Announcement from ElectroniCast Consultants
LEDs
Used in Test/Measurement, Medical & Other Science Devices
Market
Forecast and Analysis
2016-2026
Published: April 13, 2017
Text Pages: 274
pages – PDF
Excel File: Market Forecast Database (2016-2026)
PowerPoint File: Summary Data Figures
Delivery: Files
delivery via E-Mail
Fee: US$ 3,990
Web-Site: www.electronicast.com
Report Description
This report by ElectroniCast Consultants provides the research
findings of our study of the worldwide consumption of packaged Light Emitting
Diodes (LEDs) in Test/ Measurement, Medical and other Science Devices. This report provides global market data
covering the years 2016-2026 (one year history, plus a 10-year forecast).
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
LED
Level Quantified in the ElectroniCast Study Below, are four levels (or “food chain”) of LEDs. For the purposes of this ElectroniCast
study, we quantify and provide 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.
Information Base for the Market
Forecast
Primary Research This study is based on analysis of
information obtained continually over the past several years, but updated through
the beginning of April 2017. During
this period, ElectroniCast analysts performed interviews with authoritative and
representative individuals in the following sectors relative to the use of
LEDs: medical, science, bio-photonic, display industry, test/measurement,
instrumentation, R&D, university, military defense and government. The
interviews were conducted principally with:
·
Engineers, marketing
personnel and management at manufacturers of LED test/measurement & medical
science equipment/devices and related equipment, as well as other technologies
·
Design group leaders,
engineers, marketing personnel and market planners at major users and potential
users of LEDs and test/measurement & medical and other science
equipment/devices
·
Other industry experts,
including those focused on standards activities, trade associations, and
investments.
The interviews covered
issues of technology, R&D support, pricing, contract size, reliability,
documentation, installation/maintenance crafts, standards, supplier competition
and other topics.
Analysis The
analyst then considered customer expectations of near term growth in their
application, plus forecasted economic payback of investment, technology trends
and changes in government regulations in each geographical region, to derive
estimated growth rates of quantity and price of each product subset in each
application. These forecasted growth rates are combined with the estimated
baseline data to obtain the long-range forecasts at the lowest detailed level
of each product and application.
Secondary Research A full review of published information was also performed
to supplement information obtained through interviews. The following sources
were reviewed:
·
Professional technical journals,
papers and conference proceedings
·
Trade press articles
·
Company profile and financial
information; Product literature
·
Additional information based on
previous ElectroniCast market studies
·
Personal knowledge of the research
team
In analyzing and forecasting the
complexities of geographical regional markets, it is essential that the market
research team have a good and a deep understanding of the technology and of the
industry. ElectroniCast members who participated in this report were qualified.
Bottom-up Methodology ElectroniCast forecasts,
as illustrated in the forecast data structure, are developed initially at the
lowest detail level, then summed to successively higher levels. The background
market research focuses on the amount of each type of product used in each application
in the base year (last year = 2016), and the prices paid at the first transaction from the
manufacturer. This forms the base year data.
ElectroniCast analysts then forecast the growth rates in component quantity use
in each application, along with price trends, based on competitive, economic
and technology forecast trends, and apply these to derive long term forecasts
at the lowest application levels. The usage growth rate forecasts depend
heavily on analysis of overall end user trends applicable products/applications
and equipment usage and economic payback.
Cross-Correlation Increases
Accuracy The quantities of packaged LEDs, LED
Driver ICs, LED materials/wafer/die/chips, LED Lamps and LED fixtures
(luminaries) and other LED-based components, manufacturing processes/quality
control/yields, and end-use products used in a particular application are
interrelated. Since ElectroniCast
conducts annual analysis and forecast updates in each LED component field,
accurate current quantity estimates are part of the corporate database. These quantities are cross-correlated as a
"sanity check".
ElectroniCast, each year since
2002, has conducted extensive research and updated their forecasts of several
LED lighting categories. As technology
and applications have advanced, the number of component subsets covered by the
forecasts has expanded impressively.
The
calculation and analysis data spreadsheet technique is based upon input/output
analysis, leveraging the quantitative consumption quantity, price and value of
each item in each application at all levels to achieve reasonable quantitative
conclusions; this interactive analysis concept, first applied on a major scale
by Leonteff, of the US Department of Commerce, in the mid 1950s, was then
adopted successfully by analyst/forecasting firms Quantum Science, Gnostic
Concepts and (in 1981) by ElectroniCast
About ElectroniCast
ElectroniCast, founded in 1981, specializes in forecasting technology and global market trends
in fiber optics communication components and devices,
as well providing market
data on light emitting diodes used in lighting.
As an independent
consultancy we offer multi-client and custom market research studies to the world's
leading companies based on comprehensive,
in- depth analysis
of quantitative and qualitative factors. This includes technology forecasting, markets
and
applications forecasting, strategic planning, competitive analysis, customer-satisfaction surveys and marketing/sales consultation. ElectroniCast, founded as
a technology-based independent
consulting firm, meets the information needs of the investment community,
industry planners and related suppliers.
Proprietary Statement
All data and other information contained in this data base are
proprietary to ElectroniCast and may not be distributed or provided in either
original or reproduced form to anyone outside the client's internal employee
organization, without prior written permission of ElectroniCast. ElectroniCast, in addition to
multiple-client programs, conducts proprietary custom studies for single
clients in all areas of management planning and interest. Other independent consultants, therefore,
are considered directly competitive.
ElectroniCast proprietary information may not be provided to such
consultants without written permission from ElectroniCast Consultants.
One-Fee Policy
All employees of the client company/organization may use this report,
worldwide at the consultant service subscription fee shown in the front pages
of this announcement.
Table of Contents
1. Executive
Summary
1.1 Overview
1.2 Bare (Unpackaged) LED Chips – Overview
2. LEDs
– Technology Overview
3. LEDs
Used in Test/Measurement & Medical Science Devices Market Forecast
3.1 Overview
3.2 Sensing/Detection
and Analytical/Monitoring 3-
3.3
Photo-therapy/Sanitation/Cell
Regeneration/Curing
3.4
Instrumentation Light
Source and Imaging
4. ElectroniCast Market Research
Methodology
5. Market
Forecast Data Base - Introduction
5.1 Overview
5.2
Tutorial
– List of Tables –
1.1.1 LEDs in Test/Measurement
& Medical Science Devices Global Forecast, By Application ($, Million)
2.1 LED Color Variety –
Selected Examples
2.2 LED Color Chart
3.1.1 LEDs in Test/Measurement
& Medical Science Devices Global Forecast, By Application ($, Million)
3.1.2 LEDs in Test/Measurement
& Medical Science Devices Global Forecast, By Application (Quantity)
3.1.3 LEDs in Test/Measurement
& Medical Science Devices America Forecast, By Application ($, M)
3.1.4 LEDs in Test/Measurement
& Medical Science Devices America Forecast, By Application (Qty)
3.1.5 LEDs in Test/Measurement
& Medical Science Devices EMEA Forecast, By Application ($, Million)
3.1.6 LEDs in Test/Measurement
& Medical Science Devices EMEA Forecast, By Application (Quantity)
3.1.7 LEDs in Test/Measurement
& Medical Science Devices APAC Forecast, By Application ($, Million)
3.1.8 LEDs in Test/Measurement
& Medical Science Devices APAC Forecast, By Application (Quantity)
3.2.1 LEDs in
Sensing/Detection and Analytical/Monitoring Global Forecast, By Application ($,
Million)
3.2.2 LEDs in
Sensing/Detection and Analytical/Monitoring Global Forecast, By Application
(Quantity)
3.2.3 LEDs in
Sensing/Detection and Analytical/Monitoring America Forecast, By Application
($, Million)
3.2.4 LEDs in
Sensing/Detection and Analytical/Monitoring America Forecast, By Application
(Quantity)
3.2.5 LEDs in
Sensing/Detection and Analytical/Monitoring EMEA Forecast, By Application ($,
Million)
3.2.6 LEDs in
Sensing/Detection and Analytical/Monitoring EMEA Forecast, By Application
(Quantity)
3.2.7 LEDs in
Sensing/Detection and Analytical/Monitoring APAC Forecast, By Application ($,
Million)
3.2.8 LEDs in
Sensing/Detection and Analytical/Monitoring APAC Forecast, By Application
(Quantity)
3.2.9 Strain Sensing
Technology Attributes Summary
3.3.1 LEDs in
PDT/Sanitation/Cell Regeneration/Curing Global Forecast, By Application ($,
Million)
3.3.2 LEDs in
PDT/Sanitation/Cell Regeneration/Curing Global Forecast, By Application
(Quantity)
3.3.3 LEDs in
PDT/Sanitation/Cell Regeneration/Curing America Forecast, By Application ($,
Million)
3.3.4 LEDs in
PDT/Sanitation/Cell Regeneration/Curing America Forecast, By Application
(Quantity)
3.3.5 LEDs in
PDT/Sanitation/Cell Regeneration/Curing EMEA Forecast, By Application ($,
Million)
3.3.6 LEDs in
PDT/Sanitation/Cell Regeneration/Curing EMEA Forecast, By Application
(Quantity)
3.3.7 LEDs in
PDT/Sanitation/Cell Regeneration/Curing APAC Forecast, By Application ($,
Million)
3.3.8 LEDs in
PDT/Sanitation/Cell Regeneration/Curing APAC Forecast, By Application
(Quantity)
3.3.9 Therapeutic
Visible Light Spectrum
3.4.1 LEDs in Instrumentation
Light Source and Imaging Global Forecast, By Application ($, Million)
3.4.2 LEDs in Instrumentation
Light Source and Imaging Global Forecast, By Application (Quantity)
3.4.3 LEDs in Instrumentation
Light Source and Imaging America Forecast, By Application ($, Million)
3.4.4 LEDs in Instrumentation
Light Source and Imaging America Forecast, By Application (Quantity)
3.4.5 LEDs in Instrumentation
Light Source and Imaging EMEA Forecast, By Application ($, Million)
3.4.6 LEDs in Instrumentation
Light Source and Imaging EMEA Forecast, By Application (Quantity)
3.4.7 LEDs in Instrumentation
Light Source and Imaging APAC Forecast, By Application ($, Million)
3.4.8 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)
1.1.5 LEDs in Test/Measurement
& Medical Science Devices America Forecast, By Color ($, Million)
1.1.6 LEDs in Test/Measurement
& Medical Science Devices EMEA Forecast, By Color ($, Million)
1.1.7 LEDs in Test/Measurement
& Medical Science Devices APAC Forecast, By Color ($, Million)
1.2.1 Diagram of a typical LED
chip
1.2.2 Diagram of a typical LED
chip
1.2.3 LED Chip Cross-Sectional
Structure
1.2.4 Chip On Glass
Cross-Sectional Structure
1.2.5 ESD Protection Diodes
1.2.6 Electrostatic
Discharge Example
1.2.7 Chip-on-Board LED
Technology
1.2.8 Single-die LED: 1000 lm
at 100 lm/W at 3A
1.2.9 Four-die LED with
Primary Optics
1.2.10 Next Generation of
High-Power LED
1.2.11 LED Packaged Chip
1.2.12 LED Packaged Chip
1.2.13 LED Packaged Chip Surface
Mount Variations
1.2.14 Example of LED Packaged
Chip: Flux (Component-Level Bulb)
1.2.15 Example of High
Brightness LED Packaged Chip (Component-Bulb)
1.2.16 Surface Mounted Device
(SMD) LED
1.2.17 Chip-On-Board and
Multi-Chip On Board (COB/MCOB) LED
2.1 Green light emission
from RPCVD p-GaN layers grown on MOCVD
2.2 ATEX & IECEx
Certified Explosion-proof LED Light
2.3 Highest-Performing
Single-Die LED
2.4 LEDs on a Metal Core
Linear Flexible Printed Circuit Board
2.5 LED Chromatic Chart
2.6 Evolution of Research Emphasis During Technology Life
Cycle
2.7 Wire-Bondable Silicon
ESD Diode Chip in Gel-Packs
2.8 LED Chip: Metal Layer
(Thin Film Technology)
2.9 AC LED Technology on a
Wafer
2.10 UV LED Chip Packages
(Sample)
2.11 Fully Printed Halide
Perovskite LEDs with Silver Nanowire Electrodes
2.12 Ultra High Bright LED
Chip
2.13 LED Chip Design with
Copper Alloy Thermal Conductivity
2.14 LED Chip Design –
Sapphire vs. Copper Alloy
2.15 Ultra-Thin LED
2.16 Solid-State Lighting LED
2.17 LED Module with High
Light Quality
2.18 LED Module with
Low-Profile Rectangular Shape
2.19 Phosphor
Technology: Thin Film Flip Chip (TFFC) technology
2.20 Next-Generation Light
Emitting Diode Module
2.21 4-Leaded RGB LED
2.22 Basic Structure of a
Deep-UV Light-Emitting Diode
2.23 Vertically Conducting
Advanced LED Structure
2.24 AlGaInP LED Efficacy
2.25 Red Nitride Phosphors
3.1.1 LEDs in Medical/Science
Devices Global Forecast ($, Million)
3.1.2 LEDs in Medical/ Science
Devices Global Forecast (Quantity/Units)
3.2.1 LED-induced
chemiluminescence platform
3.2.2 LED-based Monitoring
Sensor
3.2.3 Light-Emitting Diode
Detection and Ranging Board Modules
3.2.4 UV-LED-based Indoor Air
Quality
3.2.5 Fluorescence
detection of trace hydrazine vapor
3.2.6 Fiber Optic Temperature
Sensor
3.2.7 Pre-clinical Transducer
with Fiber Coating
3.2.9 Sealed-Gauge Fiber Optic
Pressure Sensors
– List of Figures – Continued
3.2.10 Seven (7) wavelengths acquire blood constituent data
3.2.11 Seven (7) wavelengths
acquire blood constituent data
3.2.12 Oximeters -
Upgradable Technology Platforms
3.2.13 LED-based Non-invasive
Sensing
3.2.14 FLIPPER -
light-emitting diode excites fluorescence in the sample flow cell
3.2.15 Nano-sized "carbon
dots" glow brightly when exposed to light
3.2.16 Variable wavelength
HPLC/CE detector
3.2.17 Led-Based Direct
Visualization of Tissue Fluorescence
3.2.18 LED-Based Cell Phone
Sensor for Detection of E. coli
3.3.1 Comparison
Graph - Mercury Lamps versus UV LEDs for Medical Curing
3.3.2 DEEP UV (DUV) LED (Surface mount devices / SMDs)
3.3.3 World's First 70mW UV-C
LED
3.3.4 Handheld LED Light Therapy Rejuvenation Device
3.3.5 Neonatal Photo therapy Treatment (Blue LEDs)
3.3.6 Light doses range in LED
Photo therapy
3.3.7 Skin treatment therapies
Utilizing LED Photo-modulation: Typical LED array (Red)
3.3.8 Blue LED Arrays
3.3.9 Apparatuses
Containing Arrays of LEDs
3.3.10 UV LED Disinfection
3.3.11 Light Therapy
3.4.1 LEDs – Different Colors
for Fluorescence Microscopy Applications
3.4.2 Fluorescence
Microscopy – Lamphouse Anatomy with LEDs
3.4.3 LED versus Tungsten used in Slit Lamps Retina Observation
3.4.4 Red, Green and Blue LED
Light Sources – Biophotonics
3.4.5 Theodolite
Ring Light
3.4.6 LED-Based Fiber Optic
Illuminator
3.4.7 LED-Based Fiber Optic
Illuminator
3.4.8 Holographic
Bioimaging – Concept Image
3.4.9 Example of Color
Rendering in Medical Surgery
3.4.10 LED-Based Surgical
Lighting
3.4.11 LED-Based Surgical
Lighting
3.4.12 Reflector-Part
of a LED-Based Surgical Light
3.4.13 Homogenous
Beam of LED Light and Light Heads
3.4.14 LED-based Surgical
Headlamp
4.1 Market Research &
Forecasting Methodology
Addendum
·
Excel Data Base
Spreadsheets (Global Market Forecast); Detailed Data: ASP ($, each); Quantity
(Million); Value ($, Million) for all Regions
·
Power Point Market Data
Figures (Global Market Forecast)
LED bulbs is power saving and comparison to other lighting systems, you are sharing best information , thank u
ReplyDeleteLED Bulb manufacturer
LED lighting has many advantages, even I have learned so many in my university life. They are used in many lighting stuff and also used in traffic signals light.
ReplyDelete