ATMega328P Microcontroller Pinout, Configuration, Features & Datasheet

The ATMEGA328 is high performance, low power controller from Microchip. ATMEGA328P is an 8-bit microcontroller based on AVR RISC architecture. It is the most popular of all AVR controllers as it is used in ARDUINO boards.

Board of Pinout Diagram

 Pin Configuration

ATMEGA328P is a 28 pin chip as shown in pin diagram above. Many pins of the chip here have more than one function. We will describe functions of each pin in below table.

Pin No.

Pin name

Description

Secondary Function

1

PC6 (RESET)

Pin6 of  PORTC

Pin by default is used as RESET pin. PC6 can only be used as I/O pin when RSTDISBL Fuse is programmed.

2

PD0 (RXD)

Pin0  of  PORTD

RXD (Data Input Pin for USART)

USART Serial Communication Interface

[Can be used for programming]

3

PD1 (TXD)

Pin1 of  PORTD

TXD (Data Output Pin for USART)

USART Serial Communication Interface

[Can be used for programming]

 

INT2( External Interrupt 2 Input)

4

PD2 (INT0)

Pin2  of  PORTD

External Interrupt source 0

 

5

PD3 (INT1/OC2B)

Pin3  of  PORTD

External Interrupt source1

 

OC2B(PWM – Timer/Counter2 Output Compare Match B Output)

6

PD4 (XCK/T0)

Pin4  of  PORTD

T0( Timer0 External Counter Input)

XCK ( USART External Clock I/O)

7

VCC

 

Connected to positive voltage

8

GND

 

Connected to ground

9

PB6 (XTAL1/TOSC1)

Pin6  of  PORTB

XTAL1 (Chip Clock Oscillator pin 1 or External clock input)

TOSC1 (Timer Oscillator pin 1)

10

PB7 (XTAL2/TOSC2)

Pin7  of  PORTB

XTAL2 (Chip Clock Oscillator pin 2)

TOSC2 (Timer Oscillator pin 2)

11

PD5

(T1/OC0B)

Pin5 of  PORTD

T1(Timer1 External Counter Input)

 

OC0B(PWM – Timer/Counter0 Output Compare Match B Output)

12

PD6 (AIN0/OC0A)

Pin6  of  PORTD

AIN0(Analog Comparator Positive I/P)

 

OC0A(PWM – Timer/Counter0 Output Compare Match A Output)

13

PD7 (AIN1)

Pin7  of  PORTD

AIN1(Analog Comparator Negative I/P)

 

14

PB0 (ICP1/CLKO)

Pin0  of  PORTB

ICP1(Timer/Counter1 Input Capture Pin)

 

CLKO (Divided System Clock. The divided system clock can be output on the PB0 pin)

15

PB1 (OC1A)

Pin1  of  PORTB

OC1A (Timer/Counter1 Output Compare Match A Output)

16

PB2 (SS/OC1B)

Pin2  of  PORTB

SS (SPI Slave Select Input).  This pin is low when controller acts as slave.

[Serial Peripheral Interface (SPI) for programming]

 

OC1B (Timer/Counter1 Output Compare Match B Output)

17

PB3 (MOSI/OC2A)

Pin3  of  PORTB

MOSI (Master Output Slave Input). When controller acts as slave, the data is received by this pin. [Serial Peripheral Interface (SPI) for programming]

OC2 (Timer/Counter2 Output Compare Match Output)

18

PB4 (MISO)

Pin4  of  PORTB

MISO (Master Input Slave Output). When controller acts as slave, the data is sent to master by this controller through this pin.

 

[Serial Peripheral Interface (SPI) for programming]

19

PB5 (SCK)

Pin5  of  PORTB

SCK (SPI Bus Serial Clock). This is the clock shared between this controller and other system for accurate data transfer.

[Serial Peripheral Interface (SPI) for programming]

20

AVCC

 

Power for Internal ADC Converter

21

AREF

 

Analog Reference Pin for ADC

22

GND

 

GROUND

23

PC0 (ADC0)

Pin0  of  PORTC

 ADC0 (ADC Input Channel 0)

24

PC1 (ADC1)

Pin1  of  PORTC

ADC1 (ADC Input Channel 1)

25

PC2 (ADC2)

Pin2  of  PORTC

 ADC2 (ADC Input Channel 2)

26

PC3 (ADC3)

Pin3  of  PORTC

 ADC3 (ADC Input Channel 3)

27

PC4 (ADC4/SDA)

Pin4  of  PORTC

ADC4 (ADC Input Channel 4)

SDA (Two-wire Serial Bus Data Input/output Line)

28

PC5 (ADC5/SCL)

Pin5  of  PORTC

ADC5 (ADC Input Channel 5)

SCL (Two-wire Serial Bus Clock Line)

 

Features

ATMEGA328P – Simplified Features

CPU

8-bit AVR

Number of Pins

28

Operating Voltage (V)

+1.8 V TO +5.5V

Number of programmable  I/O lines

23

Communication Interface

Master/Slave SPI Serial Interface(17,18,19 PINS) [Can be used for programming this controller]

Programmable Serial USART(2,3 PINS) [Can be used for programming this controller]

Two-wire Serial Interface(27,28  PINS)[Can be used to connect peripheral devices like Servos, sensors and memory devices]

JTAG Interface

Not available

ADC Module

6channels, 10-bit resolution ADC

Timer Module

Two 8-bit counters with Separate Prescaler and compare mode, One 16-bit counter with Separate Prescaler,compare mode and capture mode.

Analog Comparators

1(12,13 PINS)

DAC Module

Nil

PWM channels

6

External Oscillator

0-4MHz @ 1.8V to 5.5V

0-10MHz @ 2.7V to 5.5V

0-20MHz @ 4.5V to 5.5V

Internal Oscillator

8MHz  Calibrated Internal Oscillator

Program Memory Type

Flash

Program Memory or Flash memory

32Kbytes[10000 write/erase cycles]

CPU Speed

1MIPS for 1MHz

RAM

2Kbytes Internal SRAM

EEPROM

1Kbytes EEPROM

Watchdog Timer

Programmable Watchdog Timer with Separate On-chipOscillator

Program Lock

Yes

Power Save Modes

Six Modes[Idle, ADC Noise Reduction, Power-save, Power-down, Standby and Extended Standby]

Operating Temperature

-40°C to +105°C(+105 being absolute maximum, -40 being absolute minimum)

   

ATMEGA328P Replacements

ATMEGA8

ATMEGA328P Alternatives 

ATMEGA16, ATMEGA32, ATMEGA8535

Where to Use ATMEGA328P

Although we have many controllers ATMEGA328P is most popular of all because of its features and cost. ARDUINO boards are also developed on this controller because of its features.

  • With program memory of 32 Kbytes ATMEGA328P applications are many.
  • With various POWER SAVING modes it can work on MOBILE EMBEDDED SYSTEMS.
  • With Watchdog timer to reset under error it can be used on systems with minimal human interference.
  • With advanced RISC architecture, the controller executes programs quickly.  
  • Also with in chip temperature sensor the controller can be used at extreme temperatures.

These all features add together promoting ATMEGA328P further.

How to Use ATMEGA328P

ATMEGA328 is used similar to any other controller. All there to do is programming. Controller simply executes the program provided by us at any instant. Without programming controller simply stays put without doing anything.

As said, first we need to program the controller and that is done by writing the appropriate program file in the ATMEGA328P FLASH memory. After dumping this program code, the controller executes this code and provides appropriate response.

Entire process of using an ATMEGA328P goes like this:

  1. List the functions to be executed by controller.
  2. Write the functions in programming language in IDE programs.

You can download the IDE program for free in company websites. IDE program for AVR controllers is ‘ATMEL STUDIO’. Link for ATMEL STUDIO is given below.

(Usually Atmel Studio 6.0 for Windows7 [ http://atmel-studio.software.informer.com/6.0/ ],

 Atmel Studio 7 for Windows10 [ https://www.microchip.com/avr-support/atmel-studio-7 ])

  1. ATMEGA328P programming can also be done in ARDUINO IDE.
  2. After writing the program, compile it to eliminate errors.
  3. Make the IDE generate HEX file for the written program after compiling.
  4. This HEX file contains the machine code which should be written in controller flash memory.
  5. Choose the programming device (usually SPI programmer made for AVR controllers) which establishes communication between PC and ATMEGA328P. You can also program ATMEGA328P using ARDUINO UNO board.
  6. Run the programmer software and choose the appropriate hex file.
  7. Burn the HEX file of written program in ATMEGA328P flash memory using this program.
  8. Disconnect the programmer, connect the appropriate peripherals for the controller and get the system started.

How to Use ATMega328P using Arduino

Since ATmega328P is used in Arduino Uno and Arduino nano boards, you can directly replace the arduino board with ATmega328 chip. For that first you need to install the Arduino bootloader into the chip (Or you can also buy a chip with bootloader – ATMega328P-PU). This IC with bootloader can be placed on Arduino Uno board and burn the program into it. Once Arduino program is burnt into the IC, it can be removed and used in place of Arduino board, along with a Crystal oscillator and other components as required for the project. Below is the pin mapping between Arduino Uno and ATmega328P chip.

Applications

There are hundreds of applications for ATMEGA328P:

  • Used in ARDUINO UNO, ARDUINO NANO and ARDUINO MICRO boards.
  • Industrial control systems.
  • SMPS and Power Regulation systems.
  • Digital data processing.
  • Analog signal measuring and manipulations.
  • Embedded systems like coffee machine, vending machine.
  • Motor control systems.
  • Display units.
  • Peripheral Interface system.
Component Datasheet PDF: ATMega328P Microcontroller Datasheet

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