1 Ağustos 2010 Pazar

Araç park etme sensörü


Circuit operation:
IC1 forms an oscillator driving the infra-red LED by means of 0.8mSec. pulses at 120Hz frequency and about 300mA peak current. D1 amp; D2 are placed facing the car on the same line, a couple of centimeters apart, on a short breadboard strip fastened to the wall. D2 picks-up the infra-red beam generated by D1 and reflected by the surface placed in front of it.

The signal is amplified by IC2A and peak detected by D4 & C4. Diode D3, with R5 & R6, compensates for the forward diode drop of D4. A DC voltage proportional to the distance of the reflecting object and D1 & D2 feeds the inverting inputs of three voltage comparators. These comparators switch on and off the LEDs, referring to voltages at their non-inverting inputs set by the voltage divider resistor chain R7-R10.

style="font-weight: bold;">Parts List:
R1 - 10K 1/4W Resistor
R2,R5,R6,R9 - 1K 1/4W Resistors
R3 - 33R 1/4W Resistor
R4,R11 - 1M 1/4W Resistors
R7 - 4K7 1/4W Resistor
R8 - 1K5 1/4W Resistor
R10,R12-R14 - 1K 1/4W Resistors
C1,C4 - 1µF 63V Electrolytic or Polyester Capacitors
C2 - 47pF 63V Ceramic Capacitor
C3,C5 - 100µF 25V Electrolytic Capacitors
D1 - Infra-red LED
D2 - Infra-red Photo Diode (see Notes)
D3,D4 - 1N4148 75V 150mA Diodes
D5-7 - LEDs (Any color and size)
IC1 - 555 Timer IC
IC2 - LM324 Low Power Quad Op-amp
IC3 - 7812 12V 1A Positive voltage regulator IC

Notes:
  • Power supply must be regulated (hence the use of IC3) for precise reference voltages. The circuit can be fed by a commercial wall plug-in adapter, having a DC output voltage in the range 12-24V.



  • Current drawing: LEDs off 40mA; all LEDs on 60mA @ 12V DC supply.

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  • The infra-red Photo Diode D2, should be of the type incorporating an optical sunlight filter: these components appear in black plastic cases. Some of them resemble TO92 transistors: in this case, please note that the sensitive surface is the curved, not the flat one.

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  • Avoid sun or artificial light hitting directly D1 & D2.

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  • If your car has black bumpers, you can line-up the infra-red diodes with the (mostly white) license or number plate.

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  • It is wiser to place all the circuitry near the infra-red LEDs in a small box. The 3 signaling LEDs can be placed far from the main box at an height making them well visible by the car driver.

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  • The best setup is obtained bringing D2 nearer to D1 (without a reflecting object) until D5 illuminates; then moving it a bit until D5 is clearly off. Usually D1-D2 optimum distance lies in the range 1.5-3 cm.




  • If you are needing a simpler circuit of this kind driving a LED or a relay


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    İzleyiciler

    LED DİRENÇ HESAPLAMA

    All LEDs require current limiting, without a current limiting mechanism the LED will usually burn out in under a second. Adding a simple resistor is the easiest way to limit the current. Use the calculator below to find out the value of resistor you require.

    For example if you are wanting to power one of our_blank">red LEDs in an automotive application you would see that the typical forward voltage is 2.0 Volts and the maximum continuous forward current is 30mA. Therefore you would enter 14.5, 2.0 and 30 into the Single LED calculation box. After calculating you get 470ohm 1 watt as the result. Here is a that allows you to enter a resistor value and generate the corresponding color code.

    Note: For automotive applications use the actual system voltage, not 12 Volts. Most 12 Volt system actually operate at around 14.5 Volts.

    Supply Voltage
    VOLTS
    Voltage Drop Across LED
    VOLTS
    Desired LED Current
    MILLIAMPS



    Calculated Limiting Resistor
    OHMS
    Nearest higher rated 10% resistor

    Calculated Resistor Wattage
    WATTS
    Safe pick is a resistor with
    power rating of (common values are .25W, .5W, and 1W)
    WATTS

    LEDs in series

    Several leds in series with one resistor
    Supply Voltage
    VOLTS
    Voltage Drop Across LED
    VOLTS
    Desired LED Current
    MILLIAMPS
    How many LEDs connected




    Calculated Limiting Resistor
    OHMS
    Nearest higher rated 10% resistor

    Calculated Resistor Wattage
    WATTS
    Safe pick is a resistor with
    power rating of (common values are .25W, .5W, and 1W)
    WATTS
    LM317 UYGULAMA DEVRELERİ HESAPLAMASI

     




    Çıkış Voltajı
    		R1 resistor

    		R2 resistor

    R1 resistor
    		R2 resistor

    		Çıkış Voltajı


    Lm317 uygulama devreleri ve detayli bilgiye Buradan ulasabilirsiniz

    LM555 - ASTABLE OSCILLATOR CALCULATOR

    LM555 - ASTABLE OSCILLATOR CALCULATOR
    Value Of R1 Ohms Value Of R2 Ohms
    Value Of C1 Microfarads
    Output Time HIGH SECONDS Output Time LOW SECONDS Output Period HIGH + LOW SECONDS Output Frequency HERTZ Output Duty Cycle PERCENT
    Resistor values are in Ohms (1K = 1000) - Capacitor values are in Microfarads (1uF = 1)

    NOTE: The leakage currents of electrolytic capacitors will affect the actual output results of the timers. To compensate for leakage it is often better to use a higher value capacitor and lower value resistances in the timer circuits.

    LM555 Astable Oscillator Circuit Diagram

    LM555 - ASTABLE CAPACITOR CALCULATOR

    The next calculator can find the capacitance needed for a particular output frequency if the values of R1 and R2 are known.

    Value Of R1 Ohms Value Of R2 Ohms
    Frequency Desired Hertz
    Capacitance uF
    s

    VOLT AMPER OHM ve WATT HESAPLAMA

    Current:
    kA (kiloamps) A (amps) mA (milliamps) µA (microamps)
    Voltage:
    kV (kilovolts) V (volts) mV (millivolts) µV (microvolts)