Displays
TFT LCD displays
Thanks to our high level of vertical integration and our efficient supplier network, we can offer you the right supply chain solution for every project volume. Our portfolio ranges from classic front foils and membrane keypads to multi-touch display panels or plug&play-capable web panels. Contact us, we will be happy to support you in the realization of your Human Machine Interface (HMI) project.
Click on the respective icon at the top of the graphic to find out more about the individual component!
The joints or edges between two visible parts are particularly susceptible to the ingress of dirt, dust and external media. By potting these joint edges flush with the surface, the ingress of foreign bodies and substances can be effectively prevented. This not only ensures a clean and durable connection, but also enables a higher IP protection class to be achieved, which significantly increases resistance to environmental influences.
The anti-splinter film provides effective protection for glass front panels by preventing the glass from breaking and retaining dangerous splinters. This film not only increases safety, but can also significantly improve the shatter resistance of glass surfaces. In addition, it helps to reduce UV rays, which protects the interior from discoloration.
Glass fronts on HMIs offer a modern and user-friendly surface that is both aesthetically pleasing and functional. They provide a clear view of displays while protecting them from dust and dirt. They are also easy to clean and contribute to the longevity of the device.
Front or decorative foils for HMIs offer a flexible and cost-effective solution for the user interface of devices. They are lightweight and can be produced in different designs and colors to enhance the user experience. In addition, films are resistant to environmental influences, which increases their longevity and functionality.
LOCA Bonding (Liquid Optically Clear Adhesive) is an advanced technology that enables a virtually bubble-free bond between displays and protective glass. By using liquid adhesive, excellent light transmission is achieved, which significantly improves image quality. This method also provides additional protection against shocks and vibrations, increasing the longevity of the devices.
OCA Bonding (Optically Clear Adhesive Bonding) is a technique that enables touch sensors and glass or film surfaces to be seamlessly bonded together, resulting in optimum visibility. This method reduces glare and improves colour intensity by minimizing the distance between the sensor and the cover. OCA bonding also provides effective protection against bumps and scratches, which increases the durability of the devices.
Touch sensors are innovative input devices that enable intuitive and user-friendly interaction with digital displays. They respond to touch and gestures, which considerably simplifies and speeds up the operation of devices. With various technologies such as capacitive and resistive sensors, they offer versatile application possibilities in numerous industries.
LOCA Bonding (Liquid Optically Clear Adhesive) is an advanced technology that enables a virtually bubble-free bond between displays and protective glass. By using liquid adhesive, excellent light transmission is achieved, which significantly improves image quality. This method also provides additional protection against shocks and vibrations, increasing the longevity of the devices.
Air Gap Bonding is a bonding technique that creates an airtight connection between a display and a protective layer without the use of optical tape. This method reduces reflections and improves visibility by minimizing the gap between the two surfaces. It also allows for greater flexibility in the design, resulting in slimmer and lighter devices.
Displays are essential components of modern devices that present information visually and enable user-friendly interaction. They are used in a variety of technologies, such as LCD, OLED and LED, and offer different advantages in terms of image quality and energy efficiency. In addition, displays are available in various sizes and formats to meet the different requirements of applications.
Mechanical buttons are tried-and-tested operating elements that offer a precise and reliable user experience thanks to their tactile feedback. They are widely used in a variety of applications, e.g. in industrial control systems, and impress with their durability and robustness. Thanks to their individual design options, mechanical buttons can be optimally adapted to the specific requirements of the respective device.
The illumination of buttons and logos not only improves visibility in dark environments, but also gives devices an appealing aesthetic. By using LED technology, colors and brightness can be customized to create different user experiences. Illuminated buttons and logos also promote user-friendliness by making interaction more intuitive.
Capacitive buttons use the change in the electrical field to recognize touch, which enables responsive and user-friendly interaction. They offer a modern, elegant design as they are often flush-mounted and have no moving parts. This technology is particularly durable and resistant to wear and tear, which extends the life of the buttons.
Membrane processing for membrane keyboards includes various processes to optimize the functionality and aesthetics of the key surfaces. These include the cutting, printing and laminating of foils, which enable precise adaptation to the respective requirements. These processing techniques not only ensure improved haptics, but also a longer service life and durability of the keys.
Membrane keypads are a versatile and cost-effective solution for operating devices that are characterized by their flat design. They are made of flexible membrane materials that integrate both the keys and the underlying circuitry, which simplifies production. These keyboards offer high resistance to environmental influences, such as moisture and dust, and are therefore ideal for various applications.
Single board computers are central components in many electronic devices and serve as a platform for processing and controlling information. They integrate important functions such as processors, memory and interfaces to ensure efficient data processing. With their compact design, computer boards are ideal for applications in various industries, from automation technology to portable devices.
The assembly of printed circuit boards is an essential process in electronics production in which electronic components are precisely placed on a printed circuit board (PCB). Techniques such as automated SMD assembly enable fast and efficient placement, ensuring high accuracy and quality. These processes are crucial for the functionality and reliability of electronic devices in various applications.
Cables are indispensable components in electronics that ensure a reliable connection between different devices and systems. They are available in various designs and materials to meet different requirements in terms of current strength, data transmission and environmental conditions. High-quality cables make a decisive contribution to signal quality and the longevity of the entire installation.
Enclosures are crucial components in electronics that not only ensure the protection of internal components from external influences, but also influence the visual design of devices. They are available in various materials, such as metal or plastic, and can be individually designed to meet the specific requirements of a product. Enclosures also contribute to heat dissipation and electromagnetic shielding, which increases the performance and reliability of the devices.
Carrier plates are important elements in electronics that serve as a stable basis for the assembly of parts and components. They not only provide structural support, but also help with heat dissipation and electromagnetic shielding. With different materials and surface treatments, carrier plates can be adapted to specific requirements and environments.
Gap grouting
The joints or edges between two visible parts are particularly susceptible to the ingress of dirt, dust and external media. By potting these joint edges flush with the surface, the ingress of foreign bodies and substances can be effectively prevented. This not only ensures a clean and durable connection, but also enables a higher IP protection class to be achieved, which significantly increases resistance to environmental influences. Find out more about the advantages and possibilities of gap encapsulation.
Splinter protection film
The anti-splinter film provides effective protection for glass front panels by preventing the glass from breaking and retaining dangerous splinters. This film not only increases safety, but can also significantly improve the shatter resistance of glass surfaces. It also helps to reduce UV rays, which protects the interior from discoloration. More information on the benefits of anti-shatter film and its application.
Glass
Glass fronts on HMIs offer a modern and user-friendly surface that is both aesthetically pleasing and functional. They allow a clear view of displays while protecting them from dust and dirt. They are also easy to clean and contribute to the longevity of the device. Find out more about the possibilities and advantages of glass fronts for HMIs.
Front or decorative films
Front or decorative foils for HMIs offer a flexible and cost-effective solution for the user interface of devices. They are lightweight and can be produced in different designs and colors to enhance the user experience. In addition, films are resistant to environmental influences, which increases their longevity and functionality. More information about the advantages and applications of front or decorative films in HMIs.
LOCA Optical Bonding
LOCA Bonding (Liquid Optically Clear Adhesive) is an advanced technology that enables a virtually bubble-free bond between displays and protective glass. By using liquid adhesive, excellent light transmission is achieved, which significantly improves image quality. This method also provides additional protection against shocks and vibrations, increasing the longevity of the devices. Learn more about the benefits and applications of LOCA bonding.
OCA Bonding
OCA Bonding (Optically Clear Adhesive Bonding) is a technique that allows touch sensors and glass or film surfaces to be seamlessly bonded together, resulting in optimal visibility. This method reduces glare and improves colour intensity by minimizing the distance between the sensor and the cover. OCA bonding also provides effective protection against bumps and scratches, increasing the durability of the devices. Learn more about the benefits and applications of OCA Bonding.
Touch sensor
Touch sensors are innovative input devices that enable intuitive and user-friendly interaction with digital displays. They respond to touch and gestures, which considerably simplifies and speeds up the operation of devices. With various technologies such as capacitive and resistive sensors, they offer versatile application possibilities in numerous industries. Further information about the various touch solutions.
LOCA Optical Bonding
LOCA Bonding (Liquid Optically Clear Adhesive) is an advanced technology that enables a virtually bubble-free bond between displays and protective glass. By using liquid adhesive, excellent light transmission is achieved, which significantly improves image quality. This method also provides additional protection against shocks and vibrations, increasing the longevity of the devices. Learn more about the benefits and applications of LOCA bonding.
Air gap bonding
Air Gap Bonding is a bonding technique that creates an airtight connection between a display and a protective layer without the use of optical tape. This method reduces reflections and improves visibility by minimizing the gap between the two surfaces. It also allows for greater flexibility in the design, resulting in slimmer and lighter devices. More information about Air Gap Bonding and other touch solutions.
Display
Displays are essential components of modern devices that present information visually and enable user-friendly interaction. They are used in a variety of technologies, such as LCD, OLED and LED, and offer different advantages in terms of image quality and energy efficiency. In addition, displays are available in various sizes and formats to meet the different requirements of applications. Learn more about the different display solutions.
Mechanical buttons
Mechanical buttons are tried-and-tested operating elements that offer a precise and reliable user experience thanks to their tactile feedback. They are widely used in a variety of applications, e.g. in industrial control systems, and impress with their durability and robustness. Thanks to their individual design options, mechanical buttons can be optimally adapted to the specific requirements of the respective device. Further information about mechanical buttons and their applications.
Lighting Logo
The illumination of buttons and logos not only improves visibility in dark environments, but also gives devices an appealing aesthetic. By using LED technology, colors and brightness can be customized to create different user experiences. Illuminated buttons and logos also enhance usability by making interaction more intuitive. Find out more about the possibilities of illuminating buttons and logos.
Capacitive buttons
Capacitive buttons use the change in the electric field to detect touch, enabling responsive and user-friendly interaction. They offer a modern, elegant design as they are often flush-mounted and have no moving parts. This technology is particularly durable and resistant to wear and tear, which extends the life of the buttons. Find out more about capacitive buttons and their applications.
Membrane processing
Foil processing for membrane keyboards includes various processes to optimize the functionality and aesthetics of the key surfaces. These include the cutting, printing and laminating of foils, which enable precise adaptation to the respective requirements. These processing techniques not only ensure improved haptics, but also a longer service life and durability of the buttons. More information about foil processing and membrane keyboards.
Membrane keypads
Membrane keypads are a versatile and cost-effective solution for operating devices that are characterized by their flat design. They are made of flexible membrane materials that integrate both the keys and the underlying circuitry, which simplifies production. These keyboards offer high resistance to environmental influences such as moisture and dust and are therefore ideal for various applications. More information about membrane keyboards and their advantages.
Single Board Computer
Single board computers are central components in many electronic devices and serve as a platform for processing and controlling information. They integrate important functions such as processors, memory and interfaces to ensure efficient data processing. With their compact design, computer boards are ideal for applications in various industries, from automation technology to portable devices. Learn more about single board computers and their applications.
Fitting
Printed circuit board assembly is an essential electronics manufacturing process in which electronic components are precisely placed on a printed circuit board (PCB). Techniques such as automated SMD assembly enable fast and efficient placement, guaranteeing high accuracy and quality. These processes are crucial for the functionality and reliability of electronic devices in various applications. Learn more about PCB assembly.
Cables
Cables are indispensable components in electronics that ensure a reliable connection between different devices and systems. They are available in various designs and materials to meet different requirements in terms of current strength, data transmission and environmental conditions. High-quality cables make a decisive contribution to signal quality and the longevity of the entire installation. More information about cables and our comprehensive solutions.
Housing
Enclosures are crucial components in electronics that not only ensure the protection of internal components from external influences, but also influence the visual design of devices. They are available in various materials, such as metal or plastic, and can be customized to meet the specific requirements of a product. Enclosures also contribute to heat dissipation and electromagnetic shielding, which increases the performance and reliability of devices. Learn more about enclosures and our comprehensive solutions.
Carrier plates
Carrier plates are important elements in electronics that serve as a stable base for the assembly of parts and components. They not only provide structural support, but also help with heat dissipation and electromagnetic shielding. With different materials and surface treatments, carrier plates can be adapted to specific requirements and environments. Learn more about carrier plates and their applications.
Table of contents
TFT-LCD: Advantages and technology
TFT (Thin-Film Transistor) and LCD (Liquid Crystal Display) are closely related technologies, as TFT is a special type of LCD. An LCD display uses liquid crystals to modulate light and display images. These displays require a backlight, as the liquid crystals themselves do not produce their own light. TFT is a type of “active matrix” LCD in which each pixel is controlled by its own transistor. This allows for more precise control and faster response times compared to traditional “passive matrix” LCDs.
The main advantage of TFT LCD displays is their ability to deliver high image quality with fast response time and high resolution. They offer better color reproduction, higher contrast and wider viewing angle stability than other LCD technologies such as TN (Twisted Nematic). TFT displays are also more efficient as they allow more information to be displayed in a smaller area, making them ideal for smartphones, tablets and other portable devices.
In addition, TFT LCDs are inexpensive to manufacture and offer good performance with relatively low power consumption. The fast control of the individual pixels also makes them suitable for dynamic content and video displays. In modern applications, such as computer monitors, televisions and handheld devices, TFT-LCDs offer an excellent balance between image quality and energy efficiency, making them one of the preferred display technologies on the market.
Advantages of TFT-LCD displays
Areas of application for TFT-LCD displays
TFT LCD displays are used in a variety of areas. They are used in smartphones and tablets to display clear, high-resolution images and videos. In laptops and computer monitors, they ensure high image quality and fast response times. Televisions rely on TFT-LCD technology for razor-sharp images in a wide range of lighting conditions. In vehicles, they are integrated as dashboard displays or navigation systems. Digital signage uses TFT-LCDs for advertising boards and information displays in public areas. Cameras and photography equipment rely on these displays to provide precise image previews. In medical devices such as monitors and ultrasound equipment, the high resolution is required for accurate diagnoses. Smartwatches and wearables use TFT-LCDs for compact and energy-efficient image display. In industrial applications, TFT-LCDs control machines and processes through user interfaces. Finally, they can also be found in household appliances such as microwaves and refrigerators for display purposes.
Display LCD technologies
Display controllers and display controller boards
Display controllers are a key component in modern display technology, as they establish the connection between the display and the rest of the system and are therefore responsible for the smooth presentation of image information. These controllers make it possible to translate the signals coming from the main processor or graphics processor (GPU) into a form that the display can understand and display.
Important tasks of display controllers
Signal processing: Display controllers receive the image data from the processor or GPU and process it before it is passed on to the display. This can involve scaling, color adjustment or the conversion of formats (e.g. from RGB to YCbCr).
Control of the control unit: The controller controls how the individual pixels on the display are controlled. In TFT displays, for example, the controller enables precise control of the transistors that control the liquid crystals.
Timing and synchronization: A display controller ensures that the image data is sent to the display at the right time to produce a smooth and jitter-free image. This includes controlling the refresh rate and horizontal and vertical synchronization.
Adaptation to display types: Different display technologies, such as TFT-LCD, require different control protocols and adaptations. Display controllers must therefore be able to take these requirements into account and optimize the performance of the respective display.
Advantages of our display controllers
Why EP Electronic Print?
At EP Electronic Print, we rely on state-of-the-art components and technologies to develop innovative and customized HMI solutions.
Do you have any questions or would you like to find out more about our HMI solutions?
Our team will be happy to advise you and work with you to find the best solution for your project. Use our contact form or call us directly — we look forward to hearing from you!
Non-binding contact request
Am Weidegrund 8 & 10
82194 Gröbenzell Technische Anfragen:
Telefon: +49 (0)8142 /420896–20
E‑Mail: projekte@ep-electronicprint.de Allgemeine Anfragen:
Telefon: +49 (0)8142 /420896–0
E‑Mail: info@ep-electronicprint.de
