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Alarm Clock For Heavy Sleepers
Introduction
Description: The project consists of an alarm clock that, on ringing, will diplay a series of math questions and the user will have to correcty answer three in a row for the alarm to stop. Alternatively, if math proves to be too difficult at the time, the user can stop the alarm by yelling at it with sufficient volume.
Purpose: The purpose of the device is to make sure that the user is actually awake when turning off the alarm.
Utility: It's inteded to be usefull for people who frequently turn off their morning alarm and imediately fall back asleep.
General description
Normal state Device displays current time. The microcontroller reads the time from the RTC module and displays it on the LCD. From this state the user can press the 1 key to open settings.
Settings menu Time is replaces by settings menu. The LCD will show on the top row the name of a setting (ex: “set alarm”) and on the bottom row the options “1back 2ok 3next”. If the user presses 1 the clock goes back to normal state, if they press 2 the bottom row is replaced with input options for the setting in question” and if they press 3 the top row will display next setting. The possible settings are the following:
- set alarm - the user can input the time for the alarm to ring or turn off alarm (a LED will be lit if alarm is set)
- ragequit mode - on/off setting that enables or disables the function to turn off alarm by yelling (a LED will be lit if mode is enabled)
- volume - allows user to adjust alarm volume
- brightness - allows user to adjust display brightness
Alarm time When current time reaches the value set for the alarm, the microcontroller will send the alarm tone signal to the buzzer for it to ring. On the display, the current time will be replaced by a math question generated by the microcontroller. The user will be able to enter answer trough keypad and the microcontroller will keep track of the number of consecutive correct anwers. If this number reaches 3, the alarm will turn off and the clock will go back to normal state.
At the same time, if ragequit mode is enabled, the microcontroller will check the inputs from the noise sensor and turn the alarm off if a loud enough sound was detected.
Hardware Design
| No | Component | Role |
|---|---|---|
| 1 | atmega328p-xPlained Mini | microcontroller |
| 2 | 16×2 LCD | displays time + math questions + settings menu |
| 3 | 4×4 Keypad | user input for settings and question answers |
| 4 | Noise Sensor | detects if sound exceeds a treshold (user yelled loud enough) |
| 5 | Passive Buzzer | produces alarm sound |
| 6 | RTC Module | keeps time |
| 7 | LED (x2) | display certain settings (1 for showing if an alarm time is set, 1 for showing if ragequiting mode is enabled) |
| 8 | 220ohmRezistors (x2) | creating the LED circuits |
| 9 | Breadboard | connecting other components |
| 10 | Dunport wires (various types) | connecting other components |
- listă de piese
- scheme electrice (se pot lua şi de pe Internet şi din datasheet-uri, e.g. http://www.captain.at/electronic-atmega16-mmc-schematic.png)
- diagrame de semnal
- rezultatele simulării
Software Design
- mediu de dezvoltare (if any) (e.g. AVR Studio, CodeVisionAVR)
- librării şi surse 3rd-party (e.g. Procyon AVRlib)
- algoritmi şi structuri pe care plănuiţi să le implementaţi
- (etapa 3) surse şi funcţii implementate
Rezultate Obţinute
Concluzii
Download
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Jurnal
Bibliografie/Resurse
