lcd touch screen technology manufacturer

Six Sigma capable, ISO 9001:2008 & ISO 14000 certified manufacturer of touchscreen displays including flat panel monitors. Types of flat panel monitors include DVI/RGB and hazardous location compatible. Flat panel monitors feature front USB interface, 256K or 16 million color display, analog resistive touch panel, serial/USB touch interfaces, on-screen-display menu for brightness & contrast control, & VESA standard wall mounts. Available with a 2-year warranty. Markets served include industrial, automotive, oil & gas, water/wastewater, semiconductors & agriculture. Modbus-IDA, OMAC & ODVA affiliated. Products are UL® listed, CSA® approved, and ATEX & CE certified. Products are RoHS compliant.

The world is rapidly becoming a more technologically advanced place, with various devices now being developed by touch screen manufacturers to make things easier. One of the most popular forms of such devices is the touch screen technology.

The technology utilized by touch screen displays enables users to interact with a device simply by touching it – meaning that it does not require manual inputs such as a mouse or keyboard. As a result, there has been a huge surge in the manufacturing of touch screen technology, with a variety of commercial and industrial applications now using this form of touch technology.

At faytech, we are shaping the future of touch screen technology manufacturing and we believe the future of commercial and industrial applications will use touch screen solutions. As original equipment manufacturers, we continue to innovate in the realm of projected capactive touch screen technology, resistive touch screens, and LCD display technology.

In order to manufacture touch screen technology, it is necessary to begin with the basics – understanding what the technology is and its advantages over traditional input methods.

To put it simply, touch screen technology works by utilizing capacitive sensing to detect when a user interacts with a device. This happens when the user touches the device and the capacitive sensing technology detects an electrical field.

This level of user-friendly interaction has been made possible thanks to advances in touch screen technology manufacturing. It is now easier than ever for companies to source parts for their touch screen devices, allowing them to quickly and efficiently produce high quality units for their customers. Companies can also customize their touch screens – with various sizes, shapes, colors and materials available depending on their needs.

The increasing popularity of touch screen technology has meant that more and more commercial and industrial applications are now beginning to use these solutions.

One example of public use of touch solutions is in retail stores – where customers can now use touch screens to browse products and quickly complete transactions without having to wait in line or speak with someone at the checkout counter.

Other applications range from medical equipment, medical devices, self-service kiosks, industrial machinery, vending machines and more – all of which can be improved through the use of touch screen technology.

It is clear that touch screen technology is becoming increasingly relevant in many different industries – creating a huge potential for companies looking to capitalize on its benefits. In the future, we can expect even more businesses and organizations to begin using touch screen solutions in order to make their processes simpler and more efficient.

With that in mind, it’s clear that those involved in touch screen technology manufacturing should continue to invest in developing their products, ensuring that they remain ahead of the curve in providing reliable solutions for commercial and industrial customers who are looking for an easy way to interact with their products or services.

Overall, it’s clear that touch screen technology manufacturing has come a long way over recent years – enabling easier interaction between users and their devices.

As a result, we can expect to see even more commercial and industrial applications making use of this form of technology over the coming years – transforming the way in which businesses operate and introducing new opportunities for companies within the industry.

If you are interested in adding touch screen solutions to your organization, but aren’t sure where to begin, we would be happy to answer and questions you might have and guide you to the best solutions for your needs and bugdet.

AbraxSys explores the inustries utilizing industrial displays with touch screens and how these verticals bennefit from the various touch screen technologies.

Touch screens offer ease of use, speed, accuracy, and negate the need to become proficient with a handheld device. General Digital offers the option of equipping your LCD monitor with a variety of touch technologies, such as:

In 1977, we created the world’s first touch responsive industrial terminal, the VuePoint™. It didn’t have a true touch screen; rather, the VuePoint was equipped with a circuit board onto which infrared LEDs were mounted. The LEDs were arranged to form a 12 x 40 grid and when the screen was touched, the infrared beams were broken, indicating the touch location to the terminal. Thus, an operator could control a system right at the terminal.

As touch screen technology evolved (along with monitor technology), we incorporated various touch panels into our LCD monitors, starting with our SlimLine™ series of flip-up LCD monitors. Over time and based on demand, our Saber RackMount, PanelMount and Standalone Series became the next logical candidates for touch integration. This was due to increased use of flat panel technology in human-machine interface applications.

Featuring pure glass construction, Surface Acoustic Wave (SAW) touch screens will almost never physically “wear out” due to a superior scratch-resistant coating. Excellent light transmission ensures that the image clarity of the display remains sharp and vibrant. The stable, “drift-free” operation means that the touch response is always accurate. They work well with a finger, gloved hand or a soft stylus. And SAW touch screens have a sensitive touch response—they recognize the touch location and the amount of pressure applied.

Being an all-glass design, light transmission of surface capacitive touch screens is improved, when compared to resistive touch screens. This improves display viewability and reduces eye fatigue. Featuring a scratch-resistant top coat, durability in heavy-use environments is easily maintained. This type of touch screen is ideally suited for rugged, industrial or military applications.

Infrared touch technology doesn’t rely on an overlay or a substrate to register a touch, so it cannot physically “wear out,” thus ensuring a long product life cycle. Possessing superior optical performance and excellent gasket-sealing properties, an infrared touch screen is ideal for harsh industrial environments and outdoor kiosks. They work with a finger, gloved hand, stylus, and most any object wider than 1/10". They adjust to changing light conditions, even direct sunlight. And they benefit from stable, no-drift calibration performance.

Working in tandem, two optical sensors track the movement of an object close to the surface by detecting the interruption of the touch screen’s infrared light source, which is emitted in a plane across the display surface and can be either active (infrared LED) or passive (special reflective surfaces).

Optical touch screens use a controller board that receives signals from the optical sensors, then compensates for optical distortions and triangulates the position of the touching object with extreme accuracy.

The infrared light source and optical sensors of the touch screen are synchronized using a sophisticated algorithm that also reduces the effect of ambient light, thus creating a very clear, accurate touch selection.

Developed specifically for interactive digital signage applications, Dispersive Signal Technology determines a touch point by measuring the mechanical energy (bending waves) within a substrate created by the pressure of a finger or stylus. As these bending waves radiate away from the touch location, the signal spreads out over time due to the phenomena of dispersion. The “smeared” signals are then interpreted by a complex set of algorithms to precisely pinpoint the exact touch location on the screen.

DST is a passive technology, waiting for a signal created by a touch impact. Therefore, contaminants such as dirt, grease, and other solids can accumulate on the surface and edges of the display screen without significantly affecting touch responsiveness. In addition, surface damage, such as scratches, has no significant impact on touch performance.

The sophisticated and optimized controller that continuously monitors for a touch impact is the fastest and most responsive technology available for large format displays, offering greater than 99% touch location accuracy.

General Digital is an authorized DST integrator. Our engineers possess the expertise to seamlessly integrate DST technology into your large format monitor, ensuring a reliable interaction with the end-user.

Touch screens give the user control of a device through simple or multi-touch gestures. They enable the user to interact directly with what is displayed rather than using a mouse, trackpad, or other separate components.

Superior optics for use in high ambient light conditions and high accuracy are important characteristics of touch screens used in the medical industry. It is also important that these units are properly sealed to protect against ingress of water, saline, gels, cleaning solutions and other liquids the unit may be exposed to in the healthcare environment. Learn more about the benefits of DawarTouch solutions for the medical industry.

Excessive vibration and high temperatures are just a few of the extreme environmental conditions touch screens used in the military and aerospace industry experience. A ruggedized and durable product is a must in these industries alongside sunlight readability, low reflections and a robust seal to protect against dust, dirt, debris and liquids. Learn more about the benefits of DawarTouch solutions for the military and aerospace industry.

Touch screens used in Instrumentation and industrial type applications need to be reliable, accurate and highly responsive to touch with a bare finger, stylus or a thick work type glove. Durability and impact resistance is also an important feature as often times these applications are in factory or laboratory type environments and experience heavy use. Learn more about the benefits of DawarTouch solutions for the instrumentation/industrial industry.

In-vehicle control touch screens are used in numerous industries from emergency response vehicles to agricultural, construction and warehouse equipment. Many times these environments require a durable, impact resistant, lightweight or portable solution that can be used with finger, thick work glove or stylus. Durability and protection against shock and vibration is also an important feature for this industry. Learn more about the benefits of DawarTouch solutions for the in-vehicle controls industry.

Touch screens used in the POS/Kiosk market need to offer long life expectancy and high endurance for excessive public use. Sunlight readability, quick response and accuracy are other important features often required with these types of applications. Learn more about solutions for the POS/Kiosk industry.

Touch screens used in the marine environment often require custom tuning to eliminate false touch occurrences from contact with salt water. A cover lens, film enhancement or optical bonding process may also be required for improved sunlight readability in these outdoor applications. Learn more about solutions for the marine industry

We have thousands of standard products that are in stock and available from our Seattle, WA and Hong Kong warehouses to support fast product development and preproduction without MOQ. The stock covers TN, STN LCD display panels, COB, COG character LCD display, graphic LCD display, PMOLED, AMOLED display, TFT display, IPS display, high brightness and transflective, blanview sunlight readable display, super high contrast ratio display, lightning fast response displays, efficient low power consumption display, extreme temperature range display, HMI display, HDMI display, Raspberry Pi Display, Arduino display, embedded display, capacitive touch screen, LED backlight etc.  Customers can easily purchase samples directly from our website to avoid time delays with setting up accounts and credit terms and shipping within 24 hours.

Many of our customers require customized OEM display solutions.  With over two decades of experience, we apply our understanding of available display solutions to meet our customer’s requirements and assist from project concept to mass production. Using your ideas and requirements as a foundation, we work side by side with you to develop ideas/concepts into drawings, build prototypes and to final production seamlessly. In order to meet the fast changing world, we can provide the fastest turnaround in the industry, it takes only 3-4 weeks to produce LCD panels samples and 4-6 weeks for LCD display module, TFT LCD, IPS LCD display, and touch screen samples. The production time is only 4-5 weeks for LCD panels and 5-8 weeks for LCD display module, TFT LCD, IPS LCD display, and touch screen.

Apex Material Technology Corporation (AMT), Taiwan, since 1998, is a manufacturer of Touch Screen Display Solution. Main products, including open frame touch screen monitor, optical bonding service, solutions for touch screen display, projected capacitive touch screen and resistive touch screen. Touch screen products and solutions particularly for industrial, medical, outdoor, public commercial and transportation applications.

Certified (ISO, UL, REACH, and RoHS) resistive, projected capacitive (PCAP) touch screens and PenMount touch screen controllers meeting international standards. All touch screen products are supplied with flexible production quantity and long term support.

AMT has been offering customers high-quality resistive and projected capacitive (PCAP) touch screens, and PenMount touch screen controllers, both with advanced technology and 20 years of experience, AMT ensures each customer"s demands are met.

Touch displays enable the user to interact with a computer, control system or device without the use of a keyboard or mouse. We have a variety of HMI touch displays and touch screens compatible with HMI from Automation Direct for Human Machine Interface.A touch screen display can be found nearly everywhere. You interact with a touchscreen monitor constantly; they have become very commonplace in our daily lives. Cell phones, ATM’s,kiosks, ticket vending machines,manufacturing plantsand more all use touchscreen monitors. Read further to discover the 5 types of touch screens.

TRU-Vu Monitors offers a wide range of industrial touch screen display monitors, including  Sunlight Readable touch screens, panel mount touch monitors and Medical touch screens with P-Cap touch. We also offer Resistive touch, Capacitive touch, SAW touch,  and IR industrial touch panels, with USB and RS-232 interfaces. New models are HID Compliant, eliminating the need to load drivers. We provide the best heavy duty LCD touch screen panels for industrial use; all are TAA-Compliant.  Which one Is right for you?

The most important decision in choosing the best touch screen display for your application will be the type of touch technology screens to use. There are five major types of touch screens, each with its own advantages and disadvantages.  Some have multi touch capability. All are TAA-Compliant touch screens.

Our convenient touch screen comparison chart will provide a quick overview of advantages and disadvantages of each type. We offer over a dozen models of HMI touch displays.

Touch screens will obviously require cleaning and disinfecting due to the high number of contact and touch points. Special care must be taken not to damage the touch screen display face, especially for 5-wire resistive touchscreen monitors. Their surface can easily be permanently damaged by corrosive cleaning agents (bleach, ammonia, etc.) or abrasive materials (dirty cloths, steel wool). Please see ourmonitor cleaning guidelines, andmonitor COVID-disinfecting guidelinesfor more specific details. These guidelines will help ensure you keep your touch screens clean, and safely disinfected from germs or viruses.

A touchscreen monitor incorporates the function of the pointing device into the display, replacing both mouse and keyboard. Interaction with the computer takes place via a system which detects contact with the screen surface.

Resistive screens are differentiated by the number of wires they have. The five-wire system compensates for their fragility, making them more durable and less prone to scratches and cracks.

Capacitive models respond to the transfer of electrical charges when touched, and cannot be used while wearing a glove. They are very bright, but have a fragile surface coating. Projected capacitive versions take advantage of the proximity transfer effect. Their surface is protected by reinforced glass.

Infrared technology uses light detection, the screen responding even before it is touched. However, it offers limited resolution and is prone to accidental activation. The most common type is the surface acoustic wave (SAW) screen. It responds to a wide variety of touch techniques, some screens even taking into account the amount of pressure applied. It is very bright and has excellent resolution.

In addition to size and resolution, choice of touchscreen will depend on the conditions under which it will be used and the possible need for multi-touch capability.

Interactive touch screens have become such an integral part of everyday life that they’re almost as likely to be found in the playroom of a preschool-age child as on the factory floor or in the field. And as touch screens become increasingly integrated with consumer and industrial IoT, their demand continues to grow across every market sector.

At Pivot International, we are the global one-source partner helping companies worldwide successfully design, engineer, manufacture, distribute, and deploy the latest in consumer and industrial touch screen technologies and IoT innovations. With more than 50 years of experience, in-house DFM expertise that spans fourteen industries, and 320,000 square feet of tricontinental manufacturing capability (including domestic options), we deliver a smooth, seamless, highly collaborative approach to NPD and successful product launch.

There are five types of touch screen technologies: resistive, capacitative, near-field imaging, infrared, and ultrasound. Each is differentially suited for various consumer and industrial applications. Let’s take a look at each.

Resistive touch screens are the most common industrial touch screen technology. They are constructed of two interfacing glass sheets or specialized films that respond to direct pressure. Traditionally, the glass sheets or films used in this type of touch screen are coated with indium tin oxide (ITO), a transparent conductive material. But this material is increasingly being replaced with more advanced materials, including copper microwires, silver metal mesh, silver nanowires, and graphene.

The switch from ITO to these other materials results from the need to integrate touch functions into the LCD panel rather than manufacturing a transparent touch screen overlay. This makes for a thinner, lighter device with enhanced optical benefits. Because resistive touch screens respond to pressure, they are more reliably responsive to touch than the capacitative versions we’ll discuss below. However, resistive touch screens offer lower resolution image quality than their capacitative counterparts. They are also slower to respond to touch and can register only one pressure point at a time, therefore precluding multi-touch functionality.

Capacitive touch screens were first invented in the 1960s but didn’t appear in the consumer market until the advent of the iPhone. The strength of capacitative technology lies in its instant responsiveness and superior image quality. Capacitive touch screens function on electrical conductivity that alters the screen’s electrical field. Multi-touch functions (think “pinch-to-zoom”) are made possible by triangulating electrical alterations to calculate paired coordinates that “read” the touch location. Unlike resistive touch screens, capacitive touch screens are unresponsive to touch that does not emit an electrical charge. (Which is why it’s almost impossible to use an iPhone while wearing a glove.)

Some capacitive touch screens include a protective layer that protects the display from moisture, extreme temperature, impacts, and solvents, making it suitable for industrial and outdoor applications. For example, our teams at Pivot created a control system for dairy farms with IoT data reporting and touch screen technology that controls milk tank temperatures and wash cycles.

Like capacitative touch screens, near-field imaging touch screens read touch commands by measuring an electrostatic field. The difference is that NFI touch screens feature a corner-configured electrostatic charge, making them more responsive to touch from almost any source. (Even if you’re wearing a glove, NFI devices will instantly register and respond.) A primary advantage of NFI touch screens is that they can withstand extreme field conditions. This makes them a perfect fit for the industrial and security and defense applications that Pivot brings specialized experience in.

Infrared touch screens rely on a grid of LEDs and light-detector photocells placed at opposing positions. The LEDs beam an infrared matrix across the screen that, when “broken” by touch, provides the basis for the device to detect the input location. Infrared touch screens require dozens of components and precision manufacturing. Despite being more expensive to produce, they are often the ideal product solution for applications that include ticketing kiosks, ATMs, office automation, medtech, and even beverage dispensers like the one Pivot created with an integrated processor and customizable I/O system.

Ultrasound technology has enjoyed cross-industry applications for more than a century. But today’s surface acoustic wave touch screens are light years beyond their earlier incarnations and make it possible to make almost any surface responsive to touch. SAW touch screens work by projecting ultrasound waves across the surface of a screen. As the soundwaves are absorbed by whatever comes in contact with the surface, the screen’s controller chip can instantly identify, read, and accurately respond to commands.

Usually, touch screens and LCD displays are produced separately and glued together with air bonding technology. So, there will be an air gap between touch screen and LCD display.

Air bonding is a simpler manufacturing technology with a high yield rate. Double-sided adhesive fixes touch screen and display panel around perimeter. However, there is an air gap between display panel and touch screen, which makes the whole display thicker. Reflected light and dust in air gap make screens less clear, too.

Optical bonding on the other hand, is to glue touch panel onto LCD screen with optical adhesive. Full-fit technology eliminates the air gap between layers. Less reflected light means better display. However, Optical bonding is an expensive technology. Now only a small number of customers with special needs choose this type of touch screen. As more and more end-users demand better LCD display, optical LCD touch screen will become mainstream.

In-Cell refers to embedding touch panel function into liquid crystal pixels, that is, embedding touch sensor function inside LCD screen. Traditional touch panel is no longer necessary. In-cell is an innovation of loading circuits onto liquid crystal. This kind of LCD is much thinner with better readability in sunlight.

On-Cell means embedding touch screen between color filter substrate and polarizer, in other words, equipping sensor on LCD panel. Although manufacture of on-cell screens is easier than In-Cell, there are still thickness and color uneven problems.

OGS technology is to fit touch screen and protective glass together. Inside of protective glass is ITO conductive layer. Coating and lithography are done directly on the glass. This makes touch screen thinner and cheaper. However, protective glass is usually tempered first, then coated, etched, and finally cut. Cutting tempered glass is difficult with low yield rate. Capillary cracks on the edge will weaken the cut glass.

If you have any questions about touch screens, please consult us. Topway with more than 25 years of experience of LCD display, will give you a satisfactory solution.