ADVANTAGE

CORE ADVANTAGES

R&D TO MANUFACTURING

Cross-domain R&D and Manufacturing

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Consultative Requirement Definition and Analysis
For high-barrier industries such as medical, automotive, and defense, we provide in-depth technical consulting services. Starting from real-world application scenarios, we help customers precisely define product specifications and requirements.
Consultative Requirement Definition and Analysis
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International Standards and Reliability Verification
For stringent industry requirements, we provide ruggedized design, stability testing, and environmental condition simulation to help products efficiently comply with global safety and regulatory certifications for market access.
International Standards and Reliability Verification
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Comprehensive Optoelectromechanical and Software Integration
Integrating photonic display, mechanical structures, electromechanical systems, and software development, we eliminate technical barriers between modules and deliver system-level solutions with consistent performance.
Comprehensive Optoelectromechanical and Software Integration
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Early Adoption of Design for Manufacturability (DFM)
At the early stage of product development, manufacturability and cost optimization are considered simultaneously. Through DFM analysis, potential manufacturing risks are identified and mitigated in advance, helping to shorten the transition period from R&D to mass production.
Early Adoption of Design for Manufacturability (DFM)
MODULE
01
Comprehensive Optoelectromechanical and Software Integration
Integrating photonic display, mechanical structures, electromechanical systems, and software development, we eliminate technical barriers between modules and deliver system-level solutions with consistent performance.
Comprehensive Optoelectromechanical and Software Integration
MODULE
02
Consultative Requirement Definition and Analysis
For high-barrier industries such as medical, automotive, and defense, we provide in-depth technical consulting services. Starting from real-world application scenarios, we help customers precisely define product specifications and requirements.
Consultative Requirement Definition and Analysis
MODULE
03
Early Adoption of Design for Manufacturability (DFM)
At the early stage of product development, manufacturability and cost optimization are considered simultaneously. Through DFM analysis, potential manufacturing risks are identified and mitigated in advance, helping to shorten the transition period from R&D to mass production.
Early Adoption of Design for Manufacturability (DFM)
MODULE
04
International Standards and Reliability Verification
For stringent industry requirements, we provide ruggedized design, stability testing, and environmental condition simulation to help products efficiently comply with global safety and regulatory certifications for market access.
International Standards and Reliability Verification
SERVICES

One-stop OEM services

Global Multi-site Presence
Global Multi-site Presence
With a strong presence in Taiwan, China, and Vietnam, we provide diversified manufacturing options. This enables effective tariff risk mitigation, optimized logistics structures, and significantly enhanced supply chain resilience.
First-Tier Brand-Level Quality System
First-Tier Brand-Level Quality System
With 30 years of OEM heritage serving world-leading brands, all our sites are ISO-certified and operate under standardized management systems and automated production equipment, ensuring consistent production yield and quality across mass production.
Highly Flexible and Agile Production Scheduling
Highly Flexible and Agile Production Scheduling
We are capable of supporting both High Mix Low Volume (HMLV) customized production and large-scale mass production. With rapid responsiveness to Engineering Change Notifications (ECN), we ensure production capacity alignment across all stages of the product lifecycle.
One-Stop OEM Services
One-Stop OEM Services
We integrate mold development, precision machining, product assembly, and testing into a seamless in-house manufacturing process. End-to-end production is carried out entirely within our facilities to ensure transparent project timelines while strictly protecting core intellectual property (IP).
ADVANTAGES

LumiBond® 2.0 Technology

The revolutionary LumiBond® 2.0 technology by Atemitech enhances rugged touch screen functionality in various ways through unique design and engineering.
The advantages of LumiBond® 2.0 technology include:
  • Sunlight readability
  • Dual mode for glove and wet operation
  • Improved ruggedness and moisture resistance
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Sunlight Readability
High Brightness Visibility
LumiBond® 2.0 delivers outstanding image quality with high brightness, high contrast, and rich color saturation. This performance is built on two key design innovations. The first is a proprietary low-power, high-brightness backlight module technology that enables FHD LCD panels to reach up to 1,600 nits, significantly enhancing readability under direct sunlight. The second is the elimination of the air gap between display layers, which minimizes internal reflections of backlight-generated images (visual interference). This allows more internally generated light to be emitted while reducing external light interference, resulting in enhanced visual performance and a wider viewing angle. At the core of sunlight-readable display technology is the control of the luminance-to-reflection ratio. To achieve acceptable readability, this ratio must be maintained at a minimum of 2.5:1.
Sunlight Readability
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Rugged Dual-Input Support
Dual-Mode Operation: Glove Touch & Rain Rejection
Water is inherently conductive. In low-temperature environments, moisture in the air condenses on cold glass surfaces, and due to water's conductive properties, the touchscreen may register false inputs as if touched by a fingertip. LumiBond® 2.0 addresses this with two approaches. First, it adjusts the screen's touch sensitivity in wet conditions to reduce the likelihood of false triggers. Technically, this is achieved by switching from mutual capacitance mode to self-capacitance mode to control touch sensitivity. Conversely, the same mode switch can also increase touch sensitivity, enabling users to operate the screen even while wearing gloves. Second, by minimizing internal gaps within the display, the screen glass is kept warmer, limiting cold air ingress into the display while allowing heat generated inside the device to transfer more effectively to the touchscreen surface — ensuring reliable touchscreen operation.
Rugged Dual-Input Support
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KEY ADVANTAGE
Enhanced Ruggedness and Moisture Resistance
LumiBond® 2.0 bonds the touchscreen and LCD layers together using optical-grade transparent resin, functionally creating a single-glass construction that eliminates the air gap. This design provides a range of benefits. It prevents condensation between the display panel and touch module, while reinforcing the structural integrity of the LCD and touch module assembly — enabling the panel to withstand greater impact, vibration, and drop forces. The display is also capable of operating across extreme temperatures from -30°C to 50°C and beyond.
KEY ADVANTAGE
01
/
Sunlight Readability
High Brightness Visibility
LumiBond® 2.0 delivers outstanding image quality with high brightness, high contrast, and rich color saturation. This performance is built on two key design innovations. The first is a proprietary low-power, high-brightness backlight module technology that enables FHD LCD panels to reach up to 1,600 nits, significantly enhancing readability under direct sunlight. The second is the elimination of the air gap between display layers, which minimizes internal reflections of backlight-generated images (visual interference). This allows more internally generated light to be emitted while reducing external light interference, resulting in enhanced visual performance and a wider viewing angle. At the core of sunlight-readable display technology is the control of the luminance-to-reflection ratio. To achieve acceptable readability, this ratio must be maintained at a minimum of 2.5:1.
Sunlight Readability
02
/
Rugged Dual-Input Support
Dual-Mode Operation: Glove Touch & Rain Rejection
Water is inherently conductive. In low-temperature environments, moisture in the air condenses on cold glass surfaces, and due to water's conductive properties, the touchscreen may register false inputs as if touched by a fingertip. LumiBond® 2.0 addresses this with two approaches. First, it adjusts the screen's touch sensitivity in wet conditions to reduce the likelihood of false triggers. Technically, this is achieved by switching from mutual capacitance mode to self-capacitance mode to control touch sensitivity. Conversely, the same mode switch can also increase touch sensitivity, enabling users to operate the screen even while wearing gloves. Second, by minimizing internal gaps within the display, the screen glass is kept warmer, limiting cold air ingress into the display while allowing heat generated inside the device to transfer more effectively to the touchscreen surface — ensuring reliable touchscreen operation.
Rugged Dual-Input Support
03
/
KEY ADVANTAGE
Enhanced Ruggedness and Moisture Resistance
LumiBond® 2.0 bonds the touchscreen and LCD layers together using optical-grade transparent resin, functionally creating a single-glass construction that eliminates the air gap. This design provides a range of benefits. It prevents condensation between the display panel and touch module, while reinforcing the structural integrity of the LCD and touch module assembly — enabling the panel to withstand greater impact, vibration, and drop forces. The display is also capable of operating across extreme temperatures from -30°C to 50°C and beyond.
KEY ADVANTAGE
TOUCH TECHNOLOGY
Touch Technology
Ultrasonic Adhesive Technology
Saltwater Resistance Technology
Glove Touch Technology
Haptic Feedback Technology
Hover Touch Technology
Electromagnetic Interference (EMI) Immunity Technology
Ultrasonic Adhesive Technology
Ultrasonic gel is a commonly used medical material. To prevent gel contact from causing electrical coupling and false touch behavior on medical touch display systems, anti-gel PCAP (projected capacitive) displays are adopted to reduce or even eliminate the effects of electrical coupling.
Saltwater Resistance Technology
In medical environments, physiological saline or bodily fluids are frequently splashed onto equipment. Anti-saltwater PCAP (projected capacitive) touch displays are designed for easy cleaning and high sealing performance, effectively preventing false touch events caused by saltwater contact. As a result, they are widely adopted in medical and maritime applications. When saltwater accumulates and comes into contact with sensing electrodes, electrical coupling effects may occur, creating signals similar to those generated by a finger touch on the controller, which can lead to unintended touch activation.
Glove Touch Technology
Medical personnel often need to wear medical gloves during clinical operations, and glove use can further enhance touch interaction with capacitive touch displays. Atemitech’s capacitive touch controllers utilize a proprietary algorithm that enables accurate detection of touch inputs through latex gloves, cotton gloves, or work gloves, ensuring smooth and reliable touch operation in all conditions.
Haptic Feedback Technology
Haptic technology enables information to be transmitted from the fingertips to the display in the form of vibrations, texture rendering, simulated clicks, pulses, and haptic feedback. It reproduces the sense of touch, force detection, and tactile stimulation, delivering a truly immersive experience for users interacting with touch screen interfaces.
Hover Touch Technology
Hover touch technology enables interaction not only through direct finger touch on the touchscreen, but also through non-conductive materials such as fabric gloves. The system can detect input while the finger remains approximately 15–20 mm above the display surface, helping reduce the risk of contamination during pandemics and high-hygiene environments.
Electromagnetic Interference (EMI) Immunity Technology
Human-machine interfaces (HMIs) are widely used in hospitals, factories, and mission-critical control systems and equipment. Atemitech’s EMI immunity touch panel technology ensures safer operation of HMI devices in electromagnetic interference environments, effectively preventing false touch events caused by EMI.
Antibacterial Technology
Explosion-Proof Technology
Shatter-Resistant Technology
DISPLAY ENHANCEMENT

Display Enhancement Technology

Antibacterial Technology
01
Antibacterial Technology

In public places such as airports, train stations, exhibition halls, or restaurants, touch screens used must have antibacterial functions due to the large number of users. This ensures user safety and prevents the spread of diseases. To achieve antibacterial effects, the screens can be made with silver ion antibacterial reinforced glass or have an antibacterial coating applied on the surface.

Explosion-Proof Technology
02
Explosion-Proof Technology

Touch screens applied in special areas such as gas stations, fueling stations, paint zones, dust operation areas, or mining areas must adopt explosion-proof designs. This is because the products are used in environments exposed to explosives or flammable materials and require well-sealed designs to resist corrosive liquids, high vibrations, EMI, and RFI impacts, ensuring safer use for users.

Shatter-Resistant Technology
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Shatter-Resistant Technology

Some application scenarios screens are particularly prone to impacts and collisions, such as during police pursuits of suspects or when engineers are conducting inspections and maintenance, where the risk of screen breakage from impacts is higher. Shatterproof technology can prevent glass from shattering and scattering when the screen breaks, ensuring user safety.

Tailored solutions for professional industries

Optimized according to project scale
Manufacturing

Manufacturing

Manufacturing

Healthcare Development

Healthcare Development

Medical & Healthcare

Defense and Military

Defense and Military

Defense & Military

Marine Applications

Marine Applications

Maritime Technology

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