flytech touch screen monitors in stock

All faytech touch screen monitors are truly industrial grade, with optically bonded touch panels and with minimum operational temperature ranges of -20°C to 70°C.

All faytech touchscreen monitors come with standard display input ports, USB touch output port, and DC power cable. All faytech touchscreen monitor solutions feature LCD displays with LED backlight units.

Technical specifications and drawings are available to download for all of our standard touchscreen monitor modules. Our touch screen monitor lineup is divided into three major categories:

Our touchscreen monitor solutions are perfect for indoor commercial and industrial applications such as point of sale, retail advertising/signage, office, and industrial machine interfaces.

The touchscreen monitor solutions. These touchscreen monitors are excellent alternative options to PCAP for POS systems, control panel interfaces in industrial facilities, kiosk input interfaces, machine interfaces, and in numerous other commercial and industrial applications.

Faytech’s 2 brightness LCDs along with PCAP touch panels. This touchscreen monitor lineup is ideal for outdoor and semi-outdoor applications such as outdoor advertising and information systems, restaurant menus, and outdoor industrial control systems.

Faytech recognizes that many customers need more than just a touchscreen monitor. We also offer a full lineup of industrial touch screen monitors, rugged touch monitors, portable touchscreen monitor along with integrated industrial computers with installed choice of OS. Just add software. If you’re looking to build a touch screen monitor.

Even though we offer a very comprehensive portfolio of touch monitor products, sometime special requirements require special products. If you have a custom need – maybe a specific touchscreen display picked out, a custom form factor, or something larger than our standard line supports, we may still be able to help.

A touch screen monitor is more than just a fad to replace a desktop computer, multi touch displays are changing the way people expect to interact with devices.

Additionally, touch screen monitors are very versatile. They can be used for a variety of purposes, such as customer check-in, product ordering, and employee time tracking.

Another reason why touchscreen monitors are becoming more popular in commercial and industrial settings is that they are very durable. A touch screen monitor can withstand a lot of wear and tear, which is ideal for businesses that have high traffic areas.

Overall, touch screen monitors are becoming more popular in commercial and industrial settings because they are user-friendly, versatile, and durable.

There are many benefits to using touch screen monitors for both customers and employees. First, a touch screen monitor is very user-friendly and easy to use.

This makes touchscreen monitor products with prestine image quality ideal for use in businesses where customers need to be able to quickly and easily navigate through menus or options.

Second, a touchscreen monitors are very durable and can withstand a lot of wear and tear. This makes a touchscreen display ideal for use in retail, governmental or commercial settings where they will be used frequently or in high traffic areas.

Finally, touchscreen monitors offer a great deal of flexibility and can be used in a variety of ways. For example, a touch screen monitor can be used for point-of-sale systems, self-service kiosks, or even as digital signage with optimal image quality.

There are several reasons for this trend of touch screen devices growing in popularity. Touchscreen monitors are interactive and engaging, making them ideal for businesses that want to encourage customer interaction.

A touch screen monitor is also easy to use, which makes them ideal for businesses that want to streamline employee workflow. In addition, touch screen displays are durable and can withstand heavy use, making them ideal for businesses that have high traffic areas.

There are many reasons why commercial and industrial businesses are starting to use touch screen monitors. They’re easy to use, they’re efficient, they have high image quality, and they offer a great user experience.

Touch screen monitors are easy to use because they don’t require any special training or knowledge to operate. They’re also very efficient because they can be used to process transactions quickly and accurately. And finally, they offer a great user experience because they’re interactive and user-friendly.

Many types of organizations are starting to use touch screen monitors for customers and employees because they are versatile and easy to use. A touch screen monitor can help businesses save time and money.

Touch screen monitors are becoming increasingly popular in the business world because they offer a number of advantages over a traditional desktop monitor or 1080p monitor.

A touch monitor with a led backlit display is very versatile and can be used for a variety of purposes, such as customer service, order taking, and inventory management. A touch screen monitor is also very easy to use because of their HD res inputs and tilt angle high screen resolution with image quality that reduces eye strain.

There’s no doubt that touchscreen monitor developments have come a long way in recent years. We’ve seen touchscreen monitor technology become thinner, lighter and more responsive, and now a touch screen monitor is an integral part of many people’s lives.

In light of recent developments in Meta and virtual reality developments, it’s clear that the future of touchscreen monitor technology is looking very exciting.

With Meta, users will be able to interact with their computer and touch screen monitor in a whole new way, and virtual reality will allow them to immerse themselves in their work like never before.

So, what does this all mean for the future of touchscreen monitors? Well, it’s safe to say that we can expect to experience some very exciting touch screen monitor developments in the years to come.

While there are many adaptations in the works regarding NFTs and other Web 3.0 related tech, you’ll want to follow faytech North America to stay up to date with where we take touchscreen monitor devices.

Touchscreen monitor technology has evolved over the years, and the future of touchscreen monitor projects is likely to be even more advanced as image quality technology continues to improve.

Touchscreen monitor technology has been around for decades, but it has only recently become widely used in consumer electronics. Now it is fairly common to see a touch screen monitor with a stylus pen, HD webcam for video conferencing, and convenient software for multi tasking.

The first multi touch screen devices were developed for use in industrial and military applications. These early touchscreens were bulky and expensive, and they were not well suited for use in consumer products.

Touchscreen monitor technology has come a long way in recent years, and the future looks even brighter. With the development of Meta and virtual reality, the potential for touchscreen monitors is even greater.

With these new touch screen monitor technologies, users will be able to interact with a touch screen monitor in ways that were not possible before. This will open up new possibilities for how we use touchscreen monitors in the future.

With the recent developments in meta and virtual reality, it’s difficult to say for sure. However, it’s safe to say that touchscreen technology will only become more advanced and widespread in the years to come.

faytech offers 2 major touch screen monitor technologies in its standard touch monitor catalogue – Projected capacitive (PCAP) touch and Resistive touch.

(PCAP) touch technology was invented in the 1980’s. Devices featuring projected capacitive touch screen monitor first started to appear in the late 1990’s, but none truly gained real popularity during that time. The first device to truly popularize PCAP technology was the iPhone in 2007. The proliferation of the smart phone over the next 5 years made PCAP the consumer touch technology.

Today, PCAP makes up over 97% of all display touch panels worldwide. This scale of adoption has pushed the cost of PCAP technology to be very close to that of 4-wire resistive touch, and much cheaper than other forms of resistive touch.

Nearly all consumer-facing touch screen devices and touch screen monitor devices (phones, laptops, tablets, casino games, automobiles, retail kiosks) have adopted the technology exclusively.

Non-consumer industrial touch screen applications also tend to prefer PCAP due to the strength afforded by its front glass surface and superior optical clarity.

PCAP touch screens are essentially a grid of transparent capacitors typically spaced 5-12mm apart throughout the touch surface. The technology works by detecting changes in the electric field at each capacitor ‘node’ when a conductive object touches the front surface of the device. The touch controller accepts reports of the capacitance at each node every few milliseconds – if any node has a capacitance past a programmed threshold, a touch is registered.

The conductive films do not need force or motion to function, so the front surface can be a strong glass (anywhere from 0.4mm to 6mm thick), or even plastic material. For this reason, PCAP touch devices are the most rugged of all current touch technologies, and do not have the ‘overuse failure’ mechanism of 4-wire resistive touch.

They are extremely popular, in part, due to the multi-touch and gesture controls (drag, flick, pinch) afforded by the technology that open up great interactivity options for end-use applications.

Since there are no moving parts in a PCAP touch, the layers are always optically bonded, which gives PCAP a better overall look than resistive, with significantly better contrast and higher brightness.

However, PCAP touch screens only function when touched by a conductive material, such as a finger or capacitive stylus. Some PCAP touch devices can have issues with liquid spills registering as touches, or heavy gloved fingers failing to trigger a touch (though current-gen industrial devices have mostly solved these problems). faytech industrial PCAP devices have been designed for, and tested with, heavy rain and thick glove environments.

Consumer electronics: Nearly all cell phones, tablets, and laptops use PCAP touch technology. Consumers are used to precise multi-touch gesture controls and not needing to put pressure on the screen to register a touch. Additionally, they are also used to the smooth surface and clean look provided by a front glass.

Gaming: Players at casinos using a touch screen prefer PCAP, since it is what they are generally used to on every other device they own. The front screen is protected by a thick front glass. Units can be protected from spills, and drink glasses on the touch surface won’t inadvertently activate the touch.

Advertising: Public-facing touch screens should be easily accessible by the public. People are used to having PCAP touch screens in their pockets at all times, and using PCAP here provides a consistency of experience. Thick glass surfaces can additionally protect the underlying display from damage.

Outdoor: Since resistive touch always needs to include an air gap, it is not generally good, optically speaking, for usage in high ambient light environments. Optically bonded PCAP units preserve display contrast in outdoor situations, allowing units with lower brightness (and lower power consumption) to still be visible.

Resistive touch technology was invented in 1970. The technology was popularized through the 1980’s and 90’s in applications such as credit card readers with signature pens, touch interfaces for office printers, and PDAs. While resistive touch is no-longer the most common (now only around 2% of total touch panel market), there are still applications where it is the best option.

Resistive touch screens function by having 2 ITO layers separated by air and spacers. When a force causes the 2 ITO layers to touch, a circuit is completed and the location of the touch is reported. Due to the nature of the technology, just about any object can be used to touch the screen (gloved hands, long fingernails, credit cards, pens).

Resistive touch technology is also great in scenarios where spills or dirt is expected to end up on the touch surface – unless the weight is enough to push the film against the underlying glass, touch functionality will remain. Since it requires some small amount of force for a touch to register, it is less likely than other technologies for a user to inadvertently register a touch on the screen.

However, resistive touch screens are less optically clear than competing technologies due to the 2 layers being separated by air, which increases reflectivity. Lower cost 4-wire resistive touch screens are typically prone to failure after around 200,000 touches, though more rugged 5-wire versions are available which alleviate this issue (faytech offers both).

Typically, the top layer of a resistive touch panel is a thin PET film with ITO rear coating, which limits how rugged these units can be made (though some smaller units can be made with a thin glass front surface). Resistive touch screens do very well with single point touch, but tend to suffer in applications where multi-point and gesture touch controls are required.

POS Systems: Retail employees like being able to use non-conductive objects to tap on-screen buttons – pens, credit cards, long fingernails. These will work with resistive touch screens, but not with capacitive touch. Card readers frequently also come with resistive touch panels for accepting customer signatures.

Cockpit Avionics: Resistive touch panels do not rely on an electric field outside the touch panel surface to operate. Since electromagnetic noise in the cockpit of a certified aircraft must be tightly controlled, resistive touch is still a common technology. Additionally, resistive screens require some small amount of force to register a touch, making pilot errors less likely during turbulent flight.

Gloved Touch: Many applications where thick gloves are worn by operators are still including resistive touch. While capacitive technology has come a long way in allowing heavy glove touch, resistive touch still provides a surety that all gloved touches will register.

What many suppliers view as an upgrade, faytech views as a standard. We believe strongly in the benefits of direct bonding and believe it should be included in all touch products – and so it is in all of our products.

Optically bonded products sold by faytech improve the contrast of the image on the screen. This gives the image on the screen, as well as the display system itself, a crisp, professional look. It is greatly beneficial in outdoor and semi-outdoor environments.

faytech optically bonded displays have a layer of clear silicone gel between the touch panel and LCD front glass. This layer blocks dirt, dust, and moisture from getting behind the glass. This ensures that your faytech display will be visible in the harshest environments.

Touch screen monitors were initially used in point-of-sale (POS) terminals, kiosk systems, ATM’s and on PDA’s. The ever-expanding popularity of smartphones using Android and iOS operating systems, tablets, GPS systems and gaming consoles are increasing the demand for touch screen technologies.

Early touchscreen displays could only sense a single point of input at a time and only a few of them were capable of detecting the strength of the pressure. This was changed with Apple’s ongoing commercialization of the multi-touch technology with iPhone and iPod touch.

Multi-touch touch screen technology allows the user to interact with the screen with fingers, instead of a stylus. The movement of fingers creates gestures, which are then sent to the software. The initial popularity of the iPhone, has brought touch technology to many smart phones and hand-held devices which paved the way for all-in-one computer systems.

Faytech North America, as a touch screen manufacturer has realized that many companies have upgraded their products, either by adding multi-touch support to the track-pad or by making their tablet PC’s interactable without using a stylus. Both wall mounted and table mounted options have few ergonomic problems. “gorilla arm” was a side effect, that has limited wall-mounted option as a mainstream.

Developers of touch systems, failed to notice, that humans are not designed to hold their arms extended for long periods of time while making small and precise motions.

Ever since their development in 1971, touchscreen monitors have been finding their way into more and more commercial applications. They come in any number of configurations, but in the end, they all function on the same principle and that is “see and touch”.

Fast food restaurants were one of the first businesses to implement these screens on a retail level but now more and more business are discovering the benefit of having them available at their point of sale locations.

The resistive touch screen type uses a normal glass panel, that is covered by a resistive and a conductive metallic layer and a protective layer (scratch resistant) on top of all this. When you make contact with the screen, the two metallic layers are joined and the change in electrical field is detected. The circuit on the display  then calculates the coordinates and transfer them to the screen software. The driver then transfers the information about the coordinates to the OS, in a form of events similar to mouse clicks and drags.

With the capacitive touch screen type, a layer storing electrical charge, is placed on the glass. When you make contact with the layer, a small amount of the electrical charge is transferred to you, decreasing the charge on the layer. Sensors, located at the corners of the screen, detect a change in electrical charge levels and transfer the information to the software to process.

The biggest advantage of capacitive type over resistive is that it has 90% light throughput. This gives the capacitive touch screen monitors a much clearer picture. Since this type of technology uses electric charge to detect an event, you must use a conductive input, such as a finger.

These are just the most commonly used touch screen types and we at faytech North America have our own unique touch solutions. There are many other touchscreen technologies out there, such as strain gauge configuration (from 1960’s) or relatively-modern optical imaging technology. And recently, new touchscreen monitor technologies have been developed such as sunlight readable monitors,rugged monitors and open frame touch screen monitors that can withstand extreme environments.

Touch screen displays are very easy to figure out and most people will learn how to interact with them very quickly. The learning curve is very short. A recently hired employee no longer has to go through lengthy training sessions and can be found effortlessly using an intuitive touch interface within a few hours.

The touch screen technology developed by faytech North America brings significant time savings to point of sale systems in any retail establishment. The touch solutions simplify most transactions. The employee – or the customer – interacts with the screen, reviewing the potential options and makes a selection.

Products that cannot be bar coded, like perishable items, for example, or things that are small or with irregular surfaces that would hinder barcoding can now be easily processed through a point of sale with a touch screen display.

The viability as an interaction tool for the retail establishment has been established for some time now and this is why more and more businesses everywhere are implementing touch screen technologies.

Another factor is that faytech North America touch screen displays have also become more affordable in recent years and they are a technology that isn’t going to become obsolete in this lifetime.

K730 series is a family of Panel PC comprised of freestanding, counter top, and wall mount solutions. It"s created in response to requests for different applications, such as food ordering, retail transactions, check-in / check-out, ticketing, and more. The multiple screen sizes can be chosen from 11.6" to 21.5", making it suitable for any space uses.

Manufacturer of industrial computing, display and RF products for OEM manufacturer, system integrator, consumer, commercial and automotive applications. Products include digital signage, displays, computers, monitors, 5G/LTE gateways, cameras, panels, boards and WiFi, storage and memory modules. Displays include LED, LCD, LCD stretch/bar, rail stretched and open frame. Embedded, rail mount, fanless and single-board computers are also available. Serves the automation, gaming, mining, medical and transportation industries.

Touchscreen technology is much older than many of us would normally presume, for it has been around long before the advent of smart phones, computers and game consoles to which we associate it with. Some historians might point out the origin of touch technology is related to the music industry, all the way back in 1948. Later, in 1965, the touch technology was put into application on screens with E.A. Johnson Touchscreen, in England’s Royal Radar Establishment.

This basic version was modified to be implemented later in the touchscreens of ATMs, customer-service kiosks, and other similar developments. However, the credit of developing the first widely-known and used touchscreen computer goes to the University of Illinois in 1972. An infrared touch panel was used by the students to answer questions. The multi-touch technology was introduced in 1982.

This concept was used in 1984 to control and operate computer graphics with fingers. Throughout the 80’s and 90’s, the technology continued to progress. Finally, in 2007, touchscreen technology in consumer devices was well-received with the Apple iPhone.

The inherent touch screen technology of the device determines the way in which the touch event is registered. The three types of touchscreen technology used mainly include:

Resistive: The thin metallic screen here is electrically conductive. They are resistive too, to outside factors like dust and water. The touch event initiates a change in the electrical current that is sent to the controller for processing.

Surface Acoustic Wave: Ultrasonic waves pass over the touch screen panel. On touching the panel, portion of the wave there is absorbed. This change in the ultrasonic wave localizes and registers the touch and the information is sent to the controller for processing.

Capacitive: Here the screen is coated with electrically charged materials. On touching, a small amount of charge is drawn to the point of contact. This charge is measured by the circuits located at the corners of the panel. The information is sent to the controller for processing.

There are numerous software applications that allow for touch interactions, ranging from digital art programs to data entry programs. Thanks to touch technology, you no longer require a separate tablet to sketch images or a keyboard or mouse to interact with an operating system or software application. You can input the data into the screen directly using a touch screen computer. This technology allows for writing notes on presentations using a systlus or even one’s fingers. It enables image adjustments with zoom in or out, drag and resize. Nearly everyone is an expert in using a touchscreen as most software and operating systems have made the process as intuitive as possible.

Touch technology is an integral part of our present. Undoubtedly, it is going to be part of our future too. Needless to say, touchscreen desktop computers have become a way of life. The verdict is whether it is business or personal, touchscreen desktop computers are of immense help.

At fayTech North America, we believe in progress. We are strongly committed to providing personalized services that suits each customer’s unique needs. We understand that organizations must keep up with the quickly evolving market and we offer the technological solutions to do so. We specialize in capacitive PCs, resistive PCs, industrial computers, embedded computers, computer kiosks and more. Contact us today to speak with our touchscreen PC specialists and we will help you determine the best solutions for your specific industry and needs.

Mauro Mercuri, Tactile Technologies Group Director, said: “We are pleased to announce that in our continuous drive for product range optimisation, we have, one can say, finally, partnered with ODM manufacturer Flytech Technology based in Taiwan. Long discussions and many product evaluations preceded this decision. We have now pinpointed the right strategy to start working together. Flytech is a well-known giant in the industry and the manufacturer behind many successful vendors and products deployed into the market globally.

“Our partnership covers both Tactile’s European and South African offices. All is set to introduce new products relevant to many strengths and skills found in our reseller base. We are excited to use Flytech’s enormous portfolio and create new opportunities and new revenue.”

In 2001, we at Tactile Technologies made our intentions clear when we opened our doors on proudly South African soil: we would be the touch-screen technology provider of choice to local businesses needing professional touch-screen hardware for whichever application. In the last six years, we successfully diversified into auto ID and payment technology. In 2018, we opened our European office in Belgium and in 2019, we established representation in Taiwan.

Representing a number of manufacturers, we have a 95% success rate of matching suitable products to client needs. We offer handheld devices, touch-screen monitors, tablets, bar code scanning engines and devices as well as payment terminals. Our products are used in a variety of markets such as retail, gaming, banking, hospitality, logistics, medical, government, industrial and others.