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LEDs Used in Test/Measurement, Medical & Other Science Devices - Market Forecast and Analysis 2022-2032

  • Report

  • 313 Pages
  • May 2023
  • Region: Global
  • ElectroniCast
  • ID: 5011531

This 2022-2032 market estimate and forecast are presented for the publisher's extensive study of the worldwide use of packaged Light Emitting Diodes (LEDs) in Test/Measurement, Medical, and other Science devices.  

The market data are segmented into the following geographic regions, plus a Global summary:

  • North, Central, and South America (America)
  • Europe, plus Middle Eastern and African countries (EMEA)
  • Asia Pacific (APAC)

The LED market is segmented into the following sub-application categories:

  • Sensing/Detection and Analytical/Monitoring
  • Photo-therapy/Sanitation/Cell Regeneration/Curing
  • Instrumentation Light Source and Imaging

The market data for are also segmented by the following colors (type):

  • Red
  • Green
  • Blue
  • White
  • Multiple Color/Multiple Chip
  • UV and Other 

Below, are four levels (or “food chain”) of LEDs. For the purposes of this study, the publisher quantifies and provides a market forecast for “Level 2” 

  • Level 1 - The chip or die
  • Level 2 - The Packaged LED Chip(s) 
  • Level 3 - LED module / LED Lamp 
  • Level 4 - LED luminaire (light fixture/light fitting with LED module/lamp)

This report provides the market data by the following functions:

  • Consumption Value (US$, million)
  • Quantity (number/units)
  • Average Selling Prices (ASP $, each)

The value is determined by multiplying the number of units by the average selling price (ASP). The ASPs are based on the price of the packaged LED at the initial factory level. The value is then based on the end-use application and the end-use region.

Microsoft Excel- Data Base Structure 

At each database level, the estimates and forecast for packaged LEDs are built from the bottom up, segmented by color type, arranged in a hierarchy, of the end-user types (applications) that use devices that the LEDs are used in, and arranged in a hierarchy and summed upward. The estimates and forecasts for each LED color type in each region are in terms of quantity (unit/each), value (US$ Million), and average selling price. 

Table of Contents

1. Executive Summary
1.1 Overview
1.2 Unpackaged and Packaged LEDs - Overview
1.3 LEDs - Technology Overview
1.4 Barriers to Growth in the Military/Government Sector

2. LEDs Used in Test/Measurement & Medical Science Devices Market Forecast
2.1 Overview
2.2 Sensing/Detection and Analytical/Monitoring
2.3 Photo-therapy/Sanitation/Cell Regeneration/Curing
2.4 Instrumentation Light Source and Imaging

3. Market Research Methodology
4. Market Forecast Data Base - Introduction
4.1 Overview
4.2 Tutorial

Addendum
  • Excel Data Base Spreadsheets (Global Market Forecast); Detailed Data: ASP ($, each); Quantity (Million); Value ($, Million) for all Regions
  • PowerPoint Market Forecast Summary Figures
List of Tables
1.1.1    LEDs in Test/Measurement & Medical Science Devices Global Forecast, By Application ($, Million)
1.1.2     LEDs in Test/Measurement, Medical/Science Devices America Forecast, By Color ($, Million)
1.1.3     LEDs in Test/Measurement, Medical/Science Devices EMEA Forecast, By Color ($, Million)
1.1.4     LEDs in Test/Measurement, Medical/Science Devices APAC Forecast, By Color ($, Million)
1.3.1     LED Color Variety - Selected Examples
1.3.2    LED Color Chart
2.1.1    LEDs in Test/Measurement & Medical Science Devices Global Forecast, By Application ($, Million)
2.1.2    LEDs in Test/Measurement & Medical Science Devices Global Forecast, By Application (Quantity)
2.1.3    LEDs in Test/Measurement & Medical Science Devices America Forecast, By Application ($, M)
2.1.4    LEDs in Test/Measurement & Medical Science Devices America Forecast, By Application (Qty)
2.1.5    LEDs in Test/Measurement & Medical Science Devices EMEA Forecast, By Application ($, Million)
2.1.6    LEDs in Test/Measurement & Medical Science Devices EMEA Forecast, By Application (Quantity)
2.1.7    LEDs in Test/Measurement & Medical Science Devices APAC Forecast, By Application ($, Million)
2.1.8    LEDs in Test/Measurement & Medical Science Devices APAC Forecast, By Application (Quantity)
2.2.1    LEDs in Sensing/Detection and Analytical/Monitoring Global Forecast, By Application ($, Million)
2.2.2    LEDs in Sensing/Detection and Analytical/Monitoring Global Forecast, By Application (Quantity)
2.2.3    LEDs in Sensing/Detection and Analytical/Monitoring America Forecast, By Application ($, Million)
2.2.4    LEDs in Sensing/Detection and Analytical/Monitoring America Forecast, By Application (Quantity)
2.2.5    LEDs in Sensing/Detection and Analytical/Monitoring EMEA Forecast, By Application ($, Million)
2.2.6    LEDs in Sensing/Detection and Analytical/Monitoring EMEA Forecast, By Application (Quantity)
2.2.7    LEDs in Sensing/Detection and Analytical/Monitoring APAC Forecast, By Application ($, Million)
2.2.8    LEDs in Sensing/Detection and Analytical/Monitoring APAC Forecast, By Application (Quantity)
2.2.9     Available LED Color and Wavelengths
2.2.10     Strain Sensing Technology Attributes Summary
2.3.1    LEDs in PDT/Sanitation/Cell Regeneration/Curing Global Forecast, By Application ($, Million)
2.3.2    LEDs in PDT/Sanitation/Cell Regeneration/Curing Global Forecast, By Application (Quantity)
2.3.3    LEDs in PDT/Sanitation/Cell Regeneration/Curing America Forecast, By Application ($, Million)
2.3.4    LEDs in PDT/Sanitation/Cell Regeneration/Curing America Forecast, By Application (Quantity)
2.3.5    LEDs in PDT/Sanitation/Cell Regeneration/Curing EMEA Forecast, By Application ($, Million)
2.3.6    LEDs in PDT/Sanitation/Cell Regeneration/Curing EMEA Forecast, By Application (Quantity)
2.3.7    LEDs in PDT/Sanitation/Cell Regeneration/Curing APAC Forecast, By Application ($, Million)
2.3.8    LEDs in PDT/Sanitation/Cell Regeneration/Curing APAC Forecast, By Application (Quantity)
2.3.9     Therapeutic Visible Light Spectrum
2.3.10     Eye Safety - Risk Classification
2.4.1    LEDs in Instrumentation Light Source and Imaging Global Forecast, By Application ($, Million)
2.4.2    LEDs in Instrumentation Light Source and Imaging Global Forecast, By Application (Quantity)
2.4.3    LEDs in Instrumentation Light Source and Imaging America Forecast, By Application ($, Million)
2.4.4    LEDs in Instrumentation Light Source and Imaging America Forecast, By Application (Quantity)
2.4.5    LEDs in Instrumentation Light Source and Imaging EMEA Forecast, By Application ($, Million)
2.4.6    LEDs in Instrumentation Light Source and Imaging EMEA Forecast, By Application (Quantity)
2.4.7    LEDs in Instrumentation Light Source and Imaging APAC Forecast, By Application ($, Million)
2.4.8    LEDs in Instrumentation Light Source and Imaging APAC Forecast, By Application (Quantity)

List of Figures
1.1.1    LEDs in Test/Measurement, Medical/Science Devices Global Forecast ($, Million)
1.1.2    LEDs in Test/Measurement, Medical/Science Devices Global Forecast, By Application ($, Million)
1.1.3     LEDs in Test/Measurement, Medical/Science Devices Global Forecast, By Region ($, Million)
1.1.4     LEDs in Test/Measurement, Medical/Science Devices Global Forecast, By Color ($, Million)
1.2.1     Diagram of a typical LED chip
1.2.2     Diagram of schematic structure of AlGaN-based UV LED Chip
1.2.3     2D LED Structure - wavelength can be specifically influenced
1.2.4     LED Chip Cross-Sectional Structure
1.2.5     Electrostatic discharge (ESD) - Integrated Protection Devices for LEDs
1.2.6     Electrostatic Discharge Example
1.2.7     Chip-on-Board LED Technology
1.2.8     Chip-Scale Package (CSP) LEDs
1.2.9     Compact Monolithic Packaged LED
1.2.10     Surface Mounted Device (SMD) LED
1.2.11    Chip-On-Board and Multi-Chip on Board (COB/MCOB) LED
1.2.12     Tunable Chip-On-Board LEDs with Highly Efficient Color Mixing
1.2.13     COB Packaged LEDs Provide Natural Light Spectrum
1.2.14     Highest Efficacy 90 CRI Chip-on-Board LEDs
1.2.15      Quad Chip LED Arrays
1.2.16     Single Chip LED Arrays
1.2.17     LED UVC Chip-On-Board
1.2.18     Resonant Cavity LED (RCLED) Technology
1.3.1     LED Chromatic Chart
1.3.2      Evolution of Research Emphasis During Technology Life Cycle
2.1.1     LEDs in Medical/Science Devices Global Forecast ($, Million)
2.1.2     LEDs in Medical/ Science Devices Global Forecast (Quantity/Units)
2.2.1     Chemiluminescence Imaging Systems
2.2.2     LED-induced chemiluminescence platform
2.2.3     LED-induced chemiluminescence Imaging
2.2.4     Laser Diode Based Chemiluminescent System
2.2.5     In vitro diagnostic (IVD) testing Tool
2.2.6     LED-based Monitoring Sensor
2.2.7     Light-Emitting Diode Detection and Ranging Board Modules
2.2.8     Light-Emitting Diode Detection and Ranging
2.2.9    Fluorescence detection of trace hydrazine vapor
2.2.10     Fabry-Perot Fiber-Optic Temperature-Sensor
2.2.11     Pre-clinical Transducer with Fiber Coating
2.2.12     Sealed-Gauge Fiber Optic Pressure Sensors
2.2.13      Seven (7) wavelengths acquire blood constituent data
2.2.14     Seven (7) wavelengths acquire blood constituent data
2.2.15    Oximeters - Upgradable Technology Platforms
2.2.16    LED-based Non-invasive Sensing
2.2.17    FLIPPER - light-emitting diode excites fluorescence in the sample flow cell
2.2.18     Blue and Green Excitation LEDs in Space
2.2.19    Nano-sized "carbon dots" glow brightly when exposed to light
2.2.20    Led-Based Direct Visualization of Tissue Fluorescence
2.2.21    LED-Based Cell Phone Sensor for Detection of E. coli
2.3.1     Comparison Graph - Mercury Lamps versus UV LEDs for Medical Curing
2.3.2     DEEP UV (DUV) LED (Surface mount devices / SMDs)
2.3.3     Application Examples for Deep UV (DUV) LEDs
2.3.4     Ultra Violet LED Array
2.3.5     Packaged UV-LED (4-chips)
2.3.6     UVA- LED Tube Lamp
2.3.7     UVC-LED Disinfection Module
2.3.8     70mW UV-C LED
2.3.9     UVC LED Reactor - Water Disinfection
2.3.10     UVC LED for effective disinfection solutions
2.3.11    Handheld LED Light Therapy Rejuvenation Device
2.3.12     Consumer-Level LED Face Mask
2.3.13      Neonatal Photo therapy Treatment (Blue LEDs)
2.3.14    Light doses range in LED Photo therapy
2.3.15     Skin treatment therapies Utilizing LED Photo-modulation: Typical LED array (Red)
2.3.16    Blue LED Arrays
2.3.17     Circadian PAR30 Gimbal Spot
2.3.18     Circadian Phototransduction
2.3.19     Circadian Phototransduction (Typical - versus HCL - LEDs)
2.3.20    Blue LED Teeth Whitening Device
2.3.21     Apparatuses (two) Containing Arrays of LEDs to Treat Mucositis
2.3.22     Light Therapy for traumatic brain injury (TBI)
2.3.23     Dentistry - Light Cure Unit (LCU) Explanation Illustration
2.3.24     Curing of 3D Printed Parts
2.3.25     Red, Green and Blue LED Light Sources - Biophotonics
2.4.1     Non-Coherent Illustration Options in Optical Microscopy
2.4.2     Fluorescence Microscopy - Lamphouse Anatomy with LEDs
2.4.3     LEDs - Different Colors for Fluorescence Microscopy Applications
2.4.4       LED Light Source for Fluorescence Microscopy
2.4.5     LED-Based Fiber Optic Illuminator
2.4.6     LED versus Tungsten used in Slit Lamps Retina Observation
2.4.7     Fiber Optic Light Module for medical illumination
2.4.8     LED-Based Fiber Optic Illuminator
2.4.9    Holographic Bioimaging - Concept Image
2.4.10    Example of Color Rendering in Medical Surgery
2.4.11     LED-Based Surgical Lighting
2.4.12     LED-Based Surgical Lighting
2.4.13     Reflector-Part of a LED-Based Surgical Light
2.4.14     Homogenous Beam of LED Light and Light Heads
2.4.15     LED- Surgery Lighting: Output rated at 100,000 LUX; 4,300° Kelvin pure white illumination
2.4.16     Medical Examination Lighting
2.4.17     LED-based Surgical Headlamp
3.1     Market Research & Forecasting Methodology

Companies Mentioned

  • American Academy of Family Physicians
  • American Society of Clinical Oncology (ASCO)
  • Analog Devices Inc (ADI)
  • AP Technologies Ltd
  • Applied and Plasma Group, School of Physics, University of Sydney, NSW, Australia
  • aprotec GmbH
  • Army Research Institute of Environmental Medicine
  • Asahi Kasei Group (Crystal IS)
  • Bio-optics and Fiber Optics Laboratory, Institute of Atomic Physics and Spectroscopy, University of Latvia
  • Boston University School of Medicine (BUSM)
  • Boston VA – (US) Army's Advanced Medical Technology Initiative
  • Burton Medical LLC (Philips Burton)
  • Carl Zeiss MicroImaging Inc
  • CBRE Group Inc.
  • Centre for Optical and Electromagnetic Research - JORCEP China
  • CLARITY: Centre for Sensor Web Technologies
  • Clemson University
  • Commission for Occupational Health and Safety and Standardization (KAN) – Germany
  • Cree, Incorporated
  • CSIRO Materials Science and Engineering
  • DARPA (Defense Advanced Research Projects Agency)
  • Delos Living LLC
  • Department of Bio and Brain Engineering and KAIST Institute for Optical Science and Technology (Korea)
  • Department of Electro-Optical Engineering, National Taipei University of Technology
  • Division of Electron Microscopic Research, Korea Basic Science Institute
  • Division of Physical Metrology, Korea Research Institute of Standards and Science (Korea)
  • Electronics Maker (Magazine)
  • Excelitas Technologies Corporation
  • Firefly Institute, Culture and Tourism Division (Korea)
  • FISO Technologies Inc.
  • GE Medical
  • Goddard Space Flight Center (NASA)
  • Green Business Certification Inc. (GBCI) - Energy and Environmental Design (LEED) program
  • Infineon Technologies AG
  • Institute of Microelectronics - Singapore
  • Institute of Semiconductors, Chinese Academy of Sciences (China)
  • International Electrotechnical Commission (IEC)
  • International WELL Building Institute (IWBI)
  • Ivoclar Vivadent AG
  • Key Laboratory of Marine Chemistry Theory and Technology-Ocean University of China
  • Korea Advanced Institute of Science and Technology (KAIST)
  • LED News
  • LEDtronics, Incorporated
  • LG Innotek
  • Lighting Research Center (LRC)
  • Lighting Science (Rhode Island, USA)
  • Luminus Devices, Incorporated
  • LumiThera Inc.
  • Marshall Space Flight Center, Alabama
  • Mayo Clinic
  • Medical Illumination International
  • Medtronic
  • MedX Health
  • Mount Sinai Hospital
  • Murata
  • Nagoya University (Japan)
  • NASA - Jet Propulsion Laboratory (JPL)
  • NASA - Johnson Space Center
  • National Center for Advancing Translational Sciences (NCATS) - (US) National Institutes of Health (NIH)
  • National Institute of General Medical Sciences (USA)
  • National Institute of Health (NIH) - National Eye Institute (NEI)
  • National Institute of Mental Health
  • National Instruments Corporation
  • National Science Foundation (United States)
  • Nichia Corporation
  • Nikkiso Giken Co., Ltd.
  • Nitride Semiconductors Company Limited
  • Ocean Optics, Incorporated
  • Optrand Incorporated
  • OSRAM Innovation
  • Osram Opto Semiconductors
  • Philips
  • Photomedex
  • ProPhotonix
  • Regiolux GmbH
  • S.I.M.E.O.N. Medical GmbH & Co. KG
  • Samsung / Samsung Electronics Co., Ltd
  • SCHOTT AG Lighting and Imaging
  • Sensor Electronic Technology, inc. (SETi)
  • Shine Technologies Ltd – Shine ®
  • STERIS plc.
  • Striker
  • Surgiris
  • Tecco Group Ltd
  • Tokyo Metropolitan Industrial Technology Research Institute
  • U.S. Army Research Laboratory (ARL)
  • U.S. Department of Veterans Affairs  
  • U.S. Department of Veterans Affairs (National Center for PTSD)
  • U.S. Food and Drug Administration (FDA)
  • United States Navy Sea, Air, and Land Teams (Navy SEALs)
  • University of Chicago
  • University of Illinois - Center for Microanalysis of Materials
  • University of Twente VU - Amsterdam
  • US Department of Energy
  • US National Library of Medicine
  • US National Library of Medicine National Institutes of Health
  • Vielight
  • World Health Organization (WHO)