Light Sensor circuit on Breadboard + Darkness Detector | LDR & Transistor Projects

Elonics - Electronics Projects on Breadboard
9 Dec 201705:42

Summary

TLDRThis video tutorial guides viewers on constructing an LDR-based light sensor circuit and converting it into a darkness sensor. It explains how LDRs' resistance inversely correlates with light intensity, affecting an LED's brightness. The video then enhances the basic circuit with a transistor for better functionality, demonstrating how to adjust sensitivity with resistors or potentiometers. Practical applications and component configurations are discussed, encouraging viewers to explore and experiment with the circuit.

Takeaways

  • 🌞 **LDR Basics**: LDRs (Light Dependent Resistors) change resistance based on light intensity, with a direct inverse relationship.
  • 🔌 **Basic Circuit**: A simple light sensor circuit is made by connecting an LDR in series with an LED to a power source.
  • 📉 **Light Effect**: As light intensity increases, LDR resistance decreases, allowing more current and making the LED brighter.
  • 🔦 **Limitations**: The basic circuit lacks control over light levels for LED operation and cannot handle heavy loads.
  • 🔌 **Transistor Upgrade**: Adding a transistor allows for more functionality, including control over when the LED turns on or off.
  • 🔄 **Voltage Change**: A resistor in series with the LDR helps convert resistance changes into voltage changes for transistor activation.
  • 💡 **Transistor Operation**: An npn transistor like BC547 is used, with the base connected to the LDR-resistor junction to sense light changes.
  • 🔄 **Sensitivity Control**: The sensitivity of the light sensor can be adjusted by changing the series resistor value.
  • 🌑 **Dark Sensor**: Replacing the resistor with an LDR and the LDR with a higher resistor value creates a darkness sensor circuit.
  • 🎚️ **Adjustable Sensitivity**: Using a potentiometer instead of a fixed resistor allows for adjustable sensitivity in both light and dark sensor circuits.
  • 📚 **Further Exploration**: The script encourages viewers to explore why different potentiometer values are used for light and dark sensor circuits.

Q & A

  • What is an LDR and how does it function?

    -An LDR, or Light Dependent Resistor, is a type of resistor whose resistance decreases with the increase of incident light intensity. It's also known as a photoresistor. The resistance of an LDR is inversely proportional to the brightness of light.

  • How is the basic light sensor circuit constructed?

    -The basic light sensor circuit is constructed by connecting an LDR in series with an LED and connecting the other terminals to a DC power source. The LED's brightness changes based on the resistance of the LDR, which in turn is affected by the light intensity.

  • Why does the LED glow brighter when the light brightness increases?

    -When the light brightness increases, the LDR's resistance decreases, allowing more current to flow through the circuit. This increased current flow causes the LED to glow brighter.

  • What are the limitations of the basic light sensor circuit?

    -The basic light sensor circuit has limitations such as the inability to control the light brightness at which the LED turns ON or OFF, and it cannot drive heavy loads.

  • How can the circuit be improved to control when the LED turns ON or OFF?

    -The circuit can be improved by adding a transistor and a resistor in series with the LDR. This allows the change in resistance of the LDR to be converted into a change in voltage, which can then be used to control the LED with more precision.

  • What is the role of the 1K resistor in the improved circuit?

    -The 1K resistor in series with the LDR helps to create a voltage divider. As the LDR's resistance changes with light intensity, the voltage at the junction of the LDR and resistor changes, which can be used to control the transistor and thus the LED.

  • Why is an npn transistor used in this circuit?

    -An npn transistor is used because it turns on when the base is more positively biased. This is suitable for this circuit as the voltage at the base increases with the decrease in light intensity, which is what is needed to control the LED based on light conditions.

  • How does the sensitivity of the light sensor circuit depend on the series resistance?

    -The sensitivity of the light sensor circuit depends on the value of the series resistance to the LDR. A lower resistance (like 1KOhm) results in lower sensitivity, meaning the LED turns ON only at higher light levels. A higher resistance increases sensitivity, causing the LED to turn ON even in low light conditions.

  • How can the circuit be adjusted to make it a dark sensor circuit?

    -To make the circuit a dark sensor, replace the 1KOhm resistor with an LDR and the LDR with a higher resistance (47-100KOhm). This way, the voltage at the base increases when the light decreases, causing the LED to turn ON in darkness.

  • What is the purpose of using a potentiometer instead of a fixed resistor?

    -Using a potentiometer instead of a fixed resistor allows for adjustable sensitivity in the circuit. By varying the resistance, one can control the light level at which the LED turns ON or OFF.

  • Why are different values of potentiometers used for light and dark sensor circuits?

    -Different values of potentiometers are used to achieve the desired sensitivity for each type of sensor. A 10K potentiometer is used for the light sensor circuit to provide a medium level of sensitivity, while a 100K potentiometer is used for the dark sensor circuit to increase sensitivity and ensure the LED turns ON in lower light conditions.

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Circuit BuildingLDR SensorDIY ElectronicsLight DetectionTransistor UsageDIY ProjectSensor CircuitDarkness SensorElectronics TutorialInstructive Video
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