If you’re in the market for touch displays or any type of touch glass lens, you may come across the terms AG, AF, and AR. These terms refer to different types of coatings or treatments that can be applied to glass to improve its performance and durability. Here’s what you need to know about these treatments. What is AG (Anti-Glare) treatment?AG glass, also known as anti-glare glass is a type of glass that undergoes special processing on its surface. Its characteristic is to turn the original glass reflective surface into a matte, non-reflective surface (uneven surface). Its principle is to process double-sided or single-sided high-quality glass through special processing, making it have a lower reflection ratio compared to ordinary glass. The reflection rate of light is reduced from 8% to less than 1%, creating a clear and transparent visual effect using technology, allowing viewers to experience better sensory vision. AG anti-glare treatment types: etching AG treatment, spraying AG treatment, coating AG film treatment AG treatment Optical requirements:
Definition of AG Anti-glare Film: AG Anti-glare Film is an industry term for polarizing film surface treatment, which is a type of polarizing film surface treatment. By microscopically processing the surface of the polarizing film with fine concave and convex structures, it prevents direct light from entering the eyes, effectively reducing glare and reflection, and improving the touchscreen display effect of LCD (liquid crystal display). What is AF (anti-fingerprint )Treatment?Anti-fingerprint (AF) treatment is a coating that prevents fingerprints and oil stains from adhering easily and can be easily wiped off. It is commonly used on glass display screens for tablets, vehicles, televisions, LEDs, and more. The treatment is also scratch-resistant, has a thin film layer that does not change the original texture, and has excellent wear resistance. AF coating product features:
Application fields of AF coating products: Glass display screens for tablets, vehicles, televisions, LEDs, etc. AF Performance Parameter Test Water contact angle: >110° Oleic acid contact angle: >74° Glass cover plate water droplet angle test at 9 points, uniformity guaranteed with a deviation of around 2°; Friction resistance test: Test conditions: using 0000# steel wool, 1KG pressure, contact area 10mm10mm, friction speed 30 times/minute, friction stroke 40mm, friction times 3000 times; After friction, water contact angle >100°, water droplet angle decrease <3°; Dynamic friction coefficient: Test method: using BEMC0T dust-free cloth, area 10mm10mm, load 100G, wiping speed 500mm/min; Dynamic friction coefficient <0.04; What is AR (Anti-Reflective) treatmentAR film/treatment is also known as anti-reflection film or treatment.The main function is to reduce or eliminate the reflected light on the optical surface of lenses, prisms, flat mirrors, etc., thereby increasing the transmittance of these components; Anti-reflection film is the most widely used and highest production optical thin film, so it is still an important research topic in optical thin film technology; In many application fields, the anti-glare film is essential, otherwise, the application requirements cannot be met. Taking a 35mm automatic zoom camera composed of 18 lenses as an example, assuming that each interface between glass and air has a reflection of 4%, the light transmittance of the lens without anti-glare film is 27%, that with a film (remaining reflection is 1.3%) is 66%, and that with multiple layers of film (remaining reflection is 0.5%) is 85%. AR Coating Product Features:
Principle of AR film enhancementLight has both wave-particle duality, which means that from a microscopic perspective, it can be understood as both a wave and a high-speed moving particle. (Note that this shouldn’t be understood as a simple wave and a simple particle. They are both microscopic. The wavelength of red light is 0.750 micrometers, and the wavelength of purple light is 0.400 micrometers. The mass of a photon is 6.63E-34 kilograms. So they are far from the macroscopic waves and particles that we imagine.) The principle of AR film enhancement considers light as a wave, because light waves, like mechanical waves, also have interference properties. A layer of AR film (usually “calcium fluoride,” slightly soluble in water) is coated in front of the lens. If the thickness of the film is equal to one-quarter of the wavelength of red light (note: this is referring to red light), the red light reflected on both sides of the film will interfere with each other and cancel each other out. Therefore, you will not see any reflection in front of the lens because the red light has already passed through the lens. Why have I never seen a lens without reflection? The reason is simple: visible light has seven colors: red, orange, yellow, green, blue, indigo, and violet, and the thickness of the film is unique. Therefore, only one color of light can be taken care of to completely enter the lens. In most cases, all green light is allowed to enter. In this case, the color of the reflection you see in visible light is blue-purple, because there is no green light in the reflected light. The thickness of the film can also be determined according to the color characteristics of the lens. Classification of AR film for increased transmittance: AR film can be divided into single-layer anti-reflection film and multi-layer anti-reflection film. Single-layer anti-reflection film The simplest way to reduce surface reflection is to deposit a layer of low refractive index thin film on the substrate surface. The ideal conditions for a single-layer anti-reflection film are: ◆ The optical thickness of the film is 1/4 wavelength ◆ Its refractive index is the square root of the product of the refractive index of the incident medium and the substrate ◆ In the visible region, the most commonly used is crown glass with a refractive index of about 1.52. According to the above theoretical calculation, the ideal refractive index of the anti-reflection film is 1.23, but the lowest refractive index of the available films is 1.28 (MgF2). The two main defects of AR film are: ◆ It is difficult to achieve zero reflection for commonly used glass substrates ◆ It can only achieve single wavelength zero reflection and poor color neutrality. In summary, AG, AF, and AR glass treatments can significantly improve the performance and durability of your glass. Depending on your lifestyle and needs, you may benefit from one or more of these treatments. Talk to your eye care professional about which treatments are right for you. At Eagle Touch, we offer custom touchscreens and touch displays with AG, AR, and AF treatments. The post Introduction to AG, AF and AR Glass Treatments appeared first on EAGLE TOUCH. from https://eagle-touch.com/introduction-to-ag-af-and-ar-glass-treatments/
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What is an IK10 Touch Screen?An IK10 touchscreen is a type of touchscreen that is specifically designed for industrial applications with high-impact resistance requirements. It is based on the European standard that defines the resistance levels of objects against impact, according to the IEC 62262 standard. The standard rates the resistance of objects against impact from level 0 to 10, with level 10 being the highest shock resistance level. What is the impact resistance of IK10?The impact resistance of IK10 is compliant with the EN62262 standard. This standard defines 12 strength levels, ranging from the lowest category of IK00 to the highest category of IK10+. IK10 corresponds to an impact resistance of 20 joules, or a 5.0 kg impact element dropped from a height of 0.4 m. When designing or selecting an IK10 touchscreen, there are several important factors to consider:
Eagle Touch specializes in providing customized touchscreens with an IK10 rating, meeting specific application requirements, including size, shape, and functionality. These touchscreens are built to endure harsh environmental conditions, making them more durable than standard touchscreens. One of the key features of IK10 touchscreens is their high impact resistance. With an IK10 rating, they can withstand a significant amount of force without breaking, making them ideal for industrial settings where accidental damage and vandalism are common. At Eagle Touch, we understand that every industrial application is unique. That’s why we offer customized IK10 touchscreens tailored to meet the specific needs of our clients. Whether you need a touchscreen for a manufacturing plant, an oil and gas refinery, or an outdoor kiosk, our team of experts can help you find the right solution. The post IK 10 TOUCHSCREEN appeared first on EAGLE TOUCH. from https://eagle-touch.com/ik-10-touchscreen/ Introduction32-inch touchscreen monitors are versatile devices that can be used for a variety of purposes, from commercial operations to entertainment, interactive computing, and charging stations. They provide a larger display screen to improve work efficiency or provide a more immersive experience for gaming and media consumption. In addition, touchscreen technology enables more intuitive and interactive use of software and applications. Touch Screen Monitor 32 Inch is an excellent choice for those who need a larger display screen for work or entertainment purposes. In this blog post, we will discuss the main features, advantages, and styles of 32-inch touchscreen monitors, as well as some considerations when purchasing and how to customize a suitable 32-inch monitor according to your own application. Regular 32-Inch Touchscreen MonitorsRegular 32-inch touchscreen monitors typically have a high resolution of 1920*1080, a contrast ratio of 3000:1, and brightness ranging from 400 nits to 1500 nits or even more for indoor and outdoor use, to provide clear images and visual effects. They have usually installed with a capacitive touchscreen or an infrared touchscreen. If used outdoors, the touchscreen surface will generally be treated with anti-glare or some special industries will require an anti-fingerprint coating to reduce eye fatigue and smudges. In addition, the input ports of a 32-inch touchscreen display usually include VGA, DVI, and HDMI, and some also use DP interfaces to ensure that they can be connected to a variety of devices. Some 32-inch displays used for advertising applications may also require USB ports and speakers, which can be customized according to demand. The indoor working temperature of 32-inch monitors can reach 0-60 degrees Celsius, and the outdoor temperature can reach -20 to 70 degrees Celsius. 32-inch monitors support various installation methods, including VESA installation and embedded installation. Therefore, different display structures are designed according to different installation methods Pure flat Touchscreen DisplayA pure flat touchscreen display has a completely flat surface with no raised or recessed parts. This design makes the touch experience more natural and smoother, and easier to clean and maintain, suitable for VESA installation and embedded installation. Iron Shell DisplayAn iron shell display refers to a display with a shell made of iron material, which is normally installed with capacitive touch screens, or resistive touch screens. Compared with a flat panel touchscreen display, the cost will be lower, and it is suitable for VESA and embedded installation. Open Frame Touch DisplayAn open-frame touch monitor refers to a display without a front panel. This design is suitable for embedded cabinet installation, and usually, this type of display does not have dustproof and waterproof functions. The cabinet needs to be equipped with dustproof and waterproof functions. Outdoor DisplayAn outdoor display is a type of display with special functions and performance that can be used in outdoor environments. These displays are usually made of aluminum alloy shells, with high brightness and waterproof performance, so that they can be used under bright sunlight or on rainy days. Outdoor displays can also have characteristics such as anti-UV, anti-shock, and dustproof to enhance their service life and reliability in outdoor environments. In addition, outdoor displays have higher requirements for operating temperature, which generally need to reach -20 to 70 degrees Celsius, and some even need to reach -40 to 90 degrees Celsius. This type of display is usually used in advertising boards, signs, entertainment facilities, charging stations, and outdoor activities. It supports VESA and embedded installation. Among the above types of displays, the lowest cost is an open frame display, and the most expensive is an outdoor display. If you want to reduce costs, consider an embedded structure for an open-frame display. If you want a beautiful appearance, choose a flat panel display. There are many aspects that affect the price of a touchscreen display, and only when you understand your needs well can you find a display that is most suitable for you. How to Customize a Display monitor with Specific Needs?If you want to customize your own 32-inch touchscreen display or any other size as well, you need to consider the following: Before customizing the display, the most important thing is to understand the application environment of our 32-inch display. Is it used indoors or outdoors? Is the operating environment at a very high or low temperature? Does it need to be exposed to sunlight? Is the display exposed to the outside of any kiosk or roof? Does it need to be dustproof and waterproof? In addition, you need to know what the installation method is. Understanding these factors is helpful for us to choose the raw materials for the display and carry out the structural design. The above are some general introductions of 32-inch displays. EAGLE TOUCH mainly designs and produces touchscreen products and customizes display monitors according to customer requirements, and does not charge or only charges a small amount for custom mold fees. If you have any requirements related to touch displays, please feel free to contact us. The post All You Need to Know About Touch Screen Monitor 32 Inch appeared first on EAGLE TOUCH. from https://eagle-touch.com/all-you-need-to-know-about-touch-screen-monitor-32-inch/ Here are the top 20 most common questions and their answers about touchscreens:
A touchscreen is an input device that allows users to control electronic devices by touching icons, buttons, and other elements on the screen.
Touchscreens work based on either capacitance or resistance principles, detecting the position of a user’s finger or other objects to perform the corresponding action.
There are several types of touchscreens, including: – Resistive touchscreens – Capacitive touchscreens – Surface acoustic wave touchscreens – Infrared touchscreens – Optical imaging touchscreens Each type of touchscreen has its own set of advantages and disadvantages and is suited to different use cases and environments.
Advantages of touchscreens include ease of use and control, and improving user experience, while disadvantages include susceptibility to smudges and scratches that require special cleaning and maintenance.
The reliability of touchscreens generally depends on their manufacturing quality and usage environment. For instance, touchscreens used in harsh environments such as high temperatures or humidity may experience decreased reliability.
When it comes to touchscreens, it is important to keep them clean to ensure optimal performance. Touchscreens can be sensitive to oils from your fingers and other substances, which can interfere with their ability to function properly. To clean a touchscreen, use a soft cloth and a gentle cleaning solution, such as a mixture of water and vinegar or alcohol. Please refrain from using harsh chemicals or abrasive materials when cleaning the screen, as these may cause damage. Additionally, it is important to avoid pressing too hard on the screen or using sharp objects on it, as this can also cause damage.
There is no clear answer to this question, as it depends on a variety of factors such as the specific touchscreen technology being used, the level of exposure to the elements, and the intended use case. However, there are touchscreens specifically designed for outdoor use that are typically more rugged and weather-resistant than standard touchscreens. These outdoor touchscreens often feature brighter displays and anti-glare coatings to improve visibility in sunlight, and may also be designed to operate in extreme temperatures. Ultimately, whether or not a touchscreen is suitable for outdoor environments will depend on the specific requirements of the application and the environment in which it will be used.
Touchscreens may not be suitable for extreme temperature environments. High temperatures can cause screens to malfunction, while low temperatures can make them less responsive. However, some touchscreens are designed to withstand extreme temperatures and can be used in harsh environments.
The touchscreen is essentially a glass or film surface, with its maximum resolution being 4090*4096, which is determined by the LCD that it is paired with. A higher LCD resolution generally results in a better user experience because it can provide clearer images.
Resistive touchscreens can generally be used with gloves or a pen, as they rely on physical pressure to register input. pcap touchscreens can also recognize input from gloves or a pen. Capacitive touchscreens (pcap) use the electrical charge of your finger to detect touch, so any object that can conduct electricity, like gloves or a stylus, should work. However, not all gloves will work with pcap touchscreens. Gloves made of conductive materials, such as copper or silver, will work, but regular gloves made of fabric or leather may not.
Touchscreens can be suitable for multitouch, depending on the hardware and software used. Many modern touchscreens like PCAP touch screens are designed specifically to support multitouch gestures, such as pinch-to-zoom or two-finger scrolling. However, some older touchscreens like resistive touch may not be as responsive to multitouch input. Additionally, the software being used with the touchscreens must be designed to recognize and respond to multitouch commands in order for them to be effective.
PCAP touchscreens can add anti-reflective coatings to the glass surface to reduce glare and improve visibility in bright environments.
The selection of materials can have a significant impact on touchscreen performance. Materials that are too thick or too rigid can hinder the responsiveness of the screen, while materials that are too thin or too flexible can lead to durability issues. Additionally, the type of material used can affect the clarity and resolution of the display. Overall, the selection of materials must be carefully considered in order to achieve optimal touchscreen performance.
Touchscreens are increasingly being used in medical equipment, such as monitors and machines used for diagnostic imaging. However, there are some concerns about the potential for touchscreen devices to harbor bacteria and other pathogens in a healthcare setting. To address these concerns, manufacturers are developing touchscreens with antimicrobial coatings and easy-to-clean surfaces.
Touchscreens can be used in industrial control equipment, but they have some limitations. In particular, they can be less reliable in harsh environments where there is a lot of dust, moisture, or extreme temperatures. Additionally, some types of gloves may not work with touchscreens, which can be an issue in industrial settings where workers need to wear gloves for safety reasons. However, with proper design and testing, touchscreens can be a useful and effective input method for industrial control equipment.
In recent years, touchscreens have become increasingly popular in gaming and entertainment devices. Touchscreens offer a level of interactivity and control that is difficult to achieve with traditional buttons and joysticks. However, there are also some challenges associated with using touchscreens in gaming and entertainment devices. For example, touchscreens can be less accurate than physical buttons and may require more frequent cleaning to maintain their functionality.
The development of touchscreen technology has had a huge impact on the design of smartphones and tablets. As users interact with the devices through touchscreens, designers need to consider how to create user interfaces that are easy to use and intuitive. Buttons, menus, and other controls on touchscreen devices must be large enough for users to click on easily. Additionally, designers must consider how to maximize the display of information within the limited screen space. They may use scrolling, zooming, and other interactive elements to achieve this goal. In summary, the prevalence of touchscreen technology has led designers to rethink how to create user-friendly interfaces.
When it comes to touchscreens, response time is a critical factor in user experience. When a user taps or swipes on a touchscreen, they expect an immediate response from the device. If there is a noticeable delay between the user’s input and the device’s response, it can be frustrating and impact the user’s perception of the device’s overall performance. This is especially true for touchscreens that are used for gaming or other interactive applications, where even a slight delay can make a big difference. Touchscreen response time can be influenced by a number of factors, including the hardware and software used, as well as the complexity of the application running on the device..
Touchscreens can have waterproof and dustproof functions, but not all touchscreens do. Devices designed for outdoor use or industrial settings often have these features, but it’s important to check the specifications of a specific device to determine whether it has waterproofing and dust proofing capabilities.
Touchscreen pricing can have a significant impact on market penetration. In general, lower prices can help increase the adoption of touchscreen devices, as they become more accessible to a wider range of consumers. However, there is a balance to be struck between pricing and quality, as consumers are often willing to pay more for higher-quality screens and more advanced features. Additionally, pricing strategies can be influenced by a number of other factors, including competition, production costs, and overall market demand. The post Top 20 most Frequency asked Touchscreen questions and Answers appeared first on EAGLE TOUCH. from https://eagle-touch.com/top-20-most-frequency-asked-touchscreen-questions-and-answers/ Touchscreen monitors are increasingly popular in industrial settings due to their ease of use and ability to improve productivity. However, selecting the right touchscreen monitor for an industrial application can be a challenging task. In this article, we will provide technical details on key factors to consider when selecting a touchscreen monitor for an industrial application. EnvironmentThe environment where the touchscreen monitor will be used is the first factor to consider when selecting the right monitor. Industrial environments can be harsh, with extreme temperatures, vibrations, dust, or outdoor use. To ensure that the monitor will last and function properly in such an environment, it is important to select a monitor that is specifically designed for your application’s environment. This can help improve performance, prevent damage, and ensure longevity. The monitor should be able to read under sunlight, operate within the temperature range, withstand vibration and shock, and have a high level of protection, such as IP65 or higher. Size, Resolution, and BrightnessIn addition to the environment, the size, resolution, and brightness of a monitor are also important factors to consider. The monitor’s size should be appropriate for the application and available space. A monitor that is too big or too small could be difficult to use or may not fit in the intended space. The monitor’s resolution should be suitable for the application. For example, professional medical monitors have strict display demands, so it is better to choose a medical-specialized LCD. For industrial automation, 4:3 ratio LCDs are required. For some applications, a higher resolution, such as 1920×1080, may be necessary to improve display clarity and allow for more precise touch input. A high brightness level is also necessary for industrial settings, especially in outdoor or bright environments. Additionally, a wide viewing angle is preferred to provide a better user experience. Finally, the LED lifetime of the touch monitor should also be taken into consideration for industrial applications. Touch TechnologyThe choice of touch technology used in a monitor is an important consideration. There are four primary types of touch technology: resistive, capacitive, infrared, and saw touchscreen (outdated). Resistive touchscreens are no longer the cheapest option. In some cases, they are even more expensive than capacitive touchscreens, due to their better anti-jamming performance. Resistive touchscreens are the best choice for industrial applications in harsh environments. They support USB and RS232 touch interfaces. Capacitive touchscreens are more accurate, have a longer lifespan, and support up to 10-point multitouch functions. Capacitive touchscreens support I2C, USB, and RS232 interfaces. PCAP touchscreens can customize the cover glass for different shapes and can add icons, and logos on the glass to make the touch more modern and beautiful. Infrared touchscreens are more sensitive and can be suitable for outdoor and larger applications in industrial settings. It is best to select the appropriate touch technology based on the needs of the application and environment. ConnectivityConnectivity is crucial for industrial touchscreen monitors. The monitor should be able to connect to necessary devices for your industrial application, including HDMI, VGA, DVI, and DP. It is important to ensure that the monitor has the necessary connectivity options before making a purchase decision. Mounting OptionsMounting options are another factor to consider when selecting a touchscreen monitor for industrial use. The monitor should be able to be mounted in a variety of ways, including VESA mounting, panel mounting, and rack mounting. The mounting option should fit the available space and meet the application’s requirements. Temperature rangeTemperature range is an important consideration when selecting a touchscreen monitor for industrial use. The monitor should be able to operate within the range of temperatures in the intended environment to ensure proper function and longevity. Industrial environments can be harsh, with extreme temperatures, and it is important to select a monitor that can withstand those conditions. Some monitors are designed to operate in a wider temperature range, such as -20°C to 70°C, while others may be limited to a narrower range. It is important to select a monitor that can operate in the intended temperature range for the intended application. DurabilityDurability is crucial in industrial settings. The monitor should be able to withstand the harsh environment and operate reliably for an extended period. A monitor with a longer lifespan can help reduce the total cost of ownership. CostCost is another important aspect to consider. You should balance the cost against the features and functionality that you require. You should also consider long-term costs, such as maintenance and repair costs when making your decision. Here are some additional aspects to consider when selecting a touchscreen monitor for industrial use:
In conclusion, selecting the right touchscreen monitor for an industrial application is an important decision that requires careful consideration of several technical factors. By taking these factors into account, you can select a touchscreen monitor that meets your specific needs and improves productivity in your industrial setting. Keywords to choose the touchscreen monitor for industrial use: environment, size, resolution, touch technology, mounting options, Temperature, connectivity, cost, and durability. The post How to Choose the Best Touchscreen Monitor for Industrial Use: An Engineer’s Perspective appeared first on EAGLE TOUCH. from https://eagle-touch.com/how-to-choose-the-best-touchscreen-monitor-for-industrial-use-an-engineers-perspective/ An increasing number of companies are investigating how touchscreen tablets, monitors, and whatnot may increase their productivity, customer satisfaction, and income. In most instances, the issue of how is irrelevant. This amazing technology has become so ingrained in the workplace that it is unlikely to come across a single company or retail establishment without some form of touch screen technology. It can serve as a Point of Sales (POS) system, an interactive electronic product catalog, or an educational display. Moreover, interactive displays have become more dependable, inexpensive, and usable outdoors and in damp environments. Touch displays are used more often in businesses, offices, and public areas as a by-product. Advantages of Touch Screen for Business Organizations:They give a plethora of advantages to companies that need building catalogs and navigation aid and those who wish to offer knowledge or self-service alternatives to staff, visitors, and clients. And so, this touch screen blog will list out the benefits of it and how it helps your businesses!
The simplicity of use of touchscreen tech is a key advantage. It is easy and instinctive, and users (both the public and employees) can pick it up quickly, which means a faster return on investment. You point in the direction you want to go and tap on the program you want to access. A typical 4-wire resistive touchscreen can be the ideal solution because of its straightforward design and low cost. The choice will be limited to screens having multi-touch capabilities, such as a projected capacitive (PCAP) or a refractory multi-touch screen if clients need to magnify, browse, or enable functions with various touch points (RMTS).
Restaurants, hotels, retail establishments, and other high-demand, fast-paced businesses are just a few examples of the many sectors where touchscreen displays would be most beneficial but also have the most severe space constraints. Touch screen displays are a great space-saving option for these areas since they don’t require extra, occupying hardware. While a projected capacitive touchscreen’s sensitivity may be altered to detect specific styluses and gloves, the object being used must be able to interfere with the capacitive field. A capacitive multi-touch module is a better option since it can register inputs from almost any item for apps where other electronics can be employed.
An increase in contributing devices equates to a higher probability of an error! You cannot use your system if either the mouse or keyboard is malfunctioning; also, keyboards are natural receptacles for food, water, dirt, and dust. In contrast, touch screens typically have extended product lives as they contain fewer parts than standard computer displays and systems. They are also made to be handled and used by the public, so they naturally tend to be more powerful. The number of actions that a given touchscreen architecture is rated for varies. A device that only remains accurate for a small number of actions, such as a 4-wire or 8-wire resistive touchscreen, may be best, but a device that will be used much more frequently may benefit from a 5-wire touchscreen.
The enhanced accessibility that touch screen technology offers for those with impairments is among its most significant advantages. People with poor vision can enlarge text and graphics on digital signs by zooming in, and they can gain from speech technology that reads the material aloud. Similarly, people who struggle to use a mouse or keyboard may find a touch screen easier to operate, and wheelchair users can utilize touch screen kiosks that can be adjusted in height. The utility of digitalization is always improving. Integrating touch screens into your company may lessen the obstacles that individuals with disabilities must overcome, expanding your consumer and staff base.
Self-service multi-touch kiosks are used by a lot of organizations and places to speed up service. Today, touch screen kiosks make it quick and easy to buy movie tickets, access account information, pay bills, and print photos, obviating the requirement for corporations to hire, train, and pay employees. Additionally, queues are substantially cut down. Visitors are encouraged to participate in interactive displays since participants are much more likely to purchase something. Additionally helpful are in-store displays. Employ self-service screen kiosks to advertise your loyalty card, display your catalog, or ask clients to enter competitions. Business benefits include connecting with consumers through exhibits in a distinctive, enjoyable, and customized way.
You can utilize the touch screen much more quickly than you would if you were browsing with a mouse and inputting commands for the computer to follow by pressing on the objects and programs you wish to open. Because of the increased efficiency, employees can now work more quickly and serve clients more quickly, avoiding long lines and unhappy clients. Customers value their time as much as they appreciate pricing, quality, and service. You can give customers a quicker, more convenient experience thanks to touch screens:
It provides simple scaling as your firm expands and your demands change. Expanding the digital signage on your site and customizing every touchscreen panel for tasks or objectives is simple. One touchscreen might be installed in the hospital’s main lobby with many practices so that people may use it to find their doctor’s office. While awaiting to see their physician, people might use additional video displays or touchscreens in each doctor’s office to consume material or use different apps. You might utilize applications like top news, current temperature, calendars of programs, traffic patterns, newsfeeds, and more to keep patients amused wherever they are in your healthcare institution. The public may even examine it as they wait for their medications by using a display with several applications outside your pharmacy.
It helps establish a culture to attract new renters, customers, and clients. By utilizing various applications and features, you may tailor your virtual catalogs with the kinds of material pertinent to your organization or sector. For instance, you may show weather, traffic, newspaper articles, or stock information on the edge of an electronic navigation display. Additionally, you might add marketing and advertising elements to the displays. For instance, mall management businesses may sell digital advertisements to merchants and broadcast the advertisements on various displays across the shopping center. This might not only assist your mall tenants in attracting new customers but also give you a source of income separate from the fee you charge for storage spaces.
Touch screen tech allows a more straightforward approach to keeping up than traditional directories. Cleaning the exterior and corners of the display to get rid of fingerprints and smudges is required to maintain traditional directories. You would be required to open its display as well as update any burned-out light bulbs as well. Throughout the day, touchscreens will also be tapped often. With an authorized screen cleaner, disposing of all the fingerprints and blotches is simple. Simply spray it on, then wipe it off with a microfiber sponge. Once they are placed, this is virtually the only upkeep they need, rather than simply dusting the bases and edges. Conclusion:The advantages of touchscreen technology are numerous and include contented consumers, productive employees, an inclusive business, and increased income. Most shareholders, owners, and vendors are sold on the idea of touch screen technology, especially when you consider how the world’s technology firms in the industries of healthcare, financial services, industrial, wholesaling, and hospitality are utilizing the solutions provided by touch screen producers. It doesn’t hurt, though, to consider the advantages of this ground-breaking technology and to be proud of how far the sector has gone. The post Touch Screen Benefitting Businesses appeared first on EAGLE TOUCH. from https://eagle-touch.com/touch-screen-benefitting-businesses/ INTRODUCTION An LCD is a display type that produces pictures using liquid crystals. A wide range of gadgets, including televisions, PCs, and portable media players, employ LCDs. LCDs have become more popular because they are lightweight, energy-efficient, and offer a wide range of colours. The cost of manufacturing LCDs is also lower than that of other display kinds. The touch capability of a liquid crystal display touch screen is provided by extra layers that are added on top of the display components themselves. The two most popular methods for detecting human touch on a display are capacitive and resistive sensing. Capacitive and resistive touchscreen technologies are both available. Capacitive depends on the electrical characteristics of the human body, whereas resistive employs pressure to elicit a reaction. Because of this, the resistive touchscreen only responds to little pressure from a finger or stylus. Capacitive touchscreens, on the other hand, don’t react until they detect energy from the human body. These days, a common kind of LCD module that may be used in many different gadgets is the touchscreen. These are employed by companies that produce, among other things, ATMs, computers, laptops, and cell phones. Choosing the right touchscreen LCD display module for your project or business requires more information than simply being aware of the various varieties available. Additionally, you must comprehend the many issues that are faced. TROUBLESHOOTING TIPS LCD screens are now standard in a lot of homes and businesses. LCD screens are becoming more and more popular because they are durable, have a long lifespan, and are easy to use. Nevertheless, there are several issues with LCD panels that might arise. Some of these problems include: -Dead pixels -Blurry screen -Fuzzy screen -Too dark -Burn-in -Ghosting -Unwanted backlight bleeding -Unwanted image retention -Unwanted image -Unwanted screen burn -Unwanted screen freeze -Unwanted screen tear. These are only a handful of the many problems that LCD panels could have. Some of the reasons for these problems are: -Device being dropped -Device being moved too quickly -Device being moved too slowly -Device being moved too much -Device being moved too little -Device being moved too hard -Device being moved too softly -Device being moved too much -Device being moved too little -Device being moved too hard -Device being moved too softly.
PROBLEMS OCCURRING IN LCDs LCD is an electronic device that displays images in various colours. LCD displays are found in televisions, computers, mobile phones, and other electronic devices. LCD screens are often used in smartphones because they are thinner, lighter, and cheaper than traditional LCD screens. LCD screens have been around for many years but only became popular in the last decade. They became so popular because of their sleek design and wide range of colours. LCD screens are more expensive than CRTs, which is another type of screen, but they are more energy efficient and have shorter response times. The LCD touchscreen troubleshooting tips are to fix problems occurring in LCD screens. Problems that occur in these screens are: Improper Calibration In order to match a command to a screen’s response, touchscreen technology has to be properly calibrated to be able to detect where the screen is being touched. The screen won’t be able to deliver the right response when its calibration is lost. Sometimes a touch won’t even register on the screen. This defeats the goal of the gadget for users. Recalibrating the screen will solve this issue. Muck and Harm Touchscreens are vulnerable to being destroyed or damaged since they are typically operated by fingers or other devices that are exposed to foreign substances. When touched or used with a stylus, dirt and oil can be transferred to the screen and interfere with the operation. It will not be able to respond accurately if the screen is damaged. There’s a chance that some screen elements won’t even work at all. By utilising screen protectors and keeping the device clean, you may avoid this. System and Operation Deterioration Even if you take careful care of the screen, over time the system may experience issues. With time, the device system may become sluggish and unresponsive or unable to register user inputs. If this occurs, you can try refreshing the system and reconfiguring the screen to see if it helps. Even with routine maintenance, these issues with touchscreen technology are widespread. Understanding the root causes of these issues can help you prepare for them and know what to do when they arise. Difficulty in Low Light LCD is the most common type of screen used on computers, televisions, smartphones, tablets, and other electronic devices. It is a thin, flat panel that is made up of millions of tiny crystals. These crystals give the LCD the ability to display images in a wide variety of colours. This allows LCD screens to display the same colours as natural light, which is why they are perfect for outdoor use. A common problem with LCD screens is that they can be difficult to see in bright light. The LCD screen is typically made with a layer of polarized glass on top that filters out some of the light. This makes it easier for the screen to see in low light, but it also makes it harder for the LCD screen to see in bright light. OTHER PROBLEMS OCCURRING WITH LCDs The power indicator is still on after the picture comes and then vanishes. An issue with the power supply, the inverter, or one of the lamps or LEDs (the backlight of a screen is composed of numerous lamps or many LEDs that produce light to the screen) may be to blame if the monitor briefly shows an image before it fades. When the built-in safety detects a problem with one or more lamps or LEDs, the display will first light up and switch off ALL lights/LEDs (the picture will still be present, but without light, so the screen will display “no image”). A blank screen without any images. If all you see is a white screen with no picture, there is likely an issue with the internal cable connecting the motherboard to the electrical module of the screen. Or it could be an issue with the module of the screen itself. Sometimes, the screen disappears. The screen operates for a while before abruptly ceasing to function. Usually, the power source is the issue. The display is dead. If the screen is completely unresponsive, the motherboard or power supply may be at fault. CONCLUSION The LCD panel in your monitor has been harmed if it has noticed any of the above problems. LCDs are the best and the most common touchscreen displays these days. But, still there can be problems that can occur with time and usage. Hope the blog was helpful to you. The post Common issues That an LCD Touchscreen Display Might Develop with Time appeared first on EAGLE TOUCH. from https://eagle-touch.com/common-issues-that-an-lcd-touchscreen-display-might-develop-with-time/ Meta Description A touchscreen monitor plays a vital role in addressing modern-day user requirements. Therefore, the guide illustrates all essentials for picking the right one. Digital gadgets have replaced most of the traditional paper-pen management systems. Nowadays, users of all clans, whether engineers, home users, or business owners, use interactive devices to connect and communicate. A touchscreen monitor is essential in modern-day work and home environments. Touch monitors allow you to operate a GUI interface without using other devices (mouse, keyboard, etc.). Some models use light pens or styluses for input, while others detect finger taps. Since touchscreen monitors are expensive, having a feature checklist while selecting one is a good practice. The guide below encompasses all the factors essential for selecting industrial touchscreen monitors. UsageSome monitors work ideally indoors, while others resist outdoor and semi-outer glare fittingly. Indoor screens work best for applications like HMIs, educational projections, medical diagnosis machines, etc. An outdoor touch screen monitor is suitable for digital commercial billboards, highway tolling screens, etc. Semi-outdoor screens are suitable for implementation in semi-shaded environments. Typical illustrations of semi-outdoor touch screens include public ATMs, biometric security machines in schools or offices, time displays, and sheltered digital signages. Screens differ in their mountings as well. For instance, a touchscreen monitor for PC has a desk placement. In comparison, large screens require drilled supports in walls or ceilings. Hence, deciding the use case helps pick a suitable touchscreen monitor as you know how much space you can allot. Display TypeTouch screens vary in their display types as well. Here are some common ones. As the name implies, an open-frame monitor is fully exposed without a bezel edge. A closed-frame touch screen monitor has a well-defined bezel, similar to consumer-grade LCD monitors. Some familiar illustrations of closed-frame touchscreen monitors are touch panels in sales terminals and ticket houses. Open-frame monitors are more versatile as users can insert them into their custom enclosures effortlessly. In contrast, closed ones must be used according to size and housing compatibility.
The desktop monitors are touch screens mounted on desk stands. These monitors offer different bending angles so users can work without straining their eyes. Some desktop monitors are also height-adjustable, which works aptly for users with increased screen time. Lastly, there are pure flat monitors. These monitors use triplex glass, resistant to mechanical stresses and abrasions. The glass layers envelop the touch-sensitive screen to ensure its safety and longevity. Pure flat monitors are suitable for industrial or public setups. Mounting MethodStandard mountings for touch screens include VESA, front, and rear embedded mounts. A suitable mounting is essential to scale up your overall screen experience. VESA mounting is the most versatile type of mounting. Commonly these mounts come with four mounting holes fitted at the back of the screen. However, for larger screens, extensive VESA stands are also available. These allow you to mount a touch screen monitor against a table, wall, or ceiling without complex drillings. Embedded mountings are available in two kinds. The front-embedded braces are visible around the touchscreen screen. While the rear embedded mounts have a compact yet sturdy base which drills into the wall, and the screen rests upon it, hiding it. Front-embedded mounts are usually preferable when the touch screen has a side folding placement. LCD SpecificationsPicking the correct LCD specification for your touch monitor is crucial. However, the below-listed factors will help simplify the process.
The first thing is to decide the size you want. Most PC touch screens come in 7 to 32 inches. However, a touch screen monitor can also size up to 50 or 60 inches. Larger screens are more expensive so picking an optimal width is necessary.
Resolution is the number of displayed pixels on a screen. Higher resolutions mean the screen will produce more brilliant pictures. Common resolutions include 1024 by 768, 800 by 600, 1280 by 1024, or full HD (1920 by 1080). However, it is essential to note that more resolution requires more upfront.
Brightness indicates the light the screen emits. A touch screen monitor with higher brightness levels is more readable in light-intensive environments. For a screen to be sun-readable, it must have at least 800 nits of brightness. However, indoor screens can work with lower brightness as well. Considering the use case in case of uncertainty about brightness levels helps pick the rightly bright screen.
Touchscreen display technologies are classifiable into three types: IPS, TN, and VA. The IPS or in-plane switching monitors have a crystal layer between two glass layers. The crystal molecules are parallel to the glass screens, which rearrange to let the light through and create images. The VA or vertical alignment touchscreen monitors have perpendicular crystal molecules with the glass substrate. Lastly, there are the TN or twisted nematic touchscreen monitors. When the light passes, the liquid crystal twist and let the illumination through. IPS is the superior touchscreen technology. These monitors are minutely dependent on the viewing angles and produce the brightest images necessary for professional and industrial uses. The VA screens are known for their higher refresh rates, color contrasts, and depths. However, as compared to IPS, they have lower display quality. TN screens are the cheapest touchscreen technology. They have less blurring rate and low input tag, making them an ideal choice for touch screen monitors for PC gaming. However, their viewing angles and color sharpness do not fit industrial uses.
Touch screens have different display ports, including VGA, HDMI, DVI, and DP. Display ports allow you to project media from other devices onto your monitors. Understanding the capacity of each of these technologies is essential to pick the ideal one. HDMI and DP (Display Port) are the most versatile technologies, supporting all video and audio formats. VGA (Video Graphics Array) and DVI (Digital Visual Interface) only support video streams. Hence additional cables for the audio stream are needed.
Touch screens implemented in industries need to have a wide range of working temperatures because temperature extremes affect the working of the touchscreen. The capacitive touchscreens work suitably within the temperature range of -5 to 60 degree Celsius. Therefore, their performance significantly drops in outdoor applications with below-zero temperatures. In comparison, a resistive touch screen monitor offers more performance in external temperatures. They work optimally in temperature ranges from -20 to 65 degrees Celsius. Both capacitive and resistive touch screens make a good pick for indoor applications as the temperatures are not very stressful. Touch Screen Specifications
Touch screen monitors may look identical on the outside. However, the working mechanisms behind the scenes vary significantly. Two types of touch screen technologies are capacitive touch and resistive touch. The capacitive screens interpret natural human conductivity. In comparison, the resistive touch screen monitor makes sense of the mechanical movements made on the screen. Resistive screens are more suitable for industrial applications as they meet sealing standards such as IP65/66, which make them resistant to environmental contaminations. They also offer high-precision touch recognition and are operatable with styluses and gloves. Resistive touch screens are most apt for the food and beverages industries as there is no danger of glass fragments spilling into foods in case of damage. Capacitive touch monitors avoid reflections and provide more brilliant results than resistive screens. They also offer more clarity and support multi-touch. Higher abrasion resistance makes them ideal for use in commercial restaurants and harsher environments, as they resist defacement.
The final coating on the glass also impacts the screen’s overall performance. The glass sheets used in touch screens are commonly AG, AR, AB, and AF. AG refers to anti-glare. A chemical spray on the reflective surface of the monitor produces a matte effect. Therefore, an AG touch monitor works ideally in light-intensive environments. AF anti-fingerprint or anti-fouling glass is best for oil and stain repulsion and is resistant to fingerprint marks. Moreover, a treatment AF-treated touchscreen feels smoother than other screen mediums. The AR is an anti-reflective glass treatment that produces brighter images without reflecting the users’ form on the screen. Anti-bacterial or AG glass treatment has the most bacterial resistance. The surface of the glass is coated with silver ions which reduces bacterial contaminants up to 99% and prevents fungal growth.
The bonding method signifies the placement of touch-sensitive and glass layers within a touchscreen screen. The standard techniques are air and optical bonding. An air layer separates the touch-sensitive screen and glass panel in air-bonded touch screens. It allows the screen to display clear, brilliant images required in indoor environments. However, they are not great for outdoor applications as temperature extremes may affect the inner vacuum layer. Optically bonded screens have no air gap between the layers. These screens are more durable and less reflective. However, they are more expensive as compared to air-bonded technologies. Structure
The covering of the touchscreen monitor plays an essential part in ensuring its longevity. Touch screen monitors are available in plastic, iron, and aluminum closures. Plastic ones are the most affordable but falter under temperature extremes. In comparison, aluminum covers offer more resistance and anti-corrosive properties. But they are relatively expensive. Iron housings are usually suitable for touch screens in rougher environments. Touchscreens and screen enclosures for industries typically follow NEMA 12, 4, and 4X exposure-resistant standards. In addition, resistive screens also fulfill IP65 and IP66 (standards for water and dust resistance).
Touch screen monitors work on both AC and DC currents. Standard voltage inputs for most industrial screens are 2.8 to 5.5V DV. However, it is best to follow the instruction manual for the power specification of the product. BudgetAfter deciding the specifications, it is time to allocate the needed budget. If you are buying a touchscreen monitor for pc, you will need less upfront. However, comparatively industrial touchscreens require more budget due to their high-end features. Final VerdictChoosing a touchscreen monitor may be challenging with countless alternatives in the market. However, the process becomes easier if you follow a strategic approach. Analyzing the requirements, product application, and reasonable budget is the key to finding the targeted product. The post The Ultimate Guide to Choose a Touch Screen Monitor appeared first on EAGLE TOUCH. from https://eagle-touch.com/the-ultimate-guide-to-choose-a-touch-screen-monitor/ Anyone who takes a laptop outdoors on a sunny day will know that standard LCD screens cannot support well in very bright environments. The main reason for this is that the backlight on the screen must compete with the incident sunlight, and the sun will inevitably be brighter. In outdoor-readable displays, the display should be bright enough so that the display can be seen under strong sunlight, and the contrast of the display must be maintained at 5 to 1 or higher. Although it is possible to read a display with a screen brightness of fewer than 500 nits and a contrast ratio of 2 to 1 in an outdoor environment, the quality of the monitor will be very poor. The best sunlight-readable monitor is usually considered an LCD with a screen brightness of 1000 nits or higher and a contrast ratio greater than 5 to 1. In a dark outdoor environment, this Outdoor display can provide excellent image quality. These are the key features that enable us to choose the best sunlight-readable display or outdoor monitor. High BrightnessThe daylight visible screen has an ultra-bright backlight, which helps to promote the image in high ambient light conditions. The standard brightness measurement for LCDs is (candlesticks per square meter) cd/m2 or Nit. nit is equal to 1 cd / m2, so these terms are interchangeable. Candela is the standard unit of brightness and it is measured on a standard area of 1-meter square for the screen. LCD screens used for desktop monitors have usually rated anywhere between 250cd/m2 and 450cd/m2 and large public display monitors range from 350cd/m22 to 700cd/m2. Some manufacturers claim that 700cd/m2 is a high-brightness screen, which is technically true, but it is not classified as visible light. Generally, anything higher than 1000cd/m2 can be regarded as a daylight screen, but as with most technologies, the bigger the better. Screens rated at 2500cd/m2 and above will produce excellent results in very bright conditions. Currently, the brightest LCD available has a rating of 5,000cd/m2. High working Temperature and Thermal ManagementA lot of power is consumed by a high-brightness backlight system and it becomes the source to increase the LCD temperature. The brighter the backlight, the greater the heat dissipation problem. In addition, if the LCD is used under sunlight, more heat will be generated due to sunlight. This problem affecting LCD panels used in sunlight is that they are easily damaged by solar heat. When the liquid crystal layer is heated, the crystals warp, forming dark spots on the screen. If removed from the heat source, these patches will usually cool and return to normal, but repeated exposure will eventually cause permanent damage. The heat of the sun interferes with the color of the screen. Ordinary displays or LCDs can be used less than 50 degrees, and these TFT LCDs can turn black at 50 degrees. The temperature problem can be solved by proper thermal management design. LCD panels used in professional high-brightness displays can be used in extreme temperatures without warping or turning black. Color GenerationHowever, having a bright backlight alone does not make the LCD screen look good. Merely turning on the light source behind the screen may result in fading, poor contrast, and disappointing images. To produce realistic images, the screen needs high contrast and accurate color reproduction. The full matrix LED backlight can provide high brightness, but combined with local dimming, it can create a high-contrast image with deep black levels. By calibrating the color of the screen can help to produce more natural colors. Many LCD screens tend to cast blue, causing colors to look cool. Ensuring that the screen is properly calibrated helps to maintain true color reproduction, so that skin tones look natural and whites look like pure white. WaterproofThe outdoor-readable display has a waterproof stainless-steel housing. These are ideal choices for factory flushing environments. In addition, they are very suitable for outdoor use in inclement weather. The panel mount case is made of aluminum or stainless steel and this allows them to be embedded and mounted. Outdoor LCD monitors with high brightness can work in a wider temperature range. Therefore, this broadens the environment in which they can be used. In addition, the temperature range is also very important when used outdoors. When we combine extreme operating temperatures with outdoor waterproof enclosures, we ensure that high-brightness monitors can work normally even in the harshest, most humid, and hot environments. Viewing AngleThe viewing angle refers to the angle at which the image quality of the LCD is degraded and is unacceptable for the viewers. When the observer moves to the side of the LCD, the image on the LCD will degrade in three ways. The brightness drops The contrast usually drops at a large angle The color may change The definition of LCD viewing angle is not absolute, because it depends on your application. For LCDs used in outdoor applications, it is not enough to define viewing angles based on CR alone. In very bright ambient light, when the screen brightness drops below 200 nits, the display is almost invisible. A high-quality, high-brightness screen looks good in any situation. Whether the content is installed internally or externally, the increased brightness can make your content shine. Sunlight-readable displays using transflective displays are very suitable for personal use because they do not require a lot of power and are affordable. from https://eagle-touch.com/how-to-choose-a-sunlight-readable-monitor/ IntroductionAn embedded computer, sometimes known as an embedded PC, is a dedicated computer system that is integrated into a larger machine or system. Unlike a standard desktop computer, an embedded computer is typically intended or purposed for a single task. An embedded PC is used to process a specified function, possibly designed to sit inside a kiosk or digital signage unit, or even directly connected to one of those machines on the factory floor. An embedded PC executes one task at a time as opposed to business IT equipment, which may handle numerous jobs simultaneously in a manufacturing environment, such as timesheets in Excel spreadsheets, and software for production planning, and stock management. Types of embedded systems
Embedded Computers around usIt’s likely that you have encountered an embedded PC at some point, possibly even today, whether or not the word “embedded computer” is familiar to you. They are present everywhere and serve as the anonymous brains of the everyday electronic gadgets we see and use, such as ATMs, billboards, construction zone signs, and passenger information systems on train platforms. Whether we see them or not, or even realize they exist, embedded computers are the hidden heart of the automated space, providing many of the amenities we enjoy in today’s electronic society. Imagine yourself on a coach. You unwind and engage with the onboard entertainment system on the seat in front of you. You enjoy some gaming and perhaps watching a film. What you can’t see is the embedded computer that provides both your and the rest of the coach’s onboard entertainment. The embedded computer in the waterproof housing is mounted on the lamppost. At the same time, the coach travels through the town, analyzing traffic patterns and sending the data back to the central control room through a cellular connection. A bit further down the road is a discrete box that holds another embedded PC that uses data from the control room to operate a variable message sign warning of stalled traffic or poor sight up ahead. As the coach passes a speed camera, a radar sensor, and an embedded computer inside it analyzes the speed of moving vehicles to determine whether to turn on the camera and flash. The coach is passed by a car as it enters the freeway by the driver, who is lounging and reading a newspaper. A system conceived and developed employing the capabilities of an embedded computer mounted in test vehicles, a self-driving car, connected to a variety of motion and Lidar sensors, uses GPUs to analyze data from those sensors and give a safe autonomous driving experience. An onboard embedded PC safely shuts off the entertainment systems at the end of the journey when the coach ignition is turned off, and it then intelligently powers itself down after a predetermined amount of time. This brief tour is merely the tip of the iceberg in terms of embedded computer applications. When you receive an Amazon delivery, the item you hold in your hand has likely been through a variety of embedded PC-based machinery and systems, including automated picking and trolleys, GPS delivery driver tracking systems, and vehicle-mounted CCTV cameras. Embedded computers have made our life so easy in ways we can’t even imagine. Advantages of Embedded Computers
Choosing an embedded PCWith so many options on the market — different manufacturers claiming their unique characteristics, and new technologies being integrated into devices that often perform similar activities — it’s no surprise that selecting an Embedded Single Board Computer may be a difficult and time-consuming procedure for people who are unfamiliar with the Embedded business. The following considerations shall be kept in mind before considering an embedded PC:
ConclusionWhen selecting an Embedded Computer, there are numerous things to take into account. It’s challenging to cover everything because there are so many industry- and application-specific intricacies. However, we have tried to address the major points here. The important factor is the data you wish to collect and process. Consider where your sensors are located, how much data they collect, how you want to interact with your data sources, and where you intend to display and process the data you collect. Having a firm grasp of these fundamental concepts will make selecting an embedded computer much simpler, and with some market research or a reliable hardware partner on your side, you shouldn’t have too many problems with your upcoming project. from https://eagle-touch.com/what-is-an-embedded-computing-system-and-how-to-choose-an-embedded-pc/ |
About UsEagle Touch Technologies Co. Ltd was established in 2007. We started with resistive touch screen production in the beginning and engaged in the Touch Industrial field for more than a decade. With the progress of the touch technology and touch products market expansion, touch screens are used everywhere in our life, public and private spaces like Shopping Malls, Restaurants, Multi-Media, Phones, Computers, Cars, Smart Homes, Hospitals and so on. Around 10 years ago, the main touch technology was resistive touch Technology and surface acoustic wave touch technology. Then, Infrared touch technology was popular for a while. Nowadays, in today’s market, most consumers are using projected capacitive touch Technology, which features the touch function having advanced from single Touch to real Multi-touch. At Eagle Touch, as a Touch screen Manufacturer in China, we always update our production line with the newest technologies. Our current production lines include Resistive Touch screen and 4/5 wires (PCAP) Projected Capacitive touch screens. (both Ilitek and EETi solutions). After a decade of working experience and knowledge in the Touch industry, and accumulating customers and resources, Eagle Touch set up the Touch monitor production line in 2010. Main products include Touch screen monitors, open frame monitors, and custom Touch monitors. ArchivesNo Archives Categories |