All posts by: Microtips Technology

Applications of Displays in Medicine

Microtips Technology / / Industry News, LCD

Medical touchscreen displays are frequently integrated into medical devices for their simplicity of use, precision, clear optics, lightweight design, and low tooling requirements. MicroTips Technology’s custom touch screens enhance patient care while adhering to the strict production guidelines established by the medical industry, whether they are built into a handheld control device or an LCD display in the operating room.

Displays have completely changed how information is presented and distributed in the medical industry. Medical personnel can now better grasp a variety of medical disorders and have real-time access to a wide range of patient data thanks to the development of improved display technology. We shall look at the numerous uses of displays in medicine in this post.

Use Of Medical Displays

Displays are crucial to many medical devices, providing critical information to healthcare professionals and patients. Here are some examples of how displays are used in medical devices:

Medical Imaging

Medical imaging is one of the most important uses of displays in medicine. Images generated by medical imaging technologies like X-rays, CT scans, MRI scans, and ultrasounds are displayed on displays. Medical experts use these photos to identify and treat various medical disorders. To ensure that medical personnel can correctly interpret the images, displays used in medical imaging are carefully built to deliver high levels of contrast, sharpness, and color accuracy.

Displays can be used to view and alter 3D medical models and present medical images. For surgery planning and patient education, 3D medical models give medical personnel a more thorough insight into the patient’s anatomy.

Medical Training

Medical professionals and students can learn about various medical problems and procedures by viewing medical training displays, which are also used for medical training. Displays can be used to show educational content, 3D medical models, and medical pictures.

Medical practitioners will always have access to the most recent information thanks to the precision and detail of LCD displays used for medical teaching. Medical personnel can rehearse procedures in a secure and regulated setting by using displays for virtual simulations.

Digital Health Records (EHRs)

A patient’s medical record is preserved digitally in electronic health records (EHRs). Patient histories, test results, prescription information, and other medical information are all included in EHRs. Medical personnel can more easily access patient data in real time by using displays to access and present this data.

Medical personnel can simply go through the patient’s medical history because of the user-friendly and intuitive design of EHR displays. Moreover, displays can be altered to show particular sorts of data, facilitating quick access to the data that medical professionals want.

Telemedicine

Telemedicine is the term for using technology to deliver medical care remotely. Displays are an essential part of telemedicine because they enable real-time communication between medical personnel and patients. Displays can be used to converse with patients via video conferencing, display medical images, and give instructions.

In recent years, telemedicine has grown in popularity, especially in rural places where access to healthcare may be constrained. Medical personnel may effectively diagnose and treat patients remotely thanks to the high-quality images and video that telemedicine displays are built to deliver.

Patient Monitoring

Medical personnel can closely monitor a patient’s vital signs by using displays for patient monitoring. Data from numerous medical devices, including blood pressure, heart rate, and oxygen monitors, can be displayed on displays.

It is possible for medical practitioners to swiftly assess a patient’s condition thanks to the design of patient monitoring displays, which are made to be easily visible from a distance. Moreover, displays can be set up to provide alarms when a patient’s vital signs deviate from the typical range.

Medical Displays Ruling The Market

Displays are now a fundamental part of modern medicine, crucial to patient monitoring, telemedicine, electronic health records, medical imaging, and medical education.

MicroTips Technology, one of the top LCD display manufacturers, has successfully designed displays for the medical industry. Our blog MICROTIPS TECHNOLOGY INTRODUCES IEC 60601 CERTIFIED MEDICAL MONITORS talks about the monitor based for the medical industry.

Medical personnel can now better grasp a variety of medical disorders and have real-time access to a wide range of patient data thanks to the development of improved display technology. Displays are anticipated to play an increasingly bigger role in the future of medicine as display technologies develop further.

Common Issues That An LCD Touch Screen Display Module Might Develop With Time

Microtips Technology / / LCD

Throughout your daily activities, you continually interface with a touch screen. They can be found in various places, including mobile phones, tablets, ATMs, kiosks, ticket machines, and manufacturing facilities.

Touchscreens are a popular type of LCD module used nowadays and can be seen in various devices. The principal buyers and suppliers are companies that manufacture point-of-sale terminals, ATMs, PCs, laptops, and other electronic gadgets. Touchscreens with capacitive technology do not respond unless they sense the energy coming from the human body. They rely on the electrical properties of the human body, whereas resistive uses pressure to trigger a response. As a result, the resistive touchscreen only reacts to light pressure from fingers or a stylus.

Choosing the suitable touch screen LCD display module for your project or business requires more information than simply being aware of the various varieties available. Additionally, you must be mindful of all the issues each technology encounters and be equipped to deal with them.

The given blog covers the common issues that an LCD touchscreen display module might develop with time.

Understanding LCD Modules

At the component level, liquid crystal display (LCD) modules are used to replace less efficient displays such as cathode ray tubes (CRTs). These modules need to be integrated into a more prominent instrument or system because they don’t come with panels. The category of non-emissive technologies, or displays that do not produce their own light but regulate the transmission or reflection of an external light source, includes liquid crystal displays (LCD’s).

In a liquid crystal display, a liquid crystal solution is sandwiched between two sheets of polarizing material. The crystals in the liquid align so that light cannot travel through them when an electric current is passed across it. Each crystal functions as a shutter, letting light through or obstructing it. When an electric field is applied over the liquid crystal material in an LCD, the optical path of the light is altered.

Common Issues With LCD Modules

With the dynamic technology on the row, there are several potential causes for LCD panel display issues.

  • Environmental Factors’ Effects On The LCD Assembly: Environmental factors include cyclic loads and the impacts of temperature and humidity.
  • Handling conditions and the significant effects on the LCD: Bending, repeated shocks, and drop loading scenarios are all examples of handling.

The common issues seen in LCD touchscreen display modules are mentioned as follows.

  • Erroneous Calibration
  • Damages And Dirt Issues
  • Flattering Operations And System

The issues are briefly discussed in the below heads.

1. Erroneous Calibration

Touchscreen technology must be appropriately calibrated to detect where the screen is being touched in order to match the command to a screen’s response. Inaccurate calibration prevents the screen from displaying the correct response. A touch could sometimes not even be registered on the screen. For users, this defeats the purpose of the device. This problem can be resolved by calibrating the screen properly.

2. Damages And Dirt Issues

Touchscreens are prone to scratching or damage since they are often manipulated by fingers or other devices exposed to foreign substances. Oil and dirt can be transferred to the screen when handled or used with a stylus and cause problems with operation. If there is damage to the screen, it won’t be able to react appropriately. It’s possible that some screen components won’t function at all. You can prevent this by utilizing screen protectors and maintaining a clean smartphone. The proper cleaning tips for keeping your LCD modules free from dirt are mentioned in our blog, A GUIDE IN CLEANING AND KEEPING TFT LCD DISPLAY SCREENS IN TOP SHAPE

3. Flattering Operations And System

Despite your best efforts, touch displays can experience problems due to their delicate nature. The system may become unresponsive due to input registration errors or issues with the device itself. In other situations, the screen may register input that hasn’t been given when the calibration starts to waver. The reaction time slows and becomes unpredictable. All of these things can happen as the device ages. Recalibrating and rebooting the system might occasionally be helpful, but the device might stop working altogether if the hardware malfunctions.

End Of The Day

When a touch screen malfunctions, it is unresponsive to finger or stylus taps. Several factors, like a screen protector, dust, or inaccurate calibration, may be to blame for this. Resetting the device or wiping the touch screen can frequently restore functionality.

The problems with touchscreen technology stated above are frequent, even with routine maintenance. You may better prepare for these problems and respond to them when they arise by understanding their underlying causes.

By tackling the problems with the best possible solutions, Microtips USA, a business with more than 30 years of market experience, has significantly upgraded the technology of touchscreen LCD modules, making it a fantastic display for use.

Functioning Of EPD (Electronic Paper Displays) Screen

Microtips Technology / / E-Paper Display

E-paper has proven to be a framework on which unique and all-encompassing ideas can be created, just like traditional paper that can be transformed into anything. Because of its extraordinary qualities, including excellent visibility in direct sunlight, paper-like readability, and incredibly low energy usage, e-paper is ideal for a wide range of innovative goods, including phones, accessories, retail displays, thermostats, and digital signs.

Electronic paper is referred to by several terms like ePaper, electronic ink, e ink, electrophoretic displays, and EPD. Still, they all relate to the same thing: a technology that mimics the appearance of regular ink on paper.

The given blog will undoubtedly clear up your questions regarding the functionality of the EPD (Electronic Paper Display).

What Are Electronic Paper Displays?

An Electronic Paper Display is a display that resembles paper in look, ultra-low power usage, and thin, light shape. It is exceptionally dissimilar to a conventional display, which brightens pixels via backlighting. An EPD only needs power when a fresh image is required, and they are incredibly thin. These displays are similar to newspapers in that they provide clarity and may be used in various ways.

You took a pen and scribbled something down in a notepad. The clarity and excellent legibility of your text’s distinct, well-defined lines will be comparable to that of the content displayed on an electronic paper display. Electronic paper displays are used in various industrial and commercial applications and differ from other digital flat panel displays in numerous ways.

Functioning Of EPD

We must start at the very foundation of this technology to truly understand what electronic paper is all about.

If we look closely, we will discover that an EPD is actually a group of tiny capsules filled with a translucent liquid that contains small particles. The millions of these capsules that make up each display are spread over a thin layer.

These capsules contain particles with varying electric charges, i.e., negative and positive charges, and distinct colors, i.e., black and white, respectively. Many electrodes are present, both below and above the film. The particles with the matching charge will be moved to the bottom or top of the capsule when an individual electrode is subjected to a negative or positive electric field. The surface will display a particular color as a result.

Black and white are the most basic color options for electronic paper. In this situation, a positive charge is present in white objects, whereas a negative charge is present in black particles. The negative black ink particles will rise to the top of the capsule if the applied electric charge is negative. They will therefore paint this region of the surface black. Because of this, electronic paper displays are also known as electrophoretic displays (EPD).

EPD uses the movement of dispersed particles in the fluid under the influence of an electric field to demonstrate function.

Key Aspects Of Differentiation From Traditional Displays

1. Bistability

Screens made on e-paper are bi-stable. Whatever content is displayed on the electronic paper display, just like a sketch in your notebook, will retain a static image even when the display is not linked to a power source. E-paper only uses power when the content changes, such as when a departmental store’s e-paper shelf label is updated with a new price. The display will only exhibit the information you want the rest of the time, using no power until the next update. This is in contrast to typical backlit flat panel LCD’s, which refresh approximately 30 times per second and need a continual power supply to maintain content.

2. Reflectivity

Reflective refers to how the display’s surface reflects light from the surrounding area into the users’ eyes. The display is clearer the more ambient light there is. Instead of a backlight, images on an electronic paper display are shown using ambient light. This functions exactly like conventional paper. Electronic paper displays make visuals easier on the user’s eyes and help prevent light pollution. Additionally, compared to most other display types, these displays offer a larger viewing angle. Moreover, the information displayed on the e-paper is visible even in direct sunlight.

The Future Stays Strong

As every advancement in the last few years has focused on mobility and ease of information flow, e-Paper appears to fit right into the future mold. Electronic paper can replace other devices to save battery usage and read easily, even in direct sunlight. EPD is readily available nowadays from many brands.

Microtips USA offers electronic paper displays (EPD) for use in commercial and industrial applications. Display sizes for these bi-stable displays range from 1.49 to 13.2 inches, and resolutions range from 152(H)152(V) to 960(H)680(V) pixels.

Everything You Need to Know About Capacitive Touch Panels

Microtips Technology / / Touch Panel

Capacitive touch screens rely on electrical charges to operate. When a finger or specialized input device, composed of atoms with positive and negative charges, comes in contact with the display, it detects electrical field disruption and executes the command. Capacitive touch screens are pretty sensitive and are preferred to increase screen contrast and clarity.

Capacitive touchscreens are coated with copper or indium tin oxide, storing electrical charges in an electrostatic grid of wires — thinner than a human hair. Capacitive control displays operate through the changing electric fields and the effect it prostrates on the capacitance.

Based on that, one can logically assume that there is more to know about capacitive touch panels.

Here, we are deducing prominent features of the capacitive touch panel that make them famous.

Anti-Glare (AG) – Anti-glare touchscreens form micro surface asperities that enhance the screen visibility under bright light settings or outdoors. It is manufactured with two methods — chemical-based surface treatment and controlled acid etching process.

Anti-Reflective (AR) – Anti-reflective screen minimizes the reflections by using the optical coating to the surface. Through the vacuum evaporation process, it reduces reflection. This method can also improve efficiency in typical imaging systems as less light is lost due to low reflection.

Anti-Fingerprint (AF) – An anti-fingerprint coating limits scratches to a screen and prevents smudging and fingerprints from being imprinted on the surface. The AF surface makes it possible to quickly wipe up smudge on the touch panel, making it easier to clean and aesthetically pleasing. The AFP coating has a hydrophobic effect, and it reduces friction that improves scratch resistance.

Wet Functional – Wet functional means that the capacitive touch panel responds to a finger touch even when the screen is wet. Touchscreen working due to the distortion of the electrostatic field may fail to react to wet hands. However, the capacitive touch panel is equipped with a sensor, and it enlightens whether the screen is wet or dry. It simultaneously switches from single finger touch to multi-finger touches according to the damp and dry touch and minimizes false signals.

Gloved Use – Although capacitive touch panels do not work with the gloves, some are compatible to work with coated gloves. The conductivity in gloves’ coating may affect the electric field on the screen’s surface. Depending upon the fingertip pressure or time, coated gloves can affect screen functionality and responsiveness.

Conclusion

Following this, one can get an idea that capacitive touch panel technology is not as simple as it appears. The effectiveness of capacitive touchscreens varies based on various degrees, such as the thickness of the coating, finger pressure, etc. Thus, one can only determine it after testing.

Microtips Technology, a US-based LCD and touch panel manufacturer, is pioneering the development of capacitive touch panels featured with specialized coatings. They are manufacturing PCAPs for extensive use cases in different industry domains such as healthcare, education, corporates, banking, and research.

Things To Consider When Buying LCD Monitor

Microtips Technology / / LCD, News

Is your old computer monitor wearing out and you urgently need a new one? Perhaps you should make yourself familiar with LCDs.

LCDs are electroluminescent displays and have been used these days popularly in a wide range of electronic devices.

In the past years, they have become the norm for desktop monitors. LCDs have also captured the TV market during the same period.

Compared to CRT (cathode ray tube) monitors, flatscreen monitors are much thinner and lighter. The technology also enables more transparent images, higher resolutions, and flicker-free displays, which are easier on the eyes, require less energy and emit no electromagnetic radiation.

These are only a few of the reasons to replace that old CRT monitor finally. Monitors and flatscreens are described in this article in terms of their features. These tips will help you decide which LCD computer monitor is right for you.

  • Screen Size

The diagonal measurement is from the lower-left corner to the upper-right corner in inches. The screen size ranges from 15″ to 30″. Most desktop monitors are between 19″ and 22″ in today’s market, although larger sizes are not uncommon.

In general, larger size means you have more space on your desktop. You could open more than one window at once. Furthermore, larger monitors are more expensive in addition to taking up more space on your desk.

  • Aspect Ratio

According to the aspect ratio, the number of horizontal pixels in a display is higher than that of vertical pixels. Typical CRT monitors had an aspect ratio of 4:3 and were almost square. Today, you can find widescreen monitors with aspect ratios like movie theater screens (16:9 or 16:10). 16:9 is sometimes referred to as HD (high definition).

Widescreen displays let you avoid the black bars that appear across your screen when watching DVDs on your computer. Furthermore, wide ratios make it easier to view multiple windows simultaneously. The only reason to choose 4:3 is if you prefer it or don’t have enough desk space to accommodate a more comprehensive monitor.

  • Resolution

An image’s resolution refers to how many pixels are displayed horizontally and vertically.

Currently, LCD flatscreens only have one native resolution because of the nature of LCD technology. Thus, their native resolution describes the absolute number of pixels present horizontally and vertically.

When used on a flatscreen, a lower resolution than native causes fuzzy images, unlike CRT monitors. Because the native resolution cannot be changed unless you take a loss in image quality, it is essential to choose the right one from the beginning.

Sharper images, higher clarity, and more desktop space are advantages of higher resolutions. If you enjoy multitasking on your computer or watching movies on it, this is perfect for you. On the other hand, the text becomes much smaller and less readable. As a result, a high resolution should be avoided if your eyesight is not perfect.

  • Contrast Ratio

In LCD computer monitors, the contrast ratio measures how much variation between the brightest whites and the darkest blacks. As the contrast ratio increases, the whites and blacks become whiter and blacker, and the gray values in between. 1,000: 1 is the best contrast ratio you can achieve.

It isn’t easy to discuss contrast ratios. You cannot compare the values across manufacturers. Occasionally, you will also see the term dynamic contrast, which is different from contrast ratio and can be misleading.

  • Brightness

Several backlights illuminate an LCD monitor. Candelas per square meter (cd/m2) measure brightness. To watch movies and play games on your computer, you need at least 300 cd/m2, i.e., a higher intelligence. Generally, there is no need to exceed 250 cd/m2 for office work or browsing.

Wrapping It Up!

An essential thing you are supposed to do is choose your desired size, aspect ratio, and resolution. You should select these features based on your needs. In the next step, you can compare features of all available models, such as contrast ratio, brightness, and open ports. After that, you can decide which model is within your budget.

Microtips Technology, a US-based display module manufacturer and distributor, has launched its range of products with LCDs’ latest capabilities.

Display Technologies Focusing on Power Consumption

Microtips Technology / / E-Paper Display, LCD, OLED

Identifying an energy-efficient display can be critical in industrial use cases and general use cases like households.

Today, the market is dominated by several dominant technologies; thus, knowing which one is the best depends significantly on energy consumption.

With the increasing usage of digital screens, energy consumption has become a pressing issue for electronic display users worldwide. Thus, the energy efficiency of display screens becomes a crucial subject in making the lower power consumption energy-saving display design.

Let us now discuss some of the most popular display types that have been in high demand because of their energy-efficient architecture.

  • Liquid Crystal Display (LCD)

The term liquid crystal describes a substance that lies in a state between liquid and solid but exhibits the properties of both. Since their first observation in the 19th century, LCD technology has been enjoying various advancements, and currently, it accounts for an enormous share in the entire display market area.

LCD belongs to a non-emissive display category, and further, you can classify them as Passive matrix (PMLCD) and active matrix (AMLCD). The fundamental difference that exists between these two categories is in the way of addressing pixels for producing different luminance components of an image.

The power consumption of LCD is directly proportional to the drive frequency (as the frame rate lowers, the power consumption reduces) and the displayed image.

  • Electronic Paper (E-Paper)

Electronic paper is a vigorous display technology that can rip off the traditional paper. Just as in the case of LCD, e-paper also belongs to the non-emissive display category, and here we do not need any backlight. It is because the ambient light from nature is enough.

The display comprises millions of microcapsules containing positively charged white and negatively charged black particles suspended in a clear liquid, producing the resolution only found in prints.

Significant characteristics of e-paper include flexibility, reliability, multi-functionality, and ultra-low power consumption. They even lead to zero consumption in the non-updating period. You can find several technologies in small sizes, although there are approaches with A5 size.

  • Organic Light-Emitting Display (OLED)

OLED or organic light-emitting diode is a light-emitting technology that is made when you place several thin organic films made from carbon and hydrogen between two conductors. They will emit a bright light when the electric current is applied.

Several OLEDs share specific characteristics like high brightness and contrast, captivating color definition, and quick response time. Because of the self-luminous effect, they offer an enormous view angle of 160 degrees. However, a significant benefit is their low power consumption (proportional to the number of pixels that are turned on, the black dots will not require power), which depends on the present content only because they don’t need a backlight.

It makes them thinner and efficient. As they are manufactured on a small scale, they are available at a high price. Several studies conclude that while using this technology, the consumption of displays rises strongly as per the size. 

  • Electroluminescent Display (ELD)

Electroluminescent display technology is well-known for taking advantage of the light-emission phenomenon because of the strong electric field. You can find a solid-state thin phosphor film and insulator stack deposited on a glass substrate in the ELD driven by high voltage electronics generating a positive and negative pulse. Plus, they are known for being a cost-efficient light source method leading to low power consumption.

Electroluminescent technology is well-known for having lower consumption and contrast ratios. It is best to pay attention to the viewing angle values of 180 degrees.

The prototype values are given when discussing TDEL and AMEL as they are not yet commercialized.

In A Nutshell

                                                                                                                                                                                                        When looking at several options within the reflective display, you can find three significant candidates: E-ink display and  LCD. As they all carry different characteristics, you should look at the specific application to understand the power-efficient one.

Microtips Technology, a US-based electronic display manufacturer, is pioneering the development of capacitive touch panels featured with specialized coatings. They manufacture PCAPs for extensive use cases in different industry domains such as healthcare, education, corporates, banking, and research.

Beyond Step Counting: Exploring the Diverse Applications of Smart Wearables

Microtips Technology / / AMOLED

Smart wearables have transformed how we monitor our progress toward our fitness and health objectives. These gadgets were initially recognized for their step-counting capabilities but have undergone significant changes because of technological improvements. Incorporating Microtips technology is one such development that has cleared the door for several uses beyond straightforward activity tracking. We shall explore the different applications of smart wearables with Microtips technology in this post, highlighting its potential to improve our lives.

Recap,

In our previous blog, EVOLUTION OF SMART WEARABLES WITH AMOLED DISPLAYS, we clearly stated the edge of how smart wearables have created a user-friendly interface. Smart wearables’ user interface and functionality have experienced tremendous improvement, making them more simple to use and intuitive. AMOLED display manufacturers now understand how critical it is to deliver a smooth user experience, enabling people to engage and manage their smart gadgets easily.

The Future Of Smart Wearables

The most cutting-edge wearable technology includes holographic computers in the form of Google Glass, Microsoft’s HoloLens, virtual reality (VR) headsets, and AI hearing aids. A disposable skin patch with sensors that wirelessly send patient data to a control unit in a healthcare institution illustrates a less complex type of wearable technology.

A wide range of wearable technology is available today, from smartwatches to fitness trackers like the Fitbit Charge, VR headsets, smart jewelry, web-enabled spectacles, and Bluetooth headphones. Wearables function differently depending on the area they fall under—such as health, exercise, or entertainment. The main components of wearable technology are microprocessors, batteries, and internet connectivity, which enables the synchronization of the acquired data with other electronics like computers or mobile devices.

Smart wearables have made their existence friendly by offering various advantages. They have the potential to measure stress levels and provide insights into anxiety patterns. By monitoring heart rate variability and other physiological markers, these devices can detect stress levels and offer personalized recommendations for stress management techniques. Wearables can remind users to take breaks, practice breathing exercises, or engage in mindfulness activities, promoting mental well-being throughout the day.

Not only this, but Smart wearables also offer a wealth of health monitoring capabilities beyond step counting. They can now track vital signs such as heart rate, blood pressure, oxygen saturation, and electrocardiograms (ECGs). These wearables enable individuals to monitor their health in real-time, providing valuable insights into their overall well-being. Additionally, they can detect irregularities or potential health risks, notifying users to seek medical attention promptly.

Why AMOLED Display a Preferred Panel For Smart Wearables

Active-Matrix Organic Light-Emitting Diode (AMOLED) displays are the ideal panels for smart wearables due to their significant benefits. The first benefit of AMOLED displays is their excellent image quality, which includes vivid colors, deep blacks, and high contrast ratios for a lifelike viewing experience. This is essential for smart wearables since their screens are frequently small, and AMOLED technology ensures that every pixel produces crisp, vibrant content.

Second, because each pixel in an AMOLED display is separately lighted and may be entirely off when displaying nothing but black or dark material, they are power-efficient and prolong battery life. This is crucial for smart wearables since continuous use requires long-lasting batteries.

The wearable technology’s aesthetics and ergonomics are improved by its flexibility, which enables curved and edge-to-edge designs. Overall, as per AMOLED display manufacturers, AMOLED displays are the favored option for smart wearables due to their greater picture quality, battery economy, and design adaptability, improving the aesthetics and usefulness of these gadgets.

Ending Thought

Smart wearables have advanced significantly from simple step counters to decent smartphones with various functionality. In-depth health monitoring, sleep analysis, stress management, sports performance enhancement, and personal safety capabilities are now available on these gadgets. Smart wearables provide people the capacity to take charge of their health, make educated decisions, and enhance their quality of life by gathering and analyzing data. We may anticipate more fascinating uses and breakthroughs in the field of smart wearables using cutting-edge touchscreen panels produced by Microtips as technology continues to improve.

KEEPING UP THE ELECTRONIC DISPLAY HEALTHY: TIPS TO FOLLOW

Microtips Technology / / Others, Touch Panel

“A click on a phone, a kiosk, or a laptop screen gives the pleasure of turning out of keys. But the screens must be well managed and maintained for longer life expectancy”.

We utilize electronic displays daily in today’s environment, whether on cell phones, laptops, televisions, or tablets. We can’t imagine a day without them because they have become essential to our existence. To ensure that they last a long time and continue to serve us effectively, these displays need to be properly cared for and maintained. We’ll review maintenance advice for your display in this article to ensure a healthy one.

ABOUT ELECTRONIC DISPLAYS

Devices that use electronic technology to display visual data are called electronic displays. They are in various gadgets, including mobile phones, tablets, televisions, computer displays, digital cameras, and many more. Images are displayed on electronic displays using a variety of technologies, including liquid crystal displays (LCDs), light-emitting diodes (LEDs), organic light-emitting diodes (OLEDs), and others.

We depend on electronic displays to get information, communicate, and amuse ourselves. Thus, they have become an indispensable aspect of our life. They have many advantages over conventional display techniques, including being lighter, more energy-efficient, and more adaptable. Electronic display evolution has changed how people engage with information and given rise to many new technologies and goods.

ENSURING THE HEALTH: TIPS TO FOLLOW

To be precise, it is good to ensure proper maintenance of displays. Touch Panels should be managed with good care. All electronic devices deteriorate over time, but video displays age faster because qualitative changes are obvious. The deterioration of the precise mechanical configuration and alignment of some assemblies in the display, as well as variations in some electrical components with time, are the causes of aging. Frequent physical handling during shipping or turning the display on and off will hasten this deteriorating process. The user controls allow for the correction of some of these effects. If you often tweak the controls, the changes could happen so gradually that you won’t notice them. Here are some tips to follow to ensure the good health of your electronic displays. 

1. DISPLAY CLEAN-UP:

Electronic displays frequently have dirt, dust, and fingerprints that can reduce the brightness and clarity of the screen. You can use a microfiber cloth or a special screen cleaning solution to clean your display. Refrain from using strong materials or chemicals that could scratch or mark the display. To prevent a buildup of filth and debris, you should clean your display frequently.

2. ADJUSTING THE BRIGHTNESS

Maintaining your display requires regularly adjusting the brightness. A too-bright or dark display can strain the eyes and make reading difficult. You can utilize the display settings found in your device’s settings menu to change the brightness of your display. Your environment will determine the best brightness, so make the necessary adjustments.

3. APPROPRIATE STORAGE

Maintaining your device’s display depends on how you store it. You should keep your device out of direct sunlight and extremely hot or cold conditions in a cool, dry location when not in use. Your device’s display may become damaged if you keep it in a moist or humid environment, and being in a hot environment may cause it to overheat. Also, you should keep your gadget away from other items that can scratch or harm it.

4. PROTECTING YOUR SCREEN

Protecting your display from damage is essential for keeping it in working order. To protect your device’s screen, touch screen display suppliers suggest using a case or a screen protector. Scratches, cracks, and other types of damage can be avoided using screen protectors, which are inexpensive and simple to install. You can also use a case to protect your gadget from drops, bumps, and other mishaps.

5. REST PERIODS

Taking breaks when using your device to keep your display healthy is crucial. Long-term screen staring can result in eye strain, migraines, and other health issues. You should take breaks from using your smartphone, look away from the screen, and rest your eyes to avoid these problems. The breaks are also essential for the display to stay at odds against stress and strains.

DISPLAY SCREEN MANAGEMENT

Electronic displays have become an integral part of our daily routines as our lives become increasingly digitized. From smartphones to computer screens and televisions, we rely on these devices to stay connected, informed, and entertained. 

Microtips Technology suggests that the display must be maintained for your device to remain functional and healthy over the long run. Regular cleaning, brightness adjustments, damage prevention, correct storage, avoiding direct sunlight, taking breaks, and heat protection are all crucial maintenance procedures for your display. By paying attention to these suggestions, you can ensure that your display stays in good shape and effectively serve you for a long time.

DYNAMICS OF DISPLAYS: UNDERSTANDING AMOLED AND PMOLED

Microtips Technology / / AMOLED, OLED, PMOLED

Over the past few years, display technology has progressed in various ways, leading to more options for gorgeous displays that make your finished product appealing and straightforward to use.

The decision to use a display that still looks beautiful after years of use, however, is what helps you create your reputation and retain customers if your end product must work in challenging situations. With our previous blog, OLED DISPLAYS: AMOLED VS PMOLED, we had the option to explore, i.e., OLED.

OLEDs differ from Liquid Crystal Displays (LCDs) in that each diode can be fully disabled, producing a pitch-black display. A backlight is necessary for LCDs (often LED or fluorescent), and the light shines through the LCD to create a color image on the display screen underneath the glass.

OLED screens are more svelte than LCD ones. Since no power is supplied to OLED pixels that display black, the power savings for OLED are seen when an OLED phone screen shows an always-on clock against a background of darkness. Thus, a “dark” theme for wallpaper and other elements will conserve battery life for smartphones with OLED screens.

OLED is a revolutionary technology noted for its thin, compelling, and bright displays. OLEDs are categorized into two types.

i). AMOLED

ii). PMOLED

Let us learn more about the types

ABOUT AMOLED

AMOLED stands for Active Matrix OLED. There are no display size limitations with AMOLED. AMOLED uses a lot less energy than other display technologies. Incredible performance is offered by AMOLED display providers. Unlike other display technologies like LED or LCD, it is more flexible, lighter, and thinner.

Because the AMOLED is TFT driven and has a storage capacitor, it can display big displays with high resolution. Since AMOLEDs have a storage capacity and can display high resolutions more easily than PMOLEDs, they can be easily regulated. They have no storage or resolution limitations at all.

Due to its exceptional performance, smartphones, computers, and televisions frequently utilize AMOLED.

ABOUT PMOLED

PMOLED stands for Passive-Matrix OLED, which depends on how the display is driven or controlled. A PMOLED has a straightforward control method that progressively controls each display row (or line) (one at a time).

You can control each and every line of the PMOLED display’s on-screen display using its control scheme (one by one). Since there is no storing capacitor within, the majority of the pixels in the lines are off.

You must utilize extra voltage in order to make the display brighter and account for it. For instance, if you have 10 lines, you must complete each line 10 times as bright. The number of lines may vary depending on the display needed, but an average ratio is needed to highlight the lines.

Although inexpensive, they are also simple to build and less effective than anticipated.

AT A GLANCE

Microtips Technology is a major OLED display manufacturer situated in the United States. In 2018, the business unveiled a 1.39-inch round AMOLED display with a 400 x 400-pixel resolution. Additionally, their 5.49′′ AMOLED Display Module (Microtips MTD0550AZOM-T), which offers a resolution of 1080(RGB) x 1920, has significantly contributed to the field of OLEDs. A sizable audience has lavishly complimented each of the improvements.

E-PAPER DISPLAY: THE PROS AND CONS

Microtips Technology / / E-Paper Display

The majority of people assume that e-readers are electronic reading devices with LCD screens. Since most smartphones, tablets, and laptops utilize such technology. E-Ink, on the other hand, is a different kind of e-reader screen technology that is available. Tiny microcapsules containing pigment particles with electrical charges make up E-Ink screens. Then, two conductive plates are placed on top of the microcapsules. The particles move and alter the screen’s look when the plates are positively or negatively charged.

The development of the E-paper is definitely a great success due to the various ease that has already been praised in our previous blog, WHAT ARE THE ENVIRONMENTAL BENEFITS OF E-PAPER?

In today’s blog, we will discuss the pros and cons of an E-paper display.

Before starting, let us have a recap and understand the technicalities behind E-display.

A QUICK RECAP’

Electronic paper, also known as e-paper display, electronic ink or e-ink display, or electrophoretic display, is a form of digital technology that imitates the eye-catching visuals of your daily newspaper. Among these different names, “e-ink” alludes to the company “E Ink Corporation,” which developed the electronic ink that helped make these displays popular.

The word “electrophoretic displays” refers to devices that operate on the electrophoresis principle. The name “e-paper displays” refers to how similar these displays are to newspapers, which provide clarity to the information and have a variety of uses.

APPLICATIONS OF E-PAPER DISPLAY

E-paper displays have been available for a while now. Due to their low power, low weight, and flexible characteristics, e-paper displays have found use in various applications across several industries. They were first primarily employed by e-book readers. The other primary uses for electronic paper are:

1. E-readers

E-readers are the most widely used e-paper application. Because of its high reflectivity, broader viewing angle, and extremely low power consumption, electronic paper display technology is commonly employed in e-readers.

2. Digital Signage

For digital signs and public information displays, electronic paper is ideal for indoor and outdoor applications.

 3. Supply Chain Management

Supply chain management extensively uses e-paper displays to track and monitor real-time items. The monitoring labels can increase transparency and visibility in logistics monitoring.

4. Retail Labels

Since they offer a less expensive alternative to conventional paper label technologies, electronic paper displays are commonly employed in retail labels. 

E-paper displays are also frequently used in menu boards, price boards, wayfinding, gas station price signs, digital ID badges, and transit signage.

PROS OF E-PAPER DISPLAY

E-ink technology has advanced significantly, yet it still lacks the responsiveness of LCD, LED, and other standard displays. E-ink displays reportedly take “15 to 20 seconds to power up completely,” not to mention a few seconds to wake them from sleep mode, according to users. The pros of E-paper display are as follows.

1. Easier on the eyes: E-ink screens have many benefits compared to other display types. They are easy on the eyes because, among other things, they more nearly resemble printed paper.

2. Less Power Consumption: E-ink displays also use less energy than other panel types, such as LCDs, because of their lower power requirements. This is so that the e-ink only consumes energy when the screen’s image is changed. On the other hand, LCDs need the power to keep their screens lit. This makes e-ink displays a far more cost-effective option, especially for gadgets like e-readers that are used for extended periods of time.

3. Readable in direct sunlight: E-ink displays are also easily readable. This is because e-ink pigments reflect light rather than emit it. On the other hand, LCD panels usually fade in the sunshine.

4. Adaptable: E-paper displays can be used in several applications since they are adaptable. E-ink is being used, for instance, to create smartwatches and other wearable technology.

CONS OF E-PAPER DISPLAY

1. Low refresh rate: The low refresh rate of e-ink is one of its most significant drawbacks. This means that updating e-ink displays can be a lengthy process. An e-ink display, for instance, may take several seconds to transition from black to white. Users who are used to the immediate satisfaction of LCD screens may find this frustrating. For individuals just reading text, though, the low refresh rate won’t be a significant problem because they will only frequently alter the image on the screen.

2. Limited color palette: Another drawback of e-ink is that its color options are only limited to black and white. While some devices employ color e-ink, they are less prevalent than those with monochrome screens. This restriction results from the way e-ink functions. The colors that can be exhibited are constrained by the fact that the pigments in e-ink can only be orientated in two ways. However, the black-and-white color scheme is sufficient for many users. And because it might lessen eye strain, some users enjoy it.

FUTURE OF DISPLAYS

E-Paper displays are readily available nowadays from many different brands. Electronic paper displays (EPD) have lately been made available by Microtips USA for commercial and industrial applications. Screen sizes for these bistable displays range from 1.49 to 13.2 inches, with resolutions ranging from 152(H), 152(V), to 960(H)680(V) pixels.

They guarantee exceptional readability and visibility from all viewing angles and provide all the advantages mentioned in this essay. The MicroTips team will assist you in comprehending these e-paper displays’ benefits and usefulness for your applications. You need to contact the staff immediately to review your needs.

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