medical lcd displays free sample

Established in 2010, Topfoison has devoted itself to the manufacturing and development of high-quality products for the Wearable device, Smart Watch, VR, Medical device, Industrial LCD display including Color LCD modules/OLED/LCD display/Round lcd screen/Round AMOLED/ Square transflective lcd screen/ IPS full wide display/ 1080p fhd AMOLED and 2K 1440p lcd. Topfoison focus on1.22-7.0 inch small size displays, all the products produced in our company enjoys the most advanced production craft and technology as well as the strictly ISO quality management system.

As digital signage supplier committed to digital signage solutions,and founded in 2004. We are major in produce Digital signage player and Digital signage displays,to match the requirement of our customers in the human-computer interface applications,advertising display and customer customized display equipment;

TRU-Vu medical grade displays and medical touch screens are certified to the latest IEC and UL 60601-1 4th Edition standards. They are used in a wide range of medical OEM equipment and systems, and hospital operating rooms. You will also find that  urgent care centers, and medical diagnostic equipment benefit.

Each medical display and medical touch screen monitor comes with a medical grade power supply (internal or external). It also includes a hospital-grade Green Dot power cord. Our DM-Series clinical review monitors provide DICOM Part 14 compliant calibration.

Most importantly, we deliver the highest quality and reliability.  Consequently, TRU-Vu medical displays and medical-grade touch screen monitors are used by leading hospitals, clinics, institutions, laboratories, and private practitioners throughout the world for:

The enclosure of a monitor is what surrounds the screen and all other components. Enclosures offer different looks, feels, and advantages and disadvantages.  All TRU-Vu medical-grade monitors and touch screens feature Zero-Bezel enclosures.Since monitors without bezels use a single, solid surface, they are easy to clean. Most importantly, you won’t have to worry about contamination or germ build-up with bezel-free monitors, as there is no where for germs to hide. These hygiene advantages are why so many modern medical LCD monitors and medical touch screens feature a zero bezel monitor design. In addition, a frameless monitor can be built as4:3 aspect ratioor16:9 widescreen monitors.

With over 200 LCD monitors and touch screens on our site, selecting the ideal monitor solution may be a bit overwhelming.To help narrow-down the choices, check out ourAdvanced Search Tool.For example, this enables you to filter by your own specific search requirements.

Remember, our team members are ready to help! We can determine the exact solution that will meet your specific healthcare monitor needs . Certainly, TRU-Vu will help provide crystal-clear images for your medical  projects. Call(847) 259-2344today to speak with one of our specialists. Above all, we will listen.  It’s one of the things we do best.  Our professional advisors will ensure the medical monitor or touch screen you receive will be and do everything you had hoped it would!

UL 60601-1and IEC 60601-1 standards. Count on us when it matters.  We use high quality, industrial-grade components for long-term reliability on our medical lcd monitors. Our medical displays are designed and built for 24/7/365 use specifically for healthcare and medical imaging technology. We are also proud to find solutions for medical imaging systems OEMs.

Our medical touch screens and medical LCD monitors don’t just offer brilliant displays. We also design them to be hygienic and easy to clean. Most importantly, Our Zero-Bezel surgical monitors have frameless enclosures to ensure a germ-free display. Hygiene is especially vital for medical touch screens, which are handled by multiple people throughout the day. However, standard LCD monitor enclosures allow germs and dust to accumulate around and under the bezel. Cleaning is difficult and time-consuming. Consequently, Bezel-less frame medical monitors and medical touch screen monitors eliminate this problem.

To mitigate this concern, we offer Medical-Grade monitors and Medical touch screens that ward off contaminants. The True-Flat, bezel-less enclosures have a single pice of seamless glass across the entire front of the medical display. The bezel-less design eliminates potential germ build-up along the outer edges, common with standard LCD monitor enclosures. See ourmonitor cleaning guidelines, andmonitor COVID-disinfecting guidelinesfor more details.

All of our medical touch screens utilize P-Cap touch screens and feature True-flat, Zero-Bezel frameless enclosures. Therefore, you may activate the screen with either bare fingers and while wearing surgical gloves. Learn more about our medical monitors and their advantages for healthcare by talking to our staff today.  See more about the Medical Industries we serve and the Medical Cart monitors we provide.

TRU-Vu Medical-Grade displays and Medical-Grade touch screen monitors feature a Zero-Bezel, frameless front face which is rated IP65 splash-proof.  This ensures protection against dirt, dust, moisture, blood and other fluids, and protects the monitor from damage.

We deploy TRU-Vu medical monitors in surgical operating rooms, on medical carts and for telemedicine systems. Additionally, use them in military field hospitals, universities, and laboratories and clinics. They are also deployed for patient monitoring, clinical diagnostic imaging equipment, and medical imaging solutions.

We are happy to put your brand or logo on the monitor for your healthcare imaging solution. Learn more about Private Label Medical Monitors and custom OEM opportunities.

The medical industry is one of those sectors that benefits from the advancement of the technology. The use of the latest liquid crystal displays significantly improves the patients’ welfare and the overall hospital ambiance.

In bigger hospitals, proper coordination is needed for a well-organized operation of various departments. These include moving the patients efficiently. LCD monitors are being used in order to display related information about patients and improve their flow as well as increase their family’s awareness about their locations. It also shows which rooms are available, along with other important information.

Moreover, LCD screens could also function as a stand-alone TV and as a computer monitor. With these, it is capable of internet and local area network connectivity. In a hospital or any other bigger setting, such connectivity is useful to monitor several LCD screens remotely.

The modern day medical system are already utilizing the latest LCDs for a more detailed and accurate diagnosis. An example of this is a procedure called Mammography.

Advanced LCD monitors are now being used in hospitals and other medical facilities to deliver reliable medical-grade visualization and surgical displays. Some are even equipped with OR integration technologies.

LCD screens are being used in wards in order to monitor patients and their corresponding beds for information. Most hospitals have central monitor in the whole ward that can be used in case of any emergency along with other information in the area.

In the waiting rooms of most hospitals, LCD monitors are being used to share important medical information such as how to avoid catching dengue with corresponding images or videos. This acts as a way to inform or educate the visitors. LCD screens also acts as a TV and thus, provides entertainment in the waiting rooms of hospitals.

Many hospitals nowadays are using LCDs as digital navigation tools to lead their visitors around the area. Many of these have even touchscreen features.

Medical-grade LCD displays are markedly superior as compared to those which are designed for commercial use for a number of reasons. First, it underwent an inherent component and manufacturing quality process which are compliant to highly rigorous medical standards. It also passed very sophisticated QA control systems and software compatibility procedures.

Medical displays are also designed to have greater luminance stability throughout their lifetime. This gives high quality image presentation and diagnostic yield to the clinician. Moreover, it extends the life of such costly device. For a better image presentation, it features higher maximum luminance in contrast to the consumer-grade monitors. It has also higher contrast ratio and better grayscale reproduction.

With all of the above-mentioned features, medical displays are ideally suited to the demands of a hospital setting or any other medical facility. There is no doubt that they are superior to those displays which are designed and manufactured for commercial use.

The availability of a more advanced digital technology such as the latest LCD screens has changed the way medical facilities and hospitals operate. It plays an integral part in which the data about patients are being used and distributed. Because it is now a necessity in these amenities, the quality of such products must be considered carefully. iTech Company offers reliable

This study did not show any significant difference in image quality between a standard 2-MP color LCD display and a medical-grade 2-MP monochrome LCD display, neither using the contrast-detail phantom nor in the visual grading study. Our findings are in accordance with several studies that have shown similar performances for color and monochrome displays in a variety of clinical tasks such as brain CT,,2 was acceptable provided that the ambient illuminance was low.

The main purpose of calibrating a monitor according to DICOM part 14 is to obtain similar image presentation on all displays. A calibration distributes the total contrast of the display equally across the entire grayscale and objects will thus be presented with the same contrast regardless of whether they are present in bright or dark parts of the image. When the task is to find known objects in an image, such as targets in a contrast-detail phantom, the window/level controls can be used to optimize image contrast. The display’s contrast characteristics becomes less important and the noise properties become more important—noise from the image detector and noise from the image display. However, this does not mean that calibrating a display is meaningless. Clinical images have little resemblance to images of a contrast-detail phantom in that pathology might be present also in the bright or dark parts of the image. A consistent display of images is even more important when, for example, a current image is compared to a previous image on another display. Any differences between the images should be caused by the imaged object and not by the displays.

The main advantage of medical-grade monochrome displays is their high luminance, which makes it easier to see the entire grayscale from black to white in an image. In a recent report,

The major drawback of color displays is their lower maximum luminance—143 cd/m2 in our study compared to 295 cd/m2 for the monochrome display. A low luminance has been stated to increase the time for diagnosis.

The tests with the contrast-detail phantom showed very small differences in image quality between the two types of displays. There was in fact a larger difference in image quality between the flat-panel detector and the storage phosphor plates (Fig. 2). It might thus be more appropriate to choose a better (more expensive) imaging system such as a flat-panel detector and use (cheaper) color displays than the opposite. Irrespective of the detector being used, there was a large interobserver variability, similar to what has been reported previously.2.

The visual grading study using clinical images showed significantly higher image quality for the 2-MP monochrome display for reproduction of pedicles and intervertebral joints; and lower for reproduction of spinous and transverse processes. Overall, there was no significant difference between the displays in the visual grading part of the study.

Free adjustment of window width and level was allowed in our study, as that is the way radiologists work in everyday practice. Windowing is easily performed by moving the computer mouse. If this type of image processing is not done, the full potential of digital imaging is not used. We consider image adjustment and manipulation to be a natural part in reading a digital image, and indeed a necessity to view all information in the image, and consequently a comparison between monochrome and color displays without the use of free adjustment of window and level was not included in this study. This is probably one reason why the 2-MP color display performed so well. All information in the image could be placed in the middle (gray) area of the contrast span where the two display types were almost equal. A drawback is that the user’s performance efficiency might be reduced.

To let all PACS stations in a radiology department have the capability to display all types of images, it is necessary to equip them with display units that are able to display also images with color information such as Doppler ultrasound, 3D volume rendered CT images, PET images, and SPECT images. It is costly to furnish an entire radiology department with the more expensive monochrome displays, and color displays might also, for economic reasons, be a better alternative. The new users of digital radiological image information, the clinicians, usually opt for color displays, which may be a conscious cost-saving decision or simply the effect of old habits.

The spatial resolution of the displays was not evaluated specifically in this study because the two displays used in the majority of tests had the same resolution. When used without magnification, the 3-MP monochrome display showed a trend toward higher image quality compared to the 2-MP color display. This is not surprising because the images were scaled to fit the display in that particular test. None of the displays managed to show all of the five megapixels that the test image consisted of, but the 3-MP display did show a larger proportion of the image information than the 2-MP displays.

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The 2018 iPhones with the JDI LCD panels will likely be the direct successors to the recently released iPhone 8 and iPhone 8 Plus, which are currently outfitted with LCD displays.

MasterCard has clarified that the card is not very different from a regular credit, debit or ATM card, except for having an embedded LCD display and a touch sensitive button for the holder of the card to generate an OTP.

The OpenGL SC application programming interface (API) runs on SmartFusion"s integrated ARM processor, enabling developers to easily create graphical user interfaces (GUIs) for standard or customized LCD displays. The LCD display reference design is architecturally partitioned, with the computationally intensive portion of a customized display controller implemented within the SmartFusion flash-based FPGA fabric.

Offering similar viewing angles and a comparable visual experience to HTC s current 3.7-inch displays, according to Peter Chou, HTC s CEO, the Super LCD displays are even purported to improve battery life.

From inside the apartments, residents can check who"s hitting the buzzer downstairs via a full-color security camera that displays goings on at street level on an LCD display.

* Although the term "DICOM" is used, this product is not medical equipment. Do not use displayed images for medical purposes such as examination or diagnosis.

When installing multiple displays, the Cloning function lets you use a USB memory (or LAN network) to copy the settings of a parent display to other units, thus greatly shortening the setup time.

Playlists and schedules created with Content Management Software can be transferred to displays with USB memory or via LAN. Synchronized playback on multiple displays is also supported.

Compatible with Multi Monitoring & Control Software for addition of new functions, such as automatic searching for map displays and registered devices. Displays and peripheral equipment on the intranet can be controlled and their status can be monitored. Also error notification and error indication can be detected by an indication monitoring function (for a fee) for improved maintenance.

Smart cities with LCD are the best example of how the digital revolution impacts the urban population, creating essential social capital, wellness for the people, and better life quality. Networking technology helps a smart city to satisfy the needs of its citizens, institutions, and companies. For example, outdoor LCD displays are among the most vital tools of communication and networking technology, which helps create a smart city. Outdoor LCD display helps communication, mobility, and the environment, which is helping create smart cities that are sustainable and economically dynamic.

Outdoor digital signage is changing cities rapidly to urbanized areas around the globe. While a good percentage of them are used by businesses trying to increase their revenue, LCDs are becoming a vital tool to make the essential shift to smart cities and drastically contribute to their growth. This type of technology plays a pivotal role in the path to intelligent cities that develop in parallel with technological and environmental global trends.

An outdoor LCD display is cost-effective digital signage to improve advertising and communication. It is a digital billboard that is necessary to shift to smart cities and a channel to communicate with people, combining information flows and communications networks.

Outdoor LCD display improves the quality of city life in various fields. It provides information regarding traffic, road networks, parking, public transportation, services for citizens and tourists, helping them to monitor and notify risky or dangerous situations, healthcare, and much more.

Outdoor LCD displays are a vital part of smart cities, enhancing efficiency and taking the user-friendliness of the area to the next level. Digital signage is rapidly modernizing the cities infrastructure. Outdoor LCD video walls are an excellent information-providing platform, displaying the content easily controlled by a centralized signage solution.

Outdoor digital signage displays can also be a significant digital source of information regarding safety and emergency events. State-of-the-art outdoor advertising screen can, when needed, be transformed to non-commercial use and act as a safety beacon for various emergencies.

Digital signage networks improve safety, sharing information about hazardous events and evacuation if needed. If an emergency occurs, these displays can guide citizens towards safe locations.

In challenging times like these, when humankind is fighting a virus that has paralyzed the planet, staying safe is more important than ever. Safety increases with spreading valuable information, and LCD outdoor displays are a perfect tool to provide news updates, live feeds, safety measures, and comfort to people living in cities.

Outdoor LCD display shares environmental monitoring information, air quality detection, weather forecast, the pollution level, traffic conditions, transport schedules, and any other information needed for quicker, safer, and more sustainable daily living.

LCD outdoor displays are much more than just advertising billboards with relevant information and guidance. They provide information about cultural events and share informative and entertaining content on the spot, thus being an excellent tool for creating ambient that becomes a part of the city landscape.

An outdoor LCD display can be a channel to raise awareness about environmental and energy efficiency issues, economic sustainability, prudent management of resources, sustainable growth, reduced waste, and pollution. Outdoor digital signage displays are changing urban living, pushing companies to create better solutions constantly.

Uniview, a professional manufacturer and global supplier of LCD digital signage, is one of the most successful in tackling this vital mission. We contribute to the goal with high-brightness LCD digital displays for outdoor applications in the retail, transportation, and hospitality industries. Our screens are durable and versatile, providing content unhindered by lighting conditions. LCD displays are model-custom fit to engage, with integrated solutions for remote management and content updates distribution.

Uniview is a global supplier of functional and stylish LCD digital signage, providing billboards in over 100 countries. Best known for ingenious product design, technical innovations, and a flexible control system, our custom services are tailor-fit for concrete applications, requirements, and demands. These LCD displays exceed industrial and international standards, which makes them a reliable long-term investment. Our slogan “Change for Better” speaks about our vision -trailblazing the path to healthier, sustainable city life, with state-of-the-art people and environment-oriented new technologies.

Research shows that the average American worker uses a computer for up to 7 hours a day for work, recreation, or both. Most of us have never realized the degree to which we’re regularly exposed to digital displays. That exposure takes a toll on the health of your eyes, as well as your overall health, over prolonged periods.

Before we talk about how the right computer monitor can protect your eyes, we need to first understand how digital displays can potentially degrade your vision over time.

Computer companies are beginning to address the concerns and dangers that digital displays pose to your eye health. When certain features are integrated into digital displays and computer monitors, your eyes can be successfully protected from digital eye strain.

To remedy the constant exposure you receive to digital displays in everyday life, it’s critical that you take breaks to give your eyes time to recover, reducing the effects of eye strain. Follow the 20-20-20 rule: every 20 minutes, you should focus your eyes on a point 20 feet away from the computer screen for a total of 20 seconds.