE ANALYSIS 416
12.1.4 PRODUCT PORTFOLIO 416
12.1.5 RECENT DEVELOPMENT 416
12.2 BOSCH SENSORTEC GMBH 417
12.2.1 COMPANY SNAPSHOT 417
12.2.2 COMPANY SHARE ANALYSIS 417
12.2.3 PRODUCT PORTFOLIO 418
12.2.4 RECENT DEVELOPMENT 420
12.3 SONY SEMICONDUCTOR SOLUTIONS CORPORATION 421
12.3.1 COMPANY SNAPSHOT 421
12.3.2 COMPANY SHARE ANALYSIS 421
12.3.3 PRODUCT PORTFOLIO 422
12.3.4 RECENT DEVELOPMENT/NEWS 426
12.4 MITSUBISHI ELECTRIC CORPORATION 427
12.4.1 COMPANY SNAPSHOT 427
12.4.2 REVENUE ANALYSIS 428
12.4.3 COMPANY SHARE ANALYSIS 428
12.4.4 PRODUCT PORTFOLIO 429
12.4.5 RECENT DEVELOPMENT 429
12.5 HONEYWELL INTERNATIONAL INC. 431
12.5.1 COMPANY SNAPSHOT 431
12.5.2 REVENUE ANALYSIS 431
12.5.3 COMPANY SHARE ANALYSIS 432
12.5.4 PRODUCT PORTFOLIO 432
12.5.5 RECENT DEVELOPMENT 437
12.6 AMPHENOL CORPORATION 438
12.6.1 COMPANY SNAPSHOT 438
12.6.2 REVENUE ANALYSIS 438
12.6.3 PRODUCT PORTFOLIO 439
12.6.4 RECENT DEVELOPMENT 440
12.7 AMS-OSRAM AG 441
12.7.1 COMPANY SNAPSHOTS 441
12.7.2 REVENUE ANALYSIS 441
12.7.3 PRODUCT PORTFOLIO 442
12.7.4 RECENT DEVELOPMENT 445
12.8 DWYER INSTRUMENTS, LLC. 446
12.8.1 COMPANY SNAPSHOTS 446
12.8.2 PRODUCT PORTFOLIO 446
12.8.3 RECENT DEVELOPMENT 448
12.9 EMERSON ELECTRIC CO. 449
12.9.1 COMPANY SNAPSHOTS 449
12.9.2 REVENUE ANALYSIS AND SEGMENTED ANALYSIS 449
12.9.3 PRODUCT PORTFOLIO 450
12.9.4 RECENT DEVELOPMENT 451
12.10 ENDRESS+HAUSER GROUP SERVICES AG 453
12.10.1 COMPANY SNAPSHOT 453
12.10.2 PRODUCT PORTFOLIO 453
12.10.3 RECENT CERTIFICATION 456
12.11 FIGARO ENGINEERING INC. 457
12.11.1 COMPANY SNAPSHOT 457
12.11.2 PRODUCT PORTFOLIO 457
12.11.3 RECENT DEVELOPMENT 461
12.12 FIRST SENSOR AG 463
12.12.1 COMPANY SNAPSHOT 463
12.12.2 REVENUE ANALYSIS 463
12.12.3 PRODUCT PORTFOLIO 464
12.12.4 RECENT DEVELOPMENT 465
12.13 INFINEON TECHNOLOGIES AG 466
12.13.1 COMPANY SNAPSHOT 466
12.13.2 REVENUE ANALYSIS 466
12.13.3 PRODUCT PORTFOLIO 467
12.13.4 RECENT DEVELOPMENT 469
12.14 MICROCHIP TECHNOLOGY INC. 471
12.14.1 COMPANY SNAPSHOTS 471
12.14.2 REVENUE ANALYSIS 472
12.14.3 PRODUCT PORTFOLIO 472
12.14.4 RECENT DEVELOPMENT 474
12.15 NXP SEMICONDUCTORS 475
12.15.1 COMPANY SNAPSHOT 475
12.15.2 REVENUE ANALYSIS 476
12.15.3 PRODUCT PORTFOLIO 476
12.15.4 RECENT DEVELOPMENT 478
12.16 OMEGA ENGINEERING INC 479
12.16.1 COMPANY SNAPSHOT 479
12.16.2 PRODUCT PORTFOLIO 479
12.16.3 RECENT DEVELOPMENT 482
12.17 PANASONIC HOLDINGS CORPORATION 483
12.17.1 COMPANY SNAPSHOT 483
12.17.2 REVENUE ANALYSIS 484
12.17.3 PRODUCT PORTFOLIO 484
12.17.4 RECENT DEVELOPMENT 486
12.18 QUALCOMM TECHNOLOGIES, INC. 487
12.18.1 COMPANY SNAPSHOT 487
12.18.2 REVENUE ANALYSIS 487
12.18.3 PRODUCT PORTFOLIO 488
12.18.4 RECENT DEVELOPMENTS 489
12.19 RENESAS ELECTRONICS CORPORATION. 490
12.19.1 COMPANY SNAPSHOT 490
12.19.2 REVENUE ANALYSIS 491
12.19.3 PRODUCT PORTFOLIO 491
12.19.4 1.1.5RECENT DEVELOPMENT 494
12.20 ROCKWELL AUTOMATION 497
12.20.1 COMPANY SNAPSHOT 497
12.20.2 REVENUE ANALYSIS 497
12.20.3 PRODUCT PORTFOLIO 498
12.20.4 RECENT DEVELOPMENT 500
12.21 SAFRAN 502
12.21.1 COMPANY SNAPSHOT 502
12.21.2 REVENUE ANALYSIS 503
12.21.3 PRODUCT PORTFOLIO 503
12.21.4 RECENT DEVELOPMENT/NEWS 504
12.22 SENSIRION AG 506
12.22.1 COMPANY SNAPSHOT 506
12.22.2 REVENUE ANALYSIS 507
12.22.3 PRODUCT PORTFOLIO 507
12.22.4 RECENT DEVELOPMENT 509
12.23 SIEMENS 513
12.23.1 COMPANY SNAPSHOT 513
12.23.2 REVENUE ANALYSIS 513
12.23.3 PRODUCT PORTFOLIO 514
12.23.4 RECENT DEVELOPMENT 516
12.24 STMICROELECTRONICS 518
12.24.1 COMPANY SNAPSHOT 518
12.24.2 REVENUE ANALYSIS 518
12.24.3 PRODUCT PORTFOLIO 519
12.24.4 RECENT DEVELOPMENT/NEWS 521
12.25 TDK CORPORATION. 523
12.25.1 COMPANY SNAPSHOTS 523
12.25.2 REVENUE ANALYSIS 524
12.25.3 PRODUCT PORTFOLIO 524
12.25.4 RECENT DEVELOPMENT 527
12.26 TE CONNECTIVITY 529
12.26.1 COMPANY SNAPSHOT 529
12.26.2 REVENUE ANALYSIS 530
12.26.3 PRODUCT PORTFOLIO 530
12.26.4 RECENT DEVELOPMENT 532
12.27 TELEDYNE TECHNOLOGIES INCORPORATED. 534
12.27.1 COMPANY SNAPSHOTS 534
12.27.2 REVENUE ANALYSIS 534
12.27.3 PRODUCT PORTFOLIO 535
12.27.4 RECENT DEVELOPMENT/NEWS 537
12.28 TEXAS INSTRUMENTS INCORPORATED 538
12.28.1 COMPANY SNAPSHOT 538
12.28.2 REVENUE ANALYSIS 538
12.28.3 PRODUCT PORTFOLIO 539
12.28.4 RECENT DEVELOPMENTS 543
12.29 WIKA INSTRUMENTS INDIA PVT. LTD. 545
12.29.1 COMPANY SNAPSHOT 545
12.29.2 PRODUCT PORTFOLIO 545
12.29.3 RECENT DEVELOPMENT/NEWS 546
12.30 YOKOGAWA ELECTRIC CORPORATION 548
12.30.1 COMPANY SNAPSHOTS 548
12.30.2 REVENUE ANALYSIS 548
12.30.3 PRODUCT PORTFOLIO 549
12.30.4 RECENT DEVELOPMENT/NEWS 551
13 QUESTIONNAIRE 552
14 RELATED REPORTS 556