rajkot

Thursday, February 25, 2010

CABLE T.V. AMPLIFIER




  1. This is a very simple cable TV amplifier using two transistors. This amplifier circuit is most suitable for cable TV systems using 75 Ohm coaxial cables and works fine up to 150MHz.


  2. Transistor T1 performs the job of amplification. Up to 20dB gain can be expected from the circuit.T2 is wired as an emitter follower to increase current gain.


NOTES:





  • Use 12V DC for powering the circuit.


  • Type no of the transistors are not very critical.


  • Any medium power NPN RF transistors can be used in place of T1 and T2.


  • This is just an elementary circuit. Do not compare it with high quality Cable TV amplifiers available in the market.

Wednesday, February 17, 2010

DING-DONG SOUND GENERATOR


  1. This is the circuit diagram of a ding dong sound generator based on two NE555 timer ICs.

Tuesday, February 16, 2010

SIMPLE ELECTRONIC COMBINATION LOCK USING IC LS 7220


  1. This is the circuit diagram of a simple electronic combination lock using IC LS 7220.This circuit can be used to activate a relay for controlling (on & off) any device when a preset combination of 4 digits are pressed.

Monday, February 15, 2010

DIGITAL STOP WATCH


  1. A digital stop watch built around timer IC LM555 and 4-digit counter IC MM74C926 with multiplexed 7-segment LED display.
  2. MM74C926 consists of a 4-digit counter, an internal output latch, npn output sourcing drivers for common cathode,
    7-segment display and an internal multiplexing circuitry with four multiplexing outputs.The counter advances on negative edge of the clock.
  3. First, reset the circuit by pressing S3 so that the display shows ‘0000.’

Sunday, February 14, 2010

AIR FOLLOW DETECTOR CIRCUIT


  • This circuit can give a visual indication of the rate of air flow.It can be also used to check whether there is air flow in a given space.

Friday, February 12, 2010

LIGHT ACTIVATED SWITCH CIRCUIT


  • This is the circuit diagram of a light activated switch based on National Semiconductors comparator IC LM 311 and a LDR.
  • The circuit is based on a voltage comparator circuit wired around IC 1.The non inverting in put of IC1 is given with a reference voltage of 6V using resistors R3 and R4.
  • Adjust POT R1 to set the desired light intensity for switching the relay.
  • For this illuminate the LDR with the desire intensity light.
  • The relay will be either on or off.Adjust POT R1 slowly so that the state of the relay changes.
  • That’s it.Now the circuit is set for the given intensity of light.
  • Assemble the circuit on a good quality PCB or common board.
  • You can use either a 12 V battery or a well regulated & filtered 12V DC mains operated power supply.
  • The pin 5&6 (Balance & Balance/Strobe ) of IC LM311 are shorted to minimize the chance of oscillations.
  • The pin out of LM311 is also given together with the circuit diagram
  • Tuesday, February 9, 2010

    LEAD ACID BATTERY CHARGER


    • Here is a lead acid battery charger circuit using IC LM 317.The IC here provides the correct charging voltage for the battery.
    • A battery must be charged with 1/10 its Ah value.This charging circuit is designed based on this fact.

    Monday, February 8, 2010

    SINGLE CHIP FM RADIO CIRCUIT


    • This circuit is designed as per the data sheet and the result is excellent.Ideal for all category of electronic enthusiasts.
    • The TDA7000 is a monolithic integrated circuit for mono FM portable radios, where a minimum on peripheral components is crucial.

    Sunday, February 7, 2010

    AUTOMATIC LED EMERGENCY LIGHT


    • This is the circuit diagram of a low cost emergency light based on white LED.The white LED provide very bright light which turns on when the mains supply is not there.
    • The circuit has an automatic charger which stops charging when the battery is fully charged.
    • The IC LM 317 produces a regulated 7 V for the charging of Battery.
    • t is always better to connect a heat sink with BD 140.Before using the circuit out put of LM317 must be set to 7V by adjusting the potentiometer.

    Friday, February 5, 2010

    INFRARED MOTION DETECTOR


    • Here is the circuit diagram of an infrared motion detector that can be used to sense intrusions.Infra red rays reflected from a static object will be in one phase, and the rays reflected from a moving object will be in another phase.The circuit uses this principle to sense the motion.
    • The IC1 (NE 555) is wired as an astable multivibrator .The IR diode connected at the output of this IC produces infrared beams of frequency 5Khz.These beams are picked by the photo transistor Q1
    • At normal condition ie; when there is no intrusion the output pin (7) of IC2 will be low.When there is an intrusion the phase of the reflected waveforms has a difference in phase and this phase difference will be picked by the IC2.
    • Now the pin 7 of the IC 2 goes high to indicate the intrusion.An LED or a buzzer can be connected at the output of the IC to indicate the intrusion.
    • Comparators IC2a and IC2b are belonging to the same IC2 (LM1458).So the power supply is shown connected only once.No problem.
    • When there is disturbance in the air or vehicles passing nearby,the circuit may get false triggered.
    • POT R5 can be used for sensitivity adjustment.

    Thursday, February 4, 2010

    T.V.TRANSMMITER CIRCUIT


    • Here, uses FM modulation for sound and PAL for video modulation.
    • The audio signal to be modulated is pre-amplified using the transistor Q1 and associated components.
    • The transistor Q2 has two jobs: production of carrier frequency and modulation.
    • The pre-amplified audio signal is fed to the base of transistor Q2 for modulation. Capacitor C5 and inductor L1 forms the tank circuit which is responsible for producing the carrier frequency.
    • The video signal is fed to the emitter of transistor Q2 via POT R7 for modulation. The modulated composite signal (audio+video) is transmitted by the antenna A1.

    • NOTES:
    • Assemble the circuit on a good quality PCB.
    • Inductor L1 can be made by making 4 turns of 24SWG enameled copper wire on a 6mm dia: plastic former.
    • T1 can be a radio frequency transformer with built in capacitor. (Can be found on old transistor radio boards).
    • Antenna A1 can be a 1M long copper wire. (Experiment with the length to get optimum performance).
    • This transmitter is working in VHF band somewhat between 50 – 210MHz.
    • This transmitter is compatible only with PAL B and PAL G systems.

    Wednesday, February 3, 2010

    REMOTE CONTROLL TESTER


    1. This is a simple remote controller tester circuit based on infrared sensor IC TSOP 1738.
    2. When the IR waves fall on the sensor it output changes to low state.This makes the transistor Q1 ON and LED will blink according to the code contained in the sign.
    3. So for press of each button the LED blinks in different ways.This is a good indication of the working of remote.The diode D1drops 0.7 V to give the IC ~ 5V supply from the available 6V .R2 is a current limiting resistance.
    4. Use a 6V battery to power up the circuit.
    5. This circuit can be used to test remotes operating in the 38Khz carrier frequency.Almost all remotes fall into this category so no problem.