The world is changing with the a great speed and the speed is fastened with the help of the electronics and the technology created using the electronics.
Circuit components used in robotics include passive devices like resistors, capacitors, and inductors. Active devices include batteries, diodes, LEDs, photodiodes, and transistors. Semiconductor components act as switches to control electric current or voltage. Transistors can be used as amplifiers, switches, and regulators.
Electronics affects everyday life through various technologies and provides competitive advantages for businesses. Electronics is the study of how electric charge flows through materials and devices like semiconductors, resistors, inductors, and capacitors. All applications of electronics involve transmitting power and potentially information to impact daily life.
Sensors are devices that measure physical quantities and convert them into signals that can be read by observers or instruments. The document discusses several common sensors: infrared (IR) sensors, sound sensors, temperature sensors, and discusses their working principles and applications. It also provides details on using timers and integrated circuits like the 555 timer IC to process sensor output signals.
This document provides an overview of key electrical concepts including:
- Voltage is the potential difference measured in volts that causes current to flow. Current is the rate of flow of electric charge measured in amperes.
- Ohm's law defines the relationship between voltage, current, and resistance in a circuit. Power is defined as voltage multiplied by current and describes the rate of energy transfer.
- Common circuit components are described including resistors, capacitors, diodes, transistors, integrated circuits, and how they are connected using printed circuit boards. Direction of electron and conventional currents are also discussed.
Electronic device and circuit presentationKamrulHasan506
This presentation discusses the importance of electronic device knowledge in computer science education. It begins by introducing electronic devices like transistors and diodes that are used to control electrical currents for information processing and system control. It then explains how modern electronic devices like smartphones use semiconductors because they can be made to conduct electricity sometimes and not other times. The heart of electronic devices are semiconductors, which are made more conductive through doping. Semiconductors allow computers to perform calculations using many transistor switches on small silicon chips. Electronic devices are crucial to computer systems, memory, data storage, signaling, and digital technologies that power modern computing.
Electronics deals with electrical circuits involving active components like transistors and integrated circuits. Electronics is used widely in various applications including aerospace, medical, automobiles, utilities, commercial, agriculture, communication, industrial, residential, and military. It is used in instruments, machines, entertainment systems, and more. Electronics has influenced daily life and made tasks simpler through various electronic gadgets.
What is electronics?
Electronics is the science of how to control electric energy, which the electrons have a fundamental role.
This presentation gives a brief explanation about what is electronics and each of the part of the electronic components.
Introduction of electronics and communication Branch Pratyush Joshi
Electronics and communication engineering involves applying scientific principles to design, develop, fabricate, repair, and maintain electrical and electronic machines, instruments, and communication systems. Major subjects covered include electronic devices and circuits, digital electronics, analog and digital communication techniques, microwave engineering, microprocessors and controllers, signals and systems, VLSI, and antenna theory. The department has several laboratories covering areas like digital electronics, integrated circuit design, electronic circuits and devices, electronic communication, signal processing, electronics measurement, wireless communication, and antennas and microwave engineering. Students complete live projects. Career opportunities exist in fields like wireless communication, satellite communication, embedded systems, wireless sensor networks, biomedical electronics, fiber optics, robotics, radar, and remote sensing
Circuit components used in robotics include passive devices like resistors, capacitors, and inductors. Active devices include batteries, diodes, LEDs, photodiodes, and transistors. Semiconductor components act as switches to control electric current or voltage. Transistors can be used as amplifiers, switches, and regulators.
Electronics affects everyday life through various technologies and provides competitive advantages for businesses. Electronics is the study of how electric charge flows through materials and devices like semiconductors, resistors, inductors, and capacitors. All applications of electronics involve transmitting power and potentially information to impact daily life.
Sensors are devices that measure physical quantities and convert them into signals that can be read by observers or instruments. The document discusses several common sensors: infrared (IR) sensors, sound sensors, temperature sensors, and discusses their working principles and applications. It also provides details on using timers and integrated circuits like the 555 timer IC to process sensor output signals.
This document provides an overview of key electrical concepts including:
- Voltage is the potential difference measured in volts that causes current to flow. Current is the rate of flow of electric charge measured in amperes.
- Ohm's law defines the relationship between voltage, current, and resistance in a circuit. Power is defined as voltage multiplied by current and describes the rate of energy transfer.
- Common circuit components are described including resistors, capacitors, diodes, transistors, integrated circuits, and how they are connected using printed circuit boards. Direction of electron and conventional currents are also discussed.
Electronic device and circuit presentationKamrulHasan506
This presentation discusses the importance of electronic device knowledge in computer science education. It begins by introducing electronic devices like transistors and diodes that are used to control electrical currents for information processing and system control. It then explains how modern electronic devices like smartphones use semiconductors because they can be made to conduct electricity sometimes and not other times. The heart of electronic devices are semiconductors, which are made more conductive through doping. Semiconductors allow computers to perform calculations using many transistor switches on small silicon chips. Electronic devices are crucial to computer systems, memory, data storage, signaling, and digital technologies that power modern computing.
Electronics deals with electrical circuits involving active components like transistors and integrated circuits. Electronics is used widely in various applications including aerospace, medical, automobiles, utilities, commercial, agriculture, communication, industrial, residential, and military. It is used in instruments, machines, entertainment systems, and more. Electronics has influenced daily life and made tasks simpler through various electronic gadgets.
What is electronics?
Electronics is the science of how to control electric energy, which the electrons have a fundamental role.
This presentation gives a brief explanation about what is electronics and each of the part of the electronic components.
Introduction of electronics and communication Branch Pratyush Joshi
Electronics and communication engineering involves applying scientific principles to design, develop, fabricate, repair, and maintain electrical and electronic machines, instruments, and communication systems. Major subjects covered include electronic devices and circuits, digital electronics, analog and digital communication techniques, microwave engineering, microprocessors and controllers, signals and systems, VLSI, and antenna theory. The department has several laboratories covering areas like digital electronics, integrated circuit design, electronic circuits and devices, electronic communication, signal processing, electronics measurement, wireless communication, and antennas and microwave engineering. Students complete live projects. Career opportunities exist in fields like wireless communication, satellite communication, embedded systems, wireless sensor networks, biomedical electronics, fiber optics, robotics, radar, and remote sensing
The document discusses active and passive components in electronics. It defines passive components as circuit elements that receive and store energy in electric or magnetic fields, but cannot continuously deliver power. Passive components mentioned include capacitors, inductors, and transformers. Active components are defined as having gain or ability to control voltage/current, and include transistors and integrated circuits. The document provides examples of capacitors, inductors, and transformers as passive elements, and contrasts them with transistors as active elements.
Electronic components can be categorized as either active or passive. Passive components, such as resistors, capacitors, and inductors, cannot produce power gain or amplification and require no external power source. Active components, such as vacuum tubes, transistors, and thyristors, can produce electric energy, contribute power gain to a circuit, and require an external power source. Early electronic components included vacuum tubes, which dominated electronics until being largely replaced by solid state devices starting in the 1950s. Common electronic components include resistors, capacitors, inductors, diodes, transistors, and integrated circuits.
This document discusses the history and development of electronics from Thomas Edison's invention of the light bulb to modern integrated circuits and microprocessors. It outlines the benefits of electronics like time conservation and access to information, as well as drawbacks like processing time and bulky early gadgets. The document also examines current and future technologies including VLSI circuits, broadband communication, and advances in computing, and concludes that while electronics provide advantages, precautions must be taken regarding security, privacy, and environmental impact.
Latest Electrical Mini Projects For EEE Studentselprocus
Simple Mini Projects For EEE Can Be Implemented By Using Microcontroller And Different Technologies. We Hope That Our Innovative Projects For EEE Students Offer Immense Help And Make Them Select Suitable Projects For Their Project Work.
https://www.elprocus.com
Visit our page to get more ideas on Electrical Mini Projects developed by professionals.
Elprocus provides free verified electronic projects kits around the world with abstracts, circuit diagrams, and free electronic software. We provide guidance manual for Do It Yourself Kits (DIY) with the modules at best price along with free shipping.
The document discusses insulated gate bipolar transistors (IGBTs). It describes IGBTs as having MOSFET-like input characteristics and bipolar junction transistor-like output characteristics. The document summarizes IGBT structure, working principles, characteristics including transfer and switching characteristics, and methods of connecting IGBTs in series and parallel. It also discusses protection of IGBTs from overvoltage, overcurrent, high dv/dt, and overheating.
This document provides information about electronics components. It discusses that electronics uses controlled electron flow and its applications include communication, entertainment, industry, and medicine. The document separates components into active and passive. Passive components cannot amplify or process signals and include resistors, capacitors, and inductors. Active components can amplify or process signals and include transistors and logic gates. The document also discusses semiconductors like silicon and germanium, PN junctions, Zener diodes, and LEDs.
The document discusses the light dependent resistor (LDR), also known as a photoresistor. It describes how an LDR's resistance decreases with increasing light intensity due to the photoconductive effect. LDRs are made of semiconductor materials and can detect light levels and wavelengths. Their resistance ranges from megohms in the dark to kilohms in light. Common uses of LDRs include light sensors, audio compressors, and automatic street/emergency lights.
This document discusses motion sensing technology. It begins by defining a sensor and describing motion sensors, which detect movement. The main types of motion sensors are active sensors, which emit and detect signals, and passive sensors, which detect infrared radiation. Motion sensing has applications in security, lighting, and games. The document explores specific motion sensing technologies like infrared, ultrasonic, and microwave sensors. It also discusses the use of motion sensors in mobile devices and games like the Kinect. In conclusion, the document states that while important for gaming now, motion sensing will have more impact in non-gaming applications.
This presentation is for beginners of electronics. This will give you a brief about all the important basic building blocks of electronics and hence will be helpful in creating a good foundation.
Electronics deals with the flow of electrons in electrical circuits and components. The evolution of electronics occurred through three key developments: vacuum tubes, transistors, and integrated circuits. Transistors revolutionized electronics by making components smaller, lighter, and less expensive. The invention of the integrated circuit in 1958 marked the beginning of microelectronics and allowed large numbers of components to be placed on a single microchip. Electronics now impacts modern society in many areas including communication, entertainment, healthcare, transportation, and more. Emerging technologies include memristors, organic electronics, and electronic textiles.
This document outlines the syllabus and content for a basic electronics course. It discusses that the course grade will be based on midterm, final, and sessional marks. Sessional marks depend on behavior, participation, assignments, presentations, attendance, and quizzes. Contact information for the instructor is provided. Recommended reference materials are listed. An introduction to electronics and its role in daily life is given. The history of electronics from vacuum tubes to integrated circuits is summarized. Fundamental electronics components like resistors, capacitors, diodes, and transistors are defined. Band theory, intrinsic and extrinsic semiconductors, and PN junctions are explained conceptually. Students will have a homework assignment on electricity and magnetism
Electronics deals with electrical circuits involving active components like transistors and diodes. Vacuum tubes were early electronic components and drove technological advances in the early 20th century. By the 1950s, transistors replaced vacuum tubes and allowed for smaller, faster, and more reliable electronics. Key branches of electronics include digital, analog, microelectronics, and optoelectronics. Electronics is widely used today for entertainment, communication, defense applications, industrial control, medical devices, and instrumentation.
Introduction to electrical_engineering_from_roy_2009Jagabandhu Kar
The document provides an overview of the Electrical Engineering department at an unnamed university. It discusses the challenges facing the world that electrical engineers help address, such as transportation, energy, communication, and medicine. It then highlights some of the research areas and faculty within the EE department, including medical imaging, semiconductors, embedded systems, and power electronics. It concludes with the curriculum requirements for an undergraduate degree in electrical engineering.
It is a presentation for the Embedded System Basics. It will be very useful for the engineering students who need to know the basics of Embedded System.
The document provides an overview of power electronic devices. It begins by defining power electronic devices as semiconductor devices used to convert or control electric power. It then discusses the key features of power electronic devices, including that they must handle large power levels and typically operate in switching states. The document outlines the basic configuration of a power electronic system and classifications of devices. It provides details on uncontrolled diodes, half-controlled thyristors, and fully-controlled devices. It also discusses characteristics, specifications, applications and history.
Chapter 2: Fundamentals of Electric Circuitmurniatis
This document provides an overview of fundamental electrical engineering concepts including:
- Independent and dependent voltage/current sources and ideal sources that maintain constant voltage/current.
- Kirchhoff's laws for circuits - KVL states the net voltage around any closed loop is zero and KCL states the algebraic sum of currents at any node is zero.
- Series and parallel resistor circuits and how to calculate equivalent resistance and current/voltage in each component.
- Ohm's law relating voltage, current, and resistance and the power formula.
- Examples are provided to demonstrate applying concepts like nodal analysis, mesh analysis, and voltage divider rule to solve for values in circuits.
The document discusses the history and development of electronics from Thomas Edison's invention of the light bulb to modern integrated circuits and microprocessors. It then covers various applications of electronics in daily life and important topics in electronics like radio waves, transistors, and integrated circuits. Finally, it discusses future developments and opportunities in electronics.
An electrical measuring instrument called a multimeter can measure current, voltage, and resistance. It combines the functions of an ammeter, voltmeter, and ohmmeter. There are two main types: analog multimeters display measurements on a calibrated scale with a moving pointer, while digital multimeters numerically display readings on an LCD screen and are more accurate. To measure voltage with a multimeter, you set it to the proper voltage range and place the probes across the component, observing polarity for DC measurements. Current is measured by placing the multimeter in series with the circuit. Resistance is measured by connecting the probes to each side of the component after removing it from the circuit.
This document provides information on light emitting diodes (LEDs) and organic light emitting diodes (OLEDs). It defines LEDs and OLEDs, describes their basic structures and working principles. The key differences are that LEDs use inorganic semiconductors while OLEDs use organic thin films. The document lists advantages of each such as energy efficiency and flexibility for OLEDs. It also discusses applications in devices like phones, displays and lighting. In conclusion, it compares both technologies on factors like viewing angle, response time and temperature range.
How internet of things can help you live a better lifeCodiant
We live in a connected world which invites transformations on daily basis to society and to consumers. In this digital revolution, IoT plays a huge part. Check how it is changing your daily living world.
Electronic products not only add tons of waste to our landfills, but they also contain toxins that are dangerous to our health and the environment. When you understand how easy it is to recycle electronic devices and the benefits it brings to society, our health, and the environment, you can ensure that your old electronic devices do not end up in local landfills.
For More Detail visit these sites.
The document discusses active and passive components in electronics. It defines passive components as circuit elements that receive and store energy in electric or magnetic fields, but cannot continuously deliver power. Passive components mentioned include capacitors, inductors, and transformers. Active components are defined as having gain or ability to control voltage/current, and include transistors and integrated circuits. The document provides examples of capacitors, inductors, and transformers as passive elements, and contrasts them with transistors as active elements.
Electronic components can be categorized as either active or passive. Passive components, such as resistors, capacitors, and inductors, cannot produce power gain or amplification and require no external power source. Active components, such as vacuum tubes, transistors, and thyristors, can produce electric energy, contribute power gain to a circuit, and require an external power source. Early electronic components included vacuum tubes, which dominated electronics until being largely replaced by solid state devices starting in the 1950s. Common electronic components include resistors, capacitors, inductors, diodes, transistors, and integrated circuits.
This document discusses the history and development of electronics from Thomas Edison's invention of the light bulb to modern integrated circuits and microprocessors. It outlines the benefits of electronics like time conservation and access to information, as well as drawbacks like processing time and bulky early gadgets. The document also examines current and future technologies including VLSI circuits, broadband communication, and advances in computing, and concludes that while electronics provide advantages, precautions must be taken regarding security, privacy, and environmental impact.
Latest Electrical Mini Projects For EEE Studentselprocus
Simple Mini Projects For EEE Can Be Implemented By Using Microcontroller And Different Technologies. We Hope That Our Innovative Projects For EEE Students Offer Immense Help And Make Them Select Suitable Projects For Their Project Work.
https://www.elprocus.com
Visit our page to get more ideas on Electrical Mini Projects developed by professionals.
Elprocus provides free verified electronic projects kits around the world with abstracts, circuit diagrams, and free electronic software. We provide guidance manual for Do It Yourself Kits (DIY) with the modules at best price along with free shipping.
The document discusses insulated gate bipolar transistors (IGBTs). It describes IGBTs as having MOSFET-like input characteristics and bipolar junction transistor-like output characteristics. The document summarizes IGBT structure, working principles, characteristics including transfer and switching characteristics, and methods of connecting IGBTs in series and parallel. It also discusses protection of IGBTs from overvoltage, overcurrent, high dv/dt, and overheating.
This document provides information about electronics components. It discusses that electronics uses controlled electron flow and its applications include communication, entertainment, industry, and medicine. The document separates components into active and passive. Passive components cannot amplify or process signals and include resistors, capacitors, and inductors. Active components can amplify or process signals and include transistors and logic gates. The document also discusses semiconductors like silicon and germanium, PN junctions, Zener diodes, and LEDs.
The document discusses the light dependent resistor (LDR), also known as a photoresistor. It describes how an LDR's resistance decreases with increasing light intensity due to the photoconductive effect. LDRs are made of semiconductor materials and can detect light levels and wavelengths. Their resistance ranges from megohms in the dark to kilohms in light. Common uses of LDRs include light sensors, audio compressors, and automatic street/emergency lights.
This document discusses motion sensing technology. It begins by defining a sensor and describing motion sensors, which detect movement. The main types of motion sensors are active sensors, which emit and detect signals, and passive sensors, which detect infrared radiation. Motion sensing has applications in security, lighting, and games. The document explores specific motion sensing technologies like infrared, ultrasonic, and microwave sensors. It also discusses the use of motion sensors in mobile devices and games like the Kinect. In conclusion, the document states that while important for gaming now, motion sensing will have more impact in non-gaming applications.
This presentation is for beginners of electronics. This will give you a brief about all the important basic building blocks of electronics and hence will be helpful in creating a good foundation.
Electronics deals with the flow of electrons in electrical circuits and components. The evolution of electronics occurred through three key developments: vacuum tubes, transistors, and integrated circuits. Transistors revolutionized electronics by making components smaller, lighter, and less expensive. The invention of the integrated circuit in 1958 marked the beginning of microelectronics and allowed large numbers of components to be placed on a single microchip. Electronics now impacts modern society in many areas including communication, entertainment, healthcare, transportation, and more. Emerging technologies include memristors, organic electronics, and electronic textiles.
This document outlines the syllabus and content for a basic electronics course. It discusses that the course grade will be based on midterm, final, and sessional marks. Sessional marks depend on behavior, participation, assignments, presentations, attendance, and quizzes. Contact information for the instructor is provided. Recommended reference materials are listed. An introduction to electronics and its role in daily life is given. The history of electronics from vacuum tubes to integrated circuits is summarized. Fundamental electronics components like resistors, capacitors, diodes, and transistors are defined. Band theory, intrinsic and extrinsic semiconductors, and PN junctions are explained conceptually. Students will have a homework assignment on electricity and magnetism
Electronics deals with electrical circuits involving active components like transistors and diodes. Vacuum tubes were early electronic components and drove technological advances in the early 20th century. By the 1950s, transistors replaced vacuum tubes and allowed for smaller, faster, and more reliable electronics. Key branches of electronics include digital, analog, microelectronics, and optoelectronics. Electronics is widely used today for entertainment, communication, defense applications, industrial control, medical devices, and instrumentation.
Introduction to electrical_engineering_from_roy_2009Jagabandhu Kar
The document provides an overview of the Electrical Engineering department at an unnamed university. It discusses the challenges facing the world that electrical engineers help address, such as transportation, energy, communication, and medicine. It then highlights some of the research areas and faculty within the EE department, including medical imaging, semiconductors, embedded systems, and power electronics. It concludes with the curriculum requirements for an undergraduate degree in electrical engineering.
It is a presentation for the Embedded System Basics. It will be very useful for the engineering students who need to know the basics of Embedded System.
The document provides an overview of power electronic devices. It begins by defining power electronic devices as semiconductor devices used to convert or control electric power. It then discusses the key features of power electronic devices, including that they must handle large power levels and typically operate in switching states. The document outlines the basic configuration of a power electronic system and classifications of devices. It provides details on uncontrolled diodes, half-controlled thyristors, and fully-controlled devices. It also discusses characteristics, specifications, applications and history.
Chapter 2: Fundamentals of Electric Circuitmurniatis
This document provides an overview of fundamental electrical engineering concepts including:
- Independent and dependent voltage/current sources and ideal sources that maintain constant voltage/current.
- Kirchhoff's laws for circuits - KVL states the net voltage around any closed loop is zero and KCL states the algebraic sum of currents at any node is zero.
- Series and parallel resistor circuits and how to calculate equivalent resistance and current/voltage in each component.
- Ohm's law relating voltage, current, and resistance and the power formula.
- Examples are provided to demonstrate applying concepts like nodal analysis, mesh analysis, and voltage divider rule to solve for values in circuits.
The document discusses the history and development of electronics from Thomas Edison's invention of the light bulb to modern integrated circuits and microprocessors. It then covers various applications of electronics in daily life and important topics in electronics like radio waves, transistors, and integrated circuits. Finally, it discusses future developments and opportunities in electronics.
An electrical measuring instrument called a multimeter can measure current, voltage, and resistance. It combines the functions of an ammeter, voltmeter, and ohmmeter. There are two main types: analog multimeters display measurements on a calibrated scale with a moving pointer, while digital multimeters numerically display readings on an LCD screen and are more accurate. To measure voltage with a multimeter, you set it to the proper voltage range and place the probes across the component, observing polarity for DC measurements. Current is measured by placing the multimeter in series with the circuit. Resistance is measured by connecting the probes to each side of the component after removing it from the circuit.
This document provides information on light emitting diodes (LEDs) and organic light emitting diodes (OLEDs). It defines LEDs and OLEDs, describes their basic structures and working principles. The key differences are that LEDs use inorganic semiconductors while OLEDs use organic thin films. The document lists advantages of each such as energy efficiency and flexibility for OLEDs. It also discusses applications in devices like phones, displays and lighting. In conclusion, it compares both technologies on factors like viewing angle, response time and temperature range.
How internet of things can help you live a better lifeCodiant
We live in a connected world which invites transformations on daily basis to society and to consumers. In this digital revolution, IoT plays a huge part. Check how it is changing your daily living world.
Electronic products not only add tons of waste to our landfills, but they also contain toxins that are dangerous to our health and the environment. When you understand how easy it is to recycle electronic devices and the benefits it brings to society, our health, and the environment, you can ensure that your old electronic devices do not end up in local landfills.
For More Detail visit these sites.
R&M Developments Ltd - Smart partners we bring in houseThomas McKenna
The document discusses an intelligent living system called Wondrwall that automatically controls home functions like heating, lighting, security and safety through sensors and machine learning. It learns user behaviors to seamlessly support the living environment. Wondrwall uses mesh networking for reliable whole home coverage and monitors rooms for security. It intelligently saves energy by learning behaviors and turning things off when not needed. The system ensures thermal comfort and wakes users to the ideal temperature.
This document discusses e-waste, including its growth in India, types, effects on the environment and human health, and management. It notes that e-waste is the fastest growing waste stream and contains toxic chemicals. By 2025, India is estimated to dump over 1.8 million metric tons of e-waste, making it the third largest producer after China and the US. E-waste can pollute groundwater, soil and air if not handled properly, and dumping sites pose health hazards. The conclusion emphasizes raising awareness and the need for more environmentally friendly product design and disposal practices.
The document discusses smart homes and energy efficiency. It defines a smart home as a residence equipped with technology to promote comfort, convenience and security through home management. Key features of smart homes include automation, remote access/control, and low energy consumption. The document discusses various smart home appliances and how they can be energy efficient, such as induction cooktops and motion-sensing faucets. It also discusses using smart thermostats, lighting sensors, insulation, and floor rugs to save energy. The document advocates for renewable energy sources like solar panels and wind turbines in smart homes and provides an example of an energy efficient smart home design.
SMART HOME LIFE -ALLIVA- HOME AUTOMATIONPranav Sayta
SMART HOME LIFE -ALLIVA Home Automation launched in India at, most Affordable -based on ZIGBEE (2.4 GHZ) totally wireless Works with Android/iOS Applications works on WLAN also starts@ 40,000/- onwards
E-waste includes discarded electronic devices like phones, computers, TVs and their components as well as batteries and appliances. Improper disposal of e-waste pollutes water sources and air with toxic chemicals, and wastes valuable resources. Proper e-waste management practices include reuse, recycling, donation, and responsible disposal to reduce pollution, conserve resources, and provide economic and social benefits. However, challenges include lack of infrastructure in developing countries, illegal dumping, and limited public awareness of e-waste issues.
Se application notes_smarthomes_foodscanAnne Stiegler
APP NOTE AcalBFI / SpectralEngines : SMART HOMES - Spectral Engines’ award-winning Food Scan technology combines affordable material sensors and cloud computing. Future smart home appliance will tell about the food you consume.
Naman Shukla Class - IXth B Science Project.pptxNamanShukla63
This document discusses electronic waste (e-waste) and the need for proper e-waste management. It defines e-waste and lists its main sources. It explains that e-waste contains toxic chemicals that can pollute the environment and harm human health. The document outlines the current problems with e-waste management in India, the recycling processes used, and concludes by emphasizing the importance of proper e-waste management to minimize harm.
Green computing aims to reduce the environmental impact of computing through more efficient use of computing resources and proper disposal of e-waste. It involves designing electronics that use less hazardous materials and maximize energy efficiency during use and disposal. While green computing has benefits like energy savings and reduced pollution, implementing it fully requires extensive knowledge and maintenance efforts. Going forward, companies are increasingly adopting eco-friendly components to make sustainable practices the new norm in computer design and manufacturing.
NATIONAL GREEN CORPS, NATIONAL SERVICE SCHEME, CLIMATE EDUCATION AND ENERGY C...W G Kumar
A training module to introduce College Lecturers and School Teachers to the subject of Climate Education and Live Projects that they can do in their institution and elsewhere
This document provides an overview of smart buildings, including their key features and benefits. It discusses how smart buildings use automated technologies to provide security, safety, energy efficiency and environmental benefits. Specific smart building technologies covered include access control, surveillance systems, automatic lighting and HVAC controls, smart home appliances, and energy efficient windows. The document concludes that while initial costs may be higher, smart buildings provide significant long-term savings through reduced energy usage compared to conventional buildings.
Energy conservation refers to efforts to reduce energy consumption through more efficient use and decreased use of conventional energy sources. This can provide financial, environmental, and security benefits. At the household level, energy conservation includes proper use and maintenance of appliances like refrigerators and washing machines, efficient lighting, and passive solar building design. Responsibility for energy policy in the UK falls mainly to the Department of Energy and Climate Change, along with other departments. Energy conservation is important at various levels including household, community, industry, and transportation.
The document discusses the history and challenges of community heating systems and how advanced smart metering can help address these challenges. It notes that smart metering can provide accurate bills, convenient payment options, in-home usage monitoring, and data to optimize heating system performance. While technology is important, outstanding customer service also requires anticipating resident needs, good customer support, and obtaining resident feedback. The key takeaways are that smart meter rollout will provide cost transparency, residents should have payment options as part of the smart system, and communication technology should be used along with in-home tech to ensure good customer service.
WEB BASED REAL TIME CONTROL AND HOME AUTOMATION SYSTEMATHUL RAJ.R
This is the report of the project "WEB BASED REALTIME CONTROL AND HOME AUTOMATION SYSTEM". the PPT is available in the link " https://www.slideshare.net/ruathulraj/web-based-realtime-control-and-home-automation-system "
Sustainability involves minimizing environmental impact through actions that can continue indefinitely. It is about changing how we think about using resources like energy and water in our homes. The first step is understanding our current "footprint" by capturing information about our home and usage of energy and water. Only then can we make informed decisions about technologies and lifestyle changes to live more sustainably.
Project submission for the World Energy Day 2018 Student Energy Innovation Challenge. This project on estimation saves 40% daily energy consumption in an average homestead consumption. The project works on remote control basis where on installation the system automatically takes note of power consumption within ones homestead or industry,checks in for best and worst performance in terms of electric power consumption.
It makes use of modern technologies like IOT(Internet Of Things) and sensor actuators, and is real time thus reducing inefficiencies during power consumption monitoring and assessment.
Smart homes are becoming a reality and are making our lives so much easier. Tech Smart is a leading provider Smart Home Systems, AV Systems, Surveillance, Home Security and home automation.
Similar to Electronics Applications in Daily Life (20)
Building a Raspberry Pi Robot with Dot NET 8, Blazor and SignalRPeter Gallagher
In this session delivered at NDC Oslo 2024, I talk about how you can control a 3D printed Robot Arm with a Raspberry Pi, .NET 8, Blazor and SignalR.
I also show how you can use a Unity app on an Meta Quest 3 to control the arm VR too.
You can find the GitHub repo and workshop instructions here;
https://bit.ly/dotnetrobotgithub
The Indian government has been working over the past few years to include elements of ITS in the transport sector. This standard ensures the optimal operation of the current transport infrastructure. It also increases the efficiency, safety, comfort, and quality of the system. That is why the government created the AIS-140 standard. Compliance with this standard means all vehicles used for public transit must have panic buttons and vehicle tracking modules installed. Nevertheless, in future in the standard protocol of AIS-140 you can expect fare collection and CCTV capabilities.
Get more information here: https://blog.watsoo.com/2023/12/27/all-about-prithvi-ais-140-gps-vehicle-tracker/
Google Calendar is a versatile tool that allows users to manage their schedules and events effectively. With Google Calendar, you can create and organize calendars, set reminders for important events, and share your calendars with others. It also provides features like creating events, inviting attendees, and accessing your calendar from mobile devices. Additionally, Google Calendar allows you to embed calendars in websites or platforms like SlideShare, making it easier for others to view and interact with your schedules.
2. Electronics
Electronics have become an integral part of human
life. Electronics is used in every part and every
work done by the human being.In eating & cooking
food, in playing and monitoring health, in driving,
in watching and many other things you will find the
presence of electronics around you.
3. Applications of Electronics
• In Home:
The lighting systems in homes uses the electronics in it. The LED
home lighting systems are used a lot as it is much better than the
fluorescent lights and are also efficient in both power and cost .The
LED was developed using electronics and its various techniques.
4. Applications of Electronics
• In Cooking :
Induction Cookers ,solar cookers are used to cook food.The
induction cookers are just using the electronics for generating the
heat and cooking food. The induction cookers have on board touch
panels to set the temperature and various other parameters while
cooking.Chimneys are used to avoid the smoke created during
cooking.
5. Applications of Electronics
• In Health Monitoring :
The world is changing and so is the technology with it . Man is now
able to monitor his health just by wearing a small belt on his wrist or
by just through the smart phones .They display the full health report
that includes details regarding calories & fats.
6. Thanks to the electronics that
totally changed the human life
Thank You