lcd panel compatibility supplier

A wide variety of compatible lcd panel options are available to you, You can also choose from original manufacturer, odm compatible lcd panel,As well as from tft, ips, and standard.

There are many LCD screen manufacturers for the Laptop Industry. LCD screens have different resolutions, size and type and these screens are compatible as long as the resolution and connections are the same.

For this listing, we will ship you a brand new OEM Compatible LCD screen manufactured either by Samsung, LG, Chi Mei, Chunghwa, Sharp, or AUOptronics. For more information about each LCD manufacture please click here.

If you wish to know the make of the actual LCD that will be shipped to you, please contact us by phone with your order information between 11AM - 8PM EST (Monday - Friday).

As an Industrial LCD module distributor, we can supply a wide range of TFT LCDs in many sizes. Common resolutions are QVGA, VGA, SVGA and XGA. Wide aspect ratio displays are also available in many similar sizes and resolutions such as WQVGA, WVGA, WSVGA, and WXGA.

Our industrial LCD suppliers are manufacturers with different capabilities specially designed for a wide variety of industrial applications. High-brightness, sunlight readability and long life product guarantees are some of the special features available.

Get in touch to work closely with one of our LCD Solutions Specialists to determine the perfect display for your project. We can also recommend and supply the proper LCD controller board, inverter, LED driver, cables, touch screen, or other associated enhancement.

If the controller is on the back of the LCD, then you are in luck. If it"s not, then you will have to find an equivalent LCD controller and design a PCB with a microcontroller on it.

The first thing to do is find the datasheet for the LCD controller chip, without this you have a real uphill battle. If you know the manufacturer and find the package this might help you reverse engineer your module. Some companies only provide datasheets on request, some you have to have an agreement with them.

If what you have salvaged is an LCD module that is manufactured, this will be easier to interface to as the manufacturer will in all likely hood have the datasheet and drivers.

Once you have found the datasheet, you can then figure out how to interface to it. The LCD controller will either be a parallel (for the bigger screens with a faster update) or a serial (smaller screens with a slower update). Some of the serial screens use SPI. The parallel ones will have data and address lines and control lines similar to writing to memory.

Then connect your microprocessor to the data (and or address lines) and see if you can access a register and read and write data to the LCD (preferably control registers to test communication).

Remember that to implement one interface to an LCD can take man months of time to implement for a product, a project like this can really help you appreciate economies of scale.

BOLDscreen 32 has a high-bandwidth, digital video input and can be driven just like the LCD monitor on your desk, with standard software tools. Simply run the provided 30 meter optical fibre cable through a waveguide and plug it into the BOLDscreen 32 AVI video matrix switch.

We have designed BOLDscreen 32 with custom electronics which deliver your stimulus direct to the screen - the output is lag free and synchronous to the input video signal. Other "MRI Compatible" LCD displays designed for patient entertainment in MRI typically use TV technology and video scan conversion which deliberately interpolate the input, producing an image which may look easy on the eye, but is unsynchronised and smeared with respect to the input, and therefore of limited use for precision scientific applications.

The BOLDscreen 32 design incorporates a premium 32" 1920x1080 IPS LCD panel with native 10-bit RGB colour resolution and a stunning static contrast ratio of 1400:1 (measured with the backlight on; [1 1 1]:[0 0 0] RGB contrast ratio). The panel features 120Hz panel drive capability, and a fast 5ms grey-to-grey response time. The digital video input will synchronise to a 1920x1080 @ 120Hz video signal and will output video at the same rate. The BOLDscreen 32 AVI supports inputs at other resolutions and frame rates, including from sources like iPads, Blu-ray disc players, and Internet streaming media players like the Apple TV.

To achieve the image quality required for scientific visual stimulation, we illuminate the panel with a custom LED backlight. This produces highly saturated chromatic displays and a peak white output at up to 350cd.m-2 (other calibrated white settings are simple to set in the device configuration file). We have also incorporated a sensor for real-time calibration that ensures consistent luminance immediately from switch on, and automatically compensates for the usual drifts in brightness due to temperature changes and ageing.

The 32" LCD display is designed to provide maximum field of view when sited at the rear of a 70cm bore and viewed via headcoil mounted mirrors. The image can be automatically left-right flipped, to cancel the flip caused by the mirror. The low voltage DC power supply is installed through the penetration panel, and the fibre optic video cable passes through the waveguide, to the BOLDscreen 32 AVI located in the control room.

We are the only manufacturer and vendor that provides an "MRI Compatible" MR Safe LCD monitor that you can site anywhere inside the MRI room, even directly at the exit of the rear of the magnet bore so that you can maximise the visual field of view.

BOLDscreen 32 has a high-bandwidth, digital video input and can be driven just like the LCD monitor on your desk, with standard software tools. Simply run the provided 30 meter optical fibre cable through a waveguide and plug it into the BOLDscreen 32 AVI video matrix switch.

We have designed BOLDscreen 32 with custom electronics which deliver your stimulus direct to the screen - the output is lag free and synchronous to the input video signal. Other "MRI Compatible" LCD displays designed for patient entertainment in MRI typically use TV technology and video scan conversion which deliberately interpolate the input, producing an image which may look easy on the eye, but is unsynchronised and smeared with respect to the input, and therefore of limited use for precision scientific applications.

The BOLDscreen 32 design incorporates a premium 32" 1920x1080 IPS LCD panel with native 10-bit RGB colour resolution and a stunning static contrast ratio of 1400:1 (measured with the backlight on; [1 1 1]:[0 0 0] RGB contrast ratio). The panel features 120Hz panel drive capability, and a fast 5ms grey-to-grey response time. The digital video input will synchronise to a 1920x1080 @ 120Hz video signal and will output video at the same rate. The BOLDscreen 32 AVI supports inputs at other resolutions and frame rates, including from sources like iPads, Blu-ray disc players, and Internet streaming media players like the Apple TV.

To achieve the image quality required for scientific visual stimulation, we illuminate the panel with a custom LED backlight. This produces highly saturated chromatic displays and a peak white output at up to 350cd.m-2 (other calibrated white settings are simple to set in the device configuration file). We have also incorporated a sensor for real-time calibration that ensures consistent luminance immediately from switch on, and automatically compensates for the usual drifts in brightness due to temperature changes and ageing.

The 32" LCD display is designed to provide maximum field of view when sited at the rear of a 70cm bore and viewed via headcoil mounted mirrors. The image can be automatically left-right flipped, to cancel the flip caused by the mirror. The low voltage DC power supply is installed through the penetration panel, and the fibre optic video cable passes through the waveguide, to the BOLDscreen 32 AVI located in the control room.

We are the only manufacturer and vendor that provides an "MRI Compatible" MR Safe LCD monitor that you can site anywhere inside the MRI room, even directly at the exit of the rear of the magnet bore so that you can maximise the visual field of view.

Different models have to be purchased as LCD manufacture changes frequently - and so do prices with the fluctuation in £ and $. The global LCD market is massive and LCD models change every quarter. To keep the industry moving new models are produced almost monthly and old models are removed from circulation. It could be that during some times of the year some brands or models of screen are unavailable or become obsolete. It could be that changes in global currency like the dollar affect decisions to buy different brands of the same type of screen.

We can only buy what is being produced and offered today - and specific model numbers change so if your laptop is more than a year old it is very likely the screen inside it is 2-3 years old and unlikely you will be able to find an exact replacement. No sweat - like car tyres there are a myriad of compatible options. We research these options and provide the best available product on the market today. It really isn"t in our interests to try and deceive clients and the substitution of part codes is not a deception and how the LCD industry MUST operate - there is no other option.

Lenovo give no version or hardware info here, as this panel model comes in different hardware and firmware versions. You could receive this exact model in a different hardware version or an alternative below

In addition to the important compatibility specs there are other features of this model that are not taken into account - like the type of glass it is made of -and-

Laptop screen manufacturers and laptop screen suppliers must work with a limited set of compatibility parameters as they are governed by the laptop panel makers and current market trends. It"s not possible to match every spec from an old product to a new one.

We provide a massively cheaper alternative to going back to the manufacturer of the laptop and buying the same panel we"ve sourced from Asia at 300% markup.

In response to customer demand, General Digital has engineered a multitude of NVIS-compatible LCD display solutions that feature OEM LCD displays and our custom-designed LED backlights (edge-lit and direct-lit), light optimization films and overlay enhancements. Our standard LCD display solutions range in size from 6.5 inch to 24.0 inch. New flat panel display sizes and resolutions, and subsequently, complete LCD monitor models, are being added regularly, or can be engineered upon customer request. Many of our NVIS-compatible solutions are also sunlight readable.

Increasingly, LCD manufacturers are producing their LCDs with LED backlights, rather than with the traditional/legacy cold cathode fluorescent lamps (CCFL). Their decision is motivated by the many advantages that LED backlights provide, such as:

If LCD manufacturers are already manufacturing their LCD displays with LED backlights, you may wonder why General Digital produces its own value-add LED backlights. Most LCD manufacturers target large-volume markets for their LCD designs, where they can maximize their return on investment (ROI). Since competitive pressures from other suppliers exist in these markets, their products are designed to meet the bare essential requirements at a minimum cost in an attempt to achieve product acceptance and market competitiveness.

To convert a legacy LCD design (that meets a specific need) from a CCFL backlight to a comparable design using less power, with increased durability and efficiency.

To make a display NVIS (Night Vision Imaging System) compatible, General Digital expertly re-engineers the existing display hardware to virtually eliminate the emission of high levels of IR radiation. In some instances, we install entirely new backlighting systems, whether CCFL or LED. Both approaches are fully compliant with the military specification, MIL-STD-3009. By configuring an LCD monitor to be night vision compatible, an NVG user is easily able to view information on a display screen, as well as view their surroundings, while using night vision goggles.

Often, users prequalify panels by how bright they are, employing the “if it is brighter, it must be better” mentality. While brightness may indeed be an important performance consideration for many applications, General Digital holds that the display’s contrast is even more important (discussed in an upcoming white paper, Contrasting Opinion; Brighter Isn"t Always Better). Ultimately, it is the user’s ability to discern a difference between colors (contrast) that enables them to properly view information under varying lighting conditions—from total darkness to direct sunlight.

OEMs provide the contrast performance of their LCDs in dark room conditions within their display specifications. While this information is an important indicator for consideration if the LCD is to be used indoors, it provides an inconclusive indication of how well the LCD will perform when exposed to high ambient lighting conditions (read our white paper, Not All Brightness is Created Equal). For this reason, General Digital quantifies the performance of our LED enhanced LCDs in our Optics Laboratory following the guidelines of MIL-STD-3009 (formerly MIL-L-85762-A).

General Digital’s Optical Laboratory was created to provide quantification of the optical performance of an LCD under a variety of extreme ambient conditions along with raw intrinsic system characteristics. The data provided by the laboratory tests allows for numerical performance descriptions of each LCD display system. This enables the customer to compare displays across the entire General Digital display catalog and provides the ability to choose the correct product for the target environment while removing guesswork. To ensure accuracy and cross correlation, sunlight and NVIS measurements adhere to procedures and regulations outlined in MIL-L-85762A, and its successor, MIL-STD-3009. Other applicable measurements adhere to procedures and regulations outlined in “Video Electronics Standards Association Display Metrology Committee” (VESA) Flat Panel Display Measurement Standard Version 2.0 (June 1, 2001).

Typically, General Digital attempts to standardize its measurements by applying an antireflective film to the surface of the LCD. However, it is not unusual for us to test the displays using a variety of other combinations of overlays (EMI filters, touch screens, vandal shields or films) that may be required to meet a specific application requirement.

Lastly, a link to a photometric report (see sample below) has been provided that will summarize and compare the optical performance of the OEM LCD before our enhancements and improvements, as well as after modification. Much of this data has been acquired under the guidelines of MIL-STD-3009 (formerly MIL-L-85762-A). In some instances, General Digital has also included optical data for other multiple test configurations of the same reference LCD.

Each measurement is performed under a variety of LCD and backlighting drive schemes to provide a diverse and rich data set, allowing the customer the ability to choose the correct product for the target driving scheme, while removing guesswork. These drive conditions are found on all display and monitor photometric data sheets, as outlined below.

Distributor of component LCDs for equipment which provide high-contrast ratio, color saturation, luminance and performance enhancements such as advanced wide viewing (AWV) for true color fidelity, super-high brightness (SHB) and wide temperature range. Focus on industrial, instrumentation, hand-helds, medical and other low-to-medium volume markets. High-bright LED backlights for outdoor use. LVDS interfaces decrease EMI. Factory installed touch screen solutions. 3.5" to 12.1" QVGA, HVGA, VGA, WVGA, SVGA, XGA, WXGA. Also distributes other related products including LED drivers, lamps, indicators, LED assemblies, segment displays, LED mounts, LEDs, and light pipes. Distributor of electronic components, hardware and fasteners and provides design/value engineering support, fulfillment strategies, procurement services and transactional models to meet specific needs and priorities.

GAME BOY ADVANCE, or GBA for short. It`s the second-generation portable game console released on March 21, 2001, featuring a colorful reflective LCD screen.

The GBA screen can only be seen under the sun, or light at night, but it is very visible in high light. It adds a reflective layer behind the screen LCD panel, which relies on reflecting light to support the visibility of the screen, and it`s called a full reflective LCD screen.

The original LCD of the GBA screen is a 2.9-inch 160x240 reflective LCD,40.8 mm x 61.2 mm. now there is no original LCD for replacement. And original LCD is very dark with grey colors.

This enhanced LCD is 2.9 inch 480*720, Panox Display`s convertor board on FPC make higher resolution compatible with GBA circuit board. This makes 3*3 pixels display one pixel as the original display.