connecting tft lcd screen to via hdmi computer manufacturer

None of them. That part isn"t made to interface with VGA, DVI, or HDMI; it uses LVDS. You can buy boards that will convert any or all of those to LVDS (DVI and HDMI are easier since they"re already digital; VGA is harder since it"s analog). With a board that outputs LVDS it"s simply a matter of wiring up corresponding pins: Clk+/-, D0+/-, D1+/-, etc. The good news is that your LCD has its own backlight driver onboard, and it"s 6V-20V tolerant, so you just need to give it some power and a 3.3V or 5V enable signal, no external inverter needed. It also has an I2C bus capable of providing EDID information, so you can pass that data through instead of having to program your adapter board with a correct EDID to enable a PC to detect it properly.

Displaytech HDMI conversion boards easily interface HDMI into an RGB or LVDS TFT display. The HDMI conversion boards have been developed to provide an all-in-one solution - simply connect your single-board computer and supply the Displaytech conversion board with 5V power.

These TFT LCD display modules feature an HDMI receiver and provide RGB or LVDS display data for Raspberry Pi, Beagle Bone, or any other single board computer (SBC) application that supplies an HDMI video input.

New HDMI-interface display can be easily connected to Raspberry Pi or other mini computers. This is an archive article published 06/22/2017. Some information may no longer be up to date and in line with the current state. Please contact us in case of interest.

HDMI (high definition multimedia interface) can be nowadays found on the output of every PC and mainly – also on the output of several industrial mini PC and embedded systems.

Display can be usually connected to a small SBC (single board computer) in various ways, but why not use the simplest one? SBCs with Android OS usually contain HW and SW resources to make a display connected through HDMI work by the Plug´n´Play method.

From this point of view, it´s only gratifying that the display producers’ offer is getting better in this field as shown by the new display WF50B from company Winstar. It is a 5“ display with HDMI interface (TFP401 controller), decent 800x480 px resolution and a resistive touch panel (with USB interface). Version with a capacitive touch panel is in development.

The display WF50BTIFGDHTX has a 40-pin connector (header), HDMI connector and it´s also possible to buy optional HDMI connector WWHDMI-00# for a direct connection to Raspberry Pi.

When you issue article on your website, please give its source: https://www.soselectronic.com/articles/winstar/tft-display-winstar-wf50b-with-hdmi-interface-can-be-connected-to-almost-anything-2009

Your monitor accepts a composite video input. This is an older analog standard that was pretty ubiquitous on TVs, VCRs, and DVD players in the late 80"s and throughout the 90"s, and is probably not as common as it once was. I"m not sure composite video output was ever common on laptops or graphics cards.

But there are dongles that convert from any video standard to any other video standard these days. And there is such a thing as an HDMI to Composite converter. Just enter "HDMI to Composite (RCA) Converter" in your favorite search and you"ll see plenty of options. This is the first thing that came up in a search, but there"s no model number or anything and I can"t vouch for it. Just an example.

Why is composite low quality? Composite combines the color information and luminance (brightness or black-and-white) into a single signal, which has to be "extracted" by the other end. The color information distorts the luminance information, resulting in color fringes, colors that don"t look good next to each other on the same line, and high-resolution black and white stuff like text smearing into color. The Wikipedia article on composite artifact colors explains.

In this model of the HDMI LCD display, on the display board, we have a few additional connectors. You can connect an external keyboard and there is also a Backlight PMW & Power connector for the brightness setting. As many industrial computers have the PMW output, the system can control the brightness of the display, so you can setup one setting internally but also provide it from an external source. Our displays are high brightness so it may be useful during the day having them as bright as possible but lower the brightness during the night, and for that purpose this connector may prove especially useful.

Another distinctive feature of our HDMI LCD displays worth mentioning, apart from the IPS and high brightness, is the touchscreen. All touchscreens used at Riverdi, are our own design and they are all industrial grade. That means they can be used in a noisy, industrial environment, they can be operated with gloves, and they can even work covered in water as they can work with thicker glass. You can apply the additional glass yourself, or we can do that for you. The cover glass thickness is up to 15 millimetres, and you can use it in the outdoor environment as it meets vandal-proof requirements. The capabilities are already built in so we will not change the touchscreen itself, just change the firmware.

All modern laptops can connect to an external display, such as an LCD monitor, projector, or TV. The external display can extend your viewing area, giving you more space for applications, or mirror your laptop screen (show the same thing on both screens).

To connect the external display to a laptop, locate the correct port on the body of your laptop. Most laptops utilize on or more of the following connections: HDMI, DisplayPort, DVI, or USB-C (Thunderbolt 3). Some older laptops use VGA. These various connections are shown in the images below.

Once you plug the display into your laptop, you may be required to press one or more keys on the laptop"s keyboard to "activate" the external display. This shortcut key combination varies depending on the laptop, but is often one of the following: hold the Fn key, and then press F3, F4, F5, F7, F8, F9, or F10.

The activation function key usually has a picture of a monitor on or above it. Consult your laptop"s manual if you can"t find the key. If you are still having trouble, or you need to download a copy of the manual, visit the laptop manufacturer"s website.

Extend - The external display extends the primary. Application windows can be moved from one display to the other if you click-and-drag the window"s title bar.

If your laptop connects to a docking station, there should be several video ports on the back of it for a monitor. However, the types of ports varies from brand to brand. Depending on the docking station, the laptop may have to remain open for a dual monitor display.

In many cases, yes. If only the laptop"s screen is broken, an external monitor usually still works with your laptop. However, if there are other malfunctioning components, such as your video hardware, the external display may not work.

It is such a waste to only use the LCD for desktop computers. Connecting it up with a laptop PC has many merits for the user and can also bring out the latent power of the laptop.

Most laptops have a handy "external display output" port. It can be used in the home to transmit videos played on the laptop to a large screen TV or, in the office, to connect up with a projector for presentations. In fact, there must be many users who already use it like this. However, people tend to use just the laptop in their daily routine and there are probably not so many cases where they use the external display output.

A laptop can be put to more effective use if it is connected to an external LCD. The photograph shows an EIZO 23-inch wide-screen LCD connected by HDMI to a Sony VAIO C laptop (VPCCW28FJ/R).

This time we would like to suggest a style that can be used in both the home and the office, where a laptop and stand-alone LCD remain connected. A laptop already has an LCD, but using it with an additional stand-alone LCD offers various merits. Not only does it make the laptop environment more pleasant and convenient, it also expands the potential of the computer itself, for example by making it possible to use it for new purposes.

Even if the LCD is already connected to a desktop computer and being used for something other than the laptop, most monitors nowadays have two or more video inputs and they tend not to use this capability to the full. It is such a waste to let the laptop"s external display output function and the monitor"s video input function remain dormant, so we would like them to be put to effective use. Of course, we would also recommend the introduction of a new LCD to connect to your laptop.

The biggest merit of connecting a laptop with a stand-alone LCD is that it gives you a large screen and high resolution dual display environment. Standard laptop models usually come with a built-in 13-inch to 15-inch wide-screen LCD with a 1280 × 800 dot or 1366 × 768 dot resolution.

This level of resolution is good enough for basic Windows operations, but it goes without saying that a large, high-resolution computer screen is much more user-friendly. Combining a laptop with one of the latest wide-screen monitors enables you to easily construct a large-screen, high-resolution dual display environment. It is a real boon to dramatically boost the screen size and resolution while continuing to use your familiar laptop.

In particular, the increased vertical resolution makes applications such as web browsers and document display and editing far easier to use. For example, you can do things like check things with the web browser, refer to pdf files, organize data using word processing or presentation software, and create spread sheets and documents without having to change windows.

Another plus is that you can create the luxury of a "watching while" environment where you run the web browser, for instance, on the laptop"s built-in LCD and watch the video content on the large screen of the external monitor. This can be really useful for hobbies too. For example, while playing a game on the large external LCD screen you can check out strategies on websites, post information on a BBS or communicate with other users.

You can smoothly use multiple applications at the same time in the large workspace provided by a dual display. The photograph shows an EIZO 24.1-inch wide-screen LCD, the FlexScan SX2462W connected to a VAIO C. By supplementing the laptop"s built-in 1366 × 768 dot 14-inch wide-screen LCD with a 1920 × 1200 dot 24.1-inch wide-screen, it is possible to show more data at a time, a huge boost to work efficiency.

With two screens it"s easy to have full-screen display of the video content on one screen while you operate the computer on the other. The photograph shows an EIZO 23-inch wide-screen LCD monitor connected to a VAIO C. The VAIO C has HDMI output and the LCD monitor has HDMI input so visuals and sound can be transmitted by a single HDMI cable. The LCD monitor has full HD screen resolution (1920 × 1080 dot), making it the perfect match for HD video content.

At the office, it is very helpful for presentations to use "clone view" for the laptop"s built-in LCD and the external LCD screen. Clone view means showing exactly the same content on two display screens. It is normally set by a graphics driver function.

When holding small meetings it is certainly very convenient to be able to offer simple explanations of the presentation materials displayed on the external LCD, rather than having to ready a projector. Being able to explain about what is displayed on the screen means fewer documents to distribute, helping your office to "go paperless", which can only be a good thing.

We would like to point out here that you should check in advance the maximum resolution that the laptop"s external display output can handle. This can be found in documents such as the laptop"s specifications chart and support information. This is because, although most laptops can handle output up to 1920 × 1080 dots or 1920 × 1200 dots, some slightly older computers have an upper limit of 1680 × 1050 dots or 1600 × 1200 dots.

Even if the upper limit is 1680 × 1050 dots, the LCD can still display the data if its own resolution is 1680 × 1050 dots or higher. In such cases, it is better to use a monitor that offers dot-by-dot display, which displays the input resolution as it is, or enlarged display, which maintains the screen"s aspect ratio as it is. You do not need to worry because EIZO wide-screen LCDs can handle such display methods (although in some cases they do not function properly depending on the laptop computer or input resolution).

This is an example of a low-resolution display on the 1920 × 1200 dot display SX2462W. Since dot-by-dot display outputs the physical "1 dot" of the LCD and the input resolution "1 dot" without enlargement or reduction, it is shown small in the center of the screen (photo on the left). The display is a little blurred if it is enlarged while maintaining the aspect ratio, but this method is suitable for displaying images as they are shown large with low resolution to make the most of the screen size (photo on the right). Many monitors that cannot handle such display methods enlarge the display to full screen regardless of the input resolution. In such cases you have to be careful as the aspect ratio of the image is altered (for example, people appear to be thinner or fatter).

It is easy to set up a dual display in Windows 7. A menu is displayed when you right-click on the desktop. From "Screen resolution" it is possible to detect and align the external LCD, and set details such as resolution, display method and which will be the main display screen.

The "Screen resolution" menu. If the external LCD is not automatically recognized, click on "Detect". After the monitor has been recognized, you can select the display mode from the "Multiple displays" drop-down menu. Select "Extend display screen" to make the laptop screen and the external LCD into a single display screen (dual display).

Select "Duplicate display screen" from the "Multiple displays" drop-down menu to display the same content on the laptop screen and the external LCD screen (clone view). With this drop-down menu you can also set it to display video on one of the LCDs.

You can also call up a settings menu to decide the display method for a projector or external display by pressing the "Windows" and "P" keys. This is a tip worth remembering as selecting "Extension" for dual display or "Duplicate" for clone view here allows you to switch swiftly between them as necessary.

It is also worth noting that Windows 7 has added functions so that dual display can be used more effectively. An active window can be moved to the screen of another LCD by simultaneously pushing "Windows" + "Shift" + "→" (or "←"). It is also possible to maximize the window by pressing "Windows" + "↑", minimize it by pressing "Windows" + "↓", and shift it to the left or right of each screen by pressing "Windows" + "→" (or "←"). Making good use of these shortcuts should enable the efficient placing of windows in the two screens.

In Windows 7, pressing "Windows" + "Shift" + "→" instantly moves the active window from the left-hand screen (photo on the left) to the right-hand screen (photo on the right). Conversely, you can move the active window from the right-hand screen to the left-hand one by pressing "Windows" + "Shift" + "←".

We would recommend a wide-screen model with a screen resolution of 1920 × 1080 dots (Full HD) or 1920 × 1200 dots (WUXGA) as the LCD to connect to a laptop, so that you can make full use of the advantages of dual display. EIZO has an extensive line up of wide-screen LCDs which can offer many benefits, in addition to the merits of a large screen and high resolution, when used with a laptop for dual display.

One such feature is the flexible stand adjustment. For example, the tilt, swivel and height can be adjusted for the FlexScan SX2462W, a 24.1-inch WUXGA model, and the FlexScan EV2333, a 23-inch full HD model. This enables users to adjust the screen position for easy viewing according to their own posture, which not only boosts work efficiency but also reduces physical strain.

The SX2462W stand. The simultaneous adjustment of its tilt, swivel and height enables the optimum screen position to be aligned for its operating environment.

The SX2462W is also equipped with vertical display function, turning the screen through 90 degrees. Vertical display is really handy when viewing elongated documents, graphics or web pages. In addition, when used as a standard horizontal screen, a 24.1 wide-screen, with its 518.4 × 324.0 mm display area, can display two A4 sheets, in other words one A3 (420 × 297 mm) in actual size. As well as being very useful in areas such as graphics or desk top publishing, this is also bound to come in handy when checking large business or accounting documents.

Setting the connected monitor into a vertical position is very convenient when displaying elongated web pages and documents or photographs that were taken vertically

With a 24.1 inch wide-screen like the SX2462W, an A3 sheet (two A4 sheets side by side) can be viewed in actual size, particularly effective for paper-based creative work ITmedia LCD Course II, Lesson 3: Which is better, 16:10 or 16:9 ? – "Screen size / resolution / aspect ratio"

We must not forget that EIZO"s wide-screen LCDs have non-glare screens (processed to reduce ambient light reflection). Nowadays the trend is for laptops to have an LCD with glare (glossy) surface treatment. While these can display images in bright color, reflected ambient light can sometimes be distracting.

A laptop screen is not so large and adjusting its angle can avoid the reflection of lights and so on, however it is not so easy with the large screen of an external LCD. When it comes to the large screen of an LCD in habitual use, a non-glare type that is not reflective is probably easier to see, as well as being kinder on the eyes. A large screen, high resolution and non-glare ensure that you can comfortably continue viewing over a prolonged period of time.

The surface treatment of an LCD makes a difference to the background reflection. Glare panels do not diffuse background light, making it easier to achieve high color purity, but easily reflect the user or lights (photo on the left). If the lights are similarly trained on a non-glare panel they do not have much effect, only appearing as a fuzzy brightness (photo on the right).

Another distinctive feature of EIZO wide-screen LCDs is a commitment to energy saving. They incorporate various power saving features that support "EcoView". A pivotal feature is the "EcoView Sense" adopted in the FlexScan EV series, such as the EV2333W.

This is the motion sensor on the front of the LCD. It constantly monitors the user"s movements to automatically take finely-tuned power saving measures. To be more precise, if the user"s presence is not detected for a specified period of time, for example if he leaves his seat, the monitor automatically switches to power save mode, and then automatically switches back when the user"s presence is detected again.

Other features include "Auto EcoView", which automatically optimizes the brightness of the LCD based on ambient lighting, and "EcoView Index", which displays a meter on the screen showing how much power is being saved. All these features can be expected to have a strong energy saving effect and to boost the user"s awareness of power saving, making them particularly useful in the office.

A standard laptop computer switches to sleep mode if the built-in LCD is closed while it is running but, if this function is turned off, a laptop can be treated as a "small desktop computer."

It can be set to use only the connected external LCD and not to react when the laptop"s built-in LCD is closed. The transformation into a small desktop PC is complete if you add a keyboard and mouse connected to the laptop via USB ports, for example. The OS is still running even though the laptop"s built-in LCD is closed, so you can carry out normal operations using the external keyboard and mouse, and also use the laptop"s built-in optical drives.

The idea is to use a large screen, high resolution external LCD at home or in the office, and to use the laptop"s built-in LCD as usual for mobile purposes. This helps to boost the longevity of the laptop"s built-in LCD and many people do use their laptop in this way. If you feel reluctant to use a dual display environment, where the screen is split in two, why not give this a try?

Select "Only show the desktop on 2" from the "Multiple displays" list in the "Screen resolution" menu. The laptop"s built-in LCD will be switched off and the external LCD will become the main display.

In the case of Windows 7, open "Alter power button operation" from the "Power options" list in the Control Panel"s "Hardware and sound", and alter the "Operation when the cover is closed" to "Do nothing".

By making this simple setting your laptop can be used as a space saving desktop computer. Another plus is that the laptop"s built-in LCD will last longer.

Recently some high-end laptop computers, such as the Sony VAIO F, are insisting on good display quality for their LCDs. However, a typical laptop"s built-in LCD does not have as good image quality as a stand-alone LCD. This is only natural since the costs allowed for display quality are completely different for an LCD incorporated into the PC as one of its parts and a specialized LCD.

However, by using an EIZO wide-screen LCD a laptop user can still fully enjoy such benefits of a stand-alone high-quality LCD as excellent color reproduction, a wide viewing angle, more even display and a wealth of items that can be adjusted to improve image quality. This is a crucial point for people who use their computer for photographs and videos in particular.

EIZO"s wide-screen LCDs emphasize color reproduction, and the coloration in sRGB mode has a high degree of accuracy. The standard color gamut used in PC environments and Internet content is sRGB, so you need have no worries about viewing or editing videos and photographs. They can also display images on web pages, such as products in online shops or goods for sale in online auctions, in colors that are very close to the real thing. (This is also influenced by how the seller took the photographs and processed the images, so we cannot say that the colors will always be accurate.)

Furthermore, in addition to sRGB color gamut accuracy, the high resolution-oriented FlexScan SX has the added benefit of covering more than 95% of Adobe RGB. Adobe RGB is a color gamut whose definitions encompass more highly-saturated colors than sRGB. In other words, it can represent a larger number of colors and brighter hues than sRGB.

Adobe RGB is the de facto standard in the publishing field and, closer to home, is used in digital SLR cameras and high grade compact digital cameras. The FlexScan SX series can reproduce the colors of photos taken in Adobe RGB mode with almost perfect accuracy on the screen. Retouching photographs proceeds more efficiently since subtle differences in color can be checked on the screen.

An example of sRGB color gamut image data displayed on a standard laptop and on the SX2462W. The SX2462W"s reproducibility of sRGB mode is of a considerably high standard but the color balance on the laptop has been lost. This would make it difficult to perform rigorous photo retouching.

In this case, if the image is edited on the external LCD with its high color reproducibility and the many tool palettes in the application are grouped in the laptop"s built-in LCD, there is less need to display or hide the tool palettes or to switch back and forth, and the image data to be edited can be displayed in a large form, making for more efficient work.

In this case, if the image is edited on the external LCD with its high color reproducibility and the many tool palettes in the application are grouped in the laptop"s built-in LCD, there is less need to display or hide the tool palettes or to switch back and forth, and the image data to be edited can be displayed in a large form, making for more efficient work.

When doing things like photo retouching, using software where there is a lot of switching between tool palettes it is very handy to display the image data to be edited on the external LCD with its high color reproducibility, and to gather the palette tools to be used on the laptop"s built-in LCD.

Going back to the subject of laptop computers, it is not going too far to say that applications and functions are being spoiled in laptops whose built-in LCD"s image quality is not too good. Connecting a laptop to a monitor with high image quality dispels any concerns about work that deals with colors and also helps to bring out the laptop"s potential.

Combining an EIZO wide-screen LCD with a laptop computer makes viewing videos and images even more fun. Just being able to see them on a large screen is a pleasure, but what makes it even better is that our LCDs are equipped with Fine Contrast, the optimum image quality mode for video and visuals. You can also use the Custom mode to create the image quality you prefer.

We expect that you now understand how displaying screens from a laptop computer on a stand-alone LCD can create a very pleasant environment. It feels as if your everyday laptop has been transformed into a completely different desktop machine. Even if you only use laptop computers, it is definitely worthwhile to add a stand-alone LCD.

When choosing the type of LCD the most important consideration is to choose one with overall high quality. When it comes to that, we can recommend EIZO wide-screen LCDs to a broad range of laptop users. In addition to their high image quality, EIZO wide-screen LCD are built with careful attention to detail, including non-glare screens, versatile stand features, dot-by-dot capability, abundant image quality modes, and our proprietary eco-functions. We want you to make full use of your beloved laptop computer along with an EIZO wide-screen LCD.

This time we have spoken about how an external LCD can be connected to a laptop computer, but if your main machine is a desktop computer then you probably already have a LCD.

In which case, why not consider adding a full HD (1920 × 1080 dot) or WUXGA (1920 × 1200 dot) wide-screen LCD and creating a more advanced dual display environment to further enhance your computer"s usability.

Recently many computers can handle dual display output with their chipset integrated graphics function, and nearly all of them are capable of dual display output with a stand-alone graphics card.

The dual display environment of a desktop PC has a wider range of options than a laptop computer, which is already installed with an LCD. Depending on the combination of products used you can seek for a larger screen, higher resolution and better image quality.

The photograph below shows two EIZO 24.1-inch WUXGA (1920 × 1200 dot) models being used side by side for an overwhelming super high resolution of 3840 × 1200 dots in total.

You can get a super high resolution of 3840 × 1200 dots in total by putting two 24.1-inch 1920 × 1200 dot wide-screen LCDs side by side. The advantage in this is that a larger screen and higher resolution are achieved at a lower cost than buying a single 30-inch high resolution model

A controller board is a piece in an electrical circuit that interfaces with a peripheral object by connecting the computer to it. The connection may be with other computer parts, such as the memory controller, or with an external device, like a mouse, that acts as a peripheral controller for an operation of the original device.

The LCD controller board is often called the Analog/Digital (A/D) board. As a type of hardware processor, it allows for various video source inputs to be connected, selected, and displayed on the LCD screen. It does this by converting the different video input signals into a format manageable by the LCD panel.

In conjunction with the LCD controller, the LCD driver is a form of software that is the interface of and dependent on the controller piece. Combined, the two form an LCD controller driver board. As the controller connects the computer to the operating system (OS), the driver facilitates that communication. Though there is typically just one display controller per LCD, there can be added drivers to extend the reach of the drive to further segments of the LCD.

To generalize the process, the LCD controller/driver adjusts the input signal, scaling resolution if needed, and then outputs the signal for the LCD monitor to use. Some of these output interfaces are low-voltage differential signaling (LVDS), SPI, I2C, and Parallel.

In most LCD controller/driver boards, there are two other input/output systems. Both these systems, however, are two-way pathways. One involves controlling and monitoring options, such as controls for brightness, image, and color using the on-screen display (OSD) control panel. The other is for communication via connections like Ethernet, Bluetooth, or IP.

With modern developments, touch screen devices have become much more prominent, and so the touchscreen controller has as well. There are two types of touchscreens: the resistive one that measures pressure and the capacitive one that reads touch. In both of these, there are sensors that detect the touch signal which then transmit the signal data to the controller. The controller then processes the command for the OS.

To delve deeper into the details, consider the previously mentioned input signals. There are a variety of signals that LCD technology processes, such as VGA, HDMI, DVI, and DisplayPort. These computer display standards vary in format and characteristics like aspect ratio, display size, display resolution, color depth, and refresh rate. One of the biggest differences between these standards is their usage of analog signals or digital signals.

In an analog signal, the signal is continuous, but in digital, they are discrete values, typically of 0 and 1. Digital signals have become the most used, as they can more easily carry information and have better quality maintenance; if the analog signal is used and unnecessary information is present, it is impossible to remove it due to the continuous nature of the analog signal. In order to make that switch to digital signals, converters are used to replacethe real numbers of the analog sequence with a set of discrete values.

The VGA, short for video graphic array, standard is one of the most popular analog-based technologies. In recent years, however, the VGA interface has been overshadowed by interfaces like high definition multimedia interfaces, better known as HDMI, which has become a de facto standard for digital signal transmissions.

The HDMI is a combination of digital audio and digital video transmission. There are many HDMI connectors, such as the standard, dual-link, and micro. These connectors are what the input signal travels through to reach the LCD controller and to direct what to display.

The DVI (Digital Visual Interface) offers both analog signals, digital signals, or a combination of the two. Like the HDMI, it has various connector types for different signal types.

When crossing interfaces, we use adapters to bridge the differences between signals. The DVI VGA adapter is relatively inexpensive due to how compatible the two are. The HDMI is also very compatible with the DVI, making the HDMI DVI adapter quite simple.

The VGA to HDMI adapter, however, must overcome greater differences, as they are not naturally as compatible as each were with DVI. Not only are there differences in the analog/digital signals, but also the VGA only uses video interface, whereas the HDMI uses both audio and video. A cable and an adapter are needed to connect the two devices.

And last from the list of examples of input signals is the DisplayPort. It is similar to HDMI in its purpose to replace outdated VGA and DVI as well as its transmission of audio and video through its interface. The DisplayPort does not have as much variation in cables and connectors as the HDMI, with only one cable and two types of connectors. From the DisplayPort, there is a growing technology called the embedded DisplayPort interface, or eDP interface. LCD manufacturers have begun to gravitate towards this interface due to its fewer connections, smaller size, and ability to quickly transmit high quality displays.

Bringing the subject back to LCD controllers, with the various types of computer display standards, the video signal inputs can be a challenge to accommodate and translate for the LCD panel, but with the help of adapters and the growth of these standard types, displays continue to become faster and develop with greater resolutions.

Second, it should be said that this little 5-inch monitor is a mechanically handsome contraption ---- very simple and direct in its shape and overall function ---- or to put it another way, it actually is kind of cute.

BUT, third, the user interface on this little 5-inch monitor is just AWFUL, and it really doesn"t help that the so-called instructions are so completely USELESS ---- the instructions are printed on a single, tiny piece of folded up paper, and they are "written" in broken, nonsensical English ---- honestly, the instructions are a word salad with a cup of alphabet soup ---- just throw them away.

This monitor has 5 buttons that are used to control everything, from turning it on and off, selecting an input, and navigating its menu system to set various parameters. Unfortunately, these 5 buttons are "modal" in nature, in that their function changes completely, depending on whether the menu is being displayed, or not. So, when the menu is being displayed, the power button and the input selection button no longer perform those functions ---- and this is something that takes a bit of time to understand, and to get used to, because, again, the so-called instructions are of no help, whatsoever.

So, remember, when the menu is being displayed, the power button and the input select buttons become just another pair of selection buttons (just like the "+" and "-") buttons ---- they become the buttons by which you select which menu page you want, and they become the buttons by which you select which menu item you want within a menu page once you"re within a menu page. In many of the menu pages, the "+" and the "-" buttons are used to increase or decrease numeric values, but then they behave differently when it comes to selecting from among non-numeric items.

This menu system with the modal nature of the 5 buttons is made even more maddening to use by the fact that the buttons are on the back side where you can"t see them when you"re looking at the menus, and also by the fact that the default amount of time during which the menu stays on the display when you"re not pressing any buttons (i.e., the "timeout") is only 5 seconds. Really? 5 seconds? Who thought this was a good idea?

So, I have two recommendations when trying to use the menu system... 1) make a diagram on paper of what button does what, from top to bottom, so that you have some kind of visual guide that you can actually see side-by-side with the screen, and 2) before you worry about changing any other setting, go straight to the setting for "timeout" and change it from 5 seconds to "off" so that the menu never times out ---- this second step will remove all of the time pressure for always needing to beat a clock whenever you"re working with the menu system.

Suggestions to the manufacturer: 1) rework the functions performed by the buttons when using the menu system to make the button functions more intuitive, 2) get someone who can actually write in English to write your instructions, and don"t be so stingy about the amount of paper needed, 3) either put the buttons on the front, or put labels on the front that coincide with the positions of the buttons on the back so that no one has to try to remember their functions, and 4) make 60 seconds of "off" the default value for the "timeout" function so that someone who is trying to familiarize themselves with this thing actually has the time they need to do so.

I"ve been looking around for a small HDMI LCD screen to use as a seconday screen with Windows and it took a few months of research on and off before deciding on the Elecrow 5" HDMI monitor. For the most part, it took me a while because a lot of reviews here and on other sites were primarily about use and config with Raspberry Pi.

Thanks to reviewer Alan who gave a good review with plenty of photos that convinced me to go for it. Not sure if it"s just how Amazon stores user review videos but the video review was a bit pixelated so it was hard to appreciate the clarity of the screen but it seemed to be what I was looking for.

Having used it for a few months now I still can"t believe how clear and sharp the screen is! There are sadly no controls for brightness, colour, saturation or contrast but everything displayed looks very nice and accurate.

Usually when you see the resolution 800x480 you think how bad that looks when your PC doesn"t have the right drivers installed and it looks blocky. I know it"s all relative and about DPI but once I had it all connected and tested it was sharp and clear, almost HD. I wish I had bought one sooner as it is exactly what I was looking for having tried a Lilliput monitor.

As I"m using this with Windows, I"ve not needed to look through the included driver utility disc and not tried the resistive touchscreen so I can"t comment on those. Windows just detects it as a second display and lets me extend my desktop. No drivers needed. The box contains the LCD screen, a HDMI bridge connector that neatly connects the HDMI socket on the top of the screen to the HDMI socket on the Raspberry Pi when mounted together. Standoffs for mounting are also supplied plus a plastic stylus.

+ It shows the video feed straightaway without any fancy splash screens or slow initialisation pauses. This was one of the annoyances with Lilliput monitor was a slow bright blue screen on power on before it would think about showing the feed. I know it"s only a few seconds but I specifically wanted instant feed on power on for future uses.

+ Runs off a single micro USB (socket also at the top next to HDMI socket) connected to PC USB so no additional external power adapters or sockets needed. It powers down whenever my PC is scheduled to power down so no lingering standby. Some motherboard USB ports do still continue to supply power for charging devices so your experience may differ.

+ I was hoping for an on/off switch but no it only has a backlight switch which I wasn"t sure about to begin with but I"ve since found it very useful and better. I was thinking about buying a micro USB cable designed for Raspberry Pi with an inline power switch built in but for now the brightness switch is fine. As a blessing in disguise, it prevents Windows/DirectShow from blinking all screens when it realises a monitor has been disconnected, that blink would often cause the video on my TV app to freeze. Turning off backlight doesn"t cause DirectShow to have a fit.

+ Small and light enough that I have it attached to a gooseneck arm so can position it how I need. I was going to buy one of those mobile phone gooseneck arms but I kept reading reviews of some not even being able to cope with weight of a smartphone without drooping so I"ve used a photographic gooseneck clamp which is a bit overkill but no droop!

- The only negative I can think of is the availability or lack of screen cases with cutouts to suit the position of the HDMI and USB sockets on this. The Elecrow has its HDMI and USB socket at the top edge of screen and nearly all cases I have looked at are designed for screens with HDMI and USB on the right edge. I"ve had to import one from China that had the cutouts for this screen. Took about 2 weeks to arrive. Wish I"d have ordered two cases at the same time to avoid the wait as I"m impressed with the clarity of Elecrow I hope to buy another one in near future.

! Just one more thing Columbo! I had originally wanted to buy Revision B of this screen with capacitive touch screen because it has OSD menu buttons. I can"t find any manuals but I"m hoping that OSD buttons allows settings for brightness as that was my other preferred criteria. Having said that, I think it would be even more impossible to find suitable case due to the positions of sockets and extra menu buttons on Revision B screen. Maybe Elecrow could provide some insight on available cases?

This 24-bit true color TFT display module has built-in HDMI compatibility for a streamlined connection between devices with fewer cables. Assembled to the display, the custom PCB provides the user an all-in-one HDMI solution and is attached to a steel mounting bracket for easy, secure installation. Included on-board this module is a Texas Instruments TFP401A HDMI/DVI receiver and a high brightness LED driver with PWM. Whether you need a display for your Raspberry Pi/BeagleBone Black application, a Windows/Windows embedded PC monitor, or a touchscreen HMI for your Linux or other embedded system, this display offers a solution. The LCD has a high resolution 800X480 screen with IPS technology, which delivers superior image quality, accurate color reproduction, and high contrast ratio at every angle. This Liquid Crystal Display is RoHS compliant and does not include a touch panel.

Adjust the length, position, and pinout of your cables or add additional connectors. Get a cable solution that’s precisely designed to make your connections streamlined and secure.

Enhance your user experience with capacitive or resistive touch screen technology. We’ll adjust the glass thickness or shape of the touch panel so it’s a perfect fit for your design.

Choose from a wide selection of interface options or talk to our experts to select the best one for your project. We can incorporate HDMI, USB, SPI, VGA and more into your display to achieve your design goals.

Equip your display with a custom cut cover glass to improve durability. Choose from a variety of cover glass thicknesses and get optical bonding to protect against moisture and debris.

To provide you more detailed instruction, you can also click ASUS Youtube video link below to know more about Troubleshooting for No display on LCD Monitor

Make sure if the operating system had entered hibernation,sleep or power-save mode. Press any key (Enter key / Power key) or move the mouse to wake it up.

Check if the signal cable (VGA / DVI / HDMI / DisplayPort) is wellconnected , and confirmed another end of the output cable has been firmly connected to computer input port (graphics card). Unplug and plug 2-terminals again to ensure all pins aren"t bent.

Check if the signal cable (VGA / DVI / HDMI / DisplayPort) is wellconnected and confirmed another end of the output cable has been firmly connected to computer input port (graphics card). Unplug and plug 2-terminals again to ensure all the pins aren"t bent.

If the model had attached with the power supply (AC-adapter), make sure the power supply has connected to the screen. Please check if the light of power supply is ON. If the light is NOT ON, change another power supply to test.

Are there any regional differences inpower specifications thatASUS LCD monitor supported (for example: If monitor was bought in Taiwan, can it be used in China or other countries?)

ASUS LCD monitor can support power specification: AC 100-240V. As long as within this voltage range, the display can work properly. However, please be noted that if you bought a monitor from another region, the power cord is not necessarily compatible to power outlet. Customer should replace the appropriate power cord or plug adapter in order to ensure normal power supply of the display.