Optoelectronics Market

The global automotive optoelectronics market size was valued at USD 3.50 billion in 2017 and is expected to reach USD 9.80 billion by 2025, at a CAGR of 14.13% during the forecast period. 

Objectives

• To define, describe, and project the market (2018–2025), in terms of value (USD million)
• To provide detailed information regarding the major factors influencing the growth of the market, such as drivers, restraints, opportunities, and industry-specific challenges
• To analyze and forecast the market and estimate the market size, by value, based on devices, application, EV type, vehicle type, market channel type, and region
• To track and analyze competitive developments such as joint ventures, mergers & acquisitions, new product developments, and expansions

The research methodology used in the report involves data collection from various secondary sources such as International Optoelectronics Association, Optoelectronics Industry Development Association, Automotive Component Manufacturers Association (ACMA), China Association of Automobile Manufacturers (CAAM), Japan Automobile Manufacturers Association (JAMA), European Automobile Manufacturers Association (ACEA), and Canadian Automobile Association (CAA).  Experts from related industries and suppliers have been interviewed to understand the future trends of this market. The bottom-up approach has been used to estimate and validate the size of the global market. The global market is derived based on multiple primary inputs and secondary research. Further, regional penetration is identified to derive the regional market sizing of the automotive optoelectronics.

The figure given below illustrates the break-up of the profiles of industry experts who participated in primary discussions.

To know about the assumptions considered for the study, download the pdf brochure

The ecosystem of the automotive optoelectronics industry consists of manufacturers such as Texas Instruments (US), Hella (Germany), Osram (Germany), Vishay (US), and Broadcom (US).

Target Audience

• Automotive optoelectronics manufacturers
• Raw material suppliers
• Component manufacturers
• Distributors and suppliers of automotive optoelectronics components/parts

Scope of the Report

Automotive Optoelectronics Market, By Devices

• Image Sensor
• IR Component
• Laser Diode
• LED
• Optocoupler

Automotive Optoelectronics Market, By Application

• Position Sensor
• Convenience & Climate
• Safety
• Lighting
• Backlight Control

Automotive Optoelectronics Market, By Vehicle Type

• Passenger Car
• LCV
• Buses
• Trucks

Automotive Optoelectronics Market, By EV

• BEV
• FCEV
• HEV
• PHEV

Automotive Optoelectronics Market, By Market Channel

• OEM
• Aftermarket

Automotive Optoelectronics Market, By Region

• Asia Pacific
• Europe
• North America
• Rest of the World

Available Customizations

MarketsandMarkets offers the following customizations for this market report:

• Additional country level analysis of the market
• Profiling of additional market players (up to 3)
• Competitive Leadership Mapping (Micro-quadrant)

Drivers

High demand and increasing sales of luxury and ultra-luxury vehicles

The improving global economic conditions have changed the overall lifestyle of consumers. With increasing disposable income, the demands of consumers have changed in line with new lifestyles, leading to a change in their preferences. This has positively affected the sales of luxury and ultra-luxury cars across the globe. The difference in lifestyle is noticeable, especially in developing countries such as China and India.

The sales of Mercedes-Benz increased from 155.9 thousand units in 2016 to 442.9 thousand units in 2017. Based on the 2017 sales figures, BMW China plans to double its production capacity by 2020. Optoelectronics devices such as LED lights, OLED and LED displays, and ambient lighting are the key highlights of the luxury vehicle segment. These devices increase comfort and convenience of the vehicle. Along with improving visibility, they also provide a congenial atmosphere in the cabin, thus reducing driver fatigue and increasing vehicle safety.

Increase in awareness about vehicle safety

The safety of the passengers and vehicle has become the prime concern for vehicle buyers. Regulatory authorities around the world are aiming to improve vehicle safety. The Global status report on road safety 2015 estimated that more than 1.2 million road traffic deaths occur each year globally. Studies suggest that road traffic injuries will become the fifth leading cause of death globally by 2030. Driver fatigue, driver distraction, and limited visibility of the road are the major causes of these accidents.

In a vehicle, optoelectronics devices can be used for occupant detection, drowsy driver detection, night vision, optical immobilizer, and remote keyless entry. Due to the increasing awareness about vehicle safety and government mandates regarding safety features, OEMs are providing many safety features as a standard fit in vehicles. These features have helped to reduce the number of road fatalities. For instance, there has been a 3% decrease in road accident deaths in India in 2017 as compared to 2016. The positive result will further boost the installation of safety features in vehicles.

Restraints

Easily available and affordable substitutes for the technology

Various substitutes are available as an alternative for optoelectronic components. For instance, halogen bulbs are widely used in headlights and interior lighting. Halogen bulbs are easy to manufacture and cheaper than LEDs and OLEDs. Xenon HID bulbs, which are brighter than halogen, can also be used in headlights. On the other hand, LEDs are both expensive and difficult to make. Also, Yellow phosphorous is widely used in LED lighting. New materials from cadmium selenide and zinc selenide nanoparticles can be illuminated using the blue LED chip. However, they undergo quality and performance degradation over time and at higher operating temperatures compared to phosphors. The color of the light emitted by nanoparticles can be precisely tuned by varying the size of the particle. Hence, the growth of market can be hampered by the easy availability of affordable substitutes.

New Product Developments, 2015–2018

Expansions

The optoelectronics market for automotive is estimated to be USD 3.88 billion in 2018 and is projected to reach USD 9.80 billion by 2025, at a CAGR of 14.13% from 2018 to 2025. The key growth drivers for the market are the increasing awareness regarding vehicle safety and rising demand for luxury and ultra-luxury vehicles.

The passenger car segment is estimated to hold the largest market share during the forecast period. The increasing sales of passenger cars globally are leading to the exponential growth of this market. Also, the growing trend of integrating high-end electronics for in-vehicle features is inflating the demand for automotive optoelectronics.

The LED devices segment is projected to register the fastest growth, in terms of value, in the global market during the forecast period. The growth of the LED segment can be attributed to the increasing demand for ambient lighting to enhance the comfort & convenience in the vehicle.

By application, the safety segment is expected to register the fastest growth, by value, in this market during the forecast period. The increasing number of safety mandates by several governments across the globe along with the high consumer preference for safety applications is driving the growth of the market.

By market channel, OE market segment is estimated to be the largest segment of the market during the forecast period. The growth of this segment can be attributed to the offering of features such as ambient lighting, convenience & climate features, and safety features as standard fitment by the automakers. OE is expected to remain an attractive market in the near future due to the increase in demand for such features by the consumers.

The North American region is projected to be the largest market for automotive optoelectronics by 2025. The increasing production of automobiles and a significant rise in demand for premium segment passenger cars are driving the market growth in this region. The Asia Pacific region is anticipated to register the fastest growth in automotive optoelectronics by 2025. The adoption rate of applications such as safety and lighting in vehicles is expected to show incremental growth in the region in the coming years. The increased adoption rate makes the Asia Pacific region the fastest growing market during the forecast period.

The key factor restraining the growth of this market is the easy availability of affordable substitutes for the optoelectronics technology for automotive applications.

The automotive optoelectronics market is dominated by a few global players and comprises several regional players. Some of the key manufacturers operating in the market are Osram (Germany), Hella (Germany), Texas (US), Broadcom (US), and Vishay (US).

Leading automotive optoelectronics manufacturers/software providers are focused onto develop innovative solutions for existing and new applications of automobiles to drive the industry forward.

Lighting

Automotive lighting has witnessed substantial growth in the recent past due to high demand in comfort and convenience features in the vehicles. Osram is one of the companies that is at the forefront of developing advanced lighting application for automobiles. The company has added the Oslon Compact PL to its portfolio of lighting products for the automotive sector. Designed primarily for vehicle headlights, the LED can be used in adaptive, glare-free high beam, daytime running lights. low beam, and standard high beam lighting. This comprehensive LED combines improved design with low system costs, making it suitable for a wide variety of vehicle classes and a broad spectrum of customers.

LED

LED light is a recent innovation in automotive lighting technology. Compared to xenon/HID lights, LEDs offer a better reflection in terms of light returns from road signs. In vehicles, LEDs can be used for lighting, safety, and convenience & climate applications. LEDs are primarily used in headlights, daytime running light (DRL), side indicators, and ambient lighting. Continuous innovations in the lighting sector are leading to the adoption of new technologies like adaptive LED lighting.

Audi (Germany) and HELLA developed a striking lighting technology. The headlamps of the four-door coupé are available as LED, Matrix LED, and HD Matrix LED with laser high beam variants. The system uses a new control unit, which takes care of all lighting functions. Audi and HELLA have additionally developed a new interior lighting concept together.

Optocoupler

Increased in the electrification inside the vehicles has paved the way for integrating advance electronics components for smooth functioning of technology. Optocoupler is one such component integrated in the electronics architecture of the vehicles which prevents high voltages from affecting the system receiving the electrical signal. Thus, key market players are developing advanced optocouplers to gain traction in the global market.

For instance, Vishay launched its first Automotive Grade phototransistor optocoupler. The new device combines a high current transfer ratio (CTR) with a low forward current. The phototransistor optocoupler is designed for battery management, signal transmission, and system control in automotive applications, including hybrid and electric vehicles.

Opportunities

Increasing R&D in the field of optoelectronics technology

The research and development programs in the optoelectronic components market are focused more on the development of technology to meet the growing consumer demand and enabling integration of these devices into various automotive components. Various R&D communities are investigating optical and optoelectronic approaches for high-speed optical computing and next-generation communication networks. These research divisions are also trying to obtain the optimal combination of materials and devices to make functional elements that perform advanced optoelectronic functions, which will ultimately be used in photonic systems.

Rising demand for electric vehicles

According to the US Environmental Protection Agency, the transportation sector was responsible for nearly 28% of the total greenhouse gas emissions in 2016, becoming one of the leading causes of the increase in global temperature. Hence, various governments are promoting the use of electric vehicles for transportation as they significantly reduce automotive emissions.

Challenges

Aftermarket Installation

As Original Equipment Manufacturers (OEMs) do not provide optoelectronics devices for all vehicles, consumers generally get them installed from the aftermarket. OEMs provide LED lighting, digital display, and LED ambiance lighting in the top variants only. Consumers prefer to install LED display and ambiance lighting in the aftermarket as these are not provided as a standard feature by OEMs. Thus, the aftermarket for automotive optoelectronics is significantly large. OEMs generally have specifications for the production of optoelectronic devices; this aspect cannot be regulated when they are manufactured as an aftermarket accessory. The aftermarket installation is thus a major challenge for the growth of the OEM automotive optoelectronics market.

High raw material cost

The high cost of raw materials used in automotive optoelectronic devices is a major challenge for manufacturers. The high cost of raw materials increases the production cost as well as that of the final product. For instance, a crystal mineral host lattice doped with rare earth ions is a necessary ingredient for the manufacturing of LEDs. These crystal hosts, when illuminated, vibrate and emit energy in the form of light of different wavelengths. The mining of such rare earth materials increases pollution and environmental degradation.

Collaborations/Joint Ventures/Supply Contracts/Partnerships/Agreements

Mergers & Acquisitions

To speak to our analyst for a discussion on the above findings, click Speak to Analyst