Showing posts with label timer. Show all posts
Showing posts with label timer. Show all posts

Saturday, October 18, 2014

1 to 999s with PIC16F84A Timer from

This is a good looking and practical device that can be useful in many areas where countdown timer is needed. This project is based on the PIC16F84A microcontroller. The time range can be adjusted between 1 and 999 seconds.   This project  has 3 buttons and one of them is named Set Button. In order to regulate the seconds up or down  on the display you should press the Set button while pressing the button on the  left or the right  hand side. The author of this project is @Pedja089. More photos on Facebook Fan Page.
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Wednesday, September 17, 2014

Electronic Door Minder using 555 Timer

This door minder electronic project uses an IR beam to monitor door & passage-ways or any other area. When the IR beam is broken a relay is tripped which can be used to sound a bell or alarm. This door minder electronic project is suitable for detecting customers entering a shop, cars coming up a driveway, etc.

Circuit Diagram

 door-minder-transmitter-Circuit

Electronic Door Minder using 555 Timer Transmitter Circuit Diagram

Because the IR beam is very strong distances over 25 yards can be monitored with electronic circuit . This circuit must be powered from a 12volt DC supply. The transmitter circuit consists of two square-wave oscillators, one running at approx. 250Hz and the other running at 38kHz. The 38kHz frequency acts as a carrier wave and is required by the IR receiver module on the receiver board.The oscillators are made by using two 555 timer ICs set up as astable configuration multivibrators.Another 555 timer ( IC2) is used for the 38KHz oscillator. Resistors R4 and R5 and capacitor C3 set the frequency.Diodes D1 and D3 are used to create a symmetrical output.

Circuit diagram :

door-minder-receiver-circuit

Electronic Door Minder using 555 Timer Receiver Circuit Diagram

Normally the external capacitor C1 (C3) charges through resistors R1 and R2 (R4 and R5) and discharges through R2 (R5). Without the diodes this output waveform would have a longer “high” time than the “low” time.  The output from the IC1 is coupled via diode D2 and resistor R3 to the trigger input of IC2. When the IC1 output is low it stops IC2 from running and IC2’s output is forced high (no IR LED current). When IC1 output is high, IC2 runs and the IR LED is pulsed at 38KHz.The receiver module consists of an IR receiver module that detects the incoming beam from the transmitter. The IR signal is used to keep a capacitor charged which in turn holds a relay operated. When the beam is broken the capacitor discharges and the relay releases.

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Saturday, September 6, 2014

Electronic Door Minder using 555 Timer

This door minder electronic project uses an IR beam to monitor door & passage-ways or any other area. When the IR beam is broken a relay is tripped which can be used to sound a bell or alarm. This door minder electronic project is suitable for detecting customers entering a shop, cars coming up a driveway, etc. Circuit Diagram   Electronic Door Minder using 555 Timer Transmitter Circuit Diagram Because the IR beam is very strong distances over 25 yards can be monitored with electronic schema . This schema must be powered from a 12volt DC supply. The transmitter schema consists of two square-wave oscillators, one running at approx. 250Hz and the other running at 38kHz. The 38kHz frequency acts as a carrier wave and is required by the IR receiver module on the receiver board.The oscillators are made by using two 555 timer ICs set up as astable configuration multivibrators.Another 555 timer ( IC2) is used for the 38KHz oscillator. Resistors R4 and R5 and capacitor C3 set the frequency.Diodes D1 and D3 are used to create a symmetrical output. Circuit diagram : Electronic Door Minder using 555 Timer Receiver Circuit Diagram

Normally the external capacitor C1 (C3) charges through resistors R1 and R2 (R4 and R5) and discharges through R2 (R5). Without the diodes this output waveform would have a longer “high” time than the “low” time.  The output from the IC1 is coupled via diode D2 and resistor R3 to the trigger input of IC2. When the IC1 output is low it stops IC2 from running and IC2’s output is forced high (no IR LED current). When IC1 output is high, IC2 runs and the IR LED is pulsed at 38KHz.The receiver module consists of an IR receiver module that detects the incoming beam from the transmitter. The IR signal is used to keep a capacitor charged which in turn holds a relay operated. When the beam is broken the capacitor discharges and the relay releases.

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Monday, August 25, 2014

Timer Circuit with Independent On and OFF Delay Adjust Facility

Timer
The schema can be used for generating delays at a desired rate. The On time of the relay can be controlled by adjusting the Pot VR1 while the pot VR2 may be used to decide after how long the relay responds once the input trigger is fed by the switch S1.

 The parts list is enclosed inside the diagram.


Sourced by : Streampowers
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Tuesday, August 19, 2014

Simple Astable 555 Timer IC Flasher

Astable
For a lower parts count than the 2 transistor multivibrators, 2 LEDs can be alternately flashed with a 555 integrated schema configured as shown in Schematic 2.  I chose the combination of a 2K2 and a 47K resistor to determine the oscillation frequency along with the 10 uF capacitor connected to pins 2 and 6. You can practically change the (R Speed) 47K value to between 10K and 100K or more. Greater resistance = lower speed. You may also wish to connect up a 100K or so potentiometer instead of the 47K resistor for a variable speed version. Additionally, the 10 uF capacitor value can be changed. Feel free to experiment.

Although, alternately flashing LEDs  is great for the beginner to electronics, the basic one ON, one OFF schema gets boring quickly. In the next section, we will try to improve the look and try to approximate a flash like a police car (within limits).
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Saturday, August 16, 2014

How to Build Timer with Musical Alarm

The timer with Musical Alarm  use famous CMOS oscillator/divider IC (IC1 ). Although this schema operates in 9V its standby current drain is very low. The time delay of timer schema can be adjusted by adjusting the preset VR1. The base of npn transistor T1 is connected to pin 3 of IC1 through resistor R4 and its emitter terminal is connected with pin 2 of melody generator IC­ (IC2) in order to provide positive supply when adjusted time delay is over.

Timer with Musical Alarm Circuit Diagram


Here the zener diode ZD1 is used as regulator which reduce power supply to required for operation of IC2 i.e. 3.3V. Lastly for music output the output from pin 1 of IC2 is fed to loud speaker via driver transistor and its volume is controlled by preset VR2. For starting the timer power is supplied by pressing switch SW1.


Parts list

Resistor (all ¼-watt, ±5%)
R1 = 1.2 MΩ
R2 = 2.2 MΩ
R3 = 56 KΩ
R4, R5, R6 = 1 KΩ
VR1 = 1 MΩ
VR2 = 1 KΩ

Capacitors
C1 = 0.01 µF
C2 = 0.22 µF
C3 = 1 µF/25V

Semiconductors
IC1 = CD4060 (CMOS oscillator /divider IC)
IC2 = UM66 (melody generator)
T1, T2 = BC547

Miscellaneous
SW1 = on/off switch
9V battery
LS1 = 8Ω, 0.5W speaker

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