lcd touch screen raspberry pi quotation

All the accessories listed below tier pricing need to pay.We won"t deliver until you select. Power adaptor should be 5V/2000mA in output and center pin for positive voltage and the outer shield for negative voltage .The temperature for controller RTD2660 would increase during working.That"s normal phenomenon,not quality problem.

ER-TFTV080A1-1 is 800x480 dots 8"color tft lcd module display with small HDMI signal driver board,optional 8 inch 4-wire resistive touch panel, touch panel usb port controller board,remote control,superior display quality,super wide view angle.It can be used in any embedded systems,car,industrial device,security and hand-held equipment which requires display in high quality and colorful video.It"s also ideal for Raspberry PI by HDMI.

All the accessories listed below tier pricing need to pay.We won"t deliver until you select. Power adaptor should be 5V/2000mA in output and center pin for positive voltage and the outer shield for negative voltage .The temperature for controller RTD2660 would increase during working.That"s normal phenomenon,not quality problem.

ER-TFTV090A1-1 is 800x480 dots 9"color tft lcd module display with small HDMI signal driver board,optional 9 inch 4-wire resistive touch panel, touch panel usb port controller board,remote control,superior display quality,super wide view angle.It can be used in any embedded systems,car,industrial device,security and hand-held equipment which requires display in high quality and colorful video. It"s also ideal for Raspberry PI by HDMI.

A TFT touch screen combines the fundamental elements of a raspberry pi touch screen with the advanced imagery TFT technology. These are the variants of raspberry pi touch screen displays that most consumers see and use on a daily basis. While TFT displays use more energy than standard monochrome LCD displays, many models provide brighter and more detailed visuals than conventional screens.

Explore the extensive selection of wholesale raspberry pi touch screen LCD displays, TFT, and HMI that can be used across a range of industries, including domestic, medical, industrial, automotive, and many others. You can choose from a number of standard industry sizes and find the raspber p i touch screen that are applicable to your required use. If you would like options that allow a smaller environmental footprint due to low power consumption, you can browse the Chip-on-Glass (COG) LCDs. COGs are designed without PCBs so have a slimmer profile.

Alibaba.com features a broad collection of smart and advanced raspberry pi touch screen equipped with bright, capacitive screens for the most affordable prices. These raspberry pi touch screen are made implying the latest technologies for a better, enhanced, and smart viewing experience. These products are of optimal quality and are sustainable so that they can last for a long time. Buy these raspberry pi touch screen from the leading wholesalers and suppliers at discounted prices and fabulous deals. The smart and capacitive raspberry pi touch screen offered on the site are applicable for all types of ads displaying, mobile screens, LCD monitors, and many more. You can use them both for commercial as well as residential purposes. These marvellous raspberry pi touch screen are provided with bright and strong backlights available in distinct colors for a wonderful screen viewing experience. These raspberry pi touch screen are.

Alibaba.com offers 5601 raspberry pi display products. About 30% % of these are lcd modules, 19%% are lcd touch screen, and 4%% are oled/e-paper modules.

A wide variety of raspberry pi display options are available to you, such as free spare parts, others and return and replacement.You can also choose from 16:9, raspberry pi display,As well as from new, {2}, and {3}. And whether raspberry pi display is d-sub, usb, or {3}.

The Raspberry Pi Foundation wanted to make sure you have the perfect display screen. And here it is. Offering a number of possibilities, you can use the Raspberry Pi 7” touchscreen as a visual display screen or a simple input device. Easy to set up, you’ll be creating IoT projects in no time all thanks to the 800 x 480 pixel resolution, 24-bit RGB colour and 60 fps. All of this with no electronic interference – grab your Raspberry Pi 7″ touch screen today.

The 7” Touch screen Monitor for Raspberry Pi gives users the ability to create all-in-one, integrated projects such as tablets, infotainment systems and embedded projects. The 800 x 480 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 Boards.

Raspberry Pi OS provides touchscreen drivers with support for ten-finger touch and an on-screen keyboard, giving you full functionality without the need to connect a keyboard or mouse.

The 800 x 480 display connects to Raspberry Pi via an adapter board that handles power and signal conversion. Only two connections to your Raspberry Pi are required: power from the GPIO port, and a ribbon cable that connects to the DSI port on all Raspberry Pi computers except for the Raspberry Pi Zero line.

Rather than plug your Raspberry Pi into a TV, or connect via SSH (or remote desktop connections via VNC or RDP), you might have opted to purchase a Raspberry Pi touchscreen display.

Straightforward to set up, the touchscreen display has so many possibilities. But if you"ve left yours gathering dust in a drawer, there"s no way you"re going to experience the full benefits of such a useful piece of kit.

The alternative is to get it out of the drawer, hook your touchscreen display to your Raspberry Pi, and reformat the microSD card. It"s time to work on a new project -- one of these ideas should pique your interest.

Let"s start with perhaps the most obvious option. The official Raspberry Pi touchscreen display is seven inches diagonal, making it an ideal size for a photo frame. For the best results, you"ll need a wireless connection (Ethernet cables look unsightly on a mantelpiece) as well as a Raspberry Pi-compatible battery pack.

Several options are available to create a Raspberry Pi photo frame, mostly using Python code. You might opt to script your own, pulling images from a pre-populated directory. Alternatively, take a look at our guide to making your own photo frame with beautiful images and inspiring quotes. It pulls content from two Reddit channels -- images from /r/EarthPorn and quotes from /r/ShowerThoughts -- and mixes them together.

Rather than wait for the 24th century, why not bring the slick user interface found in Star Trek: The Next Generation to your Raspberry Pi today? While you won"t be able to drive a dilithium crystal powered warp drive with it, you can certainly control your smart home.

In the example above, Belkin WeMo switches and a Nest thermostat are manipulated via the Raspberry Pi, touchscreen display, and the InControlHA system with Wemo and Nest plugins. ST:TNG magic comes from an implementation of the Library Computer Access and Retrieval System (LCARS) seen in 1980s/1990s Star Trek. Coder Toby Kurien has developed an LCARS user interface for the Pi that has uses beyond home automation.

Building a carputer has long been the holy grail of technology DIYers, and the Raspberry Pi makes it far more achievable than ever before. But for the carputer to really take shape, it needs a display -- and what better than a touchscreen interface?

https://www.anrdoezrs.net/links/7251228/type/dlg/sid/UUmuoUeUpU10530/https://www.youtube.com/supported_browsers?next_url=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3Djpt3PiDNdEk

Setting up a Raspberry Pi carputer also requires a user interface, suitable power supply, as well as working connections to any additional hardware you employ. (This might include a mobile dongle and GPS for satnav, for instance.)

Now here is a unique use for the Pi and its touchscreen display. A compact, bench-based tool for controlling hardware on your bench (or kitchen or desk), this is a build with several purposes. It"s designed to help you get your home automation projects off the ground, but also includes support for a webcam to help you record your progress.

The idea here is simple. With just a Raspberry Pi, a webcam, and a touchscreen display -- plus a thermal printer -- you can build a versatile photo booth!

Projects along these lines can also benefit from better use of the touchscreen. Perhaps you could improve on this, and introduce some interesting photo effects that can be tweaked via the touchscreen prior to printing?

How about a smart mirror for your Raspberry Pi touchscreen display project? This is basically a mirror that not only shows your reflection, but also useful information. For instance, latest news and weather updates.

Naturally, a larger display would deliver the best results, but if you"re looking to get started with a smart mirror project, or develop your own from scratch, a Raspberry Pi combined with a touchscreen display is an excellent place to start.

Many existing projects are underway, and we took the time to compile six of them into a single list for your perusal. Use this as inspiration, a starting point, or just use someone else"s code to build your own information-serving smart mirror.

Want to pump some banging "toons" out of your Raspberry Pi? We"ve looked at some internet radio projects in the past, but adding in a touchscreen display changes things considerably. For a start, it"s a lot easier to find the station you want to listen to!

This example uses a much smaller Adafruit touchscreen display for the Raspberry Pi. You can get suitable results from any compatible touchscreen, however.

Alternatively, you might prefer the option to integrate your Raspberry Pi with your home audio setup. The build outlined below uses RuneAudio, a Bluetooth speaker, and your preferred audio HAT or shield.

Requiring the ProtoCentral HealthyPi HAT (a HAT is an expansion board for the Raspberry Pi) and the Windows-only Atmel software, this project results in a portable device to measure yours (or a patient"s) health.

With probes and electrodes attached, you"ll be able to observe and record thanks to visualization software on the Pi. Whether this is a system that can be adopted by the medical profession remains to be seen. We suspect it could turn out to be very useful in developing nations, or in the heart of infectious outbreaks.

We were impressed by this project over at Hackster.io, but note that there are many alternatives. Often these rely on compact LCD displays rather than the touchscreen solution.

Many home automation systems have been developed for, or ported to, the Raspberry Pi -- enough for their own list. Not all of these feature a touchscreen display, however.

One that does is the Makezine project below, that hooks up a Raspberry Pi running OpenHAB, an open source home automation system that can interface with hundreds of smart home products. Our own guide shows how you can use it to control some smart lighting. OpenHAB comes with several user interfaces. However, if they"re not your cup of tea, an LCARS UI theme is available.

Another great build, and the one we"re finishing on, is a Raspberry Pi-powered tablet computer. The idea is simple: place the Pi, the touchscreen display, and a rechargeable battery pack into a suitable case (more than likely 3D printed). You might opt to change the operating system; Raspbian Jessie with PIXEL (nor the previous desktop) isn"t really suitable as a touch-friendly interface. Happily, there are versions of Android available for the Raspberry Pi.

In the previous article, I described the steps needed to install an LCD touchscreen on the Raspberry Pi. In this article, I will show you how to adjust the screen rotation of the LCD to landscape mode, and will show you how to calibrate the touchscreen pointer for optimal accuracy. Just follow the steps below to compete the process of setting up your Raspberry Pi LCD touchscreen:

1. First we need to change the setting for screen rotation in the /boot/cmdline.txt file. This setting is called fbtft_device.rotate=X. By default, this is set to X=0, which results in a portrait mode screen orientation. In order to switch the orientation to landscape mode, change fbtft_device.rotate=0 to fbtft_device.rotate=90. Enter sudo nano /boot/cmdline.txt at the command prompt. There should only be one line in this file. Go to the end of it and you will find the fbtft_device.rotate=X setting. Change the value from 0 to 90:

However, if you try to touch the screen now, you will find that the pointer movement does not correspond to your finger movement. This is because the LCD screen driver and the touchscreen controller driver have separate settings for screen rotation. We need to change the rotation of the touchscreen controller driver to match the rotation of the LCD screen driver.

2. You probably noticed that dragging your finger to the right moves the pointer up, not to the right. This indicates that the x and y axes of the touchscreen are swapped. To correct this, we need to swap the x axis for the y axis. This can be done by changing the swap_xy=X parameter in /etc/modules.

Now if you drag your finger around the screen, you will notice that the y axis (up and down) is correctly aligned with the motion of your finger. However, the x axis (left and right) is still inverted. To fix this, we need to install two more kernel modules, xinput and evtest. xinput is a Linux utility that will allow us to configure input device settings for the touchscreen controller, and evtest is an input device event monitor and query tool.

After the Pi finishes rebooting, you should notice that when you move your finger across the touch screen, the pointer should follow correctly in both axes. If you are using the Raspberry Pi 2 Model B, you will need to complete the calibration steps below before the pointer follows your finger correctly (and make sure that you have enabled startx to load automatically – see step 6 in this article).

You can rotate the screen 90 degrees (as we did in this tutorial) and the power connector will be at the bottom of the screen, but you can also rotate it 270 degrees so that the power connector is at the top of the screen. To do this, simply enter fbtft_device.rotate=270 in the /boot/cmdline.txt file. Then change the DISPLAY=:0 xinput --set-prop "ADS7846 Touchscreen" "Evdev Axis Inversion" 0 1 line in the /etc/X11/xinit/xinitrc file to DISPLAY=:0 xinput --set-prop "ADS7846 Touchscreen" "Evdev Axis Inversion" 1 0. All you need to do is switch the values of the 0 and 1 at the end of this line.

Now that we have our LCD touchscreen up and running, the final step in the installation is the calibration of touch control. This will make the pointer much more accurate and easier to use.

2. Now we need to install the calibration tool we will be using, xinput_calibrator; and other filters for controlling the touchscreen response. Install the tslib library by entering aptitude install libts-bin:

4. Now we can use ts_calibrate. Enter ts_calibrate at the command prompt (make sure you are still in root mode) to run the ts_calibrate program. The program will consecutively display five crosses on different parts of the screen, which you need to touch with as much precision as possible:

Drag the cross around the screen and observe how closely it follows your finger or stylus to test the accuracy of the calibration. Now press the “Draw” button to enter the drawing mode:

This is kind of a long process, but it is well worth it if you want to get the LCD touchscreen set up properly. So if you have any trouble setting this up or have anything to say, please leave a comment below. Also, if you found this article useful, please share it with your friends!

Kuman 3.5" Inch TFT LCD Display 480x320 RGB Pixels Touch Screen Monitor for Raspberry Pi 3 2 Model B B+ A+ A Module SPI Interface with Touch Pen SC06 (3.5 inch Touch Screen) : A…

Adding a small LCD touchscreen to Raspberry Pi seems like a terrific idea (see the "Choosing a Touchscreen" box) – until you realize that the default desktop environment is not optimized for tiny displays. The tendency of programmers to design for an old-style computer desktop means launching applications and performing actions on a tiny touchscreen is often fiddly at best. In most cases, though, you might just be using the touchscreen for a few specific tasks, and building your own graphical interface might seem like too much trouble.

Several LCD touchscreens for Raspberry Pi are available on the market. The PiTFT 2.8-inch 320x240 panel from Adafruit [3] is available through several web stores. You can also buy a stylish PiTFT Pibow case [4] for it. You"ll find a wealth of documentation on installing and using PiTFT on Adafruit"s website [5]. RPI-Display from Watterott [6] is another good option – especially if you are based in Europe. Watterott also sells an enclosure for the Raspberry Pi and RPI-Display combo [7], and all the required software (including an SD card image) is available in the RPi-Display GitHub repository [8]. It"s also possible to find a decent touchscreen for Raspberry Pi on eBay, but make sure it comes with the required software.

Enter PiMenu [1] – a simple solution written in Python and TkInter that lets you build tile-based graphical interfaces with consummate ease. PiMenu was originally designed by Andreas Gohr of DokuWiki fame for his paper backup project [2]. Thanks to its simplicity and versatility, however, PiMenu can be easily adapted for any other project requiring a simple graphical interface.

command to make PiMenu work on Raspberry Pi. Then, grab the latest release of PiMenu as a ZIP archive from the project"s GitHub repository, or clone the repository using

PiMenu consists of three key parts: the pimenu.py Python script that draws the GUI, the pimenu.yaml configuration file that defines menu items, and the pimenu.sh Bash shell script that performs actions based on arguments received from pimenu.py.

For each menu item specified in the pimenu.yaml configuration file, PiMenu draws a tile, and the main script automatically resizes tiles to fit them in the window. The tiled interface is inspired by the Windows 8 design, which actually works pretty well on Raspberry Pi. In the pimenu.yaml file, you can specify a hierarchy of menu items, so you can create a rather elaborate menu structure.

I don"t travel as much as I would like to, but when I do, I take a lot of photos. And I always wanted to build a Raspberry Pi-based backup device to keep my precious snapshots safe while I"m traveling. PiMenu was the missing piece required to bring this idea to fruition. Ideally, the Raspberry Pi-based backup box should perform several tasks, such as transferring photos directly from a camera or a card reader and backing up the transferred photos to a USB storage device.

The first order of business is to edit the pimenu.yaml file to include the required menu items (Listing 1). Each menu item in the configuration file has four properties: mandatory name and label as well as optional color and icon. The icon refers to the name of the appropriate icon in the GIF format stored in the ico directory (e.g., icon: "menu" points to the ico/menu.gif graphics file).

The pimenu.py Python script not only draws the interface using the configuration from the pimenu.yaml file, but it also reads the names of the menu tiles when pressed and executes the pimenu.sh Bash shell script. This is where all the action happens. You can configure the script to perform actions based on the name of the pressed tile. One way is to configure the script to read the name of the pressed tile and then use a case conditional statement to perform the desired actions.

To obtain the name of the pressed tile, you can use the echo "$*" command. However, this command returns the names of all menu items if the pressed tile resides somewhere down the menu hierarchy. For example, if you press the Backup tile, the returned result will be Menu Backup. Because pimenu.sh needs only the name of the pressed tile, you can use the awk tool to extract it from the result returned by the echo "$*" command and assign the obtained value to the key variable:

to obtain the mountpoint of the USB device. It does so by using the find tool, which looks for non-empty folders in the media directory. The sed tool in turn applies proper escaping if the obtained path contains white spaces (e.g., /media/NIKON D90/DCIM/100NCD90/ becomes /media/NIKON\ D90/DCIM/100NCD90/). This command assumes that there is only one USB storage device or card reader connected to Raspberry Pi at the time.

To back up the transferred photos to an external storage device connected to the USB port of Raspberry Pi, the script features two commands: The first one obtains the mountpoint of the USB device, and the second command uses the rsync tool to copy the photos.

Tapping on the tile with no sub-tiles returns an empty result, so the final part of the case statement closes PiMenu by killing all running pimenu processes if the $key value is empty – that is, the "") condition.

With PiMenu configured and ready to go, you have only two things left to do: Install the required packages and provide a way to launch PiMenu without using the keyboard. To install the packages, run the following commands:

With minimal tweaking, you can improve the described project and put it to other uses. For example, you can easily extend PiMenu"s configuration to include cloud backup (e.g., using rsync via SSH), preview photos downloaded from the camera or a card reader, and much more. You can easily modify the project to use Raspberry Pi as a backup device not only for photos but also for files and documents in general.

You can also adapt PiMenu to entirely different uses altogether. For example, you can turn your Raspberry Pi into an Internet radio device that lets you choose stations via the touch-screen menu, or you can build a simple launcher that opens specific applications. In other words, if you have a Raspberry Pi with an LCD touchscreen, PiMenu can prove to be an indispensable ingredient for making the combo useful.

I"m using it to run a lighting and irrigation system for my house. The color graphical interface allows me to use BMP images of my house and yard for control screens, and its built into an enclosure set into the wall for a slick professional look. I even put an access from the backside of the wall for wiring it without having to remove the Pi or the touchscreen.

Great responsiveness, inexpensive, can"t beat 10-finger multi touch! The python demos are really neat, too. Only gripe is that the screen isn"t oleophobic, but for the price I"ll take it!

This was easy to install and it looks good. The Touchscreen is responsive and clear, but you might want to use a stylus. The only issue i had is finding a case for it. You"ll want to get one right away, unless you have a 3D printer to make one yourself. The screen is really thin, so I didn"t want to carry it around without some protection. Overall, it"s a great touchscreen, especially for the price, and I like that it is Raspi-branded.

I purchased 5 touchscreen. Two before and three in January. Touch and display quality is superb. After two-three month of use (no rough use; handled with care), display LCD and front touchpanel (black bezel) break apart. They both are connected using a thin double sided tape. I was planning to use in industrial environment but after such issue, I dropped my plan to use it in industrial environment.

Five of two displays are not in good condition. First display"s touch-panel and display LCD was break apart after two-three month. The second among five displays had another issue. Display LCD was mounted slightly right side of the touchpanel. Once you power-up display, it is easily be seen that LCD panel was a bit off-side. The other display"s screen guard having so many scratches on them which seems mishandling.

I got a couple of these for several RPi projects that Im developing and they are working amazingly well for the application. If these fit your application needs I wouldn"t hesitate to recommend them.

This screen worked right out of the box! Touch worked great with my new pi 3! However aside how fragile the (non functional) edges are, the only real issue I see is upon shutdown of the pi... The screen goes through a series of screen washes/whiteouts and never really shuts off.. I have to pull power to get it to turn off.. I"ve even tried usb/provided jumper wires.. And both results in the same thing. Not sure if this an issue per se, but it is bothersome.. I can just turn the unit off, I need to unplug it too..

I am using Raspberry Pi 3. The display came up with no problems. I am just waiting for the Smarti Pi Touch enclosure (pre-ordered after the Kickstarter project closed) before continuing to work with it.

Basically, it "does what it says on the tin". It"s bright, relatively responsive and has acceptable color. Haven"t played much with the touch screen part of it yet, but very pleased so far!

The only question(s) that I have are regarding what sort of additional processor power is inside the screen, and whether powering it from the micro-usb connection whilst also bridged from the RPi3 is an issue (it hasn"t hurt anything, yet!).

I WAS DISAPOINTED THAT THE UNIT DISPLAYS EVERYTHING UPSIDE DOWN. I HAD TO USE THE LCD_ROTATE=2 COMMAND IN CONFIG.TXT TO FIX IT. THE INITIAL BOOT IS STILL UPSIDE DOWN BUT I GUESS AFTER IT READ THE CONFIG.TXT, IT FLIPS. SHOULDN"T IT COME STANDARD RIGHT SIDE UP?

Hmmm, it should, and this isn"t an issue we"ve seen before. I would suggest getting in touch with our Tech Support team, they should be able to help you out.

With so many, phone and tablets that have hi res screens, this is disappointing. It does what it"s supposed to, but has a retro look. Non techy relatives are not impressed.

The must annoying feature is the bright white screen when it loses signal as the OS shuts down. The touch input is inconsistent as input. I was using the I2C for a device was not able to get it going on the alternate I2C, but fortunately the required clock and data are on the DSI cable ... wasted hours finding that out. An OLED display, higher res, and lower current draw would be really nice in the next version.

I forgot to check that this LCD touchscreen don"t have a case. Much better that you have a notification (e.g. recommending the user to purchase also a case) when purchasing this kind of product. But thank you for this product, I will purchase again soon.

The only minor drawback that everyone should be aware (which is to be expected, honestly) is that the display draws quite a noticeable amount of current. The SmartiPi case comes with an splitter USB cable for the power source, but if you expect to use that, be prepared with a (very) beefy power supply, else you"ll get the thunder icon on the screen all the time and a very reduced performance (Just discovered that the RPi3 reduces its own clock when power is low).

I currently power this with a separate 1.5Amp supply for the screen and a 2Amp supply for the RPi3 and everything works just nice. This totals to a whopping 3.5A, which may be overkill, but keep that in mind as a reference.

I am impressed with this screen, I also got the mating case (SmartPi Touch) and it assembled nicely. With the separate case, the included jumpers and cable are not needed. The PCB was already attached with the standoffs. The packaging was super! The screen is slightly larger than 7 inches. I measured it as 7 5/8" wide X 4 3/8 high with a diagonal measurement of 8 9/16.

This official Raspberry Pi 7" touchscreens now come with the display controller already connected and mounted to the back of the display. You still need to be careful pulling forward the small black tab ends that connect a ribbon cable to the RPi.

I bought the companion enclosure as well. This Touchscreen works exactly as described. I am very pleased with the display. I ended up using a mouse anyway as the icons (while clear are very tiny) and selection areas are a bit small for fat fingers.

I connected it to a Raspberry Pi 3 B running Stretch and it seems to be working perfectly. I had been previously driving a VGA monitor from HDMI through an adapter. The RPI 7" screen started up just fine without changing or installing anything with the OS.

I connected it to a Raspberry Pi 3 B running Stretch and it seems to be working perfectly. I had been previously driving a VGA monitor from HDMI through an adapter. The RPI 7" screen started up just fine without changing or installing anything with the OS.

Based on other comments here and looking at one of these at a maker space, I bought the smartipi touch case for this; it"s strongly constructed and works great. Only issue was that I"m using this with a model 3 B+, and that takes a different door on the back than comes with the case (this is being fixed by the smartipi folks, but I don"t know the logistics of getting their new cases into Sparkfun)

I have tried other touch screens for the Raspberry Pi. They had complicated assembly and were very difficult to get them to work. This unit was easy to install and get working, is very nice looking. I am very Happy with it.

Right out of the box it worked. Didn"t even have to do anything to the RPi (in fact, both were taken out of the box at the same time, connected, and worked on the first power up). Screen quality is good for price. Also ordered the "SmartPi Touch" case which holds everything together very nicely.

Ordered it, a Raspberry Pi 3 B+, and a power supply. (Had a mouse, keyboard, and uSD on hand.). It came a couple of days ago, and I put together yesterday. Had noticed in the documentation that there"s a micro USB power input, and a standard USB output. In the configuration where the power supply is plugged directly into the Pi and the LCD interface is powered via a USB cable plugged into one of the Pi"s USB ports to the LCD"s micro USB, the LCD won"t light up at all. When the power supply is plugged into the LCD controller board and the USB cable connects power to the Pi, I get "low voltage" warnings (yellow "lightning bold"). When I use the provided F/F jumpers, it works fine, but this will cause problems plugging in other "hats", as well as clearance problems. (In my application, separate power supplies would be a BIG PROBLEM.) BTW, I checked with two different USB cables, and got the same problems as well as when I tried an Adafruit 5.25V power supply. (I was about to try a second RPi3B+ when the original one stopped booting. Fortunately I had another that I"d been using as a "pass-around" sample at talks, and fortunately when I tried it, it still worked, so now the "dead" one will be passed around!) Also, it could prove really useful to know what size those mounting screws are in case they get lost! Ace Hardware recently opened a new store about half a mile from my house!

The screen is portable enough to take with you and the Pi will use it with no configuration change when it"s powered up. Used it to set up several Raspberry Pis in a remote lab. Touch screen is nice but bring along a keyboard if you have to do any setup work. One thing to make it better, replace the jumper wires with a ribbon cable connected to 1x5 and 2x2 pin headers.

I have a Raspberry Pi in each room of my home and they run a Kiosk interface for home automation, cameras and more. I"ve tried some cheaper ones and none have survived. (I"m hard on equipment) I haven"t managed to break one of these yet.

Got a PI3+, 7" touchscreen and SmartPI case for manufacture test. I put these together and booted the latest Raspbian. The LCD and touchscreen connect to the display connector using a short FPC cable. The display booted and the touch screen just worked out of the box. There were some nice but not well documented improvements. They provide a Y USB cable to power both the PI and the LCD. This is a cleaner solution than the jumper wires they provide.I"m not a big fan of using lego blocks in a industrial environment but the case went together easily and does a decent job of protecting the display and the PI. Some reported a inverted display issue but that seems to have been resolved.

A truly plug-and-play display for the Raspberry Pi. Does not steal any additional extension connector pins if you power it with a USB power supply and leaves the I2C1 interface available for other devices.

Big enough for somewhat squinting actual Raspberry PI development and computer work, but really shines for touch screen optimized large button control panels.

You can just install a Pi3 or 4 on the back, but with a 4 you really need some additional airflow. The SmartiPi Touch 2 enclosure works better. https://www.sparkfun.com/products/16302

It works fine, no glitches, no problems, no hair pulling moments. Once electrically connected to my RPi 3B+ it"s good to go. I run it with the "lite" version of the Raspberry Pi OS with only xorg drivers installed, no full desktop or windows manager, as part of an in-the-field project with a HQ camera attached. My only complaint is the ribbon cable could stand to be about 6 inches longer.

It works great, the colors are beautiful, and finger touch works fine. What I like most is that the Raspberry Pi GPIO pins are all still available - except for one +5v pin and one Ground pin. Both are redundant (i.e. others are available). So, this is not an issue at all. I also like that data connects to the Pi via the IPS ribbon cable. Another thing I like is that power connects to the Pi via two jumper wires. The Pi is fussy about its power supply voltage. So, the jumper wires are better because they are heavier gouge than a small PCB trace.

I connect a Pi v4 and put the whole thing in the SmartPI Touch 2 case from Sparkfun and now it looks pretty professional. Make sure you use a good power supply.

Where is the documentation? This thing is so poorly documented it"s almost a joke. The whole point of the RPi ecosystem is to enable Makers and learning about electronics, so why isn"t this fully documented?

I used this to build a portable utility/testing device for my company. It works fantastic with the SmartiPi Touch Pro Case on Amazon. The touchscreen functions great, only thing is you can"t register mousedown and mouseup events in Chromium (only click). Other than that it"s great!

I got it working the first try, easy to follow instructions. Trying to learn Kivy with Python for touch screen programming, That"s a lot more difficult.

It"s bright, clear, good color rendition. Touch input is responsive and accurate. Trivial to assemble and get going. Like the multiple power options. Would buy again.