Different functions in every pin? - arduino

i have this microcontroller arduino ATmega328 for our project but im not familiar with this so im looking for some answers that can help me, so heres my question
1) in what pin can i assign my codes ?
2) is it possible to assign 2 different function ? for example pin# 1 (add) pin #2 (minus)

The chip has its own processor. The pins either sink/source voltage as output pins or they detect presence of or lack of voltage as input pins. Each pin is controlled as part of a group called a register but can be assigned functions and used independently.
Using the above mentioned functions the processor can "sense" or interact with other input or output devices (ie temp sensor as input or LCD screen as output)
What function do you need it to perform?

Related

stm32 witch pin PWM capable : datasheet?

I want to build a project with an STM32G070.
I need a couple of PWM pins.
I look at the datasheet and user manual, and I cannot find anyware if all pins of if only some are PWM capable and so, witch one it is.
I want to know because, if i look at the BluePill, not all pin are PWM.
Anyone can guide me ?
To answer the question - no, not all pins can be configured for PWM. However, most STM32s (including the STM32G070) have multiple timers, many with multiple channels which can generate PWM signals, and these can be mapped to many pins. So it's almost guaranteed that you'll find two spare pins that are not used by other peripherals, that you can use for PWM.
As mentioned, PWM signals are generated by timers. You can consult the reference manual for the STM32G070 to see which timers are available, and which ones have channels that can generate PWM signals. And you can reference the datasheet to see which pins they can be mapped to.
If I was designing a board, I'd create (e.g. in STM32CubeIDE) the crucial peripherals first (e.g. any SPI, I2C, UARTs, etc.) Then I'd see which pins are left over that could be used for PWM. There are bound to be several.

Built-in led glowing on code of led on arduino mega

I had written a code on atmel studio for blinking a led on pin 13. After uploading the code with xloader mega's builtin led was blinking.
I uploaded fade code on my mega and the builtin led was blinking instead of led. What should i do?
I am using arduino mega 2560.
int main(void)
{
DDRB=0b00000000;
while (1)
{
PORTB=0b10000000;
_delay_ms(1000);
PORTB=0b00000000;
}
}
What you should do? Read the manual.
Please refer to https://ww1.microchip.com/downloads/en/devicedoc/atmel-2549-8-bit-avr-microcontroller-atmega640-1280-1281-2560-2561_datasheet.pdf
Chapter 13.2.
The DDxn bit in the DDRx Register selects the direction of this pin.
If DDxn is written logic one, Pxn is configured as an output pin. If
DDxn is written logic zero, Pxn is configured as an input pin.
Working with registers doesn't make sense if you don't know what they do.
DDRB=0b00000000;
Gives you inputs only.
why would you use Arduino and try to program it without its conventional macros and functions?
If you are trying to blink an led or make it breath then use the Arduino IDE and its built-in functions analogWrite() to generate a pwm pulse for your led or any led on suitable pins which support analogwrite(). You shouldn't try to do any direct modifications on registers if you have no suitable knowledge, because your risk destroying your development kit and maybe burning some other stuff around. Please use your kit's schematics to spot the pins which support analogwrite() and then use the code in examples.
That way you will achieve your goal faster and without any issues.
TL/DR: you have to set 7th bit in DDRB to one.
In AVR ports are configured by bits in two registers: DDRx and PORTx.
When the corresponding bit in the DDRx register is set to one, the port is configured as output. And the corresponding bit in the PORTx register chooses which electrical level is output on the pin. If it is 0 then internal MOSFET shorts the pin to "ground" lane, and sinks current from external source. When the bit of the PORTx is one, then the pin is connected to "VCC", sourcing big amount of current enough to lit up a LED.
But if the pin is connected to something, what consumes too much of current, or the pin is shorted to GND or VCC (let's say you have a button connected and pressed), then output MOSFETS might be overloaded and damaged.
If the bit in DDRx is set to zero, then the pin is configured as input. If the corresponding bit in the PORTx is zero, then the pin has no internal connection to power lines, it is called "Hi-impedance" state, or Tri-state. It does not source or sink any current. So, if no external source of current is connected, then pin level is floating, influenced by electrical interference. Logical level is not detectable and can change occasionally. If you want to connect, for example, a button (between the pin and GND), then logical level will be defined only when button is pressed. When it is released, the logical level will be undefined.
But! If the bit in the PORTx is set to one, then internal MOSFET connects the pin thru a resistor (about 35 kOhm) to VCC line. This make the pin to source a little amount of current, setting its logical level to high. Therefore, if a button is connected, when it is released, then pin will have defined high level. This is called "pull-up resistor". When button is pressed, it will not short and damage the MCU, because current flowing thru the button is limited by the resistor, but the logical level will be defined low.
What if instead of button you have a LED connected to the pin? Very small amount of current will flow thru the LED, makes it barely glow.
Read more in the datasheet (chapter 13. I/O-Ports)

STM32DUINO and analogRead for stm32f103c8t6

I have custom board on which I can upload my code generated from platformio and as board bluepill_f103c8. And I can make led blink etc. but when I want to do analogRead it always returns 0.
I'm trying to read from PA8 pin.
In my setup I put that pin as INPUT_ANALOG, do I need to do something else in order to get the reading?
Voltage that's on pin is about 0.25V that I'm trying to read.
According to STM32F103 Datasheet, page 34, any of 3 onboard ADCs simply do not have the ability to connect to PA8. PA8 can only work as simple GPIO (default, reads only 0 and 1), or as USART1_CK, TIM1_CH1, MCO in alternative configuration.
Arduino can use it as PWM output, or software USART, but there is no way to get analog reading from it.
If you really need to read analog voltage coming to that line, you would have to modify your board and solder PA8 to one of PA0..PA7, PB0..PB1, PC0..PC5 and re-configure ADC to read from that line.
#TonoNam, regarding your problem: unless PA1 is permanently damaged, it is fully capable of working with ADC, so there is something wrong with initialization or reading procedure.
Reference the pinout diagram here https://wiki.stm32duino.com/index.php?title=File:Bluepillpinout.gif
analogRead will only work with the pins which have associated ADC channels.
So this is PA0 through PA7, and then PB0 and PB1, so I guess this is your issue.
Looks like PA8 is a PWM output.

How many amp can arduino take

Im currently trying to get an electric signal from arduino, its 5v and 1amp that i get from a powersupply.
I want to input that signal into an arduino pin, lets say pin 4.
The main powersource from my arduino is via usb, but the 5v signal is from an external device.
I just want to know the number of time that signal became active, like a switch.
As far as i know arduino can take only .04amp from 5v.
Is there anyway i can reduce the current?
Anyway to obtain the value of a resistor to make it less dangerous for my arduino?
Your question is a very common application for Arduino!
You can give your Arduino some additional protection by placing a 10kOhm resistor between the Arduino analog pin you wish to use and the positive voltage output of the power supply.
If you're worried that the voltage could increase above 5V, you can protect your arduino with a simple voltage divider using two resistors. There's a detailed tutorial for this approach here: https://startingelectronics.org/articles/arduino/measuring-voltage-with-arduino/ Here's a simplified circuit diagram with a voltage divider that reduces voltage 11 fold - making voltages up to 55V safe to measure (where the battery could be replaced by your power supply):
For your code, you can use analogread() to read the voltage of the pin. If you wired it correctly, it should return near 0 when the powersupply is at 0, and 1026 or thereabouts if it is at 5v (or whatever the maximum value your voltage divider is designed for). Here is an example to get you started :
https://www.arduino.cc/reference/en/language/functions/analog-io/analogread/
If you need any support with your code to count the number of times the voltage goes high, post that as a separate question along with the code you have so far.

Sending output from arduino to picaxe

I am doing a class project involving an Arduino Uno and a Picaxe 14m2.
I am in the middle of attempting to code a program for the Arduino Uno that will allow me to send and output value to the input on the Picaxe.
So in layman's, this is what I wish to achieve:
I want the Arduino to check a sensor, and if the sensor returns a specific value. (- I know this part, but not the next.) I then want the Arduino to send a value (HIGH, or 1 .. something like that) as an output to one of the Picaxe input pins. I then need the Picaxe to notice a value has been sent, and then do something else.
Any help would be appreciated.
Thanks.
If you are looking for that, you may want to specify what kind of PICAXE you have.
Since there is a difference in the types of these chips.
After that you may wanna look over the datasheet of the PICAXE so that you can find the instructions set and the type of program memory you have, "EEPROM....".
After that:
List your Is/Os, inputs and outputs.
Set your source code editor.
Write the source code and burn it to the PICAXE program
memory.(C, Assembly...)
Write your Arduino code, setting the Is/Os and telling the
Arduino how to deal with the signals in and out.(C language)
Make a circuit diagram for the hardware you are going to connect
between both chips.
Don't forget to see the loading effects on both the Arduino and
the PICAXE, because you don't want to burn your project hardware
after all.
Test your project and note that you will have to troubleshoot
both software and hardware whenever a problem occurs.
I suggest that you use the Oscilloscope to test the signals going in or coming out of both circuits + the sensor's signal.
For any extra thing you need the PICAXE to do, use If statements, because they are not so technical to implement and they are easy to write and troubleshoot.
For your scheme, you are actually making the Arduino give instructions to the PICAXE through a variable signal coming from a sensor.
^send me feedback and I will help more.
You will probably want to look into using UART (aka Serial) or i2c communication.
Serial communication should work with any PICAXE and Arduino, While i2c Will only work if you are using the X2 Series PICAXE Chips. i2c's main advantage is when using multiple slave devices (plus the master device, i.e. more than just 2 devices total) in which you can use the same two wires for up to around 128 devices. Serial (UART) communication is simpler, and only needs one wire (plus a common ground) to send data one way, it is what i'll show for the rest of this answer
Here is the manual entry for serial input for the PICAXE, and Here's the entry for serial output from the Arduino. The code you will need given your question will be something like the following:
For the arduino:
void setup(){
Serial.begin(9600);
}
void loop(){
if (conditionMet){ //whatever the condition is in your code
int bytesSent = Serial.write(“HIGH”); //send the string “HIGH"
}
}
and for the PICAXE:
main:
serin 6, T9600, ("HIGH") 'uses qualifier to look for exact message "HIGH"
'do whatever when criteria met
goto main

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