Arduino Buttonless LED Matrix Clock With ADXL335 Sensor

by mircemk in Circuits > Arduino

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Arduino Buttonless LED Matrix Clock With ADXL335 Sensor

APH1.jpg

 Multimode Arduino Matrix Clock, Word Clock, Thermometer, and Random Word Generator controlled by various motions.

Supplies

Inside.jpg
  • Arduino Nano R3
  • 8x8 Led Matrix (common anode)
  • Analog Accelerometer: ADXL335
  • ds3231 realtime clock module
  • 74HC595 shift register IC
  • Resistor 330 ohm x 8
  • LDR Resistor

Description

Arduino Buttonless LED Matrix Clock with ADXL335 sensor

  This time I will describe to you a way to make an interesting clock on an 8x8 Led matrix, that does not contain any buttons and is adjusted by different movements. This is another one of my collection of unusual clocks, which you can view on my clocks playlist. By the way, I made this clock many years ago on a homemade matrix of 64 yellow 5mm LEDs, and you can watch it at the given link.

 Unlike then, this time the clock is made on a ready-made matrix, and I will also describe to you in detail the way of making it, together with the schematic diagrams, and the code.

Otherwise, this beautiful clock is the work of Mark Wilson on whose site you can view the original project.

 The device is relatively simple to build and consists of several components:

  - Arduino Nano Microcontroller

  - 8x8 LED matrix with a common anode

  - DS3231 Realtime clock module

  - ADXL335 Accelerometer module

  - LDR resistor

  - i 74HC595 shift register IC

IMU Sensor

IMU.jpg

 The project is very old and dates back to 2012, so the code needs to be compiled with Arduino IDE version 1.0.6 or older to compile without errors. The Matrix Clock folder contains all the required libraries, so no additional installations are required. Otherwise, in the "PINS" tab, a connecting diagram is presented, which contains a small error in the markings of the cathodes and anodes of the diodes in the matrix. In any case, I recommend that you use the schematic diagrams that I have presented below, and one is if you use a ready-made 8x8 matrix with a common anode, and the other is with a DIY matrix. Just to mention that the common anode and common cathode single color matrices are actually hardware identical, just the rows and columns are swapped. Also, in the original project was used an IMU sensor of the AM3X type , but since this module is no longer produced, I used the ADXL335 sensor module.

 Now in order for the device to function normally, it should be in the IMU.cpp tab in the line:

  return Voltage/VoltsPerG*100.0;  ->  to replace the value 100.0 with 150.0

  The IMU sensor module should be placed exactly in that position as you see in the pictures. Now let's see how the device works in reality.

Dispaly Modes

clock.jpg
Temperature.jpg
Words.jpg
matrix.jpg
Pattern.jpg

This clock has several display modes that can be changed by rotating the case for 90 degrees. When switching on, the current time appears and the hour is represented in the middle with a 5×7 font, and the minutes are represented on the edges, with a resolution of 5 minutes (more precisely, the distance between two diodes is 5 minutes).

Now if we rotate it to the left by 90 degrees, it shows the current room temperature in degrees Celsius

 One more time to the left by 90 degrees and we enter a mode where the time is written in words.

 One more time to the left by 90 degrees and we enter a mode where the time is written in words.

 Finally, by rotating again to the original position, the current time is presented again

 Next I will describe the setting of this clock. 

- To get the Random Pseudo Words effect, we go in the following order:

  Face up -> upside down

- For setting the hours the order is:

  Up -> Left -> down   -->>  right = setted 

- For setting minutes:

  Repeat Up -> Left -> Down -- >>  right = setted 

 In a similar way, we can change the sensitivity of the LDR resistor, as well as the brightness of the display. 


Vonclusion, Schematic, and Code

Schematic factory matrix common Anode.png
Schematic homemade matrixJPG.png

 And finally a short conclusion. Although the project is more than 10 years old, the idea of replacing mechanical buttons with an IMU sensor is excellent. Nowadays, it is possible to make such a clock with ws2812 matrix, which would be extremely simple to make, cheap, but also the possibility of many color effects. I'm suggesting this as an idea for a DIYer who is more adept at programming than I am.