Multipoint Capacitive Touch Controller Market By Product Type (Self-Capacitive Controllers, Mutual-Capacitive Controllers); By Screen Size (<7 inches, 7–16 inches, >16 inches); By End User (Consumer Electronics, Automotive, Industrial Automation, Medical Devices, Retail & Public Infrastructure); By Geography, Segment Revenue Estimation, Forecast, 2024–2030

Introduction And Strategic Context

The Global Multipoint Capacitive Touch Controller Market is projected to grow at a CAGR of 8.1% between 2024 and 2030. Valued at around USD 4.8 billion in 2024 , the market is expected to reach approximately USD 7.7 billion by 2030 , driven by escalating demand for responsive, intuitive touch-based interfaces across consumer electronics, automotive, industrial, and healthcare devices.

 

Multipoint capacitive touch controllers — often embedded in tablets, smartphones, infotainment displays, and industrial control panels — have become essential to how humans interact with machines. These controllers sense multiple touchpoints simultaneously, enabling swipe, zoom, gesture, and multi-finger operations. Unlike resistive systems, capacitive controllers offer higher durability, faster response times, and a sleeker aesthetic — features that have made them indispensable across tech-forward use cases.

 

The strategic relevance of this market has changed significantly in the past few years. Touch interaction is no longer just a consumer expectation in phones and laptops — it's becoming standard in automotive center stacks, digital signage, smart home panels, surgical equipment, and even factory-floor HMIs. With the advent of ultra-slim bezels, foldable displays, and edge-to-edge screens, OEMs are shifting toward flexible and embedded touch ICs that preserve form factor without sacrificing functionality.

 

The rollout of 5G and the expansion of edge computing also fuel demand. Devices in this ecosystem require ultra-responsive touch controls with low latency and minimal power consumption — two areas where advanced capacitive controllers outperform legacy systems. Additionally, emerging trends in vehicle-to-everything (V2X) and in-cabin UX upgrades are pushing automakers to design infotainment interfaces that mimic smartphone fluidity. This is boosting demand for automotive-grade multipoint controllers with glove and moisture tolerance, extended temperature range, and compliance with ISO 26262 safety standards.

 

From a policy and regulatory angle, human-machine interaction (HMI) standards in healthcare and automotive sectors are starting to formalize design expectations. Capacitive controllers, when integrated with haptic feedback, EMI shielding, and AI-based touch prediction, are now key to passing usability and safety benchmarks in regulated environments.

 

The stakeholder ecosystem in this market spans:

• OEMs in consumer electronics, automotive, medical devices, and industrial automation

• Touch controller IC suppliers such as Synaptics , Microchip Technology , and Cypress Semiconductor (Infineon)

• Display integrators and ODMs who embed touch controllers into screens and surfaces

• Automotive Tier-1s and HMI system providers

• Investors and PE firms backing interface technology startups for AR/VR, wearable, and EV platforms

 

To be honest, this isn’t a niche market anymore. As digital surfaces become the new interface frontier — from smart mirrors to in-flight seatbacks — multipoint capacitive touch controllers are transitioning from nice-to-have to mission-critical.

 

Market Segmentation And Forecast Scope

The multipoint capacitive touch controller market is structured across several high-impact dimensions — from the type of device and its operational environment to the final end-user industry. This segmentation helps frame how diverse technologies, use cases, and commercial strategies interact across the ecosystem.

By Product Type

• Self-Capacitive Controllers: These are simpler, high-sensitivity controllers suitable for basic gesture recognition, single-touch operations, and proximity sensing. They are common in low-power or cost-sensitive applications like remote controls or basic home appliances.

• Mutual-Capacitive Controllers: The backbone of modern touch UX, these support true multi-touch capability, enabling gestures like pinch, zoom, and multi-finger tracking. They dominate smartphones, tablets, and automotive displays.

In 2024, mutual-capacitive controllers account for over 75% of market share, thanks to their precision, noise immunity, and compatibility with complex UI requirements across sectors.

 

By Screen Interface Size

• Small Screens (<7 inches): Still the largest volume category, especially for smartphones, wearables, handheld gaming devices, and POS terminals. Price sensitivity and power efficiency are key here.

• Medium Screens (7–16 inches): The fastest-growing segment, driven by use in automotive center stacks, industrial control panels, smart appliances, and tablet-like healthcare monitors.

• Large Screens (>16 inches): Used in digital signage, retail kiosks, public terminals, and collaborative industrial displays. Growth is steady but constrained by higher cost and design complexity.

Medium screens are expected to outpace other categories by 2030, fueled by rising demand in in-vehicle systems, industrial UX, and mid-sized medical diagnostics devices.

 

By End-Use Industry

• Consumer Electronics: The most mature segment, driven by smartphones, tablets, and foldable devices. Priorities include ultra-thin form factors, AI-enhanced gesture support, and low latency for gaming and AR/VR.

• Automotive: The fastest-growing vertical. Capacitive controllers are now standard in center stacks, digital cockpits, steering wheels, and e-mirrors, with demand for glove touch, moisture rejection, and ISO 26262 compliance.

• Industrial Automation: Includes HMIs for factory floors, energy systems, and outdoor panels. Emphasis is on noise immunity, ruggedization, and fast touch recognition under tough environmental conditions.

• Healthcare Devices: Used in monitoring, diagnostics, and surgical interfaces. Must be disinfectant-resistant, glove-compatible, and EMI-safe. Increasingly integrated into cleanable glass panels in hospitals.

• Retail & Public Infrastructure: Includes interactive kiosks, POS terminals, ATM screens, and self-service checkouts. Adoption is rising due to aesthetic durability and multi-user interaction needs.

Automotive and Healthcare are driving high-value growth, while industrial and retail systems benefit from rugged, customizable, mid-cost controller platforms.

 

By Region

• Asia Pacific: Leads both in volume and manufacturing capacity, thanks to major OEMs and fabs in China, Taiwan, South Korea, and Japan. Also driving demand through EVs and mobile device exports. India is emerging as a design and assembly hub.

• North America: Known for complex integration in automotive, medical, and smart home applications. High adoption of AI-powered, haptic-integrated, and ISO-certified controllers for mission-critical UX.

• Europe: Focused on premium automotive, industrial, and eco-compliant designs. European buyers prioritize EMI compliance, haptics, and sustainability — especially in German manufacturing and Nordic healthcare.

• Latin America: A price-sensitive but expanding market, led by retail POS, urban kiosks, and entry-level infotainment in Brazil and Mexico. Growth is supported by urbanization and public digitization.

• Middle East & Africa: Still emerging, but smart city deployments, medical equipment imports, and industrial automation in sectors like oil & gas and mining are creating niche demand.

Asia Pacific retains global dominance, but North America and Europe are advancing in innovation, safety, and system integration. LAMEA offers steady but uneven opportunities tied to public and infrastructure spending.

 

Scope Notes:

While the market historically revolved around smartphones, the landscape is evolving. Today, capacitive controllers are embedded in multi-surface displays, bendable/flexible screens, and integrated sensor arrays for gesture and proximity sensing. Vendors are now offering modular touch controller kits with firmware customization, EMI tuning, and multi-surface calibration — allowing customers to tailor performance across product lines.

The 2024–2030 forecast tracks this market across product type, screen size, industry vertical, and region, with granular revenue projections and trend-based CAGR tracking.

 

Market Trends And Innovation Landscape

The innovation pipeline for multipoint capacitive touch controllers is moving far beyond the standard “touch-to-trigger” function. Over the past three years, this market has become a testbed for gesture-based control, AI-assisted touch prediction, ultra-low power sensing, and flexible circuit integration. What's driving this shift? OEMs are demanding more than touch—they want interfaces that feel intelligent, seamless, and context-aware.

AI-Based Touch Intelligence

One of the most disruptive developments in this space is the integration of AI and machine learning algorithms into the controller’s firmware. These models help predict user behavior and reject unintended touches—especially in wet conditions or edge-zone activation zones.

A lead engineer at a Korean automotive supplier noted that "AI-based controllers reduce false triggers in vibrating environments, like vehicles, by nearly 40% compared to legacy systems."

Vendors are experimenting with on-chip AI co-processors to enable adaptive sensing, which dynamically adjusts sensitivity based on environmental variables like humidity, pressure, and electrical noise.

 

Flexible and Curved Display Compatibility

As foldables, wearables, and curved displays become more mainstream, controller designs are being re-engineered to bend, stretch, and adapt to non-linear geometries. This includes:

• Flexible PCB-based controllers for foldable phones and tablets

• Ultra-thin chip-on-flex assemblies integrated into OLED panels

• Multi-zone controllers designed for curved automotive dashboards

These developments are enabling touch interfaces on surfaces previously considered unusable, like vehicle A-pillars, mirror displays, and smart door panels.

 

Touch + Haptics Fusion

Another trend gaining traction is the tight coupling of touch sensing with haptic feedback systems. By integrating capacitive controllers with localized actuators, OEMs are simulating the tactile response of physical buttons on glass or plastic surfaces. This is especially valuable in automotive HMIs, where driver distraction must be minimized and physical confirmation is needed.

Companies are prototyping “force-aware capacitive touch” systems where the surface not only detects touch but also gauges applied pressure to trigger different command levels.

 

Moisture and Glove Tolerance Enhancements

Next-generation controllers are now optimized to function accurately in challenging conditions — wet fingers, gloves, or electrical interference. Improvements include:

• Advanced signal filtering algorithms

• Capacitive boost circuits for conductive gloves

• Auto-calibrating reference layers to isolate noise

This matters particularly in industrial, medical, and automotive use cases, where touch must work through surface contamination or protective barriers.

 

Modular and Firmware-Customizable Controllers

OEMs are demanding control — not just hardware. The trend now is toward modular touch controller platforms where customers can tune parameters via firmware: sensitivity curves, detection latency, gesture libraries, EMI profiles. This has become standard for Tier-1s designing infotainment systems or multi-screen dashboards.

Some controller vendors are launching SDKs for UI/UX teams, enabling tighter feedback loops between interface design and controller behavior .

 

Partnership-Driven Innovation

Much of this innovation isn’t happening in isolation. Touch IC vendors are teaming up with:

• OLED panel manufacturers for tighter vertical integration

• HMI design studios to test multi-modal feedback loops

• Automotive and medical device OEMs to co-develop ruggedized controllers

This co-innovation approach is shortening time to market for custom applications — especially for emerging platforms in EVs, AR/VR wearables, and connected medical devices.

 

In short, the capacitive touch controller market isn’t just evolving — it’s adapting to become context-aware, surface-agnostic, and experience-driven. The next wave won’t just register a touch. It will understand intention.

 

Competitive Intelligence And Benchmarking

The multipoint capacitive touch controller market is increasingly competitive — but not crowded. A handful of well-established players dominate volume shipments, while a new generation of niche specialists is pushing the innovation envelope in areas like AI integration, automotive-grade safety, and flexible form factors.

Let’s break down the strategies of key competitors shaping this market:

Synaptics

A longstanding leader in the consumer electronics touch controller space, Synaptics continues to dominate the smartphone, tablet, and laptop segments. Their focus has shifted toward AI- enhanced firmware, low-power architecture, and multi-touch accuracy under variable conditions.

In recent years, Synaptics has made inroads into automotive displays and smart home panels, with chipsets designed to operate under wider temperature ranges and support gesture + haptic fusion.

Their edge lies in vertically integrated software–hardware control and longstanding OEM relationships, especially in Asia.

 

Microchip Technology

Microchip has built a strong foothold in industrial, automotive, and medical devices, with a particular emphasis on robustness and configurability. Their controllers are known for functioning accurately in electrically noisy environments — a critical need in factory-floor equipment and in-vehicle systems.

Their maXTouch family includes capacitive controllers optimized for glove use, water rejection, and multi-finger gestures. Microchip’s strategy focuses on reliability, configurability, and long product lifecycles — making them a favorite among Tier-1 automotive suppliers and medical device firms.

 

Infineon Technologies (Cypress Semiconductor)

After acquiring Cypress, Infineon has solidified its position in the capacitive sensing IC market. The TrueTouch and CapSense product lines are widely used in wearables, remote controls, and automotive center stacks.

Infineon is leveraging its deep portfolio of power-efficient microcontrollers and security chips to embed capacitive sensing in multifunction systems. Their approach to integration — capacitive + security + wireless — is especially relevant in connected IoT devices.

 

Goodix Technology

Headquartered in China, Goodix has rapidly become a major player in smartphones, tablets, and wearables. The company supplies touch ICs to major Chinese OEMs and is expanding into biometric integration — combining fingerprint sensors with capacitive interfaces.

Goodix’s competitive advantage lies in cost-efficient, high-volume production and the ability to integrate multiple sensing technologies into a single chip. While primarily focused on Asia, it’s starting to penetrate global OEM accounts.

 

Analog Devices (ADI)

While not a high-volume supplier in consumer devices, ADI plays a pivotal role in automotive, aerospace, and military HMIs, offering ultra-reliable touch solutions with EMI resilience and precision tuning.

They are investing heavily in haptic-capacitive integration and automotive-grade compliance, including ISO 26262 and AEC-Q100 certifications. ADI’s value proposition is clear: high-reliability, application-specific touch interfaces for mission-critical environments.

 

Elan Microelectronics

Often considered a quiet but consistent force, Elan supplies touch controllers for mid-tier consumer electronics, notebooks, and stylus-enabled displays. Their strength lies in pen + touch coordination and low-cost implementations for OEMs looking to balance performance with affordability.

Elan is targeting Chromebooks, budget tablets, and interactive signage systems, primarily in APAC markets.

 

Competitive Landscape Snapshot:

Company	Strengths	Primary Markets
Synaptics	AI firmware, premium UX	Consumer electronics, automotive
Microchip	Ruggedness, configurability	Automotive, industrial, medical
Infineon (Cypress)	IoT integration, security	Wearables, remote controls, automotive
Goodix	Cost-efficiency, volume	Smartphones, tablets (APAC)
Analog Devices	High-reliability, specialty HMI	Aerospace, automotive
Elan Microelectronics	Stylus support, mid-tier OEMs	Chromebooks, tablets

To be honest, this isn’t a volume game anymore. It’s about design wins — who can best embed capacitive sensing into increasingly complex, thinner, and multifunctional surfaces.

As end-user expectations shift from “touch-enabled” to “touch-intelligent,” the winners will be those who blend precision engineering with smart, adaptable software.

 

Regional Landscape And Adoption Outlook

Regional demand for multipoint capacitive touch controllers is shaped by a combination of manufacturing concentration, end-use application maturity, and regulatory pressure on HMI safety and reliability. While the technology itself is globally standardized, how and where it’s deployed varies sharply.

Asia Pacific

Asia Pacific dominates both the supply chain and consumption landscape for capacitive touch controllers. Countries like China, South Korea, Japan, and Taiwan host the bulk of the world’s display and touch IC manufacturing infrastructure.

Consumer electronics OEMs headquartered here — Samsung, Xiaomi, Oppo, Huawei, Sony — drive massive demand for high-precision, low-latency multipoint controllers. But that’s not all. The rise of electric vehicles in China and the expansion of smart factory infrastructure in Japan and South Korea are driving high-volume controller demand beyond mobile and tablet devices.

India is emerging as an assembly and design hub. With smartphone manufacturing ramping up and government incentives under “Make in India,” localized sourcing of mid-range touch ICs is gaining momentum.

Simply put, APAC sets the volume benchmark for the world. But it’s not just about cost anymore — it’s about innovation at scale.

 

North America

The North American market leads in high-performance, safety-critical, and customizable touch interfaces. Capacitive controllers are embedded across:

• Infotainment and center stack screens in EVs

• Smart home control panels

• Surgical and diagnostic imaging equipment

U.S.-based automotive giants like GM, Tesla, and Ford, and their Tier-1 suppliers, are partnering with chipmakers to develop ISO 26262-certified touch controllers that can function reliably with gloves, moisture, or in bumpy environments.

There’s also strong adoption in the medical technology corridor — from handheld diagnostic tools to interactive hospital displays. Regulatory bodies like the FDA are indirectly influencing design by prioritizing intuitive and safe interfaces in connected medical devices.

This region doesn’t dominate on volume — it dominates on complexity and integration.

 

Europe

Europe is a specialized market where in-cabin experiences, safety, and sustainability standards shape controller design. The continent’s automakers — BMW, Mercedes-Benz, Volkswagen — are early adopters of touch + haptic fusion and multi-modal displays.

There’s also rising demand for durable industrial HMIs in Germany’s smart manufacturing sector and healthcare-grade displays in Nordic countries. European regulators are pushing for eco-design compliance, forcing touch controller vendors to focus on power efficiency, recyclability, and EMI compliance.

Emerging players in Eastern Europe are also becoming customers — not just manufacturers — especially in contract manufacturing for tablets, POS devices, and interactive kiosks.

 

Latin America

The Latin American market remains price-sensitive , with touch controllers often imported and embedded in finished products rather than sourced locally. However, demand is growing in:

• Retail automation and POS systems

• Public sector deployments like kiosks and ATMs

• Entry-level infotainment systems in mid-tier vehicles

Brazil and Mexico lead regional adoption, with rising integration of capacitive controllers into government digitization programs and connected public infrastructure.

 

Middle East & Africa

MEA is still a nascent market for capacitive controller adoption, but several pockets are opening up:

• Smart city projects in the UAE and Saudi Arabia are embedding capacitive touch in signage, elevators, and public kiosks

• Medical diagnostics in South Africa and Nigeria are beginning to use touch-based interfaces in low-cost portable devices

• Industrial automation is picking up across mining and energy in North Africa

The lack of local fabrication is a constraint, but with rising imports of smart surfaces and smart appliances, capacitive controller demand is forecast to grow steadily.

 

Summary Snapshot

Region	Key Drivers	Outlook
Asia Pacific	Volume, OEM base, smartphone + EV growth	Market share leader; fastest growth
North America	Advanced HMI, medical, automotive UX	High-margin, design-led innovation
Europe	Automotive HMI, eco-compliance, industry UX	Specialized and premium adoption
Latin America	Retail tech, infotainment	Growing demand in urban hubs
MEA	Smart cities, healthcare, industrial HMI	Early adoption stage with niche growth

 

Bottom line? This market isn’t just global — it’s deeply regionalized. The same controller that drives a smartphone in Shenzhen may be running an in-vehicle display in Detroit, a medical monitor in Stockholm, or a mining panel in Johannesburg. Winning players will build not just for form factor, but for region-specific reliability, UX, and regulation.

 

End-User Dynamics and Use Case

The adoption of multipoint capacitive touch controllers varies widely depending on the end-use environment, performance expectations, and cost tolerance. While all end users are drawn to the technology’s core value — sleek, responsive, multi-finger input — the decision to invest often hinges on more subtle factors: environmental noise, glove or moisture requirements, UI responsiveness, or even aesthetic minimalism.

Let’s unpack how different end-user segments approach this technology — and why their priorities are diverging fast.

Consumer Electronics Manufacturers

This is the most mature segment and still the volume driver. Smartphone, tablet, and wearable OEMs demand thin, fast, power-efficient capacitive controllers with built-in firmware to support gestures, edge swipe, and multi-zone inputs.

What’s changed in recent years? These manufacturers now prioritize:

• Low latency for gaming and AR applications

• Support for foldable and curved displays

• Integrated biometric touch + gesture functions

Many are also integrating AI for palm rejection, input prediction, and contextual haptics — features that directly shape the UX.

 

Automotive OEMs and Tier-1 Suppliers

The auto industry is becoming a power user of touch interfaces, especially in the center stack, steering wheel, HVAC controls, and rear-seat entertainment systems.

Here, capacitive touch controllers must handle:

• Gloved input

• Moisture rejection

• Vibration compensation

• Extended temperature ranges

But more importantly, they must blend seamlessly into complex HMI ecosystems, working alongside voice, haptics, and physical controls.

A Tier-1 supplier for a European EV brand recently tested a pressure-sensitive capacitive panel that adapts to driving mode — becoming more or less sensitive depending on road conditions to minimize false touches. This would’ve been impossible with older touch systems.

 

Medical Device Manufacturers

Hospitals and medtech companies are turning to capacitive touch interfaces for cleanability, compact design, and intuitive UX. Applications range from:

• Patient monitoring devices

• Surgical consoles

• Diagnostic imaging systems

Controllers here must be resistant to disinfectants, glove usage, and EMI from nearby electronics. Many firms are also adopting touch-enabled glass surfaces for easy sanitation in sterile environments.

Reliability is non-negotiable in this segment, and vendors that offer validated firmware stacks and regulatory support gain a strong edge.

 

Industrial Automation and HMI Developers

Factories and plants are increasingly adopting panel-based HMIs that rely on capacitive controllers for control logic, machine monitoring, and alerts. In these environments, the main concerns include:

• Noise immunity

• Harsh weather conditions

• Gloved use and water resistance

• Fast UI responsiveness under load

More integrators are moving from resistive to capacitive not just for touch quality — but to embed context-aware workflows into a single interface.

 

Retail & Public Infrastructure Deployers

This includes everything from interactive kiosks to POS terminals, digital signage, and self-checkout machines. The appeal of capacitive controllers here is durability and aesthetics — flush designs, no moving parts, and quick inputs.

Retailers are now also experimenting with multi-user interaction zones, where two or more people can interact with a screen simultaneously — a capability only multipoint capacitive controllers can handle well.

 

Use Case Spotlight: Automotive Touch UX Redesign

An electric vehicle startup in California wanted to eliminate every physical button on its dashboard — replacing it with a unified, curved touchscreen that controlled everything from navigation to climate to in-seat massage.

They partnered with a controller vendor offering automotive-grade multipoint capacitive ICs with AI-based gesture prediction and haptic feedback triggers. The display included:

• Zone-based sensitivity (higher for critical functions)

• Glove-compatible inputs

• Wet finger rejection

After deployment, the company saw a 20% reduction in driver distraction events (measured via eye-tracking analytics) and cut dashboard wiring complexity by nearly 35%.

It wasn’t just about removing buttons. It was about building trust in a digital interface — one touch at a time.

 

Bottom line? Different end users need different flavors of touch control — rugged, responsive, intuitive, or invisible. But across the board, confidence and context are what drive adoption. Not just whether it works, but whether it works when it matters most.

 

Recent Developments + Opportunities & Restraints

Recent Developments (Last 2 Years)

• Microchip Technology launched its MXT2952TD series in 2024 — a capacitive touch controller line optimized for automotive displays up to 20 inches, featuring enhanced glove and moisture support.

• In 2023, Synaptics released an AI-powered touch firmware update enabling adaptive sensitivity and input prediction for tablets and AR/VR headsets.

• Goodix began shipping integrated touch + fingerprint ICs for ultra-slim foldable phones, designed to function on flexible OLED surfaces.

• Infineon Technologies (via Cypress) announced its CapSense+ platform in 2024, merging capacitive touch sensing with secure element integration for IoT and medical devices.

• Analog Devices partnered with a European Tier-1 supplier in late 2023 to co-develop ISO 26262-compliant capacitive controllers for digital cockpits in electric vehicles.

 

Opportunities

• Automotive HMI Expansion:
  Rising demand for fully touch-based dashboards and climate controls in EVs is creating long-term growth for automotive-grade capacitive solutions.

• Flexible Displays and Wearables:
  The shift toward bendable, curved, and non-planar screens in consumer tech opens up demand for controllers that can adapt to surface deformation and micro-gesture input.

• Touch + Haptics Integration:
  OEMs are investing in touch interfaces that simulate tactile buttons via localized feedback, opening opportunities for capacitive vendors to bundle haptic-ready controller ICs.

 

Restraints

• Design Complexity for Multi-Surface Applications:
  As devices evolve into multi-screen or curved formats, the complexity of integrating capacitive controllers increases significantly — requiring extensive calibration and custom tuning.

• Price Pressure from Asian OEMs:
  Low-cost controller suppliers in China are pushing down average selling prices, putting margin pressure on premium vendors targeting mid-tier devices.

 

7.1. Report Coverage Table

Report Attribute	Details
Forecast Period	2024 – 2030
Market Size Value in 2024	USD 4.8 Billion
Revenue Forecast in 2030	USD 7.7 Billion
Overall Growth Rate	CAGR of 8.1% (2024 – 2030)
Base Year for Estimation	2024
Historical Data	2019 – 2023
Unit	USD Million, CAGR (2024 – 2030)
Segmentation	By Product Type, By Screen Size, By End User, By Geography
By Product Type	Self-Capacitive Controllers, Mutual-Capacitive Controllers
By Screen Size	Small Screens (<7 inches), Medium Screens (7–16 inches), Large Screens (>16 inches)
By End User	Consumer Electronics, Automotive, Industrial Automation, Medical Devices, Retail & Public Infrastructure
By Region	North America, Europe, Asia-Pacific, Latin America, Middle East & Africa
Country Scope	U.S., China, Germany, Japan, India, South Korea, Brazil, UAE
Market Drivers	- Automotive UX transformation - Rising demand for foldable and flexible displays - Growth in touch-enabled industrial and medical devices
Customization Option	Available upon request