hdmi gpio 5-inch 800x480 tft lcd display made in china

Compatible and Direct-connect with any revision of Raspberry Pi. (If you are using a Raspberry Pi Zero / Zero 2 W, an additional HDMI cable is required).

Raspberry Pi leads out 40 GPIO pins, while the screen leads out 26 pins. When connecting, pay attention to the corresponding pins and Raspberry Pi pins.

5) Insert the TF card into the Raspberry Pi, power on the Raspberry Pi, and wait for more than 10 seconds to display normally. But the touch is abnormal at that time, and the touch needs to be calibrated as the following steps.

You can perform touch calibration by clicking the Raspberry Pi icon on the taskbar, selecting Preferences -> Calibrate Touchscreen, and following the displayed prompts.

4. After calibration, the following data will be displayed. If you want to save these touch values, you can replace the data in the red circle with the data in the corresponding position in 99-calibration.conf.

Winstar launched a 5" for HDMI signal Interface Mini Computer Display which item No. is WF50BTIFGDHTV. This 5 inch TFT Display with Resistive Touch Panel is a mini panel-mountable display, made of resolution WVGA 800x480 dots. This WF50BTIFGDHTV comes with a control board with a HDMI signal interface and a 40-pin connector on board; it is designed to make Raspberry Pi usage become easily. This display has a USB interface Resistive Touch screen overlay on TFT panel. The Capacitive Touch Panel also is available for option. We designed a connector part no. WWHDMI-00# for optional, the customers can use it to connect WF50BTIFGDHTV module with your Raspberry Pi directly. If the customers do not require a 40-pin header connector on board, please choose WF50BTIFGDHT0.

This display is small and compact, you can simply to use it to work with Raspberry Pi, and also you can use this Mini Computer display with any embedded system which has a HDMI signal output. The 5" display is 800x480 resolution, which is just enough to run most software, but still small enough that it can be used in portable or embedded projects without the bulk. Please note, this product does not include an HDMI or USB cable.

WF50BTIFGDHTV#: with a 40-pin header connector on board, supports up to Raspberry Pi 3B+ (contain Pi 4B) version. If customers choose Raspberry Pi 4 version, please note the interface is Micro HDMI; customers need to use the Micro HDMI to HDMI cable for these TFT series products.

This 5 inch TFT Display with Touch Screen is a mini panel-mountable HDMI monitor. So small and simple, but you can use this display with any computer that has HDMI output, and the shape makes it easy to attach to a electronic product. Although the 800x480 common HDMI display is made for Raspberry Pi, we can use it other where not only for Raspberry Pi.

Compatible with and can be directly inserted into all versions of raspberry PI motherboards (raspberry PI 1 generation B and Zero need additional HDMI cable)

After the installation of the LCD driver is completed, the system will restart automatically. If the LCD can be normally displayed and touched, the installation of the driver is successful

After execution, the driver will be installed. The system will automatically restart, and the display screen will rotate 90 degrees to display and touch normally.

5 inch 800*480 Capacitive Touch Screen for Raspberry Pi 3/2 Model B/B+/Pi Zero & BeagleBone Black & PC This is a fantastic HDMI monitor with capacitive touch screen .

7 inch Open Frame color TFT LCD monitor with SD card/USB port/UART interface STVI070WT-01 The STVI070WT-01 is the intelligent TFT LCD Module with UART PORT which can be controlled by ANY MCU via Simple Powerful Command Set . The STVI070WT-01 include CPU , TFT Driver,Flash Memory,UART port,power supply and so on,the important is that it has the ready-made Basic Control Program and Powerful Design Software ,so that it can reduce much development time and cost for engineers. Characterized with cutting-edge technology and reliable support for customers from over 80 countries, And having specialized experience in TFT LCD Module and industrial PC"s R&D, manufacture and market for more than 14 years from 2004.We always following the STONE spirit of "Professional Reliable Successful" these years, and have achieved tremendous success in the global market due to leading technology, reliable service and price domination.

The 7 Inch LCD Touch Display With Driver Board Kit For Raspberry Pi gives users the ability to create an all-in-one, integrated projects such as tablets, infotainment systems, and embedded projects! The 800×480 physical resolution (resolution range can be adjusted between 640 x 480 to 1600 x 1200) display connects via an adapter board which handles power and signal conversion. Only two connections to the Pi are required; power from the Pi’s GPIO port and a ribbon cable that connects to the DSI port present on all Raspberry Pi’s. Touchscreen drivers with support for 10-finger touch and an on-screen keyboard will be integrated into the latest Raspbian OS for full functionality without a physical keyboard or mouse.

Make your own Internet of Things devices including a visual display. Simply connect your Raspberry Pi, develop a Python script to interact with the display, and you’re ready to create your own home automation devices with touchscreen capability.

The scope of application: it is used in visual intercom, onboard computers, instruments, industrial control, medical equipment, portable display equipment and other electronic fields.

I recently found a discount code through SlickDeals for $10 off the Elecrow 5" HDMI Touchscreen display for the Raspberry Pi. Since the Raspberry Pi was introduced, I"ve wanted to try out one of these mini screens (touchscreen or no), but they"ve always been prohibitively expensive (usually $60+).

The display is pretty solid, and comes well packed in styrofoam with four standoffs for mounting, a cheap plastic stylus, and a male-to-male HDMI daughter-card. Getting the Pi onto the board is easy enough; I used one standoff through one of the Pi"s mounting holes (on the side with the HDMI plug), then seated the Pi directly on top of the GPIO slot on the display board, so so the HDMI ports would line up perfectly on the other side.

The Elecrow officially supports the Raspberry Pi 3 model B, but I tested it with a 2 model B as well. I didn"t try it with a B+, but the hardware layout should work, so at least the HDMI display would work correctly (not sure about the touchscreen controls). The way the hardware is laid out, you seat the Raspberry Pi directly onto a GPIO socket (it takes up the first 13 sets of GPIO pins—pins 1-26), and then there"s an included HDMI male-to-male daughtercard that slots in nicely to connect the HDMI output of the Pi to the HDMI input on the display.

There"s an extra OTG USB plug on the display if you want to give it a separate power source, but if you plug it straight into the Pi"s GPIO, it will leech off the 5V connection. As long as you have a good 2A power supply for your Pi, though, you shouldn"t have to worry about supplying independent power to the display. In my usage, I only saw the overvolt indicator every now and then (just like I do in normal usage of the Pi 3, since it uses a bit more power than a 2!).

When I first booted the Pi attached to the display, there was a large white area on the right, and only the left portion of the screen was being used by the Pi (it was only using 640x480 of the 800x480 display). To fix this, you have to set a few display options in the configuration file the Raspberry Pi reads during startup to switch certain hardware settings.

Besides being a 800x480 HDMI display, the Elecrow also has a touchscreen overlay that allows simple one-point resistive touch detection on the screen. Note that at best, resistive touch is not nearly as responsive and intuitive as capacitive touch detection, which you"re likely used to on any recent smartphone or tablet screen. But something is better than nothing, when it comes to building simple UIs for "Internet of Things" devices or other fun things.

These commands first install the touchscreen calibration utility, then configure the Pi to use the correct GPIO settings so touches can be interpreted as mouse moves/clicks by the Pi.

For ~$30 ($40 without discount), I wasn"t expecting a mind-blowing retina display with excellent glare-reducing coatings and contrast. But I do expect no dead pixels, and at least a crisp, vibrant picture when looking straight on. This screen is "good enough" in that regard, though viewing angles aren"t too great; side to side is okay, but looking down from above or up from below results in a bit of a washed out picture. Also, there is no antireflective coating on the screen, so wherever you use it, you need to be aware of nearby light sources.

So, to summarize the review: this is everything I expected out of a sub-$50 display. It"s nothing like a high-end smartphone display with capacitive touch, so if that"s what you"re expecting, you"ll have to look elsewhere. But if you just want a small display that mounts to the Pi easily and is more affordable than the Raspberry Pi Foundation"s own 7" touchscreen, this is a great buy!

A number of people have used a Motorola Atrix Lapdock to add a screen and keyboard with trackpad to RasPi, in essence building a RasPi-based laptop computer. Lapdock is a very clever idea: you plug your Atrix smart phone into Lapdock and it gives you an 11.6" 1366 x 768 HDMI monitor with speakers, a keyboard with trackpad, two USB ports, and a large enough battery for roughly 5 hours of use. The smart phone acts as a motherboard with "good enough" performance. The advantage over a separate laptop or desktop computer is that you have one computing device so you don"t need to transfer files between your phone and your desk/laptop.

Unfortunately for Motorola, Lapdock was not successful (probably because of its US$500 list price) and Motorola discontinued it and sold remaining stock at deep discounts, with many units selling for US$50-100. This makes it a very attractive way to add a modest size HDMI screen to RasPi, with a keyboard/trackpad and rechargeable battery power thrown in for free.

Lapdock has two connectors that plug into an Atrix phone: a Micro HDMI D plug for carrying video and sound, and a Micro USB plug for charging the phone and connecting to the Lapdock"s internal USB hub, which talks to the Lapdock keyboard, trackpad, and two USB ports. With suitable cables and adapters, these two plugs can be connected to RasPi"s full-size HDMI connector and one of RasPi"s full-size USB A ports.

The hardest part about connecting Lapdock is getting the cables and adapters. Most HDMI and USB cables are designed to plug into jacks, whereas the Lapdock has plugs so the cables/adapters must have Micro HDMI and Micro USB female connections. These are unusual cables and adapters, so check the links.

Lapdock uses the HDMI plug to tell if a phone is plugged in by seeing if the HDMI DDC/CEC ground pin is pulled low. If it"s not, Lapdock is powered off. As soon as you plug in a phone or RasPi, all the grounds short together and Lapdock powers itself on. However, it only does this if the HDMI cable actually connects the DDC/CEC ground line. Many cheap HDMI cables do not include the individual ground lines, and rely on a foil shield connected to the outer shells on both ends. Such a cable will not work with an unmodified Lapdock. There is a detailed "blog entry on the subject at element14: Raspberry Pi Lapdock HDMI cable work-around. The "blog describes a side-benefit of this feature: you can add a small power switch to Lapdock so you can leave RasPi attached all the time without draining the battery.

When you do not connect a HDMI monitor, the GPU in the PI will simply rescale (http://en.wikipedia.org/wiki/Image_scaling) anything that would have appeared on the HDMI screen to a resolution suitable for the TV standard chosen, (PAL or NTSC) and outputs it as a composite video signal.

The Broadcom BCM2835 only provides HDMI output and composite output. RGB and other signals needed by RGB, S-VIDEO or VGA connectors are however not provided, and the R-PI also isn"t designed to power an unpowered converter box.

Note that any conversion hardware that converts HDMI/DVI-D signals to VGA (or DVI-A) signals may come with either an external PSU, or expects power can be drawn from the HDMI port. In the latter case the device may initially appear to work, but there will be a problem, as the HDMI specs only provide in a maximum of 50mA (@ 5 Volt) from the HDMI port, but all of these adapters try to draw much more, up-to 500mA, in case of the R-PI there is a limit of 200mA that can be drawn safely, as 200mA is the limit for the BAT54 diode (D1) on the board. Any HDMI to VGA adapter without external PSU might work for a time, but then burn out D1, therefore Do not use HDMI converters powered by the HDMI port!

Alternatively, it may be possible to design an expansion board that plugs into the LCD headers on the R.Pi. Here is something similar for Beagleboard:

The schematics for apples iPhone 3gs and 4g suggest they speak DSI, thus they can probably be connected directly. The older iPhones use a "Mobile Pixel Link" connection from National Semiconductor. The 3GS panel (480×320) goes as low as US $14.88, while the 4G one (960×640, possibly the LG LH350WS1-SD01, with specifications) can be had for US $17.99 or as low as US $14.28. The connectors used might be an issue, but this connector might fit. Additional circuitry might be necessary to provide the display with required 1.8V and 5.7V for operation, and an even higher voltage for the backlight.

Parallel interface displays can be found in many sizes, usually up to 7" and more. Parallel interfaces are usually 8 or 16-bits wide (sometimes 18 or 24-bit wide), plus some control-lines. The Raspberry Pi P1-connector does not contain enough GPIOs for 16-bit wide parallel displays, but this could be solved by borrowing some GPIOs from the CSI-connector or from P5 (on newer Raspberry Pis). Alternatively, some additional electronics (e.g. shift-registers or a CPLD) can be used, which could also improve the framerate or lower the CPU-load.

AdvaBoard RPi1: Raspberry Pi multifunction extension board, incl. an interface and software for 3.2"/5"/7" 16-bit parallel TFT-displays incl. touchscreen with up to 50 frames/s (3.2", 320x240)

Texy"s 2.8" TFT + Touch Shield Board: HY28A-LCDB display with 320 x 240 resolution @ 10 ~ 20fps, 65536 colors, assembled and tested £24 plus postage, mounts on GPIO pins nicely matching Pi board size, or via ribbon cable