Monday, August 25, 2014

Simple Timed Beeper Wiring diagram Schematic

Hi Everyone Yesterday upon visiting my (somewhat) local optometrist, I was advised to look up every 5 minutes or my eyes will stay

 Simple Timed Beeper Circuit Diagram


Simple


Parts:

R1______220R1/4W Resistor
R2_______10M1/4W Resistor
R3________1M1/4W Resistor
R4_______10K1/4W Resistor
R5_______47K1/4W Resistor
 
C1_______100nF63V Polyester Capacitor
C2________22µF25V Electrolytic Capacitor
 
D1______1N414875V 150mA Diode
D2________3mm.Red LED
 
IC1_____4081Quad 2 input AND Gate IC
IC2_____406014 stage ripple counter and oscillator IC
 
Q1______BC33745V 800mA NPN Transistor
P1______SPST Pushbutton (Start)
P2______SPST Pushbutton (Reset)
 
SW1_____4 ways Switch (See notes)
 
PS______Piezo sounder (incorporating 3KHz oscillator)
 
B1______3V Battery (2 AA 1.5V Cells in series)
 

Device purpose:

This schema is intended for alerting purposes after a certain time is elapsed. It is suitable for table games requiring a fixed time to answer a question, or to move a piece etc. In this view it is a modern substitute for the old sand glass. Useful also for time control when children are brushing teeth (at least two minutes!), or in the kitchen, and so on.

Circuit operation:

Pushing on P1 resets IC2 that start oscillating at a frequency fixed by R3 & C1. With values shown, this frequency is around 4Hz. LED D2, driven by IC1A & B, flashing at the same oscillator frequency, will signal proper schema operation. SW1 selects the appropriate pin of IC2 to adjust timing duration:
  • Position 1 = 15 seconds
  • Position 2 = 30 seconds
  • Position 3 = 1 minute
  • Position 4 = 2 minutes
When the selected pin of IC2 goes high, IC1C drives Q1 and the piezo sounder beeps intermittently at the same frequency of the LED. After around 7.5 seconds pin 4 of IC2 goes high and IC1D stops the oscillator through D1. If you want to stop counting in advance, push on P2.

Notes:

  • SW1 can be any type of switch with the desired number of ways. If you want a single fixed timing duration, omit the switch and connect pins 9 & 13 of IC1 to the suitable pin of IC2.
  • The diagram reset is not immediate. Pushing P2 forces IC2 to oscillate very fast, but it takes some seconds to terminate the counting, especially if a high timer delay was chosen and the pushbutton is operated when the schema was just starting. In order to speed the reset, try lowering the value of R5, but pay attention: too low a value can stop oscillation.
  • Frequency operation varies with different brand names for IC2. E.g. Motorolas ICs run faster, therefore changing of C1 and/or R3 values may be necessary.
  • You can also use pins 1, 2, 3 of IC2 to obtain timings of 8, 16 and 32 minutes respectively.
  • An on-off switch is not provided because when off-state the schema draws no significant current.
 

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