897 Simon Says memory game

897 : Simon Says memory game

Design render
  • Author: Uri Shaked
  • Description: Repeat the sequence of colors and sounds to win the game
  • GitHub repository
  • Clock: 50000 Hz

Simon Says Game

How it works

Simon says is a simple electronic memory game: the user has to repeat a growing sequence of colors. The sequence is displayed by lighting up the LEDs. Each color also has a corresponding tone.

In each turn, the game will play the sequence, and then wait for the user to repeat the sequence by pressing the buttons according to the color sequence. If the user repeated the sequence correctly, the game will play a "leveling-up" sound, add a new color at the end of the sequence, and move to the next turn.

The game continues until the user has made a mistake. Then a game over sound is played, and the game restarts.

Check out the online simulation at https://wokwi.com/projects/397436605640509441 (including wiring diagram).

How to test

You need four buttons, four LEDs, resistors, and optionally a speaker/buzzer and a two digit 7-segment display for the score.

Ideally, you want to use 4 different colors for the buttons/LEDs (red, green, blue, yellow).

  1. Connect the buttons to pins btn1, btn2, btn3, and btn4, and also connect each button to a pull down resistor.
  2. Connect the LEDs to pins led1, led2, led3, and led4, matching the colors of the buttons (so led1 and btn1 have the same color, etc.)
  3. Connect the speaker to the speaker pin.
  4. Connect the seven segment display as follows: seg_a through sev_g to individual segments, dig1 to the common pin of the tens digit, dig2 to the common pin of the ones digit. Set seginv according to the type of 7 segment display you have: high for common anode, low for common cathode.
  5. Reset the game, and then press any button to start it. Enjoy!

Note: the game requires 50KHz clock input.

External Hardware

Four push buttons (with pull-down resistors), four LEDs, and optionally a speaker/buzzer and two digit 7-segment display

IO

#InputOutputBidirectional
0btn1led1seg_a
1btn2led2seg_b
2btn3led3seg_c
3btn4led4seg_d
4seginvspeakerseg_e
5dig1seg_f
6dig2seg_g
7

Chip location

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