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DS1307 RTC Interfacing with ATmega16 and LCD Display
Real Time Clocks, as the name suggests are clock modules. They are available as integrated circuits (ICs) and manages timing like a clock. Some RTC ICs also manages date like a calendar. The main advantage is that they have a system of battery backup which keeps the clock/ca lender running even in case of power failure. A very small current is required for keeping the RTC alive. This in most case is provided by a miniature 3V lithium coin cell. So even if the embedded system with RTC is powered off the RTC module is up and running by the backup cell. This same technique is used in PC timing also. If you have opened your computer case you will notice a small coin cell in the mother board. The DS1307 Serial Real-Time Clock is a low-power; full binary-coded decimal (BCD) clock/calendar plus 56 bytes of NV SRAM. Address and data are transferred serially via a 2-wire, bi-directional bus(TWI Communication Protocol). The clock/calendar provides seconds, minutes, hours, day, date, month, and year information. The end of the month date is automatically adjusted for months with fewer than 31 days, including corrections for leap year. The clock operates in either the 24-hour or 12-hour format with AM/PM indicator.
In this project, we will learn How to interface a DS1307 Real Time Clock(RTC) with AVR ATmega16 microcontroller and LCD Display. Here, we will read time(Minute and Second) from the DS1307 RTC and we will display the minute and second values in a 16X2 alphanumeric LCD. The data communication between DS1307 RTC and AVR ATmega16 microcontroller takes place using TWI(Two Wire Interface) communication protocol. But before reading the DS1307 RTC, the DS1307 RTC needs to be initialized with second and minute values. The DS1307 RTC is initialized only once. We will initialize both the minute and second values of the DS1307 RTC with 0(Clock will start with 0 minute and 0 second). You can change the initialization values according to your need by changing the initialization values in the DS1307 write section of the code. After initialization of DS1307 RTC, the AVR ATmega16 microcontroller will read the minute and second values from the DS1307 continuously through two wire interface communication and it will display those minute and second values in the 16X2 alphanumeric LCD.
Softwares Required
Hardwares Required
Circuit Diagram
Video
Connection Guide
The step-by-step connection guide for DS1307 RTC Interfacing with ATmega16 and LCD Display is as follows
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Steps - 1 ( 0f 10 )
Insert the DC Pin of 12V, 1A DC Adapter to the DC Socket of AVR Trainer Board-100.
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Steps - 2 ( 0f 10 )
Connect PortB header with LCD data header in AVR Trainer Board-100 with a 10 to 10 FRC Female Connector.
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Steps - 3 ( 0f 10 )
Connect RS, RW & EN pins of LCD control header with PD0, PD1 & PD2 pins of PortD header respectively in AVR Trainer Board-100 with 1 to 1 Connectors.
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Steps - 4 ( 0f 10 )
Connect the 16X2 Alphanumeric LCD to the LCD header of AVR Trainer Board-100.
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Steps - 5 ( 0f 10 )
Connect the EEPROM & RTC header of EEPROM & RTC with PortC header of AVR Trainer Board-100 with a 10 to 10 FRC Female Connector.
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Steps - 6 ( 0f 10 )
Connect the ISP header of AVR Trainer Board-100 with AVR USB Programmer header of AVR USB Programmer with a 10 to 10 FRC Female Connector.
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Steps - 7 ( 0f 10 )
Connect the AVR USB Programmer to the PC/Laptop's USB Port directly or with the help of USB AM-AF Cable.
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Steps - 8 ( 0f 10 )
Switch on the power with the help of Power Switch of AVR Trainer Board-100.
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Steps - 9 ( 0f 10 )
Download DS1307 RTC Interfacing with ATmega16 and LCD Display Hex file to AVR Trainer Board-100 with the help of SinaProg Hex downloader and AVR USB Programmer.
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Steps - 10 ( 0f 10 )
Wait for some time(30 seconds) and delete or convert the code between DS1307 write section starts here and DS1307 write section ends here into comments in the C Program of the project and compile the code. After compilation, download the code
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