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Photovoltaic Cell (Solar Cell)

semiconductor device that converts the light into electrical energy

The name Photovoltaic is because of their voltage producing capability from light

Its role in sustainable energy is to reduce the carbon footprint by harnessing solar energy

How light energy is converted into electrical energy

Photovoltaic Effect is a way which light energy is converted into electrical energy

Sunlight photons knock electrons loose from atoms.

Electrons flow through the cell, generating electricity.

Applications:

Solar Panels in residential rooftops reducing electricity bills.

Solar-Powered Chargers for device charging on the go

Solar street lighting that is cost-efficient

Photodiode

a semiconductor device with a P-N junction that converts photons (or light) into electrical
current.

has a similar structure as a normal PN junction diode except for a light-sensitive exposed
junction.

can be used in both forward and reverse bias.

produces both voltage and current.

mainly used in solar cells to power electrical equipment from solar energy.

Phototransistor

a light-sensitive transistor that is used to amplify the photoelectric current generated from
converting light energy

has two or three terminals depending on its design

has a similar structure to a transistor except it has a light-sensitive base region.

connected only in forward bias

requires a power source to operate

generates current only
 mainly used for detecting or sensing light intensity

LDR (Light Dependent Resistor)

tiny light-sensing devices also known as photoresistors

resistor whose resistance changes as the amount of light falling on it changes.

works on the principle of photoconductivity whenever the light falls on its photoconductive
material

Laser

an acronym for “light amplification by stimulated emission of radiation.”

a special type of diode specifically designed to convert electrical energy into light through a
process called stimulated emission

functions similarly to a regular p-n junction but is optimized for light generation

Unlike LEDs, which emit light in various directions, laser diodes produce a concentrated,
coherent light beam

The color of the laser light depends on the type of semiconductor material used

with different materials emitting different wavelengths of light.

PIR (Passive Infrared) Sensor

an electronic sensor used in motion detectors

triggered lighting devices and protection systems that measure devices emitting
infrared light in their field of view

useful for detecting the presence of people or animals through the heat emitted by their
bodies

commonly utilized in security alarms and automatic lighting applications.

Hall Effect Sensor

transducer that varies its output voltage in response to a magnetic field.

used for proximity switching, positioning, speed detection, and current sensing
applications.

use a thin semiconductor with a continuous current.
 When exposed to a magnetic field, this field deflects charge carriers (electrons and
holes) to the sides of the semiconductor.

This deflection creates a Hall voltage perpendicular to the current flow and the magnetic
field

The Hall voltage varies with the magnetic field's polarity and intensity, allowing the sensor to
detect and measure the magnetic field effectively.

Ultrasonic Sensor

electronic device that measures the distance of a target object by emitting ultrasonic sound
waves

converts the reflected sound into an electrical signal

work by sending out a sound wave at a frequency above the range of human hearing

The transducer of the sensor acts as a microphone to receive and send the ultrasonic
sound

Ultrasonic sensors, like many others, use a single transducer to send a pulse and to receive
the echo.

the sensor determines the distance to a target by measuring time lapses between the
sending and receiving of the ultrasonic pulse.

Magnetometer

device that measures magnetic field or magnetic dipole moment

Different types of magnetometers measure the direction, strength, or relative change of a
magnetic field at a particular location.

Magnetometers specifically used to measure the Earth’s field are of two types: absolute
and relative (classed by their methods of calibration).

Absolute magnetometers - are calibrated with reference to their own known internal
constants.

Relative magnetometers - must be calibrated by reference to a known, accurately measured
magnetic field.

Color Sensor

uses photodiodes to convert light reflected from an object into electrical signals
 these signals are then processed to determine the object's color based on its light
absorption properties

selectively detect light within the visible spectrum to differentiate colors

it relies on color models (RGB, CMYK) to translate light information into color data.

Proximity Sensor

a non-contact sensor that detects the presence of an object (often referred to as the
“target”) when the target enters the sensor’s field

depending on the type of proximity sensor, sound, light, infrared radiation (IR), or
electromagnetic fields may be utilized by the sensor to detect a target

used in phones, recycling plants, self-driving cars, anti-aircraft systems, and assembly lines

Inductive Proximity Sensor

useful to detect the metallic object which is present next to their active side

this sensor operate under the electrical principal of inductance; where a fluctuating
current induces an electromotive force(EMF) in a target object

Optical Proximity Sensor

includes a light source, and a sensor that detects the light

These sensors detect objects directly in front of them by the detecting the sensor’s
own transmitted light reflected back from an object’s surface

Capacitive Proximity Sensor

can detect both metallic and non-metallic targets in powder, granulate, liquid, and
solid form

use the variance in the capacitance of the sensor to concluded that an object has
been detected

Magnetic Proximity Sensor

this sensor only detects the magnetic field

sense the presence of a magnetic object
 the target, characterized by its magnetic field, triggers the switching process; when
it enters the detection range of the sensor.

RF Diode

specialized components engineered to manage high-power radio frequency (RF) signals
within a range of electronic devices such as stereo amplifiers, radio transmitters, television
monitors, and various RF or microwave applications

crucial for efficiently controlling and manipulating RF signals, ensuring optimal
performance and signal integrity in communication systems and electronic equipment

designed to handle high-frequency signals efficiently

Chemical Transducers

Chemical transducers are essential tools that transform chemical information into signals
that can be measured, enabling the detection and measurement of a variety of compounds
in a broad range of applications. In industries including food safety, industrial process
control, medical diagnostics, and environmental monitoring, these transducers are
essential.

Gas Sensors

a device which detects the presence or concentration of gases in the atmosphere

Electromechanical Gas Sensor

an electrochemical cell consisting of a sensing electrode, a reference electrode,
and a counter electrode separated by a thin layer of electrolyte.

a device that quantitatively detects a particular chemical species as an oxidation or
reduction current.

Soil Moisture Sensor

measure the volumetric water content in the soil.

sensor mainly utilizes capacitance to gauge the water content of the soil

The sensor interacts with the water molecules in the soil and changes its
capacitance value depending on the amount of water
Humidity Sensor / Hygrometer

sensitive electronic devices used to measure the air's humidity

divided into two categories: relative humidity sensors and absolute humidity sensors

Capacitive Humidity Sensor

the sensing element of a capacitive sensor is a capacitor.

Here, the relative humidity values are determined by measuring the dielectric
material's change in electrical permittivity.

Resistive Humidity Sensor

Humidity changes are detected by measuring changes in this material's resistivity
value.

Turbidity Sensor

used to quantify the amount of total dissolved/suspended solids in a solution as well as its
cloudiness or haziness

for determining the particle concentration and purity of a solution, such as water

Turbidity is the measure of relative clarity of a liquid.

It is an optical characteristic of water and is a measurement of the amount of light
that is scattered by material in the water when a light is shined through the water
sample.

The higher the intensity of scattered light, the higher the turbidity.

Salinity Sensor

used to determine the concentration or refractive index of saline solution by weight

measures the conductivity of a solution with a high ion concentration

Salinity refers to the total amount of all non-carbonate salts dissolved in water

it is typically expressed in parts per thousand (1 ppt = 1000 mg/L) and is particularly
important in seawater
 Electrode type salinity sensor

operates by immersing two electrodes in the solution whose salinity is to be
measured.

When an electrical voltage is applied across the electrodes, ions in the solution
conduct electricity, causing a measurable current to flow.

The sensor measures this current and converts it into a salinity value, typically using
a calibration curve that relates conductivity to salinity.

Induction type salinity sensor

uses a magnetic field to induce a current in the solution and measures the resulting
voltage to determine the salinity

pH Sensor

device used to measure the acidity or alkalinity of a solution

it is widely used in various industries, including water treatment, food and beverage
production, agriculture, and scientific research

the sensor typically comprises a pH-sensitive electrode and a reference electrode

measures electric potential using two electrodes inserted into the liquid to create
an electrical circuit

one electrode, called the reference electrode, contains a substance with a known
electric potential

the other electrode, known as the sensor electrode, is inserted into the solution
being tested

the electric potential is determined by comparing the reference electrode to the
sensor electrode.

Fuel Cell

a device that converts chemical energy from a fuel into electricity through a chemical
reaction with oxygen or another oxidizing agent

Hydrogen is the most common fuel, but hydrocarbons such as natural gas and
alcohols like methanol are sometimes used
 Fuel cells are different from batteries in that they require a constant source of fuel
and oxygen to run, but they can produce electricity continually for as long as these
inputs are supplied.

E-Nose (Electronic Nose)

a sensor device that detects smell more effectively than the human smell

It is used to distinguish complex volatiles that reproduce the structure and principle of
olfactory sense

It is mainly used for quality evaluation, maturity detection, and species identification in fruit
and vegetable testing

Heartbeat Sensor

device designed to monitor and measure heart rate in real-time

commonly used in various applications such as fitness tracking, medical monitoring, and
research

the sensor detects the pulse by measuring changes in blood volume through the skin using
optical or electrical methods

Heartbeat Sensor

The most common type of heartbeat sensor uses an optical method to measure the heart
rate.

This method involves a light-emitting diode (LED) and a photodetector. The LED emits light
that penetrates the skin, and the photodetector measures the amount of light that is
reflected or absorbed by the blood flowing through the veins.

As the heart pumps blood, the volume of blood changes, leading to variations in the light
absorption. These variations are detected and processed to calculate the heart rate.

Breathalyzer

operate on the principle that alcohol present in the bloodstream is exhaled in the breath

When a person breathes into the device, it measures the amount of alcohol vapor present.

There are three main types of technologies used in breathalyzers:
 Fuel Cell Sensors

Semiconductor Oxide Sensors

Infrared Spectroscopy

Fuel Cell Breathalyzers

relies on principles of electrochemistry, particularly oxidation-reduction reactions.

the oxidation of ethanol to acetic acid, which produces electrons that generate an
electric current measured by the device.

Semiconductor Oxide Sensors

based on the change in electrical resistance caused by the interaction between
ethanol and the sensor material

Infrared spectroscopy

based on the Beer-Lambert law

relates the absorption of light to the properties of the material through which the
light is traveling

It helps in quantifying the concentration of alcohol in the breath sample by
measuring the absorbed infrared radiation