low-power color tft lcd display for handheld embedded systems pricelist

ER-TFT043A2-3 is 480x272 dots 4.3" color tft lcd module display with driver IC ST7282 and optional capacitive touch panel with controller and connector,optional 4-wire resistive touch panel with connector,superior display quality,wide view angle and easily controlled by MCU such as 8051, PIC, AVR, ARDUINO,ARM and Raspberry PI .

It can be used in any embedded systems,car,mp4,gps,industrial device,security and hand-held equipment which requires display in high quality and colorful image.It supports rgb interface. FPC with zif connector is easily to assemble or remove.Of course, we wouldn"t just leave you with a datasheet and a "good luck!".Here is the link for 4.3"TFT Touch Shield with Libraries, Examples.Schematic Diagram for Arduino Due,Mega 2560,Uno and 8051 Microcontroller Development Board&Kit.

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This display module is a 3 inch diagonal, 240xRGBx400, full color TFT LCD display. It has a wide-screen format and white LED backlight. Its integrated controller gives you a simple, fast, digital interface to the display through your 3v processor"s port pins.

It may be used in either portrait or landscape orientation. In portrait mode, the narrow width of the TFT display works well with portable, handheld, or embedded systems. In landscape mode, the low profile of the TFT LCD display may be used for the user interface of 2U+ rack mount devices, or in bench top laboratory equipment such as power supplies, meters, and signal generators.

As an option, you can order this TFT pre-assembled onto a breakout/carrier board. The board allows easy prototyping through its 0.1" headers. You can also include the carrier board in your end product to simplify construction and assembly. The carrier board contains a constant-current switching LED driver. The PCB is sized to fit neatly within the outline of the display.

WF0200BTYAJDNG10 is a 2-inch Portrait Mode IPS TFT-LCD display with a Projected capacitive touch panel (PCAP) resolution of 240x320 pixels. This TFT module is built-in with ST7789VI driver IC; supports MCU and SPI interfaces; the PCAP touchscreen is built-in with GT911 IC, which communicates via the I2C interface. The WF0200B TFT series has without touch panel option; please check our webpage of WF0200BSYAJDNN0 (with high brightness) for more detailed information.

WF0200BTYAJDNG10 is adopted IPS panel which is having the advantage of wider view angle of Left:80 / Right:80 / Up:80 / Down:80 degree (typical), contrast ratio 800:1 (typical value), brightness 400 nits (typical value), aspect ratio 3:4, the supply voltage for analog 2.4V to 3.6V, typical value 3.3V. This TFT module can be operating at temperatures from -20℃ to +70℃; its storage temperatures range from -30℃ to +80℃.

WF22GN5AB2DNN0 is a 2.13-inch Portrait Mode Mono TFT display with an LPRD (Low Power Reflective LCD) resolution of 122x250 pixels, built-in ST7306 driver IC that supports 8-bit MCU, 4-line SPI/3-line SPI interfaces. This WF22G Mono TFT series adopted a Reflective type LCD, which has the below advantages:

WF22GN5AB2DNN0 adopted mono TFT with LPRD technology featured of view angle of Left:65 / Right:65 / Up:65 / Down:65 degree (typical), the supply voltage for logic (VDDA) is 2.55 to 3.6V, with the typical value of 3.3V, aspect ratio 18:9, anti-glare glass. This Mono TFT module can be operating at temperatures from -20℃ to +70℃; its storage temperatures range from -30℃ to +80℃.

The LPRD (Low Power Reflective LCD) can be used in smart retail, such as shelf labels, sports health, such as bicycle recorders, fishing rod reels, handheld devices, transportation, such as EV charging, wearable or portable devices, etc.

WF101JSYFHLHBV is a 10.1-inch high brightness version IPS TFT display with resolution 1024x600 pixels. WF101JSYFHLHBV has a PCB board featuring an HDMI connector that supports HDMI signal (only for DVI) interface and has a 40-pin GPIO connector designed to make Raspberry Pi usage easy. This module featured four studs for the backlight, and the PCB adopted the locking method attached to the module. WF101JSYFHLHBV is adopted IPS panel which has a wider viewing angle of Left:85 / Right:85 / Up:85 / Down:85 degree (typical value). This TFT model is built-in with EK79001HN and EK73215BCGA driver ICs, high brightness of 950 nits (typical value). This TFT model is built-in with ILI2511 touch panel driver IC on the module, which supports USB interface, and single-touch or multi-touch (option) detection points.

The supply voltage for LCM (VDD) of WF101JSYFHLHBV is 4.7~5.3V, typical value 5V, glare surface glass, aspect ratio 16:9, contrast ratio 800:1 (typical value). It can be operating at temperatures from -20℃ to +70℃ and storage temperatures from -30℃ to +80℃.

WL0F00050000FGAAASA01 is a 5-inch high brightness TFT Smart Display CAN series display that is running CANopen protocol via CAN bus command to render display content on the screen and return touch event data with protocol objects. WL0F00050000FGAAASA01 features Winstar high brightness IPS TFT WF50FSWAGDNG0 and a 4-layers FR4 PCBA built-in firmware code developed by the Winstar RD team. This 5" CAN series TFT is an easy-to-use product that allows you to create projects rapidly and cost-effectively.

Winstar already developed Windows Apps (GUI & GUI Builder) for Smart Display GUI design. This 5" IPS TFT Smart Display can use a computer with USB2CAN dongle or Raspberry Pi (+PiCAN2) or even an MCU scale like Arduino (+CAN adaptor) as a HOST platform. Winstar GUI builder software is designed for customers to simulate their UI design in advance using the drag-and-drop Widget preview function. Furthermore, customers can create their ideal UI objects using this software and then go through simulation to check UI design without a hardware module. Winstar GUI builder software only supports the Windows system; it can fulfill What You See Is What You Get (WYSIWYG).

Demo set HOST can be used on multiple platforms, such as Computer (with USB2CAN Dongle), MCU, Single Board Computer with Linux OS, or Raspberry Pi (with PiCAN2).

Winstar developed a Windows app. for Smart Display GUI design. Winstar GUIbuilder software allows customers to simulate their GUI design in advance using the drag-and-drop Widget preview function; customers can also create their ideal GUI. Winstar GUI builder software supports Windows systems only; it can fulfill What You See Is What You Get (WYSIWYG). The upgraded version of built-in software is a 3-in-1 APP; we combined three application templates for optional, including industrial, vehicle, and medical applications. Please press the preferred application and hold power on for 3 seconds the first time. Customers can change to another template by using GUIbuilder to change the application.

Smart Display has been widely used in various fields such as medical, industrial control, and automotive after products launched. Simply put, it is a display combined with a microcontroller, which can handle complex graphics loading, setting, display, and even input, and the outside device (host i.e.) can perform interactive operations with simple commands, so it is very suitable for various needs. Various types of applications displayed or controlled.

Smart Display supports a variety of communication interfaces. Currently the most commonly used ones are CAN/CANopen, RS485/Modbus, and more choices will be provided in the future. Among them, RS485/Modbus is a popular communication interface in the industry, and various RS485 devices at reasonable prices are easily available on the market. The line structure is simple, as long as two wires (RS485_A/RS485_B) can communicate, and the communication interface is usually presented in the form of "Serial Port" on an operating system, and each platform has a corresponding development function library. In addition, the Modbus protocol is quite easy to understand, so we put it as an example as following for experiments and explanations.

This article will introduce how to control Smart Display from simple to deep, understand its control principle, and finally introduce how to make cross-platform applications. Whether you are an industrial equipment expert or a DIY player, welcome to the world of Smart Display with us!

When reach the above requirements, then can choose a test bench execution environment as a Host. The only condition for a host device is to be able to read and write the series port of host no matter the OS is Windows, MacOS, various Linux (including Raspbian for Raspberry Pi), or the platform is Single Board Computer, Arduino etc.

In order to understand how to collaborate in Smart with a host. First issue we need to get the control code. The easiest way is to get it from Smart Display GUI Builder. GUI Builder is an excellent support software for Smart Display. It can help us learn, operate, design, and display user interface without hardware physical device, design UI without writing any program at all. With the WYSIWYG feature, user interface design can be done by dragging or clicking buttons or objects. In addition, there is a built-in simulator that shares source code with Smart Display, thus ensuring the same appearance and behavior as the physical device. Even better, it"s free!

Double click GUI Builder to run the app in Windows OS, open a project. Here we choose the 5" RS485 Smart Display WL0F00050000FGDAASA00, and the default scenario below is Vehicle. Input the project name, press Create button to create project. If it has been created before, you can also select project directly from the menu on the right.

Select RS485 for the Interface, and the RS485 Port of host should be set as the actual port of the connected port for RS485 dongle. If there is any doubt, you can check the port name in the device administrator (repeatedly unplug it and see that it disappears or shows which one is displayed). Baudrate can keep the default value of 115200.

However, if there is no Smart Display RS485 device yet, it does not matter, as long as the Interface selects RS485, the RS485 Port can be ignored for now, because now we will just utilize the simulator, and will not connect to the Smart display device practically.

Every action will see two commands TX/RX, because the display device (even if it is actually an emulator now) will send back the same command as acknowledge after receiving the command to indicate that it has been received.

How is a host to transmit control codes from itself? As long as it can write to a serial port. However, there are two things to keep in mind before go ahead for testing.

1. Since the names of the Com Ports on different operating systems are different, please check and confirm before testing. For examples the following table:

2. The permission of the Com Port of some operating systems is not open by default. It must be set before using it. Taking Linux/Ubuntu as an example, if the name of the Com Port is ttyUSB0, just execute it in the terminal:

But this method is only used to test whether the connection is successful, and it is not very convenient in practical application. To achieve the best results, it has to be done through the program. As for which language? In fact, we can, let"s try it first with the popular cross-platform programming language python.

The python source code can be executed on a variety of platforms, so as long as the serial port is named correctly, it should work fine with the appropriate connection test bench.

Function code, indicating the purpose of this message, for example, 06 here is Write Single Register, which also writes a value to the specified place.

The Modbus protocol is actually a data format. It basically defines the communication content of a master-slave architecture. Since it is only the definition of the data structure, it can communicate through various physical interface, such as RS232, RS422, RS485, and even the network.

Modbus regards data transmission as "Register" access. Each device must define its own register type and address for external reference. The so-called transmission of data to the device is to write to the specified register, and to read the data is to read the specified register, which is simple and clear. In addition, the value stored in each address register is 16-bits.

For Smart Display control programs, the most commonly used are 06: Write single register (write a 16-bits value) and Read holding registers (read the value of multiple registers).

Use 03: Read Holding Registers/16: Write Multiple Register to read and write. These data affect the appearance of objects and usually do not change outside the design stage. To change the content, the Smart Display must be temporarily turned off before it can be updated.

Early Smart Display supports only 10 objects, so the widgetID range is 0 ~ 9 (inclusive). The new version of the firmware has been expanded to 64, but the addressing method has been changed, which will not be discussed here.

With these data (although not complete, but enough for now), we can package the control instructions and send them to Smart Display for control. As for how to pack and how to add CRC code, it will be explained in the following chapters.

In order to put Smart Display into practical application, a suitable human-machine interface (especially Graphics User Interface, GUI) is still needed to maximize its effectiveness. At present, there are many choices for the cross-platform GUI development platform, and we use Qt to implement it here.

Many people think that Qt is just a GUI library, but in fact it is a fairly complete development framework. If the application is implemented entirely through its class library, the project can be easily ported to other platforms (PC/Windows, Mac/MacOS, Raspberry Pi/Raspbian, Android, iOS, Embedded, etc.) with little modification. The program is a development tool software that is worth investing in learning.

The newer version of Qt actually already supports the Modbus class library. But here for illustration, and to facilitate everyone to rewrite into other languages, we still implement this test program from the most basic serial port reading and writing.

In addition to providing he function of selecting the serial port and transmitting the control code used in the previous example, this example further provides a horizontal lever in users interface of app window, which can set the value of the specified object. If you choose COM for the serial port, remember to fill in the actual number.

Not every codes are listed here. There is complete information in github that users can do download by themselves if interesting on programming, in this article we just know how to operate with the data format.

If you are already familiar with Qt, the above code should not be difficult to understand. If you are not familiar with it, take a moment to study it, some of its concepts are actually quite good and worth studying in depth. After getting familiar with it, it is a good choice for developing cross-platform applications or quickly prototyping a system.

The previous example is only for a setting of the object value. There is a more complete example SmartDisplayConsole application program for interested readers to learn more about. The following picture is the execution screen on the Raspberry Pi:

We have explained every step of controlling the Smart Display, and also provide a variety of control methods. Using this knowledge and rich imagination, I believe that various sparks can be stirred up and more diverse products can be produced. Let"s create a better future with Smart Display together!

Our company specializes in developing solutions that arerenowned across the globe and meet expectations of the most demanding customers. Orient Display can boast incredibly fast order processing - usually it takes us only 4-5 weeks to produce LCD panels and we do our best to deliver your custom display modules, touch screens or TFT and IPS LCD displays within 5-8 weeks. Thanks to being in the business for such a noteworthy period of time, experts working at our display store have gained valuable experience in the automotive, appliances, industrial, marine, medical and consumer electronics industries. We’ve been able to create top-notch, specialized factories that allow us to manufacture quality custom display solutions at attractive prices. Our products comply with standards such as ISO 9001, ISO 14001, QC 080000, ISO/TS 16949 and PPM Process Control. All of this makes us the finest display manufacturer in the market.

Without a shadow of a doubt, Orient Display stands out from other custom display manufacturers. Why? Because we employ 3600 specialists, includingmore than 720 engineers that constantly research available solutions in order to refine strategies that allow us to keep up with the latest technologiesand manufacture the finest displays showing our innovative and creative approach. We continuously strive to improve our skills and stay up to date with the changing world of displays so that we can provide our customers with supreme, cutting-edge solutions that make their lives easier and more enjoyable.

Customer service is another element we are particularly proud of. To facilitate the pre-production and product development process, thousands of standard solutions are stored in our warehouses. This ensures efficient order realization which is a recipe to win the hearts of customers who chose Orient Display. We always go to great lengths to respond to any inquiries and questions in less than 24 hours which proves that we treat buyers with due respect.

Choosing services offered by Orient Display equals a fair, side-by-side cooperation between the customer and our specialists. In each and every project, we strive to develop the most appropriate concepts and prototypes that allow us to seamlessly deliver satisfactory end-products. Forget about irritating employee turnover - with us, you will always work with a prepared expert informed about your needs.

In a nutshell, Orient Display means 18% of global market share for automotive touch screen displays, emphasis on innovation, flexibility and customer satisfaction.Don"t wait and see for yourself that the game is worth the candle!

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Xiaomi Redmi 10A will be launched in March 2022. The Redmi 10A launched with a model number unknown. Firstly, Its dimensional measure is 164.9 x 77 x 9 mm and the weight is 194 grams. Secondly, the display of the Redmi 10A is a 6.53-inch IPS LCD panel with 720 x 1600 pixels resolution. The display is protected with Corning Gorilla Glass 3. Thirdly and most importantly, It is powered by the MediaTek MT6762G Helio G25 (12 nm) and runs with Android 11. Moreover, it has up to an Octa-core (4×2.0 GHz Cortex-A53 & 4×1.5 GHz Cortex-A53) CPU.

The Xiaomi Redmi 10A phone has a single-camera setup on the back. This formation consists of a 13MP camera. It has a 5MP selfie camera inside the notch of the display. The video recording capability is 1080p@30fps. According to its RAM and ROM, It has three (3/4/6GB/32/64/128GB) variants. On the other hand, it can support up to microSDXC on using a dedicated slot. Certainly, Redmi 10A has a 5000mAh battery with fast charging. It has a dual nano-SIM card slot. That is to say, Redmi 10A is 2G/3G/4G supportable. The fingerprint sensor is side-mounted. You can get this in four colors-Black, Gray, and Blue.

In conclusion, we are giving our verdict on this device. If you want to buy the best 4G smartphone under 15K Taka. Then Xiaomi Redmi 10A will be in the first row among the best smartphones. Dear friends if you have an attraction to online games like Free Fire, and so on then you can buy it. Because it has RAM and a well Processor using the MediaTek MT6762G Helio G25 (12 nm) chipset. If you want a big backup on charge then you can buy this. Because it has a huge 5000mAh battery. In addition, it’s a 4G supportable smartphone. So, you can get good network facilities on it. However, it has a single-cam setup with a 13MP primary camera. So, it’s the image and video capability may be well. Therefore, to judge all of these reasons you can buy this.