5 ra8875 type color tft display quotation

ER-TFTM050A2-3-3661 is 800x480 dots 5" color tft lcd display with RA8875 controller board and capacitive touch panel with touch controller,superior display quality,super wide viewing angle and easily controlled by MCU such as 8051, PIC, AVR, ARDUINO,and ARM .It can be used in any embedded systems,industrial device,security and hand-held equipment which requires display in high quality and colorful image.

It supports 8080 6800 8-bit,16-bit parallel,3-wire,4-wire,I2C serial spi interface.Built-in MicroSD card slot. It"s optional for font chip, flash chip and microsd card. We offer two types connection,one is pinheader and the another is ZIF connector with flat cable mounting on board by default and suggested.

Of course, we wouldn"t just leave you with a datasheet and a "good luck!".Here is the link for5" TFT capacitive touch shield with libraries,examples,schematic diagram for Arduino Due,Mega 2560 and Uno. For 8051 microcontroller user,we prepared the detailed tutorial such as interfacing, demo code and development kit at the bottom of this page.

ER-TFTM050A2-2-4847 is 480x272 dots 5" color tft lcd display with RA8875 controller board and capacitive touch panel with touch controller,superior display quality,super wide viewing angle and easily controlled by MCU such as 8051, PIC, AVR, ARDUINO,and ARM .It can be used in any embedded systems,industrial device,security and hand-held equipment which requires display in high quality and colorful image.

It supports 8080 6800 8-bit,16-bit parallel,3-wire,4-wire,I2C serial spi interface.Built-in MicroSD card slot. It"s optional for font chip, flash chip and microsd card. We offer two types connection,one is pinheader and the another is ZIF connector with flat cable mounting on board by default and suggested.

Of course, we wouldn"t just leave you with a datasheet and a "good luck!".Here is the link for 5" TFT Touch Shield with Libraries, Examples.Schematic Diagram for Arduino Due,Mega 2560 and Uno . For 8051 microcontroller user,we prepared the detailed tutorial such as interfacing, demo code and development kit at the bottom of this page.

For example which library are you using for the RA8875? https://github.com/sumotoy/RA8875

What resolution display and color mode? 800x480 (see thread title), default color

Font issue: What type of font are you using? display default ER3304

ILI9341 type font? No

GFX type font? Used elsewhere in code; call tft.setFontDefault(); when done with GFX font

ER-TFT050-2 is 480x272 dots 5" color tft lcd module display with ILI6482 driver IC,optional 5 points capacitive multi-touch panel with controller GSL1680 and optional 4-wire resistive touch panel screen,superior display quality,super 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.

It’s time to build this digital clock that connects via Wi-Fi to the Internet to not only display the usual time, date, temperature, and humidity, but to also be able to retrieve things from the Internet like the weather or weather forecast, and stock market reports as well.

I’ve been building digital clocks for longer than I want to admit. My first one was built with over 20 of the 7400 series ICs and the (then) new seven-segment LED displays from Monsanto. My family was really impressed — especially when all those zeros rolled around at the beginning of each hour. Next came a series made with dedicated digital clock ICs that scanned the seven-segment displays. This reduced the IC count considerably and added switching transistors to handle the current.

More recently, I’ve built digital clocks using the Arduino family of microcontrollers and the highly accurate (about one minute per year) real time clock ICs like the DS3234 and DS3231. These allow for a calendar as well as the time, and by adding something like the BME280 you can easily add temperature, humidity, and barometric pressure to an eight-digit seven-segment display. The DS3231 is now available on a nice little breakout board with built-in battery backup and an easy I2C interface.

The advent of the ESP32 Wi-Fi development boards allows for a further increase in the sophistication of a digital clock. It doesn’t take much imagination to envision a digital clock with a large LCD display to not only show the usual time, date, temperature, and humidity, but to also be able to retrieve things from the Internet like the weather or weather forecast and stock market reports as well.

My design started with looking into the large seven inch LCD displays with 800x480 pixels. Between eBay, Amazon, and other dealers, there are lots of choices. I liked the price of a number on eBay coming from China but was unsure of just what software would be needed to run them. These have a nice set of mounting holes in the corners. It also appeared that many of them were built to plug into an Arduino Mega 2650 and my thinking was to use an ESP32.

I chose instead to use an Adafruit seven inch 800x480 display connected to their RA8875 driver board. Unfortunately, the Adafruit display doesn’t have any mounting holes, so it will take some extra effort to mount it in a box. Basically, you have a piece of glass, so you’ll need to make a frame of some sort to mount it in.

I knew the RA8875 would run off an Arduino and Adafruit’s software packages have always worked for me. The RA8875 has an SPI interface and the ESP32 has the SPI interface as well, so what could be easier? Famous last words! I couldn’t get the RA8875 to work with my ESP32. I purchased my ESP32 from Amazon — their HiLetgo ESP-WROOM-32 ESP32 development board with 2.4 GHz dual-mode Wi-Fi.

I found this ESP32 easy to use. A good ESP32 Arduino IDE (integrated development environment) installation guide can be found at https://randomnerdtutorials.com/installing-the-esp32-board-in-arduino-ide-windows-instructions and there are others that are easy to find with Google. After several posts on the Adafruit forum asking for help using the RA8875 with an ESP32, Adafruit responded with the message “we’ve never tried the ESP32 w/RA8875 — ESP32 also has all sorts of weirdness that makes it unstable and hard to use.”

After digging into the RA8875 software, I found that on initialization of the SPI interface, it begins by reading a register and checking the return value. If that value doesn’t match what an Arduino returns, it simply quits. I did open an issue with the RA8875 library and hopefully Adafruit will address the problem. I also tested a Teensy 3.1 with the RA8875 and it worked fine.

So, what to do? My display won’t work with an ESP32. My answer was to put a slave Arduino Nano between the ESP32 and the RA8875. A bit of overkill, and a real hassle to form strings on the ESP32 and then send them to the Arduino Nano where it needs to parse them and then send the required commands to the RA8875, but this method does work.

Figure 1 is a block diagram of the circuit I built. The Arduino Nano does most of the work. It drives the LCD display and reads the DS3231 real time clock as well as the BME280 for temperature and humidity.

I used point-to-point wiring on a 3.75 x 2.25 inch prototype board. It fit everything quite nicely. I used a four-pin header to connect the small BME280 breakout board via an eight inch jumper. This keeps the temperature and humidity sensor away from the heat generated by the prototype board.

A pair of six-pin headers with jumper cables connects the prototype board to the RA8875. A nine volt/one amp wall wart type power supply was used which connects to the board through a mating jack. The nine volt power supply is delivering about 200 milliamps to the board.

The usual 7805 five volt regulator supplies five volts to all five small boards: the Arduino Nano; ESP32; DS3231; BME280; and the RA8875 with its LCD display. A small 1 x 1.25 inch heatsink on the 7805 works well. It’s warm to the touch, but not so hot that you can’t keep your fingers on it (which is my seat-of-the-pants measurement for judging the size of a heatsink). The complete schematic is shown in Figure 2.

Figure 8 illustrates the flowchart of the Arduino Nano software. It not only receives the data strings from the ESP32, but it also hosts a DS3231 real time clock circuit and a BME280 temperature/humidity/pressure circuit along with the RA8875 board to drive the LCD.

I wanted the time to be displayed in large numbers that could be seen across a room. The Adafruit software library for the RA8875 is quite limited when it comes to outputting text, so I wrote my own function to draw large 80x160 pixel seven-segment numbers.

One needs to remember that each time a number is drawn, you need to clear the area underneath it or else the drawings pile on top of each other. I felt the text output was difficult to read at any distance even with the larger fonts on the RA8875. I thickened the font after drawing it once by drawing it again with a location one pixel over and down from the first location. A filled circle in deep yellow for a.m. and dark gray for p.m. separates the hours, minutes, and seconds.

As for the display, there is no “compatible” display of the size you are looking for. This is primarily due to the display controller on the display you have. For larger displays, a different controller chip and library are necessary. You may want to look at the 7" 800x480 Nextion HMI (smart) display which communicates via UART (ie Serial1 on the Photon). Nextion also sells a 5" 800x480 version.

There is also this 7" RA8875-based 800x480 display from BuyDisplay.com. It is not as advanced as the Nextion. They also sell a 5" version but it is 480x272 pixels.

The Nextion allows you to design you display graphics and layout on an editor. Since it is smart, it can handle animations, menu logic and more without the Photon. It does have a steeper learning curve but the benefits are considerable.

Another approach, that you reminded me of with the Android table, is to use Blynk combined with the cheap tablet. The application which runs on Android and iOS might be the easiest way to get you data display anywhere! There is also a new player called Cayenne that leverages Blynk but with additional tools.

C:\Program Files (x86)\Arduino\arduino-builder -dump-prefs -logger=machine -hardware C:\Program Files (x86)\Arduino\hardware -tools C:\Program Files (x86)\Arduino\tools-builder -tools C:\Program Files (x86)\Arduino\hardware\tools\avr -built-in-libraries C:\Program Files (x86)\Arduino\libraries -libraries C:\Users\Thomas\Documents\Arduino\libraries -fqbn=arduino:avr:uno -vid-pid=0X2341_0X0043 -ide-version=10809 -build-path C:\Users\Thomas\AppData\Local\Temp\arduino_build_239535 -warnings=none -build-cache C:\Users\Thomas\AppData\Local\Temp\arduino_cache_222093 -prefs=build.warn_data_percentage=75 -prefs=runtime.tools.arduinoOTA.path=C:\Program Files (x86)\Arduino\hardware\tools\avr -prefs=runtime.tools.arduinoOTA-1.2.1.path=C:\Program Files (x86)\Arduino\hardware\tools\avr -prefs=runtime.tools.avrdude.path=C:\Program Files (x86)\Arduino\hardware\tools\avr -prefs=runtime.tools.avrdude-6.3.0-arduino14.path=C:\Program Files (x86)\Arduino\hardware\tools\avr -prefs=runtime.tools.avr-gcc.path=C:\Program Files (x86)\Arduino\hardware\tools\avr -prefs=runtime.tools.avr-gcc-5.4.0-atmel3.6.1-arduino2.path=C:\Program Files (x86)\Arduino\hardware\tools\avr -verbose C:\Users\Thomas\Documents\Arduino\CDU_USB_sketch_5_inch\CDU_USB_sketch_5_inch.ino

C:\Program Files (x86)\Arduino\arduino-builder -compile -logger=machine -hardware C:\Program Files (x86)\Arduino\hardware -tools C:\Program Files (x86)\Arduino\tools-builder -tools C:\Program Files (x86)\Arduino\hardware\tools\avr -built-in-libraries C:\Program Files (x86)\Arduino\libraries -libraries C:\Users\Thomas\Documents\Arduino\libraries -fqbn=arduino:avr:uno -vid-pid=0X2341_0X0043 -ide-version=10809 -build-path C:\Users\Thomas\AppData\Local\Temp\arduino_build_239535 -warnings=none -build-cache C:\Users\Thomas\AppData\Local\Temp\arduino_cache_222093 -prefs=build.warn_data_percentage=75 -prefs=runtime.tools.arduinoOTA.path=C:\Program Files (x86)\Arduino\hardware\tools\avr -prefs=runtime.tools.arduinoOTA-1.2.1.path=C:\Program Files (x86)\Arduino\hardware\tools\avr -prefs=runtime.tools.avrdude.path=C:\Program Files (x86)\Arduino\hardware\tools\avr -prefs=runtime.tools.avrdude-6.3.0-arduino14.path=C:\Program Files (x86)\Arduino\hardware\tools\avr -prefs=runtime.tools.avr-gcc.path=C:\Program Files (x86)\Arduino\hardware\tools\avr -prefs=runtime.tools.avr-gcc-5.4.0-atmel3.6.1-arduino2.path=C:\Program Files (x86)\Arduino\hardware\tools\avr -verbose C:\Users\Thomas\Documents\Arduino\CDU_USB_sketch_5_inch\CDU_USB_sketch_5_inch.ino

"C:\\Program Files (x86)\\Arduino\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10809 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\cores\\arduino" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\variants\\standard" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\sketch\\CDU_USB_sketch_5_inch.ino.cpp" -o nul

"C:\\Program Files (x86)\\Arduino\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10809 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\cores\\arduino" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\libraries\\SPI\\src" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\sketch\\CDU_USB_sketch_5_inch.ino.cpp" -o nul

"C:\\Program Files (x86)\\Arduino\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10809 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\cores\\arduino" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\libraries\\SPI\\src" "-IC:\\Users\\Thomas\\Documents\\Arduino\\libraries\\Adafruit_RA8875" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\sketch\\CDU_USB_sketch_5_inch.ino.cpp" -o nul

"C:\\Program Files (x86)\\Arduino\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10809 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\cores\\arduino" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\libraries\\SPI\\src" "-IC:\\Users\\Thomas\\Documents\\Arduino\\libraries\\Adafruit_RA8875" "-IC:\\Users\\Thomas\\Documents\\Arduino\\libraries\\Adafruit_GFX_Library" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\sketch\\CDU_USB_sketch_5_inch.ino.cpp" -o nul

"C:\\Program Files (x86)\\Arduino\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10809 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\cores\\arduino" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\libraries\\SPI\\src" "-IC:\\Users\\Thomas\\Documents\\Arduino\\libraries\\Adafruit_RA8875" "-IC:\\Users\\Thomas\\Documents\\Arduino\\libraries\\Adafruit_GFX_Library" "-IC:\\Users\\Thomas\\Documents\\Arduino\\libraries\\dcs-bios-arduino-library-master\\src" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\sketch\\CDU_USB_sketch_5_inch.ino.cpp" -o nul

"C:\\Program Files (x86)\\Arduino\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10809 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\cores\\arduino" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\libraries\\SPI\\src" "-IC:\\Users\\Thomas\\Documents\\Arduino\\libraries\\Adafruit_RA8875" "-IC:\\Users\\Thomas\\Documents\\Arduino\\libraries\\Adafruit_GFX_Library" "-IC:\\Users\\Thomas\\Documents\\Arduino\\libraries\\dcs-bios-arduino-library-master\\src" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\libraries\\EEPROM\\src" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\sketch\\CDU_USB_sketch_5_inch.ino.cpp" -o "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\preproc\\ctags_target_for_gcc_minus_e.cpp"

"C:\\Program Files (x86)\\Arduino\\tools-builder\\ctags\\5.8-arduino11/ctags" -u --language-force=c++ -f - --c++-kinds=svpf --fields=KSTtzns --line-directives "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\preproc\\ctags_target_for_gcc_minus_e.cpp"

"C:\\Program Files (x86)\\Arduino\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -MMD -flto -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10809 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\cores\\arduino" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\libraries\\SPI\\src" "-IC:\\Users\\Thomas\\Documents\\Arduino\\libraries\\Adafruit_RA8875" "-IC:\\Users\\Thomas\\Documents\\Arduino\\libraries\\Adafruit_GFX_Library" "-IC:\\Users\\Thomas\\Documents\\Arduino\\libraries\\dcs-bios-arduino-library-master\\src" "-IC:\\Program Files (x86)\\Arduino\\hardware\\arduino\\avr\\libraries\\EEPROM\\src" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\sketch\\CDU_USB_sketch_5_inch.ino.cpp" -o "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\sketch\\CDU_USB_sketch_5_inch.ino.cpp.o"

Using previously compiled file: C:\Users\Thomas\AppData\Local\Temp\arduino_build_239535\libraries\dcs-bios-arduino-library-master\internal\Protocol.cpp.o

"C:\\Program Files (x86)\\Arduino\\hardware\\tools\\avr/bin/avr-gcc" -w -Os -g -flto -fuse-linker-plugin -Wl,--gc-sections -mmcu=atmega328p -o "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535/CDU_USB_sketch_5_inch.ino.elf" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\sketch\\CDU_USB_sketch_5_inch.ino.cpp.o" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\libraries\\SPI\\SPI.cpp.o" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\libraries\\Adafruit_RA8875\\Adafruit_RA8875.cpp.o" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\libraries\\Adafruit_GFX_Library\\Adafruit_GFX.cpp.o" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\libraries\\Adafruit_GFX_Library\\Adafruit_SPITFT.cpp.o" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\libraries\\Adafruit_GFX_Library\\glcdfont.c.o" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535\\libraries\\dcs-bios-arduino-library-master\\internal\\Protocol.cpp.o" "C:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535/..\\arduino_cache_222093\\core\\core_arduino_avr_uno_0c812875ac70eb4a9b385d8fb077f54c.a" "-LC:\\Users\\Thomas\\AppData\\Local\\Temp\\arduino_build_239535" -lm

There is one serious (not obvious) drawback however: Instead of having a screen buffer where you can indefinitely add stuff, there is a list of objects which is then displayed by the controller. This list is somehow limited and if it"s full... it"s full - end of story. So this limits how many graphical elements you can add to the display. My example here occupies 29% of the display list already. I guess for my application it"s OK, but you could definitely not draw 384000 individual pixels while calculating a mandelbrot set (or even a few scope plots).

This 5.0" TFT screen has lots of pixels, 800x480 to be exact, an LED backlight and a resistive touchscreen overlay. Its great for when you need a lot of space for graphics or a user interface. These screens are commonly seen in consumer electronics, such as miniature TV"s, GPS"s, handheld games car displays, etc. A 40-pin connector has 8 red, 8 green, and 8 blue parallel pins, for 24 bit color capability.

This version has a 4-wire resistive touchscreen attached It"s exactly the same TFT display as PID 1680 but with a resistive touch panel so it is a little more expensive.

This is a "raw pixel-dot-clock" display and does not have an SPI/parallel type controller or any kind of RAM. The display is supposed to be constantly refreshed, at 60Hz, with a pixel clock, V sync, H sync, etc. There are some high end processors such as that used in the BeagleBone that can natively support such RGB TTL displays. However, it is extremely rare for a small microcontroller to support it, as you need dedicated hardware or a very fast processor such as an FPGA. Not only that, but the backlight requires a constant-current mode boost converter that can go as high as 24V instead of our other small displays that can run the backlight off of 5V

For that reason, we are carrying it only as a companion to the Adafruit RA8875 driver board in the store, which is a chip that can handle the huge video RAM and timing requirements, all in the background. That"s the best way to interface this display to just about any microcontroller (including Arduino & friends) If you are an advanced electronics enthusiast you can try wiring this directly to your processor, but it we don"t have any support or tutorials for that purpose.