I am currently working on a project that switched over to using an ATMEGA 644 instead of an arduino uno. My issue lies in integrating the peripherals. I have a "ILI9341TFT LCD with Cap Touch Breakout Board with SD Card" and the HM-10 bluetooth module. When I implement bluetooth, the screen loads unbearably painstakingly slow. The library I'm using is "SoftwareSerial.h". I'm thinking the bluetooth baud rate is also being set for the clock. I'm not sure how to fix it or if that is the problem. Please let me know if anyone has any ideas!
P.S: I have had all of these components work perfectly separately, but can't seem to integrate well.
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I have designed a custom board using atmega32u4 with a few other components (Such as RTC, memory and etc) but left them empty to test if the microcontroller can be programmed. After just hand soldering the microcontroller and the necessary capacitors and resistors, ATMEL Studio can't read device signature.I'm using AVRISP MKII. This board was inspired by ARDUINO ProMicro in design. The things I tried to solve it:
Measure all 3.3 volt supply lines and all of the grounds. (They all correspond with PCB and schematic)
Checked SPI lines to see if microcontroller receives commands from the programmer by using oscilloscope.
I tried removing the 16MHZ crystal, still the same.
I reflowed the microcontroller since it is a QFN type (atmega32-MU package) and I have a few via holes under the micro for flux to come out.
I have properly washed the board after reflow.
I have AREF grounded with a 0.1uF capacitor and !HWB pin (PE7) is left empty. I didn't ground it.
I tested the programmer with an actual promicro board and it programs fine.
I think I'm missing something but I don't know what... I'd be grateful if you guys could help me. Attached is the schematic of the circuit.
The micro controller RESET is indicated by MICRO RST on pin 13. That RESET on PB4 is for another device which is not populated yet and left empty, I checked Pin 13 with Oscilloscope and it seemed working fine and going to zero at the first moment of programming. Also MISO and MOSI and SCK were sending signals to the relevant pins.
Thanks
If you are programming the board with ISP you have to connect RESET to the programmer. otherwise the controller could not be programmed!
Image from microcontroller.net
It seems that your RESET is on PB4 but for programming it should be connected to RESET of uC.
So, I realized the problem after almost a month! I had removed the 16MHz crystal from the circuit and this caused the problem with programming. Now, after placing the crystal the program is successfully uploaded to the ATMEGA32U4.
Okay, I've been working on this project for months with this being what has stopped me, heres the situation.
I am making a glove that can move a robot arm. The glove has an Arduino Nano iot 33 attached. The board measures the orientation with the built in imu, and sends it to my laptop (will be a raspberry pi in the future) through a usb cable. Also connected to the laptop is an Arduino Uno r3. This board is what makes the robot move (the servos are wired to it and I attached a display that shows the orientation of the glove here). I pondered how to make the Arduino Nano communicate to the Arduino Uno for a while, and I settled on keyboard presses. The Arduino Nano would press certain buttons based on its orientation and the Uno would wait for them to be pressed to move the robot. Turns out that after over 1000 lines of code, the Arduino uno can't use the keyboard library, and I'm stuck again. Is there a better way to go about this?? or is there a way to get the Arduino uno to get keyboard commands (I'm sixteen, tryin to save for college, I know theres a way to buy something to bypass the boards chip, I've already spent quite a bit on arduinos and PLA and such, and if im gonna buy something I want to use it again, please keep that in mind)
How would you have gone about this? How can I recover this project? Please help me...
this is an amazing project.
Great idea the link over SerialUSB, but it is very very slow...
You should use a radio transmitter like this.
Else, there is a great tutorial for communication using Bluetooth master & slave (warning: the post is in Italian).
If you still want to use SerialUSB, you should use a program that reads input from Nano and send a hex. code into Arduino Uno.
Library for serial communication with java or ruby.
Library for serial communication with Arduino.
I hope this can help you. Good luck!
I am using ESP8266 (NODEMCU 3.0 or something) to make a quadcopter. Ive connected ardu pro mini to RC receiver so I am reading PPM values from it. Pro mini sends data with tx to ESP8266. ESP reads it with software serial with 115200 baudrate. I am communicating with MPU9255 (Waveshire) via I2C either.
My problem is that I cant fully controll my brushless motors. When I was using arduino instead of ESP8266, servo library was the best and reliable. But ESP's servo library is different, since its not AVR, and problems occurs. First of the servo library didnt want to work on most frequencies. I mean default is 50Hz (20000uS) and in this state ESC of motors did armed but unfortunatelly when changes was fast and short (1250-> 1370 -> 1250) it did miss that change like nothing happnd... This makes my D value in PID controller useless...
Sometimes on 100Hz freq all was working fine, but sometimes not...
When Ive started to use analogWrite only 500Hz was working fine, rest of freq didnt want to arm ESCs.
PS. I am using 3.3V to 5V converter for PPM/PWM pins so I am sure that the signal is fine for ESCs.
PS2. I dont have any osciloscope unfortunately.
The ESP82266 present on your module is a RF transceiver integrated circuit that can handle WiFi communication, both configured as a slave to a microcontroller such as the ones present on various Arduino boards, or as a standalone chip by having it's on-board Tensilica L106 32-bit processor programmed via an external SPI flash memory. If used as a slave, the communication between, for example, an Arduino an the ESP82266 can be done using different protocols such as SPI / SDIO or I2C / UART interfaces. Googling a comprehensive Tensilica L106 user guide on the internet doesn't seem an easy task, and it looks as if some people have already failed to find it. If you're seeking to add Wi-Fi capabilities to your quadcopter the solution I suggest is having the Arduino take control over the servos, motors, etc. and hand off messages via SPI to your ESP82266 module. If this isn't the answer you are looking for, please try to be clearer about it, maybe find someone to do as an English translator for you.
However, if this is what you're concerned about, and you would like to use the ESP82266 module as as standalone solution, please link its built-in processor datasheet and the relevant parts of the quadcopters code that might need debugging.
I have successfully running push buttons and analog sticks working on a board of mine through the serial connection via the Arduino IDE. How do I get that data to work with Xinput?
I have my own emulation software that works in Xinput beyond that. I just need to get the gamepad device xinput support. What are the neccessary steps to get this working with a driver and how I can get this up in running in the least amount of timing possible without having to edit someone else's driver too much?
You can turning an Arduino Leonardo into a joystick, use a teensy board and the teensy joystick library, use a HID-compatible bluetooth chip (such as RN-42 HID or something similar) with a joystick/gamepad profile or just remove a controller's existing joystick parts and replace with your components.
I've recently built an Arduino-controlled robot(4WD platform) using a beginner's kit.
After uploading compiled program into Arduino, I was able to get 4WD motors working.
But when I disconnect the USB cable after successful "uploading" and I turn on the mobile platform switch, it doesn't move a bit.
What procedure is required for getting it to move (I mean.. having machine language permanently stored in AVR microcontroller's memory) without again connecting USB cable to Arduino and uploading program after I find the code working so that just turning on the switch of the robot make it start to move as programmed?
It REALLY sounds like a power issue.
-What is powering your arduino when the USB is disconnected?
The USB from a computer is often pretty strong (hight current) and a 9V battery might not cut it for electric motors and such.
If this is the problem you may want to try a more powerfull battery setup, like 4 AAs.
You may go the LiPo battery route from a source like Adafruit or Sparkfun. Then the problem is that a LiPo battery only produces 3.3V. Ugh, you'll need an circuit to bump the voltage to 5 (which Adafruit sells) and a charger. This may be your best choice if you're planning to use the robot a lot.