Animated Electronic Dice Model for Proteus8

Animated Electronic Dice Model for Proteus8

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Animated Dice Model Proteus Library

Electronic dice are a modern twist on traditional dice, using electronic components and circuits to mimic the same function. Typically, these devices feature LEDs (light-emitting diodes) to show the rolled number and buttons to simulate the rolling action.

Electronic Deice - Proteus Model

Electronic Dice Model

I have designed a dice model library for Proteus projects. This library contains four dice models, each with a different color of dice. Typically, electronic dice work using a microcontroller, LEDs, a button, resistors, and capacitors. The LEDs are arranged in a pattern, often a 3×3 grid, to represent numbers 1 through 6. The microcontroller is responsible for generating random numbers and managing the display.

Electronic Dice Model Library with Updated Graphics

 However, this dice doesn’t need any of these components. Instead, it requires a clock pulse, which you can provide in Proteus in various forms. You can generate the clock signal from the generator mode menu, select the clock device from the device library, or create your own clock source.

How to use Electronic Dice Model

Clock Source for Dice Model

As mentioned earlier, this Electronic dice model only needs a clock source. Let’s select the DCLOCK signal source from the Generator mode toolbar and adjust the frequency to control how quickly the dice roll is simulated. I’ll set it to 6Hz. 

Dice Connection Setup
Dice Connection Setup

After that, connect it to the button. Now, use the terminal mode toolbar button to select a terminal and connect it to the other side of the button. Name this connection “dice.” Finally, place the dice on the sheet and start the simulation.

Proteus Dice Simulation
Proteus Dice Simulation

Here is the simulation of all dice models available in the library.

Dice Library Simulation
Dice Library Simulation

Electronic Dice with Arduino

You can use this Arduino code to make an output pin generate a clock signal when a button is pressed.

Electronics Dice Control with Arduino
Electronics Dice Control with Arduino

To achieve a 15Hz signal, you calculate the period (T) as 1/15 seconds, approximately 66.67 milliseconds. Each cycle of the signal requires both a HIGH and LOW state, ideally split into halves of around 33 microseconds, considering 1 second equals 1,000,000 microseconds.

In this Arduino example, delayMicroseconds(33) is applied to each half-cycle to achieve the desired 15Hz frequency. This function creates a precise 33-microsecond delay, suitable for generating a 15Hz square wave.

Dice model glitch
Dice model glitch

Download Library

Simply click on the button to download the library. You can refer to this post for instructions on how to install the library in Proteus 8. How to Download and install Library in Proteus (electronicstree.com)

Please wait 120 seconds: after that, your download will begin

ZIP Password : electronicstree.com

If you have any requests for Arduino Module Libraries in Proteus, please leave a comment or message us using the contact form.

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