VCSEL market doubles in four years to $840m

Author: EIS Release Date: Sep 23, 2022

By 2022, the VCSEL market has almost doubled compared to 2018, reaching $840 million, says Yole Developpement.

 

Starting in 2023, datacom could regain its supremacy and dominate the VCSEL market for the following five years.

 

VCSEL revenues for datacom are expected to reach $2.1 billion in 2027, while VCSEL revenue for mobile and consumer could reach $1.7 billion.

 

In the past, the VCSEL market was driven by datacom, the technology’s first volume application. In November 2017, Apple released the iPhone X embedding VCSELs for face recognition.

 

This changed the game. In 2018, mobile and consumer became the largest market for VCSELs, reaching US$440 million. Other smartphone makers soon joined this trend but then stopped using these components a few years later in favor of under-screen fingerprint sensors. Apple remains almost the only player integrating VCSELs.

 

Since 2017, the VCSEL ecosystem has changed drastically. At that time, the market was an oligopoly, dominated mainly by Lumentum, though several other players had significant market shares. By 2022, the VCSEL ecosystem had changed and is now a duopoly.

 

Lumentum and II-VI are now the largest players, with 80% of the VCSEL market. So, what happened in the five years? Lumentum was the only supplier qualified by Apple at that time.

 

Finisar was still in R&D and struggling to qualify products for Apple. Other players were involved with other smartphone makers or supplying tiny VCSELs for proximity sensors.

 

Then, Coherent (formerly II-VI) acquired Finisar. These two players, Lumentum and II-VI, are still the only players qualified by Apple for 3D sensing. At the same time, the leaders also acquired other companies, such as Oclaro and Coherent, amongst several others.

 

This reinforced their positions in the optical communication market, vertically integrating from the VCSEL device to the entire transceiver module.

 

“Since 2017, VCSELs in smartphones have evolved little,” says Yole’s Pierrick Boulay, “a transition from 4” wafer manufacturing to 6” wafer was necessary to satisfy the exploding demand from consumer players. This happened between 2016 and 2018”.

 

Two major changes are expected in the coming years. In May 2022, IQE demonstrated its first 8” wafers based on germanium instead of GaAs. These new wafers may not be needed to answer a sudden rise in VCSEL demand but to make possible the integration of photonics devices with CMOS technology. It also gives a potential roadmap toward 12” wafer manufacturing in the long term.

 

The second major change expected is a shift in wavelength from 940 to 1,380nm using dilute nitride active layers. This shift is needed to enable the integration of VCSELs behind OLED displays, which are transparent at this wavelength.

 

“The iPhone 14 Pro, which was presented in September 2022 embeds a proximity sensor under the display but it could use a laser diode and InGaAs photodetector based on InP substrate waiting dilute nitride technology for VCSELs to be ready.” asserts Boulay. “As expected, the first long-wavelength application is a proximity sensor under the display, reducing the notch size on iPhones. Further 3D sensing applications could happen later”