mikroelektronika tft display free sample

2023-01-03 12:32:11

Pay once and never worry about it again. Once you buy Visual TFT you are entitled to a lifetime of free upgrades. Upgrading the software takes only a few minutes and a few clicks. We are constantly adding new features, and you can keep track of what is happening on the Software Roadmap page.

The Visual TFT currently supports 17 graphics controllers from leading manufacturers. You can be a part of the process by letting us know what graphics controllers you wish to see supported next, by using our helpdesk and submitting a ticket.

Visual TFT supports a total of 17 TFT controllers and many different display sizes, from 131x131 to 800x600 pixels. The most popular ones are the 320x240 TFT displays running on ILI9341controller. This display is found in many embedded devices worldwide. All MikroElektronika multimedia boards have this display integrated, so you’ll have all the hardware you need to get started. You can also order TFT displays separately from MikroElektronika’s online store.

Visual TFT also supports FTDI chip™ - the latest EVE GUI Platform and FT8x and FT81x families of graphics controllers. These powerful devices allow for sophisticated forms of human-machine interaction and more satisfying user experiences, including video playback. EVE integrates display, audio and touch onto a low cost, easy-to-use, single-chip solution. The EVE family has an object-based structure (where objects can be images, fonts, etc). This offers you an easy way to design more effective GUIs for TFTs, with all the display, audio and touch functionality included. Visual TFT is the first software in the world to provide full support for many of EVE’s powerful features like sound, transparency and anti-aliasing fonts. There are many new components available for GUI design, which are natively supported in the controller itself.

Visual TFT supports all our development and multimedia boards, so you will find all the hardware you could possibly need in one place. Each board has a hardware pattern, a configuration template with hardware connections for TFT and touch screen, and you can do all necessary settings with a single click.

Three major compiler groups are currently supported: mikroC, mikroBasic and mikroPascal for PIC, dsPIC, PIC32, AVR, ARM and FT90x. This means that no matter what compiler you will write your project in, source code generated by Visual TFT Tool will be integrated smoothly.

The Visual TFT Interface is really easy to use, and implements standard intuitive behavior, so you will feel like using any other vector graphic editors. But we have mixed functionalities from both worlds: world of design and world of programming. There are several palettes of most useful components that you can use in your application. Just drag a component onto a pixel grid display screen and it will be drawn instantly. Use Object Inspector to edit component properties and to assign desired events.

Do you need more space for your images and fonts? Do you want to create image slideshows, or to even play a video from MMC/SD Card? With new Resource file feature, Visual TFT software brings you all this and much more. If this option is selected, after code generation, Visual TFT will store all of your images and fonts in the resource file and will optimize them as much as possible for faster utilization. You just have to copy that file onto your MMC/SD card and you are ready to go.

The help file is the best place to start if you want to get to know the Visual TFT software. The easy-to-read format and detailed explanations of every functionality and feature will make you an expert in no time.

mikroelektronika tft display free sample

TFT Proto 4.3in carries a 480x272 ATO43B35 TFT screen covered with a 4-wire resistive touchscreen panel. To drive the 262k-color display, there"s an SSD1963 graphic controller. The touchpanel is driven by an advanced STMPE811 controller. Source code examples demonstrate calculator on TFT display.

mikroelektronika tft display free sample

DynTFTCodeGen is a tool, used for designing and generating initialization code and event handlers for DynTFT projects. It features a drawing board, an object inspector, a component palette and various dialog boxes for application and project level settings.

DynTFT is a set of visual components, inspired by Delphi"s VCL. These components are compilable by mikroPascal, Delphi and FreePascal, allowing faster designing and debugging of the UI part of an application. The API features a runtime component registration, to make sure that users won"t have to deal with internal handling of mouse/touch events.

This is a fun project with a ST7735 TFT Display, MG90 Servo & LV-MaxSONAR EZ3 analogue SONAR sensor. A MSP430F5529LP micro is used to drive the servo motor in steps and read the SONAR echoes. The SONAR is swept from 0 - 180 degrees and the echoes are displayed on the ST7735 TFT. The code is written with TI"s Code Composer Studio.

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This project shows how to simply connect the PIC16F887 microcontroller with ST7735R 1.8" SPI TFT screen. It shows how to draw text, lines, circles... This project requires ST7735 TFT library for mikroC PRO for PIC compiler.

This project was created as a simple learning projct to get familiar with the VTFT tool and the Mikromedia plus board. It demonstrates the use of the touch display and the the use of the CAN bus interrupt based.

mikroelektronika tft display free sample

Another interesting project that uses my library. This example demonstrate how we can control RGB led with color picker and sliders. Display 16-bit color values in text labels or tool tip notifications. Come with library version 2.5.

This application provides functions for manual crop and resize images in high quality mode, without any deformation. Also, while importing, application automatically reduces large images respecting the dimensions of your TFT display.

mikroelektronika tft display free sample

Thin film transistor liquid crystal display (TFT-LCD) is a variant of liquid crystal display (LCD) which uses thin-film transistor (TFT) technology to improve image quality (e.g., addressability, contrast).

TFT LCDs are used in television sets, computer monitors, mobile phones, handheld video game systems, personal digital assistants, navigation systems, projectors, etc.

void TFT_Set_Brush(char brush_enabled, unsigned int brush_color, char gradient_enabled, char gradient_orientation, unsigned int gradient_color_from, unsigned int gradient_color_to);

void TFT_Rectangle_Round_Edges(unsigned int x_upper_left, unsigned int y_upper_left, unsigned int x_bottom_right, unsigned int y_bottom_right, unsigned int round_radius);

void TFT_Partial_Image(unsigned int left, unsigned int top, unsigned int width, unsigned int height, code const far unsigned short * image, unsigned short stretch);

void TFT_Ext_Partial_Image(unsigned int left, unsigned int top, unsigned int width, unsigned int height, unsigned long image, unsigned short stretch);

mikroelektronika tft display free sample

MikroElektronika and Riverdi have announced that from now on they have commenced a mutual cooperation in scope of technological solutions exchange regarding their products. MikroElektronika has obtained a reliable partner who provides TFT modules assembled in MikroE products, including the most significant one – mikromedia HMI.

On the other hand Riverdi gained an access to expanded development system by Riverdi click board and Visual TFT software. Additionally, Riverdi TFT modules with FT8xx chips on board will be available in MikroElektronika sales network.

According to both companies, mutual cooperation is a great opportunity to develop and jointly extend commercial activity on new market areas. At the same time, it provides customers with an access to excellent development tools based on industrial grade displays.

mikroelektronika tft display free sample

The ST7789 TFT is a color display that uses SPI protocol. This display is an IPS display, it comes in different sizes (1.3″, 1.54″ …) but all of them should have the same resolution of 240×240 pixel.

The ST7789 display module shown in project circuit diagram has 7 pins: (from right to left): GND (ground), VCC, SCL (serial clock), SDA (serial data), RES (reset), DC (or D/C: data/command) and BLK (back light).

The ST7789 TFT display works with 3.3V only (power supply and control lines). The display module is supplied with 3.3V that comes from the AMS1117 3V3 voltage regulator, this regulator steps down the 5V into 3.3V (supplies the display controller with regulated 3V3).

To connect the PIC18F46K22 with the display module, I used voltage divider for each line. This means there are 4 voltage dividers. Each voltage divider consists of 2.2k and 3.3k resistors, this drops the 5V into 3V which is sufficient.

If the display module has a CS pin (Chip Select) then it should be connected to the PIC18F46K22 microcontroller through another voltage divider (for example connecting it to pin RD2).

In this project SPI1 module is used with SCK1 on pin RC3 (#18) and SDO1 (MOSI) on pin RC5 (#24). SCK1 and SDO1 pins of the PIC18F46K22 MCU are respectively connected to SCL and SDA pins of the ST7789 display module.

The default connection setting of the mikroC ST7789 TFT library is hardware SPI1 module (SPI1 module must be initialized before initiating the display). Instead of hardware SPI1 module, software SPI or hardware SPI2 module can be used.

If TFT data pin (TFT_DIN) and clock pin (TFT_SCK) are defined in the main code (before #include “ST7789.c”) then the library will automatically use software SPI.

If the display module has a CS pin uncomment its related lines (#define TFT_CS and #define TFT_CS_DIR) and connect it to RD2 pin of the microcontroller through voltage divider.

mikroelektronika tft display free sample

Click board comes with the header strips soldered. Ambient 2 click mikroBUS™. A Click accessory module for use with MikroElektronika mikroBUS™ microcontroller development boards. The Ambient 2 click module is equipped with a TI OPT3001 ambient light sensor that measures visible light from any type of source and incorporates an infrared filter. The measurement range of the module is from 0.01 lux to 83000 lux, with 23-bit output resolution. Communication with the target MCU is via the mikroBUS I2C interface, and the board requires a 3.3V power supply.

The ECG Click Board is available as a separate item, MikroElektronika part MIKROE-2455. The target board requires an MCU with a minimum 10-bit ADC. Click board comes with the header strips soldered. ECG click mikroBUS™ Bundle. The MikroElektronika ECG Click Board is an accessory board that provides a simple method of adding electrocardiogram measurement hardware to a development platform. This starter kit variant provides the required electrodes and cables in addition to the ECG Click Board. Like all Click Boards the ECG Click fits the popular mikroBUS™ socket, creating a plug-in solution to add functionality, removing the need for hardware configuration. The ECG Click measures electrical activity of the heart through 3 electrodes taped to the skin that connect to the board via a 3.5mm jack. The circuity of the ECG click amplifies the electrical signals from the heart and filters out noise, providing a clean and clear signal for the mother development board. The MikroElektronika MikroPlot software, a free to download data visualisation tool, can be used to analyse the data generated and create an ECG plot. Features. Fits the popular mikroBUS™ socket 7-block design (protection, preamplifier, high-pass filter #1, amplifier, high-pass filter #2, low-pass filter, DRL circuit) Jumpers for setting output voltage range Trimmer potentiometer to adjust gain MCP609 Op Amp MAX6106 Voltage Reference IC ESD, Overvoltage and Overcurrent protection Analogue output (mikroBUS™ AN pin) 5 V power supply. Package Contents. 1 x ECG Click Board 1 x 3 Lead ECG Cable with 3.5mm Jack 30 x Single Use ECG Electrodes

Click board comes with the header strips soldered. Grid-EYE click mikroBUS™. The Click accessory modules plug into the mikroBUS sockets in MikroElektronika microcontroller development boards. Grid-EYE click is an 8 x 8 thermal array sensor-detector featuring the Panasonic AMG8853 array sensor. This board detects long-wavelength infrared radiation - heat rather than light. AMG8853 thermal-infrared array sensor. Temperature measuring range: -20 to +100°C. Detecting distance: 5m. Viewing angle: 60°. Frame rate: 1 or 10fps. Communication: serial I²C bus. Power supply: +3.3 or +5Vdc. LED power indicator

Riverdi Colour TFT LCD Displays. A range of high quality, cost effective Riverdi colour TFT LCD displays from MikroElektronika. These portrait format displays are suitable for a wide range of industrial and consumer applications and are available in basic or capacitive touch screen versions. Most of the displays are available with a white or black protective bezel. The interface type is I2C/SPI for the 2.8, 3.5 and 4.3 inch displays, and SPI/QSPI for the 5 and 7 inch displays. A MikroElektronika Riverdi click adapter board is available to allow use of the displays with various items of MikroElektronika hardware, see RS ; 136-0795 136-0795. 2.82" Displays, 320 x 240 pixels MIKROE-2156 ( ; 139-3629 139-3629 ) – Non touchscreen MIKROE-2158 ( ; 139-3630 139-3630 ) – Capacitive Touch MIKROE-2159 ( ; 139-3631 139-3631 ) – Capacitive Touch with White Bezel MIKROE-2160 ( ; 139-3632 139-3632 ) – Capacitive Touch with Black Bezel 3.5" Displays, 320 x 240 pixels MIKROE-2161 ( ; 139-3633 139-3633 ) – Non touchscreen MIKROE-2163 ( ; 139-3635 139-3635 ) – Capacitive Touch 4.3" Displays, 480 x 272 pixels MIKROE-2164 ( ; 139-3636 139-3636 ) – Non touchscreen MIKROE-2166 ( ; 139-3637 139-3637 ) – Capacitive Touch MIKROE-2167 ( ; 139-3638 139-3638 ) – Capacitive Touch with White Bezel MIKROE-2168 ( ; 139-3639 139-3639 ) – Capacitive Touch with Black Bezel 5.0" Displays, 800 x 480 pixels MIKROE-2169 ( ; 139-3641 139-3641 ) – Non touchscreen MIKROE-2171 ( ; 139-3642 139-3642 ) – Capacitive Touch MIKROE-2172 ( ; 139-3643 139-3643 ) – Capacitive Touch with White Bezel MIKROE-2173 ( ; 139-3644 139-3644 ) – Capacitive Touch with Black Bezel 7.0" Displays, 800 x 480 pixels MIKROE-2174 ( ; 139-3645 139-3645 ) – Non touchscreen MIKROE-2176 ( ; 139-3646 139-3646 ) – Capacitive Touch MIKROE-2177 ( ; 139-3647 139-3647 ) – Capacitive Touch with White Bezel MIKROE-2178 ( ; 139-3648 139-3648 ) – Capacitive Touch with Black Bezel

Heart Rate 4 click mikroBUS™. A Click accessory module for use with MikroElektronika mikroBUS microcontroller development boards. The Heart Rate 4 click utilises the Maxim MAX30101 high-sensitivity pulse oximeter and heart-rate sensor which includes internal LEDs, photodetectors, optical elements and low-noise electronics. The Click board communicates with the target MCU over I2C interface and requires a 3.3 or 5V power supply.

Fever Click mikroBUS™. A Click accessory module for use with MikroElektronika mikroBUS microcontroller development boards. The Fever click board uses a Maxim MAX30205 human body temperature sensor and has a temperature measurement accuracy of ±0.1°C from 37 to 39°C. The click is designed to operate from a 3.3V power supply and communicates with the target MCU via I2C interface. Body temperature measurement accuracy of 0.1°C 1/256 °C temperature measurement resolution Operating temperature range 0 to 50°C

Earthquake click mikroBUS™. A Click accessory module for use with MikroElektronika mikroBUS microcontroller development boards. The Earthquake click utilises the DS7 high-precision seismic sensor from Omron to provide a spectral intensity (SI) acceleration value. The SI value has a high correlation with the seismic intensity scale that defines the magnitude of an earthquake. The click board communicates with the target MCU via I2C interface and requires a 3.3V or 5V power supply. Click board with Omron DS7 high-precision seismic sensor Acceleration detection range ±2,000 gal Shutoff output for seismic intensity level 5 or higher

Click board comes with the header strips soldered. GPS click mikroBUS™. The Click accessory modules plug into the MikroBUS sockets in MikroElektronika microcontroller development boards. GPS Click is a compact solution for adding GPS functionality to your device. LEA-6S, high performance u-blox 6 positioning engine -147dBm coldstart sensitivity 5Hz update rate UART or I²C serial bus interface USB PC interface Power supply: 3.3V

Click board comes with the header strips soldered. microSD click mikroBUS™. The Click accessory modules plug into the MikroBUS sockets in MikroElektronika microcontroller development boards. microSD Click features a microSD card slot for microSD cards used as a mass storage media for portable devices. SPI serial interface Power supply: 3.3V Ferrite voltage supply filter

MikroElektronika Jumper Wires. Prototyping is made super easy with this range of jumper wires from MicroElektronika. This pack contains 10 jumper wires in an assortment of colours. Jumper wires, often just referred to as jumpers, are wires used on breadboards to create electronic circuits. They feature connectors at each end which easily attach to the breadboard, connector or equipment, without the need for soldering. Connections are therefore easy to change and move about the breadboard, which is essential during your prototyping phase. Each wire measures 15cm long and each pack contains 10 different coloured wires to make it really easy to identify them. There are 3 different packs available with different connector options, please refer to the information below for details.. Pack of 10 Assortment of colours 15cm long (each wire) Perfect for prototyping and education. Versions Available: ; 791-6450 791-6450 - MIKROE-511 Female to Female ; 791-6454 791-6454 - MIKROE-512 Male to Female ; 791-6463 791-6463 - MIKROE-513 Male to Male Colours included: Black Blue Green Grey Orange Pink Purple Red Yellow White

Click board comes with the header strips soldered. RFid click mikroBUS™. The Click accessory modules plug into the MikroBUS sockets in MikroElektronika microcontroller development boards. RFid click features a 13.56MHz contactless RFid transceiver and a trace antenna. CR95HF 13.56MHz contactless transceiver with trace antenna Supports ISO/IEC 14443 type A and B, ISO/IEC 15693 and ISO/IEC 18092 protocols (tags) It can detect, read and write NFC forum type 1, 2, 3 and 4 tags On-board dedicated internal frame controller and RF analogue front end (AFE) Communication: serial UART and SPI Power supply: +3.3Vdc Power indicator LED

Click board comes with the header strips soldered. Arduino UNO click shield mikroBUS™. The MIKROE-1581 from MikroElektronika is an Arduino UNO click shield. It is an extension board which comes in a shield design, so it sits directly on top of your Arduino board. The MIKROE-158 provides you with access to an ecosystem of over 75 different click boards, each offering different functionality. Therefore opening up the possibilities of the Arduino UNO board. How does it connect to click boards? The Arduino UNO click shield houses two mikroBUS host sockets which provide easy connection to the click board range from MikroElektronika. Is it just the Arduino UNO that it works with? No, the MIKROE-158 can be used with any Arduino-compatible board. What ‘s on-board? 2 x mikroBUS host sockets Single headers: 1x10 and 1x6 Arduino connector Power supply: 3.3V or 5V What are click boards? Click boards are a range of modules from MikroElektronika which feature all sorts of technology. They provide straight-forward way of adding functionality to your microcontroller board. Categories include: Sensors Wireless Connectivity (i.e. WiFi, Zigbee and Bluetooth) Displays Human Machine Interface Motor Control Audio Power Management

Click board comes with the header strips soldered. OLED W click mikroBUS™. The OLED W click is an add-on board that allows you to add a white monochrome OLED display to your design. Key Features of the OLED W click mikroBUS™ pinout standard White monochrome passive matrix OLED display SSD1306 IC with functionality such as contrast control, normal or inverse image display and vertical/horizontal scrolling Wide viewing angle Energy saving Suitable for 3.3 V power supply 19.3 x 7.8 mm 96 x 39 px resolution

Click board comes with the header strips soldered. MAX232 Adapter Board for RS232. The MikroElektronika MIKROE-222 is a MAX232 adapter module for serial UART communications. It is an add-on board which connects a microcontroller to RS232 devices, for example, a serial port on a PC. The MIKROE-222 features RS232 communication and can connect the MAX232 circuit device to a prototyping board. What is a MAX232? There is a MAX232 IC on this board. The MAX232 is a dual transmitter / receiver IC that converts RX, TX, CTS, RTS signals. It takes signals via the UART serial connector and converts them into signals that are RS232 standard and then sends that data to the RS232 device. What"s on-board? MAX232 IC Female DB9 Connector (RS232) 6-pin connector connects with microcontroller pins for UART communication

Click board comes with the header strips soldered. Weather click mikroBUS™. The Click accessory modules plug into the MikroBUS sockets in MikroElektronika microcontroller development boards. The Weather click add-on board features the Bosch BME280 sensor providing accurate measurement of humidity, barometric pressure and temperature. Temperature measurement range: -40 to +85°C Humidity measurement range: 0 to 100% RH Barometric pressure measurement range: 300 to 1100hPa Three operating modes: Sleep, Forced and Normal Sleep mode: no operation, all registers accessible, lowest power, selected after startup Forced mode: perform one measurement, store results and return to sleep mode Normal mode: continuous cycling of measurements and inactive periods Communication: serial I²C, SPI Serial interface selected by jumper link Two I²C addresses available, selected by jumper link Supported by all MikroElektronika compilers Power supply: +3.3Vdc Dimensions: 28.6 x 25.4 x 3.3mm Applications: Home automation, fitness monitors, weather forecasting, vertical movement detection, remote sensing for the Internet of Things (IoT)

Click board comes with the header strips soldered. RS485 click 3.3V mikroBUS™. The Click accessory modules plug into the mikroBUS sockets in MikroElektronika microcontroller development boards. The RS485 Click 3.3 V accessory board is designed for balanced data transmission with a 3.3V power supply. It has an on-board SN65HVD12 differential line transceiver and is supported by all MikroElektronika compliers.. mikroBus™ form factor Complies with EIA standards RS485 and RS422 UART communication interface Fits standard prototyping breadboard On-board Bias and Termination resistors mikroBUS™ is specially designed pinout standard with SPI, I2C, Analogue, UART, Interrupt, PWM, Reset and power supply pins

mikroelektronika tft display free sample

TFT Board Capacitive TFT Board Capacitive is a display module featuring a capacitive touch panel. It can be connected to a development board equipped with the standardized universal display connector. TFT Board Capacitive display module is driven by the SSD1963, an integrated display driver from Solomon Systech, via the standard 8080 parallel interface. TFT Board Capacitive displays are produced in several display sizes, with more planned in the future. They all support up to 24-bit pixel format (up to 16 million colors), with good contrast ratio, and support for a multi-touch. TFT Board 3 Capacitive features a 3.5 display with the resolution of 320 x 240 pixels, and an active area of 70.08 x 52.56 mm TFT Board 4 Capacitive features a 4.3 display with the resolution of 480 x272 pixels, and an active area of 95.04 x 53.86 mm TFT Board 5 Capacitive features a 5 display with the resolution of 800 x 480 pixels, and an active area of 108 x 64.8 mm TFT Board 7 Capacitive features a 7 display with the resolution of 800 x 480 pixels, and an active area of 154.08 x 85.92 mm TFT Board Capacitive displays do not require any additional configuration. In most cases, the display module can be used as soon as it is connected to the development board, equipped with the universal display connector. Time saving embedded toolsGND Ground Power supply VCC SDA Touch Panel I2C Data Touch panel I2C Clock SCL GPO Display GPIO Touch panel interrupt INT D/C Display command/data Display reset tRST WR Display write Display chip select CS TE Display frame sync Display read RD D1 Display frame sync Data line D0 D3 Data line Data line D2 D5 Data line Data line D4 D7 Data line Data line D6 D9 Data line Data line D8 D11 Data line Data line D10 D13 Data line Data line D12 D15 Data line Data line D14 D17 Data line Data line D16 D19 Data line Data line D18 D21 Data line Data line D20 D23 Data line Data line D22 cRST Touch panel reset Display stand-by STB NC Not connected Touch panel wake-up WK TFT Board display connector

mikroelektronika tft display free sample

In addition, the PIC (v.7.0.0 or later) compiler integrates the process of project development that requires a graphical interface and the GUI software “Visual TFT” to support a comfortable working environment, saving time. It is also ideal as a built-in tool for.

From GUI design to backend coding, compilation and debugging, we have a comfortable working environment.With Visual TFT integrated with the compiler, touch control, UI generation by drag and drop operation, etc. are also possible.

mikroelektronika tft display free sample

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