This is an extremely simple “Hello World” C++ code for the ATMega32 that you can follow using AVR Studio. You do not need any hardware such as the chip or even the ISP programmer cable because AVR Studio simulates the inputs and outputs, and you can see for yourself how the ports behave.
This is just a simple article to show how to install the software and use it. I used an old version of AVR Studio because my computer is old and I did not want to waste time downloading large files that would take ages to install.
Step 1: New Project
Select the “New Project” button.
Step 2: AVR GCC
Select “AVR GCC” and give the project a name, then press the “Next” button.
Step 3: ATMega32 Device
Select the “ATMega32” device and press the “Finish” button.
ATMega32 Port A Pinout
Here is the ATMega32 pin diagram. Ideally, you want to look over the documentation of this IC to understand its full capabilities. For this article, I shall be using the pins PA0 to PA7.
As these things go, it all boils down to being able make the pins produce +5 V and 0 V to blink LEDs. If you can start out learning that then you are half way there.
Once you have made some LEDs blink! Call yourself a genius and get a degree from Cambridge University. Well, it is not that simple, unless your dad is the Chairman of the Board, but at least it gets you part way there. 🙂
In this first program we use Port A, which consists of 8 physical pins, pin 33 to pin 40, as shown above. A data bit within the chip represents each physical pin. These bits are grouped together to make the Port A Data Register.
When you set a data bit to binary 1, the associated physical pin will produce 5 V. Hey, it is clever! When the data bit is set to binary 0, the physical pin produces zero volts.
If you set each bit to binary 1 in succession, one after the other, then each physical pin will produce 5 volts in the same succession. If there were LED lights connected to the pins, you would see each LED light up one after the other in succession.
Luckily you do not need to build a circuit with LED lights to see what is happening at the pins in Port A. AVR Studio provides a simulated I/O View that lets you see each bit of Port A.
1: #include <avr/io.h>
2: // Example by Peter J. Vis for ATmega32
3: // This program will turn each pin
4: // of the PortA ON,sequentially.
6: int main(void)
8: // Set all the Data Direction Register bits
9: // to Logic 1 which means all bits in PortA
10: // will be sending data out.
12: DDRA = 0b11111111;
13: for ( ; 1==1 ; ) // loop while 1 equals 1
15: // Send a sequence of binary numbers to the
16: // PortA. Binary 1 is shifted along to the
17: // right in each bit.
20: PORTA = 0b10000000;
21: PORTA = 0b01000000;
22: PORTA = 0b00100000;
23: PORTA = 0b00010000;
24: PORTA = 0b00001000;
25: PORTA = 0b00000100;
26: PORTA = 0b00000010;
27: PORTA = 0b00000001;
29: return 1;
Read more: Using AVR Studio – My first C++ code