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Electronic dice

Aniket Thakur
Aniket Thakur

This document describes an electronic dice circuit that uses a 555 timer IC and 4017 counter IC to randomly cycle through dice number displays on 7 LEDs when a push switch is pressed. The circuit provides clock pulses from the 555 timer to step through the counter outputs, which are combined with diodes to illuminate the LEDs in dice number patterns. Pressing the push switch starts the random cycling through the numbers, simulating the rolling of dice.

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ELECTRONIC DICE MEMBERS 1. Aniket Thakur(2009C6PS386G) 2. Pranav Risbud(2009C6PS387G) PARTS REQUIRED  resistors: 330 ×3, 470, 10k ×3  capacitors: 0.01µF, 0.1µF  diodes: 1N4148 ×6  LEDs: red 5mm diameter ×7  555 timer IC, such as NE555  4017 counter IC  DIL sockets for ICs: 8-pin, 16-pin  on/off switch  push switch  battery clip for 9V PP3  stripboard: 20 rows × 22 holes SUMMARY Press the push switch to 'throw' the dice: this makes the circuit rapidly cycle through the dice numbers so that an effectively random dice number is displayed by the LEDs when the push switch is released.
CIRCUIT DIAGRAM METHODOLOGY The 555 astable circuit provides clock pulses at about 5kHz for the 4017 counter which has ten outputs (Q0 to Q9). Each output becomes high in turn as the clock pulses are received. Only six counts (Q0-Q5) are needed so Q6 is connected to reset. Appropriate outputs are combined with diodes to supply the LEDs: for example Q1, Q3 and Q5 are combined for LED A. The dice sequence has been started at 2 so the ÷10 output can be used for LEDs B1 and B2, this saves diodes and simplifies the circuit. Pressing the push switch makes the disable input low so that counting occurs. APPLICATION Electronic dice can be used instead of normal dice for games involving use of dice. The biasing of game when the slope of surface used to throw dice is uneven or when the game is played in a moving vehicle , can be avoided.

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Electronic dice

  • 1. ELECTRONIC DICE MEMBERS 1. Aniket Thakur(2009C6PS386G) 2. Pranav Risbud(2009C6PS387G) PARTS REQUIRED  resistors: 330 ×3, 470, 10k ×3  capacitors: 0.01µF, 0.1µF  diodes: 1N4148 ×6  LEDs: red 5mm diameter ×7  555 timer IC, such as NE555  4017 counter IC  DIL sockets for ICs: 8-pin, 16-pin  on/off switch  push switch  battery clip for 9V PP3  stripboard: 20 rows × 22 holes SUMMARY Press the push switch to 'throw' the dice: this makes the circuit rapidly cycle through the dice numbers so that an effectively random dice number is displayed by the LEDs when the push switch is released.
  • 2. CIRCUIT DIAGRAM METHODOLOGY The 555 astable circuit provides clock pulses at about 5kHz for the 4017 counter which has ten outputs (Q0 to Q9). Each output becomes high in turn as the clock pulses are received. Only six counts (Q0-Q5) are needed so Q6 is connected to reset. Appropriate outputs are combined with diodes to supply the LEDs: for example Q1, Q3 and Q5 are combined for LED A. The dice sequence has been started at 2 so the ÷10 output can be used for LEDs B1 and B2, this saves diodes and simplifies the circuit. Pressing the push switch makes the disable input low so that counting occurs. APPLICATION Electronic dice can be used instead of normal dice for games involving use of dice. The biasing of game when the slope of surface used to throw dice is uneven or when the game is played in a moving vehicle , can be avoided.