TOP 10 CBSE Top Science Projects for Classes 6 to 10 with Youtube Tutorial
55 views
39 slides
Mar 04, 2025
Slide 1 of 39
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
About This Presentation
Top 10 CBSE Science Projects for Classes 6 to 10 | Easy DIY Models with YouTube Tutorial
Looking for the best CBSE science projects for Classes 6 to 10? Here’s a collection of Top 10 working models that are perfect for science exhibitions, school projects, and STEM learning. These projects cover ...
Slide Content
With Youtube Tutorial
Top 10Top 10Top 10
CBSE Top Science
Projects for Classes
6 to 10
Top 10Top 10Top 10
CBSE Top Science
Projects for Classes
6 to 10
CONTACT US : +91 7276757409 www.smartxprokits.in
Advantages
All Connections are already done.
No Soldering Needed.
No Programming Needed.
All kit 100% Tested.
Buy Now
SCIENCE EXHIBITION MODEL
https://smartxprokits.in/product-category/science-fair-project-diykit-schooldiykit
CONTACT US :
www.smartxprokits.in+91 7276757409
Advantages
All Connections are already done.
No Soldering Needed.
No Programming Needed.
All kit 100% Tested.
Buy Now
SCIENCE EXHIBITION MODEL
https://smartxprokits.in/product-category/science-fair-project-diykit-schooldiykit
CONTACT US :
www.smartxprokits.in+91 7276757409
SR. NO. PROJECT NAME
1 Renewable Energy Activity Kit
2 Laser Security Alarm System For Bank
3 Chandrayaan
4 Smoke Detection Alarm Kit For Car
5 Alcohol Detection With Engine Locking System
6 Automatic Water Dispenser Using IR Pair
7 Transformer Overheat Detection System
8 Automatic Irrigation System For Farmer
9 Water Level Indicator
10 LED Lighting in Aquarium Using LDR Sensor
Science Exhibition Model
Top 10Top 10Top 10
For Class/Grade 10
1 Renewable Energy Activity Kit
2 Laser Security Alarm System For Bank
3 Chandrayaan
4 Smoke Detection Alarm Kit For Car
5 Alcohol Detection With Engine Locking System
6 Automatic Water Dispenser Using IR Pair
7 Transformer Overheat Detection System
8 Automatic Irrigation System For Farmer
9 Water Level Indicator
10 LED Lighting in Aquarium Using LDR Sensor
Science Exhibition Model
Top 10Top 10Top 10
For Class/Grade 10
The Solar Power, Wind Power – Renewable Energy Activity Kit is an engaging and educational DIY
experiment kit designed for kids aged 5+ to learn about renewable energy in a hands-on manner.
The kit includes essential components such as a solar panel, toy motor, fan, and multi-colored LEDs
to demonstrate energy conversion from both solar and wind power. Easy to assemble without the
need for soldering or glue, it ensures a safe and fun learning experience. Kids can observe solar
energy conversion by placing the solar panel in sunlight to light up the LEDs or create a windmill
model using the motor and fan to power the LEDs through wind energy.
This versatile kit is ideal for home experiments, school projects, and classroom demonstrations,
offering practical insights into sustainable energy solutions. Widely used in electronics, robotics, and
automation projects, it promotes creativity, problem-solving, and environmental awareness.
Renewable Energy Activity
Kit
Abstract
Buy Online “Renewable Energy Activity Kit ” Ready Kit, 100% Tested from below and get
fastest delivery in India
https://smartxprokits.in/solar-power-wind-power-renewable-energy-activity-kit-solar-energy-
conversion-wind-mill-making-kit-educational-learning-hobby-diy-experiment-kit-for-kids-boys-girls-of-
ages-5-yrs/
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Complete working video can be seen from
https://www.youtube.com/watch?v=9SOq99mtpaw
experiment kit designed for kids aged 5+ to learn about renewable energy in a hands-on manner.
The kit includes essential components such as a solar panel, toy motor, fan, and multi-colored LEDs
to demonstrate energy conversion from both solar and wind power. Easy to assemble without the
need for soldering or glue, it ensures a safe and fun learning experience. Kids can observe solar
energy conversion by placing the solar panel in sunlight to light up the LEDs or create a windmill
model using the motor and fan to power the LEDs through wind energy.
This versatile kit is ideal for home experiments, school projects, and classroom demonstrations,
offering practical insights into sustainable energy solutions. Widely used in electronics, robotics, and
automation projects, it promotes creativity, problem-solving, and environmental awareness.
Renewable Energy Activity
Kit
Abstract
Buy Online “Renewable Energy Activity Kit ” Ready Kit, 100% Tested from below and get
fastest delivery in India
https://smartxprokits.in/solar-power-wind-power-renewable-energy-activity-kit-solar-energy-
conversion-wind-mill-making-kit-educational-learning-hobby-diy-experiment-kit-for-kids-boys-girls-of-
ages-5-yrs/
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Complete working video can be seen from
https://www.youtube.com/watch?v=9SOq99mtpaw
Solar Energy Conversion:
Solar Panel: The solar panel in the kit is designed to convert sunlight into electrical energy using photovoltaic
cells. When placed under direct sunlight or an artificial light source like a bulb or torch, the panel absorbs light
and generates DC (Direct Current) electricity.
LED Light: The generated electricity is used to power a connected LED light (available in different colors like
red, green, white/blue, and yellow). The LED will glow, indicating the successful conversion of solar energy to
electrical energy. In the absence of sunlight, you can use artificial light to simulate the effect.
Wind Energy Conversion:
Toy Motor and Propeller:
The kit includes a toy motor and a small propeller. When wind passes over the propeller (either from a fan or
manually created by spinning it), the motor shaft rotates.
LED Light: As the motor rotates, it generates electricity. This electricity powers the connected LED light,
showing how wind energy can be used to generate electrical power. The LED lights up as a result of the
mechanical energy from the motor being converted into electrical energy.
Windmill Model: The motor and propeller are also used to build a simple windmill model. This allows children
to visualize how windmills use wind energy to generate power. As the propeller spins, it powers the motor, and
the motor lights up the LED, mimicking the operation of a real windmill that generates electricity.
No Soldering or Glue: The kit is designed for easy assembly. No soldering, glue, or additional tools are
required, making it simple and safe for children to work with. All components fit together using plug-in
connectors.
Working
Solar Panel x 1
Toy Motor x 1
Fan/Propeller x 1
5mm LED (Red, Green, White/Blue, Yellow)
Connecting Wires
Plastic Base/Holder (for mounting components, optional depending on kit)
Components is Used
Solar Panel: The solar panel in the kit is designed to convert sunlight into electrical energy using photovoltaic
cells. When placed under direct sunlight or an artificial light source like a bulb or torch, the panel absorbs light
and generates DC (Direct Current) electricity.
LED Light: The generated electricity is used to power a connected LED light (available in different colors like
red, green, white/blue, and yellow). The LED will glow, indicating the successful conversion of solar energy to
electrical energy. In the absence of sunlight, you can use artificial light to simulate the effect.
Wind Energy Conversion:
Toy Motor and Propeller:
The kit includes a toy motor and a small propeller. When wind passes over the propeller (either from a fan or
manually created by spinning it), the motor shaft rotates.
LED Light: As the motor rotates, it generates electricity. This electricity powers the connected LED light,
showing how wind energy can be used to generate electrical power. The LED lights up as a result of the
mechanical energy from the motor being converted into electrical energy.
Windmill Model: The motor and propeller are also used to build a simple windmill model. This allows children
to visualize how windmills use wind energy to generate power. As the propeller spins, it powers the motor, and
the motor lights up the LED, mimicking the operation of a real windmill that generates electricity.
No Soldering or Glue: The kit is designed for easy assembly. No soldering, glue, or additional tools are
required, making it simple and safe for children to work with. All components fit together using plug-in
connectors.
Working
Solar Panel x 1
Toy Motor x 1
Fan/Propeller x 1
5mm LED (Red, Green, White/Blue, Yellow)
Connecting Wires
Plastic Base/Holder (for mounting components, optional depending on kit)
Components is Used
Hands-on learning of renewable energy concepts
Supports STEM education (Science, Technology, Engineering, and Mathematics)
Easy to assemble – no soldering or glue required
Promotes sustainability and environmental awareness
Suitable for school projects, hobby experiments, and classroom demonstrations
Sparks creativity through DIY windmill and solar plant building
Advantages
Requires sunlight or wind, limiting indoor use
Limited power output suitable only for basic experiments
May not be challenging enough for advanced learners
Fragile components that need careful handling
Lacks a storage battery for continuous use
No detailed guide for advanced or complex projects
Disadvantages
Applications
Educational projects for schools and classrooms
STEM learning for renewable energy and electronics concepts
DIY experiments for hobbyists and young learners
Electronics circuits and renewable energy-based projects
Basic automation and robotics experiments
Demonstrations of solar and wind energy conversion
Science fairs and student competitions
Buy Now
https://www.youtube.com/watch?
v=9SOq99mtpaw
https://smartxprokits.in/solar-power-wind-power-renewable-
energy-activity-kit-solar-energy-conversion-wind-mill-making-
kit-educational-learning-hobby-diy-experiment-kit-for-kids-
boys-girls-of-ages-5-yrs/
Supports STEM education (Science, Technology, Engineering, and Mathematics)
Easy to assemble – no soldering or glue required
Promotes sustainability and environmental awareness
Suitable for school projects, hobby experiments, and classroom demonstrations
Sparks creativity through DIY windmill and solar plant building
Advantages
Requires sunlight or wind, limiting indoor use
Limited power output suitable only for basic experiments
May not be challenging enough for advanced learners
Fragile components that need careful handling
Lacks a storage battery for continuous use
No detailed guide for advanced or complex projects
Disadvantages
Applications
Educational projects for schools and classrooms
STEM learning for renewable energy and electronics concepts
DIY experiments for hobbyists and young learners
Electronics circuits and renewable energy-based projects
Basic automation and robotics experiments
Demonstrations of solar and wind energy conversion
Science fairs and student competitions
Buy Now
https://www.youtube.com/watch?
v=9SOq99mtpaw
https://smartxprokits.in/solar-power-wind-power-renewable-
energy-activity-kit-solar-energy-conversion-wind-mill-making-
kit-educational-learning-hobby-diy-experiment-kit-for-kids-
boys-girls-of-ages-5-yrs/
A laser-based security system is a type of security alarm that uses a light sensor and laser light. In this tutorial,
we are going to demonstrate a circuit of a laser security alarm system that will detect any irregular activity and
will produce sound using a buzzer. One of the main components of this circuit is LDR. It will detect dark and
light laser beams and will change its resistance to send a signal to the buzzer.
Laser based Security System is a type of security and alarm system that uses laser light and a light sensor. A
security system protects our homes, offices, banks, lockers etc. from intrusion and unauthorised access. There
are different types of security systems available and laser based security system is an important and efficient
type.
A Laser security system can acts as a standalone system, which makes some sound or noise when it detects
any irregular activity, or can be part of a much bigger security and home automation system, which can send
messages, call the owner etc.
In this project, we have designed a simple DIY lased based security system, which acts as a tripwire like
security system and triggers an alarm when the laser in interrupted.
WARNING: We have used a laser pointer in this project. Direct exposure of laser light on eyes can be very
dangerous. Even though it is a low power laser, avoid direct eye exposure of laser.
Laser Security Alarm System
For Bank
Abstract
Buy Online “Laser Security Alarm System For Bank” Ready Kit, 100% Tested from below and get
fastest delivery in India
https://smartxprokits.in/laser-alarm-circuit-ldr-based-security-system-assembled-100-tested/
we are going to demonstrate a circuit of a laser security alarm system that will detect any irregular activity and
will produce sound using a buzzer. One of the main components of this circuit is LDR. It will detect dark and
light laser beams and will change its resistance to send a signal to the buzzer.
Laser based Security System is a type of security and alarm system that uses laser light and a light sensor. A
security system protects our homes, offices, banks, lockers etc. from intrusion and unauthorised access. There
are different types of security systems available and laser based security system is an important and efficient
type.
A Laser security system can acts as a standalone system, which makes some sound or noise when it detects
any irregular activity, or can be part of a much bigger security and home automation system, which can send
messages, call the owner etc.
In this project, we have designed a simple DIY lased based security system, which acts as a tripwire like
security system and triggers an alarm when the laser in interrupted.
WARNING: We have used a laser pointer in this project. Direct exposure of laser light on eyes can be very
dangerous. Even though it is a low power laser, avoid direct eye exposure of laser.
Laser Security Alarm System
For Bank
Abstract
Buy Online “Laser Security Alarm System For Bank” Ready Kit, 100% Tested from below and get
fastest delivery in India
https://smartxprokits.in/laser-alarm-circuit-ldr-based-security-system-assembled-100-tested/
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Complete working video can be seen from
https://www.youtube.com/watch?v=ieSPjzmjD9E
The design of the laser security system circuit is very simple. We will see the design of the circuit in this
section and in the working explanation we will see the working of the individual component.
Coming to the design of the circuit, first, the LDR and a 10 K Ω resistor are connected in a voltage divider
fashion and its output (common point) is connected to the pin 3 (non – inverting) of the Op- Amp IC LM358.
For the inverting terminal (pin 2), connect the wiper of a 10 KΩ potentiometer (other two terminal of the POT
are connected to VCC and GND).
The output of the Op – Amp (Pin 1) is connected to the base of the transistor (BC547) through a resistor.
The trigger pin of 555 (Pin 2) is pulled high using a 10 KΩ resistor.
The reset pin (pin 4) of the 555 is connected to VCC through a 10 KΩ resistor and a push button is connected
between Pin 4 of 555 and GND. A bypass capacitor of 100 nF is connected between pins 5 and GND. A
buzzer is connected to pin 3 of 555 IC.
Rest of the connection are shown in the circuit diagram.
Circuit Design
A simple, cheap and effective laser based security system is developed in this project. Let us see the working
of this project.
First, the Op – Amp circuit acts as a comparator i.e. it compares the voltages at the inverting and non –
inverting terminals and produces an output accordingly.
The LDR – 10 KΩ resistor Voltage divider is connected to the non – inverting terminal of Op –Amp and a POT
is connected to the inverting terminal.
Working of the Project
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Complete working video can be seen from
https://www.youtube.com/watch?v=ieSPjzmjD9E
The design of the laser security system circuit is very simple. We will see the design of the circuit in this
section and in the working explanation we will see the working of the individual component.
Coming to the design of the circuit, first, the LDR and a 10 K Ω resistor are connected in a voltage divider
fashion and its output (common point) is connected to the pin 3 (non – inverting) of the Op- Amp IC LM358.
For the inverting terminal (pin 2), connect the wiper of a 10 KΩ potentiometer (other two terminal of the POT
are connected to VCC and GND).
The output of the Op – Amp (Pin 1) is connected to the base of the transistor (BC547) through a resistor.
The trigger pin of 555 (Pin 2) is pulled high using a 10 KΩ resistor.
The reset pin (pin 4) of the 555 is connected to VCC through a 10 KΩ resistor and a push button is connected
between Pin 4 of 555 and GND. A bypass capacitor of 100 nF is connected between pins 5 and GND. A
buzzer is connected to pin 3 of 555 IC.
Rest of the connection are shown in the circuit diagram.
Circuit Design
A simple, cheap and effective laser based security system is developed in this project. Let us see the working
of this project.
First, the Op – Amp circuit acts as a comparator i.e. it compares the voltages at the inverting and non –
inverting terminals and produces an output accordingly.
The LDR – 10 KΩ resistor Voltage divider is connected to the non – inverting terminal of Op –Amp and a POT
is connected to the inverting terminal.
Working of the Project
Assume, the laser pointer is placed directly in line of sight to the LDR and the light from the laser is
continuously being incident on LDR.
In this situation, the resistance of LDR falls down to few Ohms (or tens of Ohms) and as a result, the voltage at
the non – inverting terminal will be less than that at the inverting voltage. The output of the Op –Amp is low and
the transistor is OFF.
If the laser light is blocked by an intruder from falling on the LDR (even for a small duration), the resistance of
the LDR goes to few hundreds of Ohms and as a result, the output of the Op –Amp will be HIGH. This will turn
on the Transistor.
As the output of the transistor is connected to the Trigger Pin (Pin 2) of the 555 Timer IC, if the transistor is
ON, the trigger pin gets a short low pulse and as a result, the output of the 555 becomes HIGH. This will
activate the alarm by turning ON the buzzer.
Since, the 555 Timer IC is configured as a Bi – Stable Multivibrator, a small active low trigger pulse at the
trigger pin will set its output to HIGH and in order to reset it we need to push the reset button.
LM358 (Op – Amp IC)
NE555 (Timer IC)
LDR
3 x 10 KΩ Resistors (1/4 Watt)
220 Ω Resistors (1/4 Watt)
10 KΩ Potentiometer
BC547 (NPN Transistor)
Small Buzzer
100 nF Capacitor (Ceramic Disc Type Capacitor – Code 104)
Push Button
Laser Pointer
9V Battery
Connecting Wires
Breadboard (Prototyping board)
Components is Used
The circuit, construction and setup for the Laser Security System is very simple.
If used with a battery, the laser security system can work even when there is a power outage.
Advantages
The laser security system works only if the laser is obstructed. If the intruder passes without obstructing
the laser, it is considered as a failure.
In order to secure a larger area, we need more lasers and corresponding sensors.
Disadvantages
continuously being incident on LDR.
In this situation, the resistance of LDR falls down to few Ohms (or tens of Ohms) and as a result, the voltage at
the non – inverting terminal will be less than that at the inverting voltage. The output of the Op –Amp is low and
the transistor is OFF.
If the laser light is blocked by an intruder from falling on the LDR (even for a small duration), the resistance of
the LDR goes to few hundreds of Ohms and as a result, the output of the Op –Amp will be HIGH. This will turn
on the Transistor.
As the output of the transistor is connected to the Trigger Pin (Pin 2) of the 555 Timer IC, if the transistor is
ON, the trigger pin gets a short low pulse and as a result, the output of the 555 becomes HIGH. This will
activate the alarm by turning ON the buzzer.
Since, the 555 Timer IC is configured as a Bi – Stable Multivibrator, a small active low trigger pulse at the
trigger pin will set its output to HIGH and in order to reset it we need to push the reset button.
LM358 (Op – Amp IC)
NE555 (Timer IC)
LDR
3 x 10 KΩ Resistors (1/4 Watt)
220 Ω Resistors (1/4 Watt)
10 KΩ Potentiometer
BC547 (NPN Transistor)
Small Buzzer
100 nF Capacitor (Ceramic Disc Type Capacitor – Code 104)
Push Button
Laser Pointer
9V Battery
Connecting Wires
Breadboard (Prototyping board)
Components is Used
The circuit, construction and setup for the Laser Security System is very simple.
If used with a battery, the laser security system can work even when there is a power outage.
Advantages
The laser security system works only if the laser is obstructed. If the intruder passes without obstructing
the laser, it is considered as a failure.
In order to secure a larger area, we need more lasers and corresponding sensors.
Disadvantages
Laser Security System can be used in safety lockers in our homes, where even if the locker’s code is
hacked, it acts as an additional layer of security.
Apart from security systems, this laser based setup can also be used to check if pets or babies crossed a
certain boundary.
Applications
Buy Now
https://www.youtube.com/watch?
v=ieSPjzmjD9E
https://smartxprokits.in/laser-alarm-circuit-ldr-based-security-
system-assembled-100-tested/
hacked, it acts as an additional layer of security.
Apart from security systems, this laser based setup can also be used to check if pets or babies crossed a
certain boundary.
Applications
Buy Now
https://www.youtube.com/watch?
v=ieSPjzmjD9E
https://smartxprokits.in/laser-alarm-circuit-ldr-based-security-
system-assembled-100-tested/
The Chandrayaan 3/Aditya 1 Space Shuttle Electronic School Project Kit Combo is an innovative
DIY kit designed for students and hobbyists engaged in electronics and robotics projects in India.
This kit provides essential components such as a rack and pinion, a 12V motor, DPDT switch, 9V
battery, LEDs, resistors, and the LVM3 structure, offering a comprehensive solution for creating a
realistic space shuttle model. Additionally, optional accessories like glue guns, soldering tools, and
wires can be added to enhance the project-building experience.
Widely applicable in educational environments, automation, and robotics, this kit ensures reliable
performance, even in India-specific conditions. With its easy-to-use components and high-quality
materials, it is ideal for STEM learning and school exhibitions. Available for online purchase, the
Chandrayaan 3/Aditya 1 Space Shuttle Electronic School Project Kit Combo is an excellent choice
for students looking to explore space-themed electronics and model-making.
Key applications include electronic circuit design, automation projects, and educational prototypes,
making this kit popular in both Indian and international markets.
Chandrayaan Project
Abstract
Buy Online “Chandrayaan” from below and get fastest delivery in India
https://smartxprokits.in/chandrayaankit/
DIY kit designed for students and hobbyists engaged in electronics and robotics projects in India.
This kit provides essential components such as a rack and pinion, a 12V motor, DPDT switch, 9V
battery, LEDs, resistors, and the LVM3 structure, offering a comprehensive solution for creating a
realistic space shuttle model. Additionally, optional accessories like glue guns, soldering tools, and
wires can be added to enhance the project-building experience.
Widely applicable in educational environments, automation, and robotics, this kit ensures reliable
performance, even in India-specific conditions. With its easy-to-use components and high-quality
materials, it is ideal for STEM learning and school exhibitions. Available for online purchase, the
Chandrayaan 3/Aditya 1 Space Shuttle Electronic School Project Kit Combo is an excellent choice
for students looking to explore space-themed electronics and model-making.
Key applications include electronic circuit design, automation projects, and educational prototypes,
making this kit popular in both Indian and international markets.
Chandrayaan Project
Abstract
Buy Online “Chandrayaan” from below and get fastest delivery in India
https://smartxprokits.in/chandrayaankit/
Complete working video can be seen from
https://youtu.be/AED5bn_4KP4?si=T-uUz7cmKx8lBMMg
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Application of the Circuit
The Chandrayaan 3/Aditya 1 Space Shuttle Electronic School Project Kit Combo circuit is designed for educational and
prototyping purposes. The circuit provides students and hobbyists with hands-on experience in electronics, automation, and
robotics. Below are the key applications of the circuit:
Space Shuttle Model Simulation1.
The circuit can be used to simulate the basic functions of a space shuttle, such as lighting effects using LEDs and
motorized movement through the 12V motor and rack & pinion mechanism.
Automation and Robotics Projects2.
With the inclusion of a DPDT switch and motor, the circuit can be utilized for simple robotic mechanisms, enhancing
students' understanding of motor control and switching operations.
Electronics Circuit Learning3.
The kit introduces students to fundamental electronic components like resistors, switches, LEDs, and DC motors,
making it a great tool for learning how circuits function.
STEM Education4.
Ideal for STEM-based learning, this kit provides a practical, hands-on experience that helps students understand
real-world applications of science, technology, engineering, and mathematics.
School Exhibitions and Competitions5.
The circuit can be part of a larger project for school exhibitions or science competitions, allowing students to present
a working model of a space shuttle with realistic mechanical and electronic functions.
Prototyping for Creative Projects6.
The flexible design of the circuit allows for its use in other creative projects, such as small-scale automation models,
DIY experiments, and science fair prototypes.
Part List
Glue gun1.
Glue sticks2.
Soldering gun3.
Soldering wire4.
Wires5.
https://youtu.be/AED5bn_4KP4?si=GXn0VtZ0ImlZu87r
https://smartxprokits.in/chandrayaankit/
Buy Now
https://youtu.be/AED5bn_4KP4?si=T-uUz7cmKx8lBMMg
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Application of the Circuit
The Chandrayaan 3/Aditya 1 Space Shuttle Electronic School Project Kit Combo circuit is designed for educational and
prototyping purposes. The circuit provides students and hobbyists with hands-on experience in electronics, automation, and
robotics. Below are the key applications of the circuit:
Space Shuttle Model Simulation1.
The circuit can be used to simulate the basic functions of a space shuttle, such as lighting effects using LEDs and
motorized movement through the 12V motor and rack & pinion mechanism.
Automation and Robotics Projects2.
With the inclusion of a DPDT switch and motor, the circuit can be utilized for simple robotic mechanisms, enhancing
students' understanding of motor control and switching operations.
Electronics Circuit Learning3.
The kit introduces students to fundamental electronic components like resistors, switches, LEDs, and DC motors,
making it a great tool for learning how circuits function.
STEM Education4.
Ideal for STEM-based learning, this kit provides a practical, hands-on experience that helps students understand
real-world applications of science, technology, engineering, and mathematics.
School Exhibitions and Competitions5.
The circuit can be part of a larger project for school exhibitions or science competitions, allowing students to present
a working model of a space shuttle with realistic mechanical and electronic functions.
Prototyping for Creative Projects6.
The flexible design of the circuit allows for its use in other creative projects, such as small-scale automation models,
DIY experiments, and science fair prototypes.
Part List
Glue gun1.
Glue sticks2.
Soldering gun3.
Soldering wire4.
Wires5.
https://youtu.be/AED5bn_4KP4?si=GXn0VtZ0ImlZu87r
https://smartxprokits.in/chandrayaankit/
Buy Now
Assume, the laser pointer is placed directly in line of sight to the LDR and the light from the laser is
continuously being incident on LDR.
In this situation, the resistance of LDR falls down to few Ohms (or tens of Ohms) and as a result, the voltage at
the non – inverting terminal will be less than that at the inverting voltage. The output of the Op –Amp is low and
the transistor is OFF.
If the laser light is blocked by an intruder from falling on the LDR (even for a small duration), the resistance of
the LDR goes to few hundreds of Ohms and as a result, the output of the Op –Amp will be HIGH. This will turn
on the Transistor.
As the output of the transistor is connected to the Trigger Pin (Pin 2) of the 555 Timer IC, if the transistor is
ON, the trigger pin gets a short low pulse and as a result, the output of the 555 becomes HIGH. This will
activate the alarm by turning ON the buzzer.
Since, the 555 Timer IC is configured as a Bi – Stable Multivibrator, a small active low trigger pulse at the
trigger pin will set its output to HIGH and in order to reset it we need to push the reset button.
LM358 (Op – Amp IC)
NE555 (Timer IC)
LDR
3 x 10 KΩ Resistors (1/4 Watt)
220 Ω Resistors (1/4 Watt)
10 KΩ Potentiometer
BC547 (NPN Transistor)
Small Buzzer
100 nF Capacitor (Ceramic Disc Type Capacitor – Code 104)
Push Button
Laser Pointer
9V Battery
Connecting Wires
Breadboard (Prototyping board)
Components is Used
The circuit, construction and setup for the Laser Security System is very simple.
If used with a battery, the laser security system can work even when there is a power outage.
Advantages
The laser security system works only if the laser is obstructed. If the intruder passes without obstructing
the laser, it is considered as a failure.
In order to secure a larger area, we need more lasers and corresponding sensors.
Disadvantages
continuously being incident on LDR.
In this situation, the resistance of LDR falls down to few Ohms (or tens of Ohms) and as a result, the voltage at
the non – inverting terminal will be less than that at the inverting voltage. The output of the Op –Amp is low and
the transistor is OFF.
If the laser light is blocked by an intruder from falling on the LDR (even for a small duration), the resistance of
the LDR goes to few hundreds of Ohms and as a result, the output of the Op –Amp will be HIGH. This will turn
on the Transistor.
As the output of the transistor is connected to the Trigger Pin (Pin 2) of the 555 Timer IC, if the transistor is
ON, the trigger pin gets a short low pulse and as a result, the output of the 555 becomes HIGH. This will
activate the alarm by turning ON the buzzer.
Since, the 555 Timer IC is configured as a Bi – Stable Multivibrator, a small active low trigger pulse at the
trigger pin will set its output to HIGH and in order to reset it we need to push the reset button.
LM358 (Op – Amp IC)
NE555 (Timer IC)
LDR
3 x 10 KΩ Resistors (1/4 Watt)
220 Ω Resistors (1/4 Watt)
10 KΩ Potentiometer
BC547 (NPN Transistor)
Small Buzzer
100 nF Capacitor (Ceramic Disc Type Capacitor – Code 104)
Push Button
Laser Pointer
9V Battery
Connecting Wires
Breadboard (Prototyping board)
Components is Used
The circuit, construction and setup for the Laser Security System is very simple.
If used with a battery, the laser security system can work even when there is a power outage.
Advantages
The laser security system works only if the laser is obstructed. If the intruder passes without obstructing
the laser, it is considered as a failure.
In order to secure a larger area, we need more lasers and corresponding sensors.
Disadvantages
Laser Security System can be used in safety lockers in our homes, where even if the locker’s code is
hacked, it acts as an additional layer of security.
Apart from security systems, this laser based setup can also be used to check if pets or babies crossed a
certain boundary.
Applications
Buy Now
https://www.youtube.com/watch?v=ieSPjzmjD9E https://smartxprokits.in/laser-alarm-circuit-ldr-based-security-
system-assembled-100-tested/
hacked, it acts as an additional layer of security.
Apart from security systems, this laser based setup can also be used to check if pets or babies crossed a
certain boundary.
Applications
Buy Now
https://www.youtube.com/watch?v=ieSPjzmjD9E https://smartxprokits.in/laser-alarm-circuit-ldr-based-security-
system-assembled-100-tested/
In this project, we have designed Smoke Level Detector using MQ-135 Sensor for measuring the
level of smoke in the environment. Simply we have interfaced MQ-135 Gas Sensor module with
Relay and Buzzer. The Smoke sensor we used is the MQ-135 sensor. Smoke Detectors are very
useful in detecting smoke or fire in buildings, and so are the important safety parameters.
Smoke Detector Circuit which not only senses the smoke in the air but also reads and displays the
level of Smoke in the Air. This circuit triggers the Buzzer when Smoke level becomes higher than
the desirable limit, this threshold value can be changed in the Circuit according to the requirement.
Smoke Detection Alarm kit
Abstract
Buy Online “Smoke Detection Alarm Kit” Ready Kit, 100% Tested from below and get fastest
delivery in India
https://smartxprokits.in/smoke-detection-alarm-kit-assembled-100-tested/?
srsltid=AfmBOopHbQnj2bnUyycPNUNpKBkFcRC9La84naN5a2tpOz72vYg8x5Eq
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
MQ-135 Module sensor has lower conductivity in clean air. When the target combustible gas exists,
the sensor’s conductivity is higher along with the gas concentration rising. Convert change of
conductivity to correspond output signal of gas concentration. MQ135 gas sensor has high
sensitivity to Ammonia, Sulphide and Benzene steam, also sensitive to smoke and other harmful
gases. It is with low cost and suitable for different applications such as harmful gases/smoke
detection.
Introduction
level of smoke in the environment. Simply we have interfaced MQ-135 Gas Sensor module with
Relay and Buzzer. The Smoke sensor we used is the MQ-135 sensor. Smoke Detectors are very
useful in detecting smoke or fire in buildings, and so are the important safety parameters.
Smoke Detector Circuit which not only senses the smoke in the air but also reads and displays the
level of Smoke in the Air. This circuit triggers the Buzzer when Smoke level becomes higher than
the desirable limit, this threshold value can be changed in the Circuit according to the requirement.
Smoke Detection Alarm kit
Abstract
Buy Online “Smoke Detection Alarm Kit” Ready Kit, 100% Tested from below and get fastest
delivery in India
https://smartxprokits.in/smoke-detection-alarm-kit-assembled-100-tested/?
srsltid=AfmBOopHbQnj2bnUyycPNUNpKBkFcRC9La84naN5a2tpOz72vYg8x5Eq
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
MQ-135 Module sensor has lower conductivity in clean air. When the target combustible gas exists,
the sensor’s conductivity is higher along with the gas concentration rising. Convert change of
conductivity to correspond output signal of gas concentration. MQ135 gas sensor has high
sensitivity to Ammonia, Sulphide and Benzene steam, also sensitive to smoke and other harmful
gases. It is with low cost and suitable for different applications such as harmful gases/smoke
detection.
Introduction
MQ135 Smoke Sensor
Relay Module 5V
https://smartxprokits.in/product/mq135-gas-sensor-module/
USB Cable
https://smartxprokits.in/product/micro-usb-cable/
Buzzer 5V
https://smartxprokits.in/product/electromagnetic-buzzer-5v-pcb-mount/
Buy Now
Working
The MQ-135 smoke sensor consists of a tin dioxide (SnO2), a perspective layer inside aluminum oxide
microtubes (measuring electrodes) and a heating element inside a tubular casing. The end face of the sensor
is enclosed by a stainless steel net and the backside holds the connection terminals. Smoke is emitted from
the source by burning anything. With the smoke cascade on the tin dioxide sensing layer, the resistance
decreases. By using the external load resistance the resistance variation is converted into a suitable voltage
variation.
Circuit Diagram
Component Used
https://www.youtube.com/watch?
v=Dls35NnPdzw
https://smartxprokits.in/smoke-detection-alarm-kit-assembled-
100-tested/?
srsltid=AfmBOopHbQnj2bnUyycPNUNpKBkFcRC9La84naN5a
2tpOz72vYg8x5Eq
Relay Module 5V
https://smartxprokits.in/product/mq135-gas-sensor-module/
USB Cable
https://smartxprokits.in/product/micro-usb-cable/
Buzzer 5V
https://smartxprokits.in/product/electromagnetic-buzzer-5v-pcb-mount/
Buy Now
Working
The MQ-135 smoke sensor consists of a tin dioxide (SnO2), a perspective layer inside aluminum oxide
microtubes (measuring electrodes) and a heating element inside a tubular casing. The end face of the sensor
is enclosed by a stainless steel net and the backside holds the connection terminals. Smoke is emitted from
the source by burning anything. With the smoke cascade on the tin dioxide sensing layer, the resistance
decreases. By using the external load resistance the resistance variation is converted into a suitable voltage
variation.
Circuit Diagram
Component Used
https://www.youtube.com/watch?
v=Dls35NnPdzw
https://smartxprokits.in/smoke-detection-alarm-kit-assembled-
100-tested/?
srsltid=AfmBOopHbQnj2bnUyycPNUNpKBkFcRC9La84naN5a
2tpOz72vYg8x5Eq
In the present day’s alcohol-attributable accidents are increasing rapidly where the concern as
alcohol is a factor in many categories of injury. Every year it is reported about 2.3 million premature
deaths due to harmful consumption of alcohol . In this project we proposed an improved alcohol
detection for use in an automobile ignition locking system using MQ03.
A sensor is used for a specific volume of the breath sample, which is used to determine the alcohol
content. A Alcohol Sensor MQ3 is used to convert the output into a reading which represents the
breath alcohol content of the breath sample. This analysis is used as part of an overall automobile
ignition locking system which prohibits starting the car when the operator is intoxicating. The system
also requires rolling retests to ensure that the driver is still sober.
Alcohol Detection With
Engine Locking System
Abstract
Buy Online “Alcohol Detection With Engine Locking System” Ready Kit, 100% Tested from
below and get fastest delivery in India
https://smartxprokits.in/alcohol-detection-for-car-locking-system-diy-experiments-school-
science-stem-kit-assembled-100-tested/
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Complete working video can be seen from
https://www.youtube.com/watch?v=7YipcebQb5g
alcohol is a factor in many categories of injury. Every year it is reported about 2.3 million premature
deaths due to harmful consumption of alcohol . In this project we proposed an improved alcohol
detection for use in an automobile ignition locking system using MQ03.
A sensor is used for a specific volume of the breath sample, which is used to determine the alcohol
content. A Alcohol Sensor MQ3 is used to convert the output into a reading which represents the
breath alcohol content of the breath sample. This analysis is used as part of an overall automobile
ignition locking system which prohibits starting the car when the operator is intoxicating. The system
also requires rolling retests to ensure that the driver is still sober.
Alcohol Detection With
Engine Locking System
Abstract
Buy Online “Alcohol Detection With Engine Locking System” Ready Kit, 100% Tested from
below and get fastest delivery in India
https://smartxprokits.in/alcohol-detection-for-car-locking-system-diy-experiments-school-
science-stem-kit-assembled-100-tested/
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Complete working video can be seen from
https://www.youtube.com/watch?v=7YipcebQb5g
In this project we are Useing this simple circuit to detect the presence of Alcohol. This kind circuit is used by
Police officials to prevent drunk driving. It gives a beep when it detects the Alcohol vapour. MQ3 Alcohol
sensor is now readily available and you can make the device very easily. When the Sensor detects alcohol
vapour, it gives output voltage depending on the concentration of alcohol molecules in the air.
MQ3 sensor has six pins and pins 1, 2, and 3 can be shorted and connected to positive rail. Pin 5 goes to
ground. Pins 4 and 6 are shorted and used as output. Resistor R1 and Pot VR act as load for the sensor and
adjusts the sensitivity. Output voltage triggers T1 which drives the Buzzer and LED. MQ3 sensor works off 5
volts DC so regulator IC 7805 is used to give 5 volts.
Working
Buy Now
https://www.youtube.com/watch?
v=7YipcebQb5g
https://smartxprokits.in/alcohol-detection-for-car-locking-
system-diy-experiments-school-science-stem-kit-assembled-
100-tested/
Police officials to prevent drunk driving. It gives a beep when it detects the Alcohol vapour. MQ3 Alcohol
sensor is now readily available and you can make the device very easily. When the Sensor detects alcohol
vapour, it gives output voltage depending on the concentration of alcohol molecules in the air.
MQ3 sensor has six pins and pins 1, 2, and 3 can be shorted and connected to positive rail. Pin 5 goes to
ground. Pins 4 and 6 are shorted and used as output. Resistor R1 and Pot VR act as load for the sensor and
adjusts the sensitivity. Output voltage triggers T1 which drives the Buzzer and LED. MQ3 sensor works off 5
volts DC so regulator IC 7805 is used to give 5 volts.
Working
Buy Now
https://www.youtube.com/watch?
v=7YipcebQb5g
https://smartxprokits.in/alcohol-detection-for-car-locking-
system-diy-experiments-school-science-stem-kit-assembled-
100-tested/
Automatic Water dispenser using IR Pair circuit is presented here is based on the readily available
IR sensor, comparator IC LM393 and relay. The photo diode is used as the light intensity detector
while IC LM393 used as comparator. IR beam is continuously falling on photodiode. On interruption
the movement is detected. Hence, no IR beam falls on the photo diode. As a result photo diode stop
conducting and water pump starts. However, when IR beam falls on the photo diode, photo diode
starts conducting and water pump stays off.
Automatic Water Dispenser
Using IR Pair
Abstract
Buy Online “Automatic Water dispenser using IR Pair” Ready Kit, 100% Tested from below
and get fastest delivery in India
https://smartxprokits.in/product/automatic-water-dispenser-using-ir-pair-kit-assembled-100-tested/
Complete working video can be seen from
https://youtu.be/6v3oMG6lpY0
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
IR sensor, comparator IC LM393 and relay. The photo diode is used as the light intensity detector
while IC LM393 used as comparator. IR beam is continuously falling on photodiode. On interruption
the movement is detected. Hence, no IR beam falls on the photo diode. As a result photo diode stop
conducting and water pump starts. However, when IR beam falls on the photo diode, photo diode
starts conducting and water pump stays off.
Automatic Water Dispenser
Using IR Pair
Abstract
Buy Online “Automatic Water dispenser using IR Pair” Ready Kit, 100% Tested from below
and get fastest delivery in India
https://smartxprokits.in/product/automatic-water-dispenser-using-ir-pair-kit-assembled-100-tested/
Complete working video can be seen from
https://youtu.be/6v3oMG6lpY0
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Most of the IR based circuits available in market use one or another kind of IR sensor which increases the cost
and also require complicated circuitry around it. But this IR based circuit uses readily available IR sensor as IR
beam detector. The functioning of this Automatic Water dispenser using IR Pair is to detect interruption in IR
beam falling on photo diode and automatically activate the pump in absence of beam. Water pump
continuously indicating the absence of beam till beam falls on the photo diode.
Application of the Circuit
IR sensor used here as a beam detector. The variation in beam wanted can be easily done by interrupting IR
beam using hand palm. The circuit operates normally over a DC voltage of 5V which can be obtained by DC
supply cable.
Why this Particular Circuit
The basic idea behind the circuit operation is to turn ON pump in absence of IR beam. The photo diode is
needed for this purpose. Photo diode is photoelectric device as it converts light energy to electric energy. Here,
Automatic Water dispenser using IR Pair works as IR beam detector while photo diode working as light sensor
that pumps water. IC LM393 is used as comparator. Photo diode output is connected as input to comparator.
Pin no. 4 of LM393 is pulled towards ground. Relay is used as a switch. When relay is activated, normally
closed contact becomes open and normally open contact becomes closed. In normal condition, IR beam falls on
photo diode and water pump stays off. Now consider second scenario when IR beam is irrupted, the water
pumps in the absence of light.
Explained Working of Circuit
First of all read the given manual thoroughly and study the circuit given in the figure. Also have look at PCB and
components supplied along with the kit. Each component has to be soldered in its position on PCB.
Identification of resistors is done by color coding. The color band on each resistor corresponds to its exact
value.
There are different methods in which values are defined on capacitors. But usually values are specified
numerically on them.
Can you make out the whole working of circuit and are you able to identify each component separately as to
where each of them has to be placed?
If yes only then proceed further to actually mounting and soldering the parts.
Not ICs but their sockets are to be soldered on PCB. This is to make mounting and dismounting of ICs easy
while troubleshooting.
How to Build
and also require complicated circuitry around it. But this IR based circuit uses readily available IR sensor as IR
beam detector. The functioning of this Automatic Water dispenser using IR Pair is to detect interruption in IR
beam falling on photo diode and automatically activate the pump in absence of beam. Water pump
continuously indicating the absence of beam till beam falls on the photo diode.
Application of the Circuit
IR sensor used here as a beam detector. The variation in beam wanted can be easily done by interrupting IR
beam using hand palm. The circuit operates normally over a DC voltage of 5V which can be obtained by DC
supply cable.
Why this Particular Circuit
The basic idea behind the circuit operation is to turn ON pump in absence of IR beam. The photo diode is
needed for this purpose. Photo diode is photoelectric device as it converts light energy to electric energy. Here,
Automatic Water dispenser using IR Pair works as IR beam detector while photo diode working as light sensor
that pumps water. IC LM393 is used as comparator. Photo diode output is connected as input to comparator.
Pin no. 4 of LM393 is pulled towards ground. Relay is used as a switch. When relay is activated, normally
closed contact becomes open and normally open contact becomes closed. In normal condition, IR beam falls on
photo diode and water pump stays off. Now consider second scenario when IR beam is irrupted, the water
pumps in the absence of light.
Explained Working of Circuit
First of all read the given manual thoroughly and study the circuit given in the figure. Also have look at PCB and
components supplied along with the kit. Each component has to be soldered in its position on PCB.
Identification of resistors is done by color coding. The color band on each resistor corresponds to its exact
value.
There are different methods in which values are defined on capacitors. But usually values are specified
numerically on them.
Can you make out the whole working of circuit and are you able to identify each component separately as to
where each of them has to be placed?
If yes only then proceed further to actually mounting and soldering the parts.
Not ICs but their sockets are to be soldered on PCB. This is to make mounting and dismounting of ICs easy
while troubleshooting.
How to Build
Start from left most corner of PCB and solder the components one by one on their correct position on PCB.
Before soldering any component see that you have placed it at its right position and with correct polarity. Give
due attention to diodes and electrolytic capacitors as they are polarity dependent.
Do the soldering of other components in the same way while keeping in mind that components with long and
sensitive leads like capacitors and transistors are soldered last.
After assembling and soldering of components on PCB, connect external DC power source of 5V.
For testing purpose manually hold hand palm over IR sensor. Water pumps in this case.
Now set the desired intensity at which you want detection of light. This can be done by changing the resistive
value of R2 variable resistor.
Install the unit in room.
Testing the Kit
The only IC used here is LM393
It is dual differential comparator IC.
This 8 pin IC is popular and commonly used IC
ICs Used
Part List
Semiconductors
U1 – LM393
https://smartxprokits.in/product/lm393/
Base – 8 pin
https://smartxprokits.in/product/8-pin-dip-ic-socket-base-adaptor/
Resistors(all ¼ watt +/-5% carbon unless stated otherwise)
R2 – 10k Ohm(variable)
https://smartxprokits.in/product/10k-multiturn-potentiometer/
R3 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
Before soldering any component see that you have placed it at its right position and with correct polarity. Give
due attention to diodes and electrolytic capacitors as they are polarity dependent.
Do the soldering of other components in the same way while keeping in mind that components with long and
sensitive leads like capacitors and transistors are soldered last.
After assembling and soldering of components on PCB, connect external DC power source of 5V.
For testing purpose manually hold hand palm over IR sensor. Water pumps in this case.
Now set the desired intensity at which you want detection of light. This can be done by changing the resistive
value of R2 variable resistor.
Install the unit in room.
Testing the Kit
The only IC used here is LM393
It is dual differential comparator IC.
This 8 pin IC is popular and commonly used IC
ICs Used
Part List
Semiconductors
U1 – LM393
https://smartxprokits.in/product/lm393/
Base – 8 pin
https://smartxprokits.in/product/8-pin-dip-ic-socket-base-adaptor/
Resistors(all ¼ watt +/-5% carbon unless stated otherwise)
R2 – 10k Ohm(variable)
https://smartxprokits.in/product/10k-multiturn-potentiometer/
R3 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R4 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R5 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
R6 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
Capacitor C1 – 1uF
Miscellaneous
D4: – IR Sensor
https://smartxprokits.in/product/5mm-ir-led-infrared-led/
D3: – Photo diode
https://smartxprokits.in/product/photodiode/
D1: – Red LED
https://smartxprokits.in/product/3mm-red-led/
D2: – Green LED
https://smartxprokits.in/product/3mm-green-led/
5 V USB Cable
https://smartxprokits.in/product/micro-usb-cable/
PCB
Pump
https://smartxprokits.in/product/5v-dc-mini-submersible-water-pump/
Relay
https://smartxprokits.in/product/5v-10a-pcb-mount-relay-spdt/
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R5 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
R6 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
Capacitor C1 – 1uF
Miscellaneous
D4: – IR Sensor
https://smartxprokits.in/product/5mm-ir-led-infrared-led/
D3: – Photo diode
https://smartxprokits.in/product/photodiode/
D1: – Red LED
https://smartxprokits.in/product/3mm-red-led/
D2: – Green LED
https://smartxprokits.in/product/3mm-green-led/
5 V USB Cable
https://smartxprokits.in/product/micro-usb-cable/
PCB
Pump
https://smartxprokits.in/product/5v-dc-mini-submersible-water-pump/
Relay
https://smartxprokits.in/product/5v-10a-pcb-mount-relay-spdt/
Buy Now
https://youtu.be/6v3oMG6lpY0
https://smartxprokits.in/automatic-water-
dispenser-using-ir-pair-kit-assembled-100-
tested/
https://youtu.be/6v3oMG6lpY0
https://smartxprokits.in/automatic-water-
dispenser-using-ir-pair-kit-assembled-100-
tested/
Transformer Overheat Detection System circuit is presented here is based on the readily available
NTC, comparator IC LM393 and relay. The NTC is used as the temperature detector while IC
LM393 used as comparator. In the absence of heat, no rise in temperature of the temperature
sensor. As a result temperature sensor stop conducting and LED stays off. However, when
temperature rises of the temperature sensor NTC starts conducting and LED glows and buzzer
turns ON.
Transformer Overheat
Detection System
Abstract
Buy Online “Transformer Overheat detection” Ready Kit, 100% Tested from below and get
fastest delivery in India
https://smartxprokits.in/transformer-overheat-detection-ready-kit-assembled-100-tested/
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Complete working video can be seen from
https://youtu.be/pz2Lnq9nBis?si=9g4_5FW7nJ-Boz4N
NTC, comparator IC LM393 and relay. The NTC is used as the temperature detector while IC
LM393 used as comparator. In the absence of heat, no rise in temperature of the temperature
sensor. As a result temperature sensor stop conducting and LED stays off. However, when
temperature rises of the temperature sensor NTC starts conducting and LED glows and buzzer
turns ON.
Transformer Overheat
Detection System
Abstract
Buy Online “Transformer Overheat detection” Ready Kit, 100% Tested from below and get
fastest delivery in India
https://smartxprokits.in/transformer-overheat-detection-ready-kit-assembled-100-tested/
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Complete working video can be seen from
https://youtu.be/pz2Lnq9nBis?si=9g4_5FW7nJ-Boz4N
Most of the NTC based circuits available in market use one or another kind of NTC which increases the cost
and also require complicated circuitry around it. But this NTC based circuit uses readily available NTC as light
detector. The functioning of this Transformer Overheat Detection System circuit is to detect temperature and
automatically activate the LED and buzzer with increase in temperature. LED glows and buzzer sound
continuously indicating the increase in temperature of NTC.
Application of the Circuit
NTC used here as a temperature detector. The variation in temperature wanted can be easily done placing
solder gun near to NTC. The circuit operates normally over a DC voltage of 5V which can be obtained by DC
supply cable.
Why this Particular Circuit
The basic idea behind the circuit operation is to turn ON LED and buzzer when there is temperature rise. The
NTC is needed for this purpose. NTC is thermistor. It is heat sensitive resistor element of which resistor value
rapidly decreases with increase in temperature. Here, Transformer Overheat Detection System circuit works as
temperature detector while NTC working as temperature sensor that glows LED and turn ON the buzzer. IC
LM393 is used as comparator. NTC output is connected as input to comparator. Pin no. 4 of LM393 is pulled
towards ground. Relay is used as a switch. When relay is activated, normally closed contact becomes open and
normally open contact becomes closed. In normal condition, NTC temperature is low and LED and buzzer stays
off. Now consider second scenario when temperature rises, the LED glows and buzzer turns ON.
Explained Working of Circuit
First of all read the given manual thoroughly and study the circuit given in the figure. Also have look at PCB and
components supplied along with the kit. Each component has to be soldered in its position on PCB.
Identification of resistors is done by color coding. The color band on each resistor corresponds to its exact
value.
There are different methods in which values are defined on capacitors. But usually values are specified
numerically on them.
Can you make out the whole working of circuit and are you able to identify each component separately as to
where each of them has to be placed?
If yes only then proceed further to actually mounting and soldering the parts.
Not ICs but their sockets are to be soldered on PCB. This is to make mounting and dismounting of ICs easy
while troubleshooting.
How to Build
and also require complicated circuitry around it. But this NTC based circuit uses readily available NTC as light
detector. The functioning of this Transformer Overheat Detection System circuit is to detect temperature and
automatically activate the LED and buzzer with increase in temperature. LED glows and buzzer sound
continuously indicating the increase in temperature of NTC.
Application of the Circuit
NTC used here as a temperature detector. The variation in temperature wanted can be easily done placing
solder gun near to NTC. The circuit operates normally over a DC voltage of 5V which can be obtained by DC
supply cable.
Why this Particular Circuit
The basic idea behind the circuit operation is to turn ON LED and buzzer when there is temperature rise. The
NTC is needed for this purpose. NTC is thermistor. It is heat sensitive resistor element of which resistor value
rapidly decreases with increase in temperature. Here, Transformer Overheat Detection System circuit works as
temperature detector while NTC working as temperature sensor that glows LED and turn ON the buzzer. IC
LM393 is used as comparator. NTC output is connected as input to comparator. Pin no. 4 of LM393 is pulled
towards ground. Relay is used as a switch. When relay is activated, normally closed contact becomes open and
normally open contact becomes closed. In normal condition, NTC temperature is low and LED and buzzer stays
off. Now consider second scenario when temperature rises, the LED glows and buzzer turns ON.
Explained Working of Circuit
First of all read the given manual thoroughly and study the circuit given in the figure. Also have look at PCB and
components supplied along with the kit. Each component has to be soldered in its position on PCB.
Identification of resistors is done by color coding. The color band on each resistor corresponds to its exact
value.
There are different methods in which values are defined on capacitors. But usually values are specified
numerically on them.
Can you make out the whole working of circuit and are you able to identify each component separately as to
where each of them has to be placed?
If yes only then proceed further to actually mounting and soldering the parts.
Not ICs but their sockets are to be soldered on PCB. This is to make mounting and dismounting of ICs easy
while troubleshooting.
How to Build
Start from left most corner of PCB and solder the components one by one on their correct position on PCB.
Before soldering any component see that you have placed it at its right position and with correct polarity. Give
due attention to diodes and electrolytic capacitors as they are polarity dependent.
Do the soldering of other components in the same way while keeping in mind that components with long and
sensitive leads like capacitors and transistors are soldered last.
After assembling and soldering of components on PCB, connect external DC power source of 5V.
For testing purpose manually hold solder gun close to NTC. LED glows and buzzer sound in this case.
Now set the desired intensity at which you want detection of light. This can be done by changing the resistive
value of R2 variable resistor.
Install the unit at ceiling of room.
Testing the Kit
The only IC used here is LM393
It is dual differential comparator IC.
This 8 pin IC is popular and commonly used IC
ICs Used Here
Part List
Semiconductors
U1 – LM393
https://smartxprokits.in/product/lm393/
Base – 8 pin
https://smartxprokits.in/product/8-pin-dip-ic-socket-base-adaptor/
Resistors(all ¼ watt +/-5% carbon unless stated otherwise)
R2 – 10k Ohm(variable)
https://smartxprokits.in/product/10k-multiturn-potentiometer/
R3 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R4 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R5 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
R6 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
Before soldering any component see that you have placed it at its right position and with correct polarity. Give
due attention to diodes and electrolytic capacitors as they are polarity dependent.
Do the soldering of other components in the same way while keeping in mind that components with long and
sensitive leads like capacitors and transistors are soldered last.
After assembling and soldering of components on PCB, connect external DC power source of 5V.
For testing purpose manually hold solder gun close to NTC. LED glows and buzzer sound in this case.
Now set the desired intensity at which you want detection of light. This can be done by changing the resistive
value of R2 variable resistor.
Install the unit at ceiling of room.
Testing the Kit
The only IC used here is LM393
It is dual differential comparator IC.
This 8 pin IC is popular and commonly used IC
ICs Used Here
Part List
Semiconductors
U1 – LM393
https://smartxprokits.in/product/lm393/
Base – 8 pin
https://smartxprokits.in/product/8-pin-dip-ic-socket-base-adaptor/
Resistors(all ¼ watt +/-5% carbon unless stated otherwise)
R2 – 10k Ohm(variable)
https://smartxprokits.in/product/10k-multiturn-potentiometer/
R3 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R4 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R5 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
R6 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
Capacitor C1 – 1uF
Miscellaneous
D4: – NTC
https://smartxprokits.in/product/843/
D1: – Red LED
https://smartxprokits.in/product/3mm-red-led/
D2: – Green LED
https://smartxprokits.in/product/3mm-green-led/
5 V USB Cable
https://smartxprokits.in/product/micro-usb-cable/
PCB
Buzzer
https://smartxprokits.in/product/electromagnetic-buzzer-5v-pcb-mount/
Relay
https://smartxprokits.in/product/5v-10a-pcb-mount-relay-spdt/
Buy Now
https://youtu.be/pz2Lnq9nBis?
si=gGClC1cizSKJIi8G
https://smartxprokits.in/transformer-overheat-
detection-ready-kit-assembled-100-tested/
Miscellaneous
D4: – NTC
https://smartxprokits.in/product/843/
D1: – Red LED
https://smartxprokits.in/product/3mm-red-led/
D2: – Green LED
https://smartxprokits.in/product/3mm-green-led/
5 V USB Cable
https://smartxprokits.in/product/micro-usb-cable/
PCB
Buzzer
https://smartxprokits.in/product/electromagnetic-buzzer-5v-pcb-mount/
Relay
https://smartxprokits.in/product/5v-10a-pcb-mount-relay-spdt/
Buy Now
https://youtu.be/pz2Lnq9nBis?
si=gGClC1cizSKJIi8G
https://smartxprokits.in/transformer-overheat-
detection-ready-kit-assembled-100-tested/
Automatic Irrigation System circuit is presented here is based on the readily available moisture
sensor, comparator IC LM393 and relay. The moisture sensor is used as soil moisture detector
while IC LM393 used as comparator. In the absence of water, no moisture sense in the soil. As a
result moisture sensor start conducting and turn ON the water pump. However, when there is a
moisture present in the soil the moisture sensor detect moisture and water pump stays off.
Automatic Irrigation System
for Farmer
Abstract
Buy Online “Automatic Irrigation System for Farmer” Ready Kit, 100% Tested from below and
get fastest delivery in India
https://smartxprokits.in/automatic-irrigation-system-kit-assembled-100-tested/
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Complete working video can be seen from
https://www.youtube.com/watch?v=FTUc5eaMeLs
sensor, comparator IC LM393 and relay. The moisture sensor is used as soil moisture detector
while IC LM393 used as comparator. In the absence of water, no moisture sense in the soil. As a
result moisture sensor start conducting and turn ON the water pump. However, when there is a
moisture present in the soil the moisture sensor detect moisture and water pump stays off.
Automatic Irrigation System
for Farmer
Abstract
Buy Online “Automatic Irrigation System for Farmer” Ready Kit, 100% Tested from below and
get fastest delivery in India
https://smartxprokits.in/automatic-irrigation-system-kit-assembled-100-tested/
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Complete working video can be seen from
https://www.youtube.com/watch?v=FTUc5eaMeLs
Most of the moisture sensor based circuits available in market use one or another kind of soil moisture
detector probe which increases the cost and also require complicated circuitry around it. But this moisture
sensor based circuit uses readily available soil moisture detector probe as moisture detector. The functioning
of this Automatic Irrigation System circuit is to detect moisture in soil and automatically activate the water
pump in absence of moisture. Water pump is ON continuously indicating the absence of moisture till it detects
moisture on moisture sensor.
Application of the Circuit
Soil moisture detector probe used here as a moisture detector. The variation in moisture wanted can be easily
done by introducing water. The circuit operates normally over a DC voltage of 5V which can be obtained by
DC supply cable.
Why this Particular Circuit
The basic idea behind the circuit operation is to turn ON water pump in absence of moisture. The soil moisture
detector probe is needed for this purpose. Soil moisture detector probe is a device that converts soil moisture to
electric energy. Here, Automatic Irrigation System circuit works as moisture detector while soil moisture detector
probe working as moisture sensor that turns ON water pump. IC LM393 is used as comparator. Soil moisture
detector probe output is connected as input to comparator. Pin no. 4 of LM393 is pulled towards ground. Relay
is used as a switch. When relay is activated, normally closed contact becomes open and normally open contact
becomes closed. In normal condition, there is moisture in the soil and water pump stays off. Now consider
second scenario when there is no moisture in the soil, the water pump turns ON.
Explained Working of Circuit
First of all read the given manual thoroughly and study the circuit given in the figure. Also have look at PCB and
components supplied along with the kit. Each component has to be soldered in its position on PCB.
Identification of resistors is done by color coding. The color band on each resistor corresponds to its exact
value.
There are different methods in which values are defined on capacitors. But usually values are specified
numerically on them.
Can you make out the whole working of circuit and are you able to identify each component separately as to
where each of them has to be placed?
If yes only then proceed further to actually mounting and soldering the parts.
Not ICs but their sockets are to be soldered on PCB. This is to make mounting and dismounting of ICs easy
while troubleshooting.
How to Build
detector probe which increases the cost and also require complicated circuitry around it. But this moisture
sensor based circuit uses readily available soil moisture detector probe as moisture detector. The functioning
of this Automatic Irrigation System circuit is to detect moisture in soil and automatically activate the water
pump in absence of moisture. Water pump is ON continuously indicating the absence of moisture till it detects
moisture on moisture sensor.
Application of the Circuit
Soil moisture detector probe used here as a moisture detector. The variation in moisture wanted can be easily
done by introducing water. The circuit operates normally over a DC voltage of 5V which can be obtained by
DC supply cable.
Why this Particular Circuit
The basic idea behind the circuit operation is to turn ON water pump in absence of moisture. The soil moisture
detector probe is needed for this purpose. Soil moisture detector probe is a device that converts soil moisture to
electric energy. Here, Automatic Irrigation System circuit works as moisture detector while soil moisture detector
probe working as moisture sensor that turns ON water pump. IC LM393 is used as comparator. Soil moisture
detector probe output is connected as input to comparator. Pin no. 4 of LM393 is pulled towards ground. Relay
is used as a switch. When relay is activated, normally closed contact becomes open and normally open contact
becomes closed. In normal condition, there is moisture in the soil and water pump stays off. Now consider
second scenario when there is no moisture in the soil, the water pump turns ON.
Explained Working of Circuit
First of all read the given manual thoroughly and study the circuit given in the figure. Also have look at PCB and
components supplied along with the kit. Each component has to be soldered in its position on PCB.
Identification of resistors is done by color coding. The color band on each resistor corresponds to its exact
value.
There are different methods in which values are defined on capacitors. But usually values are specified
numerically on them.
Can you make out the whole working of circuit and are you able to identify each component separately as to
where each of them has to be placed?
If yes only then proceed further to actually mounting and soldering the parts.
Not ICs but their sockets are to be soldered on PCB. This is to make mounting and dismounting of ICs easy
while troubleshooting.
How to Build
Start from left most corner of PCB and solder the components one by one on their correct position on PCB.
Before soldering any component see that you have placed it at its right position and with correct polarity. Give
due attention to diodes and electrolytic capacitors as they are polarity dependent.
Do the soldering of other components in the same way while keeping in mind that components with long and
sensitive leads like capacitors and transistors are soldered last.
After assembling and soldering of components on PCB, connect external DC power source of 5V.
For testing purpose manually induce water in the soil. Pump turns on in absence of water.
Now set the desired intensity at which you want detection of light. This can be done by changing the resistive
value of R2 variable resistor.
Install the unit in soil.
Testing the Kit
The only IC used here is LM393
It is dual differential comparator IC.
This 8 pin IC is popular and commonly used IC
ICs Used Here
Part List
Semiconductors
U1 – LM393
https://smartxprokits.in/product/lm393/
Base – 8 pin
https://smartxprokits.in/product/8-pin-dip-ic-socket-base-adaptor/
Resistors(all ¼ watt +/-5% carbon unless stated otherwise)
R2 – 10k Ohm(variable)
https://smartxprokits.in/product/10k-multiturn-potentiometer/
R3 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R4 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R5 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
R6 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
Before soldering any component see that you have placed it at its right position and with correct polarity. Give
due attention to diodes and electrolytic capacitors as they are polarity dependent.
Do the soldering of other components in the same way while keeping in mind that components with long and
sensitive leads like capacitors and transistors are soldered last.
After assembling and soldering of components on PCB, connect external DC power source of 5V.
For testing purpose manually induce water in the soil. Pump turns on in absence of water.
Now set the desired intensity at which you want detection of light. This can be done by changing the resistive
value of R2 variable resistor.
Install the unit in soil.
Testing the Kit
The only IC used here is LM393
It is dual differential comparator IC.
This 8 pin IC is popular and commonly used IC
ICs Used Here
Part List
Semiconductors
U1 – LM393
https://smartxprokits.in/product/lm393/
Base – 8 pin
https://smartxprokits.in/product/8-pin-dip-ic-socket-base-adaptor/
Resistors(all ¼ watt +/-5% carbon unless stated otherwise)
R2 – 10k Ohm(variable)
https://smartxprokits.in/product/10k-multiturn-potentiometer/
R3 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R4 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R5 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
R6 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
Capacitor C1 – 1uF
Miscellaneous
D4: – Moisture Sensor
D1: – Red LED
https://smartxprokits.in/product/3mm-red-led/
D2: – Green LED
https://smartxprokits.in/product/3mm-green-led/
5 V USB Cable
https://smartxprokits.in/product/micro-usb-cable/
PCB
Pump
https://smartxprokits.in/product/5v-dc-mini-submersible-water-pump/
Relay
https://smartxprokits.in/product/5v-10a-pcb-mount-relay-spdt/
Buy Now
https://www.youtube.com/watch?v=FTUc5eaMeLs
https://smartxprokits.in/automatic-irrigation-
system-kit-assembled-100-tested/
Miscellaneous
D4: – Moisture Sensor
D1: – Red LED
https://smartxprokits.in/product/3mm-red-led/
D2: – Green LED
https://smartxprokits.in/product/3mm-green-led/
5 V USB Cable
https://smartxprokits.in/product/micro-usb-cable/
PCB
Pump
https://smartxprokits.in/product/5v-dc-mini-submersible-water-pump/
Relay
https://smartxprokits.in/product/5v-10a-pcb-mount-relay-spdt/
Buy Now
https://www.youtube.com/watch?v=FTUc5eaMeLs
https://smartxprokits.in/automatic-irrigation-
system-kit-assembled-100-tested/
Water Level Indicator circuit is presented here is based on the readily available moisture sensor,
comparator IC LM393 and relay. The moisture sensor is used as moisture detector while IC LM393
used as comparator. In the absence of water, no moisture is sensed. As a result moisture sensor
start conducting and turn ON the LED. However, when there is a moisture present the moisture
sensor detect moisture and LED stays off.
Water Level Indicator
Abstract
Buy Online “Water level indicator” Ready Kit, 100% Tested from below and get fastest
delivery in India
https://smartxprokits.in/water-level-indicator-kit-assembled-100-tested/
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Complete working video can be seen from
https://youtu.be/AZ47vPnpZg8
comparator IC LM393 and relay. The moisture sensor is used as moisture detector while IC LM393
used as comparator. In the absence of water, no moisture is sensed. As a result moisture sensor
start conducting and turn ON the LED. However, when there is a moisture present the moisture
sensor detect moisture and LED stays off.
Water Level Indicator
Abstract
Buy Online “Water level indicator” Ready Kit, 100% Tested from below and get fastest
delivery in India
https://smartxprokits.in/water-level-indicator-kit-assembled-100-tested/
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Complete working video can be seen from
https://youtu.be/AZ47vPnpZg8
Most of the moisture sensor based circuits available in market use one or another kind of moisture detector
probe which increases the cost and also require complicated circuitry around it. But this moisture sensor based
circuit uses readily available moisture detector probe as moisture detector. The functioning of this Water Level
Indicator circuit is to detect the moisture and automatically activate the LED in absence of moisture. Water
pump is ON continuously indicating the absence of moisture till it detects moisture on moisture sensor.
Application of the Circuit
Moisture detector probe used here as a moisture detector. The variation in moisture wanted can be easily
done by introducing water. The circuit operates normally over a DC voltage of 5V which can be obtained by
DC supply cable.
Why this Particular Circuit
The basic idea behind the circuit operation is to turn ON LED in absence of moisture. The moisture detector
probe is needed for this purpose. Moisture detector probe is a device that converts moisture to electric energy.
Here, Water Level Indicator circuit works as moisture detector while moisture detector probe working as
moisture sensor that turns ON LED. IC LM393 is used as comparator. Moisture detector probe output is
connected as input to comparator. Pin no. 4 of LM393 is pulled towards ground. Relay is used as a switch.
When relay is activated, normally closed contact becomes open and normally open contact becomes closed. In
normal condition, there is moisture and LED stays off. Now consider second scenario when there is no moisture,
the LED turns ON.
Explained Working of Circuit
First of all read the given manual thoroughly and study the circuit given in the figure. Also have look at PCB and
components supplied along with the kit. Each component has to be soldered in its position on PCB.
Identification of resistors is done by color coding. The color band on each resistor corresponds to its exact
value.
There are different methods in which values are defined on capacitors. But usually values are specified
numerically on them.
Can you make out the whole working of circuit and are you able to identify each component separately as to
where each of them has to be placed?
If yes only then proceed further to actually mounting and soldering the parts.
Not ICs but their sockets are to be soldered on PCB. This is to make mounting and dismounting of ICs easy
while troubleshooting.
How to Build
probe which increases the cost and also require complicated circuitry around it. But this moisture sensor based
circuit uses readily available moisture detector probe as moisture detector. The functioning of this Water Level
Indicator circuit is to detect the moisture and automatically activate the LED in absence of moisture. Water
pump is ON continuously indicating the absence of moisture till it detects moisture on moisture sensor.
Application of the Circuit
Moisture detector probe used here as a moisture detector. The variation in moisture wanted can be easily
done by introducing water. The circuit operates normally over a DC voltage of 5V which can be obtained by
DC supply cable.
Why this Particular Circuit
The basic idea behind the circuit operation is to turn ON LED in absence of moisture. The moisture detector
probe is needed for this purpose. Moisture detector probe is a device that converts moisture to electric energy.
Here, Water Level Indicator circuit works as moisture detector while moisture detector probe working as
moisture sensor that turns ON LED. IC LM393 is used as comparator. Moisture detector probe output is
connected as input to comparator. Pin no. 4 of LM393 is pulled towards ground. Relay is used as a switch.
When relay is activated, normally closed contact becomes open and normally open contact becomes closed. In
normal condition, there is moisture and LED stays off. Now consider second scenario when there is no moisture,
the LED turns ON.
Explained Working of Circuit
First of all read the given manual thoroughly and study the circuit given in the figure. Also have look at PCB and
components supplied along with the kit. Each component has to be soldered in its position on PCB.
Identification of resistors is done by color coding. The color band on each resistor corresponds to its exact
value.
There are different methods in which values are defined on capacitors. But usually values are specified
numerically on them.
Can you make out the whole working of circuit and are you able to identify each component separately as to
where each of them has to be placed?
If yes only then proceed further to actually mounting and soldering the parts.
Not ICs but their sockets are to be soldered on PCB. This is to make mounting and dismounting of ICs easy
while troubleshooting.
How to Build
Start from left most corner of PCB and solder the components one by one on their correct position on PCB.
Before soldering any component see that you have placed it at its right position and with correct polarity. Give
due attention to diodes and electrolytic capacitors as they are polarity dependent.
Do the soldering of other components in the same way while keeping in mind that components with long and
sensitive leads like capacitors and transistors are soldered last.
After assembling and soldering of components on PCB, connect external DC power source of 5V.
For testing purpose manually water is induced. LED turns on in absence of water.
Now set the desired intensity at which you want detection of light. This can be done by changing the resistive
value of R2 variable resistor.
Install the unit in tank.
Testing the Kit
The only IC used here is LM393
It is dual differential comparator IC.
This 8 pin IC is popular and commonly used IC
ICs Used Here
Part List
Semiconductors
U1 – LM393
https://smartxprokits.in/product/lm393/
Base – 8 pin
https://smartxprokits.in/product/8-pin-dip-ic-socket-base-adaptor/
Resistors(all ¼ watt +/-5% carbon unless stated otherwise)
R2 – 10k Ohm(variable)
https://smartxprokits.in/product/10k-multiturn-potentiometer/
R3 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R4 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R5 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
R6 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
Before soldering any component see that you have placed it at its right position and with correct polarity. Give
due attention to diodes and electrolytic capacitors as they are polarity dependent.
Do the soldering of other components in the same way while keeping in mind that components with long and
sensitive leads like capacitors and transistors are soldered last.
After assembling and soldering of components on PCB, connect external DC power source of 5V.
For testing purpose manually water is induced. LED turns on in absence of water.
Now set the desired intensity at which you want detection of light. This can be done by changing the resistive
value of R2 variable resistor.
Install the unit in tank.
Testing the Kit
The only IC used here is LM393
It is dual differential comparator IC.
This 8 pin IC is popular and commonly used IC
ICs Used Here
Part List
Semiconductors
U1 – LM393
https://smartxprokits.in/product/lm393/
Base – 8 pin
https://smartxprokits.in/product/8-pin-dip-ic-socket-base-adaptor/
Resistors(all ¼ watt +/-5% carbon unless stated otherwise)
R2 – 10k Ohm(variable)
https://smartxprokits.in/product/10k-multiturn-potentiometer/
R3 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R4 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R5 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
R6 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
5 V USB Cable
https://smartxprokits.in/product/micro-usb-cable/
PCB
LED
https://smartxprokits.in/product/5mm-white-led/
Relay
https://smartxprokits.in/product/5v-10a-pcb-mount-relay-spdt/
Capacitor C1 – 1uF
Miscellaneous
D4: – Moisture Sensor
D1: – Red LED
https://smartxprokits.in/product/3mm-red-led/
D2: – Green LED
https://smartxprokits.in/product/3mm-green-led/
Buy Now
https://youtu.be/AZ47vPnpZg8
https://smartxprokits.in/water-level-indicator-kit-
assembled-100-tested/
https://smartxprokits.in/product/micro-usb-cable/
PCB
LED
https://smartxprokits.in/product/5mm-white-led/
Relay
https://smartxprokits.in/product/5v-10a-pcb-mount-relay-spdt/
Capacitor C1 – 1uF
Miscellaneous
D4: – Moisture Sensor
D1: – Red LED
https://smartxprokits.in/product/3mm-red-led/
D2: – Green LED
https://smartxprokits.in/product/3mm-green-led/
Buy Now
https://youtu.be/AZ47vPnpZg8
https://smartxprokits.in/water-level-indicator-kit-
assembled-100-tested/
LED Lighting in
Aquarium Using LDR
Sensor
LED Lighting in Aquarium using LDR Sensor circuit is presented here is based on the readily
available LDR, comparator IC LM393 and relay. The LDR is used as the light intensity detector while
IC LM393 used as comparator. In the absence of light, no light falls on the photo sensor. As a result
photo sensor stop conducting and LED emergency light glows. However, when light falls on the
photo sensor photo sensor starts conducting and LED emergency light stays off.
LED Lighting in Aquarium
Using LDR Sensor
Abstract
Buy Online “LED Lighting in Aquarium using LDR Sensor” Ready Kit, 100% Tested from
below and get fastest delivery in India
https://smartxprokits.in/product/led-lighting-in-aquarium-using-ldr-sensor-ready-kit-assembled-100-
tested/
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Complete working video can be seen from
https://youtu.be/cAoZ8gnSqEw
Aquarium Using LDR
Sensor
LED Lighting in Aquarium using LDR Sensor circuit is presented here is based on the readily
available LDR, comparator IC LM393 and relay. The LDR is used as the light intensity detector while
IC LM393 used as comparator. In the absence of light, no light falls on the photo sensor. As a result
photo sensor stop conducting and LED emergency light glows. However, when light falls on the
photo sensor photo sensor starts conducting and LED emergency light stays off.
LED Lighting in Aquarium
Using LDR Sensor
Abstract
Buy Online “LED Lighting in Aquarium using LDR Sensor” Ready Kit, 100% Tested from
below and get fastest delivery in India
https://smartxprokits.in/product/led-lighting-in-aquarium-using-ldr-sensor-ready-kit-assembled-100-
tested/
Follow Us on Instagram
https://www.instagram.com/smartxprokits/igsh=MWd0YXVoMTF1b2FqdA%3D%3D
Complete working video can be seen from
https://youtu.be/cAoZ8gnSqEw
Most of the LDR based circuits available in market use one or another kind of LDR which increases the cost
and also require complicated circuitry around it. But this LDR based circuit uses readily available LDR as light
detector. The functioning of this LED Lighting in Aquarium using LDR Sensor circuit is to detect interruption in
light and automatically activate the LED emergency light in absence of light. LED emergency light glows
continuously indicating the absence of light till light falls on the LDR.
Application of the Circuit
LDR used here as a light detector. The variation in intensity of light wanted can be easily done by interrupting
light using hand palm. The circuit operates normally over a DC voltage of 5V which can be obtained by DC
supply cable.
Why this Particular Circuit
The basic idea behind the circuit operation is to turn ON LED emergency light in absence of light. The LDR is
needed for this purpose. LDR is photoelectric device as it converts light energy to electric energy. Here, LED
Lighting in Aquarium using LDR Sensor circuit works as light detector while LDR working as light sensor that
glows LED emergency light. IC LM393 is used as comparator. LDR output is connected as input to comparator.
Pin no. 4 of LM393 is pulled towards ground. Relay is used as a switch. When relay is activated, normally
closed contact becomes open and normally open contact becomes closed. In normal condition, light falls on
LDR and LED emergency light stays off. Now consider second scenario when light irrupts, the LED emergency
light glows in the absence of light.
Explained Working of Circuit
First of all read the given manual thoroughly and study the circuit given in the figure. Also have look at PCB and
components supplied along with the kit. Each component has to be soldered in its position on PCB.
Identification of resistors is done by color coding. The color band on each resistor corresponds to its exact
value.
There are different methods in which values are defined on capacitors. But usually values are specified
numerically on them.
Can you make out the whole working of circuit and are you able to identify each component separately as to
where each of them has to be placed?
If yes only then proceed further to actually mounting and soldering the parts.
Not ICs but their sockets are to be soldered on PCB. This is to make mounting and dismounting of ICs easy
while troubleshooting.
How to Build
and also require complicated circuitry around it. But this LDR based circuit uses readily available LDR as light
detector. The functioning of this LED Lighting in Aquarium using LDR Sensor circuit is to detect interruption in
light and automatically activate the LED emergency light in absence of light. LED emergency light glows
continuously indicating the absence of light till light falls on the LDR.
Application of the Circuit
LDR used here as a light detector. The variation in intensity of light wanted can be easily done by interrupting
light using hand palm. The circuit operates normally over a DC voltage of 5V which can be obtained by DC
supply cable.
Why this Particular Circuit
The basic idea behind the circuit operation is to turn ON LED emergency light in absence of light. The LDR is
needed for this purpose. LDR is photoelectric device as it converts light energy to electric energy. Here, LED
Lighting in Aquarium using LDR Sensor circuit works as light detector while LDR working as light sensor that
glows LED emergency light. IC LM393 is used as comparator. LDR output is connected as input to comparator.
Pin no. 4 of LM393 is pulled towards ground. Relay is used as a switch. When relay is activated, normally
closed contact becomes open and normally open contact becomes closed. In normal condition, light falls on
LDR and LED emergency light stays off. Now consider second scenario when light irrupts, the LED emergency
light glows in the absence of light.
Explained Working of Circuit
First of all read the given manual thoroughly and study the circuit given in the figure. Also have look at PCB and
components supplied along with the kit. Each component has to be soldered in its position on PCB.
Identification of resistors is done by color coding. The color band on each resistor corresponds to its exact
value.
There are different methods in which values are defined on capacitors. But usually values are specified
numerically on them.
Can you make out the whole working of circuit and are you able to identify each component separately as to
where each of them has to be placed?
If yes only then proceed further to actually mounting and soldering the parts.
Not ICs but their sockets are to be soldered on PCB. This is to make mounting and dismounting of ICs easy
while troubleshooting.
How to Build
Start from left most corner of PCB and solder the components one by one on their correct position on PCB.
Before soldering any component see that you have placed it at its right position and with correct polarity. Give
due attention to diodes and electrolytic capacitors as they are polarity dependent.
Do the soldering of other components in the same way while keeping in mind that components with long and
sensitive leads like capacitors and transistors are soldered last.
After assembling and soldering of components on PCB, connect external DC power source of 5V.
For testing purpose manually hold hand palm over LDR. LED glows in this case.
Now set the desired intensity at which you want detection of light. This can be done by changing the resistive
value of R2 variable resistor.
Install the unit at ceiling of room.
Testing the Kit
The only IC used here is LM393
It is dual differential comparator IC.
This 8 pin IC is popular and commonly used IC
ICs Used Here
Part List
Semiconductors
U1 – LM393
https://smartxprokits.in/product/lm393/
Base – 8 pin
https://smartxprokits.in/product/8-pin-dip-ic-socket-base-adaptor/
Resistors(all ¼ watt +/-5% carbon unless stated otherwise)
R2 – 10k Ohm(variable)
https://smartxprokits.in/product/10k-multiturn-potentiometer/
R3 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R4 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R5 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
R6 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
Before soldering any component see that you have placed it at its right position and with correct polarity. Give
due attention to diodes and electrolytic capacitors as they are polarity dependent.
Do the soldering of other components in the same way while keeping in mind that components with long and
sensitive leads like capacitors and transistors are soldered last.
After assembling and soldering of components on PCB, connect external DC power source of 5V.
For testing purpose manually hold hand palm over LDR. LED glows in this case.
Now set the desired intensity at which you want detection of light. This can be done by changing the resistive
value of R2 variable resistor.
Install the unit at ceiling of room.
Testing the Kit
The only IC used here is LM393
It is dual differential comparator IC.
This 8 pin IC is popular and commonly used IC
ICs Used Here
Part List
Semiconductors
U1 – LM393
https://smartxprokits.in/product/lm393/
Base – 8 pin
https://smartxprokits.in/product/8-pin-dip-ic-socket-base-adaptor/
Resistors(all ¼ watt +/-5% carbon unless stated otherwise)
R2 – 10k Ohm(variable)
https://smartxprokits.in/product/10k-multiturn-potentiometer/
R3 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R4 – 1k Ohm
https://smartxprokits.in/product/1k-resistor-1-4-watt/
R5 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
R6 – 10k Ohm
https://smartxprokits.in/product/10k-resistor-1-4-watt/
Buy Now
https://youtu.be/cAoZ8gnSqEw
https://smartxprokits.in/led-lighting-in-aquarium-
using-ldr-sensor-ready-kit-assembled-100-
tested/
5 V USB Cable
https://smartxprokits.in/product/micro-usb-cable/
PCB
LED
https://smartxprokits.in/product/5mm-white-led/
Relay
https://smartxprokits.in/product/5v-10a-pcb-mount-relay-spdt/
Capacitor C1 – 1uF
Miscellaneous
D4: – LDR
https://smartxprokits.in/product/843/
D1: – Red LED
https://smartxprokits.in/product/3mm-red-led/
D2: – Green LED
https://smartxprokits.in/product/3mm-green-led/
https://youtu.be/cAoZ8gnSqEw
https://smartxprokits.in/led-lighting-in-aquarium-
using-ldr-sensor-ready-kit-assembled-100-
tested/
5 V USB Cable
https://smartxprokits.in/product/micro-usb-cable/
PCB
LED
https://smartxprokits.in/product/5mm-white-led/
Relay
https://smartxprokits.in/product/5v-10a-pcb-mount-relay-spdt/
Capacitor C1 – 1uF
Miscellaneous
D4: – LDR
https://smartxprokits.in/product/843/
D1: – Red LED
https://smartxprokits.in/product/3mm-red-led/
D2: – Green LED
https://smartxprokits.in/product/3mm-green-led/
Download
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 55
- Slides 39
- Age 273 days
Related Slideshows
23
Earthquakes_Type of Faults_Science G8.pptx
OctabellFabila1
31 views
15
Quiz #1 Science 10 in the first quarter for jhs
HendrixAntonniAmante
30 views
9
Astronomy history from long ago till doday
ssuserbd9abe
29 views
9
Great history of astronomy from long ago till today
ssuserbd9abe
27 views
20
EARTHQUAKE-DRILL.powerpoint.............
chalobrido8
30 views
9
History of astronomy from old times to the present times
ssuserbd9abe
30 views