Difference Between LED and LDR

What is the Difference between LDR (Photoresistor) and LED (Light Emitting Diode)?

LDR and LED are both semiconductor-based devices whose operation is associated with light. LED produces light when an electrical current pass through it while the LDR resistance decreases and allow current when light falls on it. Apart from this, they have many other differences between them.

Difference between LED and LDR

Before going into the differences between LDR and LED, let’s look at their basics first.

LDR

LDR (Light Dependent Resistor) also known as photocell or photoresistor is a type of light-sensitive resistor or variable resistor whose resistance decrease when exposed to light.

Symbol of LDR

LDR works on the principle of photoconductivity. It is made of photoconductive semiconductor material whose resistance varies inversely with the change in light intensity. There are no or fewer electrons in darkness. When bright light shines on it, the photons in the light pass their energy to the material generating more free electrons that participate in the condition. Thus the resistance of LDR decreases.

LDR – Light Dependent Resistor - Photocell or Photoresistor

There are different semiconductor materials having photoconductive properties. However different material shows response to different wavelengths such as visible, infrared, and ultraviolet light. The material used in the construction of LDR is N-type semiconductors such as cadmium selenide CdSe, Cadmium sulfide CdS, etc.

LDR is a symmetrical device having two same terminals. It works in both directions.

It is used in light sensing applications such as automatic street lights, solar trackers, object counters, burglar alarms, camera shutter control fire alarms, etc.

LED

The LED also known light emitting diode is a type of diode that emits light when an electric current pass through it. It converts electrical energy into light energy. The light can be infrared, visible, and ultraviolet.

LED Symbol

It is a PN junction diode that radiates light when connected in forward bias. The junction is converted into a transparent epoxy to prevent the junction from contamination as well as radiate light in all directions.

LED works on the principle of Electro-Luminance. According to it, a material emits light when an electric current passes through it. There are certain semiconductors that possess such properties as gallium arsenide, gallium phosphide, and indium phosphide compounds. Different materials emit different color lights.

LED emits light due to electron-hole combination. Electron and hole combine and release energy equal to the band gap energy. The materials that emit light have direct band gap between conduction and valence band. It emits energy equal to the band gap in the form of photons or light. Other semiconductors such as silicon and germanium possess indirect band gaps that release energy in form of heat.

It had two terminals name anode (+) and cathode (-). It must be operated in forward bias. Reverse biasing an LED can permanently damage it.

LED Diode Symbol, Construction & Leads Identification

Comparison between LDR and LED

The following table shows some of the key differences between light emitting diode (LED) and a light dependent resistor (LDR).

LDR – Light Dependent Resistor LED – Light Emitting Diode
LDR stands for light-dependent resistor. LED stands for light emitting diode.
Symbol of LDR: Photo resistor Light dependent resistor LDR Symbol Symbol of LED: LED Light Emitting Diode Symbol
It is a variable resistor whose resistance varies with light intensity. It is a diode that emits light by passing a current through it.
It is made of a single semiconductor layer. It is made from two or three semiconductor layers.
It is commonly made from Cadmium selenide CdSe, Cadmium sulfide CdS. It is made from gallium arsenide, gallium phosphide, and indium phosphide.
It works on the principle of photoconductivity. It works on the principle of Electro-Luminance.
It can operate in both directions. It can operate only in forward bias.
It takes light energy as input. Its output is light energy.
It can sense the intensity of different wavelengths of light. It can emit light of different wavelengths.
It is used for sensing and measuring light intensity. It is used for generating light energy.
LDR is used in applications that require automatic switching based on the intensity of light such as automatic street lights, camera shutters, fire alarms, burglar alarms, etc. LED is used in various applications such as illumination purposes, decoration, digital display in advertisement boards and alphanumeric display, etc.

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Main Differences between LED and LDR

Definition

Function

Structure

Material

Working principle

Applications

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