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A bar chart illustrating the forecast growth of XR devices equipped with OLEDoS displays between 2025 and 2031, highlighting AR dominance.

XR Headset Shipments Set to Top 10 Million in 2025… AR Expansion Drives OLEDoS Growth

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Forecast chart of XR device shipments with OLEDoS from 2025 to 2031 (Source: UBI Research)

UBI Research forecast trend for XR device (MR/VR and AR) shipments equipped with OLEDoS from 2025 to 2031 (Source: UBI Research)

The rapid expansion of the AI and XR device market has intensified competition in next-generation microdisplay technologies. According to a new report published by UBI Research titled ” XR Industry Trends and OLEDoS Display Technology & Industry Analysis” XR headset shipments are expected to exceed 10 million units by 2025. Notably, AR smart glasses alone saw over a 50% year-on-year increase in the first half of this year, clearly shifting the market’s center of gravity.

The AR market is diversifying, expanding its application range from AI glasses focused on information display to business-use AR glasses and content-viewing devices. In the consumer AI glasses market, primarily focused on information display, monochrome displays with resolutions around 640 x 480 (VGA) and microdisplays under 0.3 inches are commonly used, with LCoS and micro LED competing for position. Workplace AR glasses require resolutions of 1280×720 (HD) or higher, while content-viewing AR demands resolutions of 1920×1080 (FHD) or higher.  As industry’s expansion focus shifts from VR to AR, the demand for simultaneously meeting ultra-high resolution, high brightness, and lightweight requirements has grown significantly. Consequently, OLEDoS is evaluated as the fastest-growing display technology within the XR ecosystem.

Global manufacturers are also accelerating OLEDoS development and supply chain expansion. Samsung Display joined the OLEDoS market, previously led by Sony, BOE, and Seeya, by supplying OLEDoS panels for Samsung Electronics’ Galaxy XR, released in October 2025, following Sony. In China, companies like BOE, Seeya, and SIDTEK have commenced mass production of 12-inch OLEDoS panels, marking the most notable shift in the supply chain. Chinese firms are strengthening their in-house capabilities in core processes such as high-resolution patterning, Si-backplane design, and tandem OLED structures, suggesting their global supply share will rapidly expand in the future.

UBI Research analyst Changho Noh predicted, “The OLEDoS market is projected to grow from approximately $285 million in 2025 to $840 million by 2031, driven by supply chain expansion and diverse demand bases.”

He further analyzed, “Shipments of OLEDoS-equipped XR devices are expected to increase from 1.2 million units in 2025 to 8.86 million units by 2031, with AR devices anticipated to account for approximately 90% of total OLEDoS shipments by 2031.”

Changho Noh,  Senior Analyst at UBI Research (chnoh@ubiresearch.com)

▶XR Industry Trends and OLEDoS Display Technology & Industry Analysis Report

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SIDTEK to build Micro-OLED production site in Nanchong with mass production set for 2027

SIDTEK to Establish Micro-OLED Production Base in Nanchong, Mass Production Set for 2027

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SIDTEK’s Micro-OLED investment roadmap presented at K-Display Business Forum 2025 (Source: UBI Research)

SIDTEK presenting its Micro-OLED investment roadmap at K-Display Business Forum 2025 (Source: UBI Research)

Chinese Micro-OLED specialist SIDTEK is moving forward with a new production base investment in Nanchong, Sichuan Province. The company aims to complete the main production building by the end of 2025, initiate pilot production by late 2026, and enter full-scale mass production in 2027.

The project is being supported by a 150 million RMB investment from the Sichuan provincial government. SIDTEK already operates 8-inch and 12-inch Micro-OLED production lines in Wuhu, Anhui Province. With the addition of the Nanchong facility, the company is diversifying its manufacturing footprint and establishing a stronger foundation to meet the growing global demand.

SIDTEK has made high-resolution OLEDoS (OLED on Silicon) displays for AR, VR, and next-generation XR devices its core business. Earlier this year, the company presented its OLEDoS mass production roadmap and vertical integration manufacturing strategy at the K-Display Business Forum, underscoring its technological competitiveness.

The Nanchong plant will become SIDTEK’s third major production base, and once fully operational, it is expected to strengthen China’s position in the global Micro-OLED supply chain.

Junho Kim, Analyst at UBI Research (alertriot@ubiresearch.com)

▶ China Market Trend Report Inquiry

SIDTEK presenting the current status and challenges of China OLEDoS industry at K-Display 2025

SIDTEK Unveils Vertical Integration Strategy for OLEDoS Mass Production and Manufacturing Process at K-Display 2025

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SIDTEK presenting the current status and challenges of China OLEDoS industry at K-Display 2025

SIDTEK presenting China OLEDoS industry status and challenges at K-Display 2025 (Source: SIDTEK)

At the business forum of K-Display 2025, held from August 6-9, China’s SIDTEK discloses OLEDoS mass production status and future expansion strategy. In addition to announcing the start of mass production at its Wuhu facility, SIDTEK also announced that it has completed the groundbreaking of an additional factory and is preparing for a third facility. Amidst active competition from local governments to build OLEDoS mass production plants, SIDTEK has made it clear that its business progress in China should be based on “breaking ground and bringing in equipment” rather than announcing “contracts,” and plans to rapidly expand its production base with multi-base operations.

The pace of expansion in the Chinese ecosystem is also accelerating. SIDTEK explains that it has formed a “three-company simultaneous mass production” structure with BOE and SEEYA. Goertek, a set company, is also reportedly looking into the possibility of investing in the deposition process to directly control the display, which is the key to VR costs. The combination of these moves could lead to a production capacity scenario of tens of thousands of sheets per month for 12-inch in the medium term. The strategy is to use the power of scale to lower costs and speed up development capacity.

The speaker posed the question, “If OLEDoS is such good technology, why aren’t there any buyers around?” He emphasized the realism that large-scale facility investment should be judged by production volume, which is “can it be sold like a cell phone,” and that from a manufacturing perspective, demand validation and profitability should come first.

In-house design of backplane semiconductors was presented as a key solution to low yields that affect production prices. The diagnosis is that the low yield of Micro-OLEDs is not only due to technical difficulties, but also to unclear responsibility for defects that occur in the structure where the backplane (semiconductor) and panel are separated, and delays in improvement. “We need to bring the semiconductor inside and close the defect analysis and improvement loop,” SIDTEK emphasized. In China, vertical integration is spreading across the industry, with SEEYA investing in the wafer stage to optimize integration, and BOE preparing to enter the market with existing line capacity.

The product and market strategy is focused on “lightweight AR” in the near term. The speaker is skeptical of the “full screen all the time with glasses” scenario and predicts that AR will first be popularized for simple information such as navigation and notifications. As a result, optimizing backplane chips (BPICs) and optics, focusing on power consumption, visibility, and uniformity, rather than racing to ultra-high resolutions, is a challenge. Balancing realistic price points and ease of use will be key to early adoption, he said.

Judgments were also shared on the display technology axis. In VR, fast LCD, glass-based OLED, and OLEDoS are competing, with glass-based OLED, with its size scalability and optical simplification advantages, likely to emerge in the low-end and entry-level segments, while OLEDoS will share the role at the high-end. In the AR, the view was that LCoS, OLEDoS, and LEDoS will coexist, but that the volatility of the OLEDoS position should be noted, leaving open the possibility of a shift to LEDoS if ultra-high resolution is not a requirement.

During the on-site discussion, it was suggested that “VR devices have the potential to become widespread if lightweight and convenient designs can be achieved,” and that AI-based image processing combined with interaction will serve as a catalyst for this development.

SIDTEK’s announcement reaffirms its realist strategy centered on “real mass production factories” and “securing profitability”. The company plans to build credibility with multi-location mass production, speed up learning to improve production yield and defects with in-house design of backplane semiconductors, and open up the market with design and process optimization tailored to the lightweight AR segment, where near-term demand is gathering. Despite demand uncertainty in China, SIDTEK is responding with a conservative, execution-focused expansion strategy, as government-led investments and vertical integration among companies continue to drive the “game of scale” in the country.

Changho Noh, Analyst at UBI Research  (chnoh@ubiresearch.com)

▶UBI Research’s Micro Display Reports