For further details contact:
N.RAJASEKARAN B.E M.S 9841091117,9840103301.
IMPULSE TECHNOLOGIES,
old no 251, new no 304,
2nd floor,
arcot road ,
vadapalani ,
chennai-26.
An Intro to Power over Ethernet SystemsAlex Hartman
These explainer slides outline the basic features of a Power over Ethernet (PoE) device network and how they work together to save time and money while offering the enhanced benefits of connectivity.
This document describes three lighting control projects:
1. A streetlight tele-management system that controls lights over ZigBee and integrates a photocell and clock. It measures energy usage.
2. An autonomous network dimming system that uses minimal hardware to dim streetlights based on a time-dependent profile or motion sensors. It saves individual dimming profiles.
3. A lighting controller integrated with a UBlox GPS module. The developer established reliable I2C communication between the STM32 host processor and GPS module.
The Ee Monitor System monitors and controls individual light fixtures in commercial facilities using existing power lines for communication. An Ee Hub mounted in the distribution board communicates via 3G or internet to an Eco E control center, and uses power line communication to control Ee Spots installed in each light fixture. This allows real-time monitoring and reduction of energy use through intelligent lighting control of individual fixtures from a single location.
Bluetooth based home appliances controlPROJECTRONICS
This document describes a Bluetooth-based home appliance control system that allows appliances to be operated remotely using a Bluetooth-enabled device like a smartphone. The system uses a microcontroller interfaced with a Bluetooth module to receive commands from a mobile app and control electrical loads accordingly. It consists of a power supply, DTMF decoder to receive signals from Bluetooth, motor driver, solid state relays, and other circuits. The system was designed and tested successfully in the lab to allow remote control of appliances in a way that helps elderly or disabled people. Potential future expansions are also discussed.
This document provides information about various electrical engineering projects available from Vision Solutions located in Hyderabad, Vijayawada, and Guntur, India. It lists over 50 project codes with brief descriptions related to power electronics, motor control, power systems, and more. Contact information is provided at the top for Vision Solutions.
This document discusses applied electrical technology and focuses on rotary switches. It covers the basics of electrical technology and how rotary switches work within electrical systems. Rotary switches are used to control circuits and components by connecting or disconnecting contacts through their rotation.
Presentation on bluetooth controlled electronic home appliancesmirzaahmadali
This project proposes a system to control electronic home appliances using an Android device through Bluetooth. An Android application would be installed on a mobile phone or tablet to send commands via Bluetooth to a microcontroller. The microcontroller is interfaced with electrical loads like lights and motors and would switch the loads on and off based on the commands received from the Android device. The system aims to provide remote control of appliances using a smartphone without needing to be physically present near the control unit.
An Intro to Power over Ethernet SystemsAlex Hartman
These explainer slides outline the basic features of a Power over Ethernet (PoE) device network and how they work together to save time and money while offering the enhanced benefits of connectivity.
This document describes three lighting control projects:
1. A streetlight tele-management system that controls lights over ZigBee and integrates a photocell and clock. It measures energy usage.
2. An autonomous network dimming system that uses minimal hardware to dim streetlights based on a time-dependent profile or motion sensors. It saves individual dimming profiles.
3. A lighting controller integrated with a UBlox GPS module. The developer established reliable I2C communication between the STM32 host processor and GPS module.
The Ee Monitor System monitors and controls individual light fixtures in commercial facilities using existing power lines for communication. An Ee Hub mounted in the distribution board communicates via 3G or internet to an Eco E control center, and uses power line communication to control Ee Spots installed in each light fixture. This allows real-time monitoring and reduction of energy use through intelligent lighting control of individual fixtures from a single location.
Bluetooth based home appliances controlPROJECTRONICS
This document describes a Bluetooth-based home appliance control system that allows appliances to be operated remotely using a Bluetooth-enabled device like a smartphone. The system uses a microcontroller interfaced with a Bluetooth module to receive commands from a mobile app and control electrical loads accordingly. It consists of a power supply, DTMF decoder to receive signals from Bluetooth, motor driver, solid state relays, and other circuits. The system was designed and tested successfully in the lab to allow remote control of appliances in a way that helps elderly or disabled people. Potential future expansions are also discussed.
This document provides information about various electrical engineering projects available from Vision Solutions located in Hyderabad, Vijayawada, and Guntur, India. It lists over 50 project codes with brief descriptions related to power electronics, motor control, power systems, and more. Contact information is provided at the top for Vision Solutions.
This document discusses applied electrical technology and focuses on rotary switches. It covers the basics of electrical technology and how rotary switches work within electrical systems. Rotary switches are used to control circuits and components by connecting or disconnecting contacts through their rotation.
Presentation on bluetooth controlled electronic home appliancesmirzaahmadali
This project proposes a system to control electronic home appliances using an Android device through Bluetooth. An Android application would be installed on a mobile phone or tablet to send commands via Bluetooth to a microcontroller. The microcontroller is interfaced with electrical loads like lights and motors and would switch the loads on and off based on the commands received from the Android device. The system aims to provide remote control of appliances using a smartphone without needing to be physically present near the control unit.
Smart LED Lighting for Power Management in a BuildingSofia Eu
The document discusses a smart LED lighting system that manages power usage in a building with high and low priority rooms. The system adjusts lighting in low priority rooms to ensure total power consumption stays within the building's quota, accounting for usage in high priority rooms. It uses semantic interoperability to exchange power data between different device networks. An evaluation shows the system accurately maintains power levels and adapts lighting based on user needs and remaining quota.
This document describes a project to control the speed of an induction motor fan using an Android mobile device. An Arduino board receives Bluetooth signals from the Android device via a Bluetooth module. An optocoupler isolates the Arduino board from the load and a triac controls the fan speed. The circuit uses an Arduino UNO, Bluetooth module, optocoupler, and triac. The Android device acts as a remote control to vary the fan speed wirelessly through Bluetooth communication.
Low energy based home control system using android appSujeet Singh
This document describes a smart home control system that allows users to control home devices like lights, fans, music, and security through an Android application. The system uses an MSP430G2553 microcontroller, relay modules, PIR sensors, Bluetooth, and an RTC to enable wireless control and integrate home security. It aims to reduce energy consumption and costs while providing a compact, reliable, easy to use, and secure smart home solution. Key components are described, including their functions and benefits for low power consumption, wireless communication, and automation. Potential applications and extensions are also discussed.
DIPLOMA IN ELECTRICAL PROJECT TITLES:remote switching system for home appliancesASHOKKUMAR RAMAR
Remote Switching System for home appliances
In past days Infrared and cable Synchronizing were used instead of Bluetooth. The major drawbacks in these two are in infrared the TX and Rx have to be lined up with each other, Interference between devices is uncommon. The cable synchronizing is a little more troublesome than infrared. So to overcome these problems RF Wireless Transmitter & Receiver Modules were Used.
Description of the Project:
This project is used to automate the house and the same can be applied to an industry also. This project has a provision for Switching of house hold devices like Fan, Tube lights, Televisions etc through telephone from a remote handheld device from anywhere in the house. This is achieved with the use of an Embedded Microcontroller and a RF TX and RX Module. The handheld device has a keypad which is used to switch on or switch off a device.
Raspberry Pi controlled Home AutomationRaiz Maharjan
A project report of Home Automation that allows users to remotely control home appliances using android app, also equipped with live streaming feature.
This AC power control using thyristor for induction motor runs on the principle of firing angle control of thyristors. It is controlled by
android remote.
IEEE Electrical Engineering projects for Bangalore Students for Academic year...Igslabs Malleswaram
IGSLABS Technologies Pvt Ltd provides electrical engineering projects for the academic year 2013-14 related to renewable energy, automation, wireless sensor networks, and more. Some example projects listed include a remote virtual lab for research and design using wireless technology, building lighting automation through wireless sensor networks, and a smart maintenance system for electrical machines. The company is located in India and can be contacted via their website or by phone and email.
This document provides an overview of basic electronics components used in embedded systems. It defines concepts like voltage, current, Ohm's law, and describes common electronic components such as resistors, capacitors, diodes, transistors, LEDs, LDRs, switches, relays, breadboards, crystal oscillators, and voltage regulators. These components are the basic building blocks that allow embedded systems to perform their dedicated functions through electronic circuits and interactions between hardware and software.
The document summarizes a project presentation on a home automation system using Android devices. It was presented by five students under the supervision of Prof. Ruby Mishra at Kalinga Institute of Industrial Technology. The presentation covers the introduction, block diagram, components required, system design, software used, advantages, disadvantages, applications, and conclusion of the home automation project.
Home Appliances Controlling using Android Mobile via BluetoothMOKTARI MOSTOFA
This project allows control of electrical appliances using an Android device. An Android application is installed to send commands via Bluetooth to a microcontroller. The microcontroller then controls relays connected to appliances like lights and fans, allowing remote switching on/off. This provides assistance for elderly and disabled people by making appliances controllable from a smartphone.
EPCS's street lighting solution gives you the capability to remote monitor, and control street lights, in a fail-proof way. The solution has Internet connectivity in order to upload data to cloud application, to enable remote monitoring. The data can be accessed from smart phones as well. The solution allows you to schedule the different operations of light, according to time of day. This helps in minimizing human interference with daily operations. The solution maintains historical data in order to help you make informed business decisions based on consumption patterns.
Automated Lit-Green LED Street Light Solution
Key benefits
• Control street lights at feeder level or individual level.
• Reduce your electricity bill by up to 30%.
• No additional cost of wiring.
• Find faulty lights.
• Schedule feature for ON / OFF / DIM.
• Measure the electricity consumption and associated theft / faults.
• ON / OFF control for
o Single lighting panels
o Multiple fixture panels
• Centralized monitoring and control of lights.
• Integration with existing SAP / ERP system.
• Customized solutions are available as per requirement from design to delivery for OEMs.
Automated street lighting solution (feeder level automation)
Key benefits
• Control multiple street lights from single feeder for either single or multiple phases.
• Timely ON / OFF schedule that can be monitored and changed via SMS.
• Get alerts in case of theft / fault in the lights.
• Reduce your electricity bill by up to 30%.
• Centralized monitoring and control of lights with reporting.
• Get current readings and device fault details on SMS.
• Get detailed electricity consumption reports.
• Specially tailored solutions to match your requirements, from design to delivery for OEMs.
Application areas
• Street lighting
• IT campus lighting
• Parks
• Townships
• Bridges and tunnels
• Hazardous locations
• Industrial lighting
• Mines
• Pathway / Roadway
• Warehouse / Parking Lot
This document outlines a project to remotely control and monitor home appliances like lights, fans, and air conditioners using an Android phone via Bluetooth. The proposed system uses an Arduino microcontroller and Bluetooth module to connect appliances to an Android control app. The project aims to provide an easy, secure, and enjoyable smart home experience while saving energy and assisting disabled users by controlling devices remotely from within 10 meters of the home.
The past decade has seen significant advancement in the field of consumer electronics. Various ‘intelligent’ appliances such as cellular phones, air-conditioners, home security devices, home theatres, etc. are set to realize the concept of a smart home. They have given rise to a Personal Area Network in home environment, where all these appliances can be interconnected and monitored using a single controller.
Busy families and individuals with physical limitation represent an attractive market for home automation and networking. A wireless home network that does not incur additional costs of wiring would be desirable. Bluetooth technology, which has emerged in late 1990s, is an ideal solution for this purpose.
Home automation involves introducing a degree of computerized or automatic control to
Certain electrical and electronic systems in a building. These include lighting, temperature
Control etc.
This project demonstrates a simple home automation system which contains a remote mobile host controller and several client modules (home appliances). The client modules communicate with the host controller through a wireless device such as a Bluetooth enabled mobile phone, in this case, an android based Smart phone.
This document describes a voice-controlled home appliance system using a microcontroller. An Android application sends voice commands via Bluetooth to the microcontroller, which then operates devices like lights and appliances through TRIACs and opto-isolators. The system allows users to remotely control home appliances just by using voice commands from a smartphone, providing convenience and accessibility.
This document presents a presentation on home automation by Burungale Dhanaji Shivaji. It discusses designing a home automation system using an ARM7 controller that allows controlling home appliances wirelessly via switch, Wi-Fi, or GSM. The system aims to provide effective and efficient control of devices to help elderly or disabled people. It presents the objectives, scope, relevance, block diagram, software/language used, sequence diagrams, and conclusions regarding developing a low-cost, high-performance home automation system that allows easy user interaction through an Android phone.
This document contains information about a smart street lighting project developed by group members Humaira Anwar, M. Imran Rameel, Danish Umair, Ahad Hussain Javed, and M. Bilal Sarwar. It details the objectives to design an energy saving smart street light system using integrated sensors and controllers. The methodology uses LDR sensors to detect night, infrared sensors to detect vehicle movement, and a microcontroller to intelligently control street light activation. Calculations show the system can save over 70% of energy compared to traditional lighting.
This project is called ‘Voice Controlled Home Automation project using Arduino’
which enables a user to control the home appliances through voice commands sent to
an Android app i.e AMR voice app.
This document describes a home automation system using Bluetooth that allows controlling appliances via a smartphone. The system uses an Arduino Uno microcontroller connected to an HC-05 Bluetooth module and 4-channel relay board. An Android app sends control signals over Bluetooth to the Arduino, which triggers relays connected to devices. The system provides a low-cost way to remotely control electrical systems like lights and AC in the home.
This document presents a smart energy meter project developed under the guidance of Mr. Mathew T. Mathews. The project aims to record electric energy consumption in intervals of an hour or less using a PLC and communicate that data daily to the utility for monitoring and billing purposes. It allows reading a customer's meter and generating bills without the utility having to physically visit each property. The system detects energy consumed using CT and PT sensors, records the data using a PLC, transmits it via Zigbee to the utility, and displays the information on a SCADA screen for monitoring.
Energy saving project for heating system with zig bee wireless control networkimpulsetech12
An energy saving system is proposed that uses ZigBee wireless devices and a central control unit to optimize energy efficiency for home heating. Sensors monitor temperature and communicate wirelessly via ZigBee to the central unit, which ensures continuous temperature control and efficient operation of the heating plant. The system provides failure detection and alarm monitoring for the peripheral devices.
Smart LED Lighting for Power Management in a BuildingSofia Eu
The document discusses a smart LED lighting system that manages power usage in a building with high and low priority rooms. The system adjusts lighting in low priority rooms to ensure total power consumption stays within the building's quota, accounting for usage in high priority rooms. It uses semantic interoperability to exchange power data between different device networks. An evaluation shows the system accurately maintains power levels and adapts lighting based on user needs and remaining quota.
This document describes a project to control the speed of an induction motor fan using an Android mobile device. An Arduino board receives Bluetooth signals from the Android device via a Bluetooth module. An optocoupler isolates the Arduino board from the load and a triac controls the fan speed. The circuit uses an Arduino UNO, Bluetooth module, optocoupler, and triac. The Android device acts as a remote control to vary the fan speed wirelessly through Bluetooth communication.
Low energy based home control system using android appSujeet Singh
This document describes a smart home control system that allows users to control home devices like lights, fans, music, and security through an Android application. The system uses an MSP430G2553 microcontroller, relay modules, PIR sensors, Bluetooth, and an RTC to enable wireless control and integrate home security. It aims to reduce energy consumption and costs while providing a compact, reliable, easy to use, and secure smart home solution. Key components are described, including their functions and benefits for low power consumption, wireless communication, and automation. Potential applications and extensions are also discussed.
DIPLOMA IN ELECTRICAL PROJECT TITLES:remote switching system for home appliancesASHOKKUMAR RAMAR
Remote Switching System for home appliances
In past days Infrared and cable Synchronizing were used instead of Bluetooth. The major drawbacks in these two are in infrared the TX and Rx have to be lined up with each other, Interference between devices is uncommon. The cable synchronizing is a little more troublesome than infrared. So to overcome these problems RF Wireless Transmitter & Receiver Modules were Used.
Description of the Project:
This project is used to automate the house and the same can be applied to an industry also. This project has a provision for Switching of house hold devices like Fan, Tube lights, Televisions etc through telephone from a remote handheld device from anywhere in the house. This is achieved with the use of an Embedded Microcontroller and a RF TX and RX Module. The handheld device has a keypad which is used to switch on or switch off a device.
Raspberry Pi controlled Home AutomationRaiz Maharjan
A project report of Home Automation that allows users to remotely control home appliances using android app, also equipped with live streaming feature.
This AC power control using thyristor for induction motor runs on the principle of firing angle control of thyristors. It is controlled by
android remote.
IEEE Electrical Engineering projects for Bangalore Students for Academic year...Igslabs Malleswaram
IGSLABS Technologies Pvt Ltd provides electrical engineering projects for the academic year 2013-14 related to renewable energy, automation, wireless sensor networks, and more. Some example projects listed include a remote virtual lab for research and design using wireless technology, building lighting automation through wireless sensor networks, and a smart maintenance system for electrical machines. The company is located in India and can be contacted via their website or by phone and email.
This document provides an overview of basic electronics components used in embedded systems. It defines concepts like voltage, current, Ohm's law, and describes common electronic components such as resistors, capacitors, diodes, transistors, LEDs, LDRs, switches, relays, breadboards, crystal oscillators, and voltage regulators. These components are the basic building blocks that allow embedded systems to perform their dedicated functions through electronic circuits and interactions between hardware and software.
The document summarizes a project presentation on a home automation system using Android devices. It was presented by five students under the supervision of Prof. Ruby Mishra at Kalinga Institute of Industrial Technology. The presentation covers the introduction, block diagram, components required, system design, software used, advantages, disadvantages, applications, and conclusion of the home automation project.
Home Appliances Controlling using Android Mobile via BluetoothMOKTARI MOSTOFA
This project allows control of electrical appliances using an Android device. An Android application is installed to send commands via Bluetooth to a microcontroller. The microcontroller then controls relays connected to appliances like lights and fans, allowing remote switching on/off. This provides assistance for elderly and disabled people by making appliances controllable from a smartphone.
EPCS's street lighting solution gives you the capability to remote monitor, and control street lights, in a fail-proof way. The solution has Internet connectivity in order to upload data to cloud application, to enable remote monitoring. The data can be accessed from smart phones as well. The solution allows you to schedule the different operations of light, according to time of day. This helps in minimizing human interference with daily operations. The solution maintains historical data in order to help you make informed business decisions based on consumption patterns.
Automated Lit-Green LED Street Light Solution
Key benefits
• Control street lights at feeder level or individual level.
• Reduce your electricity bill by up to 30%.
• No additional cost of wiring.
• Find faulty lights.
• Schedule feature for ON / OFF / DIM.
• Measure the electricity consumption and associated theft / faults.
• ON / OFF control for
o Single lighting panels
o Multiple fixture panels
• Centralized monitoring and control of lights.
• Integration with existing SAP / ERP system.
• Customized solutions are available as per requirement from design to delivery for OEMs.
Automated street lighting solution (feeder level automation)
Key benefits
• Control multiple street lights from single feeder for either single or multiple phases.
• Timely ON / OFF schedule that can be monitored and changed via SMS.
• Get alerts in case of theft / fault in the lights.
• Reduce your electricity bill by up to 30%.
• Centralized monitoring and control of lights with reporting.
• Get current readings and device fault details on SMS.
• Get detailed electricity consumption reports.
• Specially tailored solutions to match your requirements, from design to delivery for OEMs.
Application areas
• Street lighting
• IT campus lighting
• Parks
• Townships
• Bridges and tunnels
• Hazardous locations
• Industrial lighting
• Mines
• Pathway / Roadway
• Warehouse / Parking Lot
This document outlines a project to remotely control and monitor home appliances like lights, fans, and air conditioners using an Android phone via Bluetooth. The proposed system uses an Arduino microcontroller and Bluetooth module to connect appliances to an Android control app. The project aims to provide an easy, secure, and enjoyable smart home experience while saving energy and assisting disabled users by controlling devices remotely from within 10 meters of the home.
The past decade has seen significant advancement in the field of consumer electronics. Various ‘intelligent’ appliances such as cellular phones, air-conditioners, home security devices, home theatres, etc. are set to realize the concept of a smart home. They have given rise to a Personal Area Network in home environment, where all these appliances can be interconnected and monitored using a single controller.
Busy families and individuals with physical limitation represent an attractive market for home automation and networking. A wireless home network that does not incur additional costs of wiring would be desirable. Bluetooth technology, which has emerged in late 1990s, is an ideal solution for this purpose.
Home automation involves introducing a degree of computerized or automatic control to
Certain electrical and electronic systems in a building. These include lighting, temperature
Control etc.
This project demonstrates a simple home automation system which contains a remote mobile host controller and several client modules (home appliances). The client modules communicate with the host controller through a wireless device such as a Bluetooth enabled mobile phone, in this case, an android based Smart phone.
This document describes a voice-controlled home appliance system using a microcontroller. An Android application sends voice commands via Bluetooth to the microcontroller, which then operates devices like lights and appliances through TRIACs and opto-isolators. The system allows users to remotely control home appliances just by using voice commands from a smartphone, providing convenience and accessibility.
This document presents a presentation on home automation by Burungale Dhanaji Shivaji. It discusses designing a home automation system using an ARM7 controller that allows controlling home appliances wirelessly via switch, Wi-Fi, or GSM. The system aims to provide effective and efficient control of devices to help elderly or disabled people. It presents the objectives, scope, relevance, block diagram, software/language used, sequence diagrams, and conclusions regarding developing a low-cost, high-performance home automation system that allows easy user interaction through an Android phone.
This document contains information about a smart street lighting project developed by group members Humaira Anwar, M. Imran Rameel, Danish Umair, Ahad Hussain Javed, and M. Bilal Sarwar. It details the objectives to design an energy saving smart street light system using integrated sensors and controllers. The methodology uses LDR sensors to detect night, infrared sensors to detect vehicle movement, and a microcontroller to intelligently control street light activation. Calculations show the system can save over 70% of energy compared to traditional lighting.
This project is called ‘Voice Controlled Home Automation project using Arduino’
which enables a user to control the home appliances through voice commands sent to
an Android app i.e AMR voice app.
This document describes a home automation system using Bluetooth that allows controlling appliances via a smartphone. The system uses an Arduino Uno microcontroller connected to an HC-05 Bluetooth module and 4-channel relay board. An Android app sends control signals over Bluetooth to the Arduino, which triggers relays connected to devices. The system provides a low-cost way to remotely control electrical systems like lights and AC in the home.
This document presents a smart energy meter project developed under the guidance of Mr. Mathew T. Mathews. The project aims to record electric energy consumption in intervals of an hour or less using a PLC and communicate that data daily to the utility for monitoring and billing purposes. It allows reading a customer's meter and generating bills without the utility having to physically visit each property. The system detects energy consumed using CT and PT sensors, records the data using a PLC, transmits it via Zigbee to the utility, and displays the information on a SCADA screen for monitoring.
Energy saving project for heating system with zig bee wireless control networkimpulsetech12
An energy saving system is proposed that uses ZigBee wireless devices and a central control unit to optimize energy efficiency for home heating. Sensors monitor temperature and communicate wirelessly via ZigBee to the central unit, which ensures continuous temperature control and efficient operation of the heating plant. The system provides failure detection and alarm monitoring for the peripheral devices.
Design and simulation analysis of smart grid in power management to monitor a...saddam hussain
This document summarizes a student project to design and simulate a smart grid system to monitor and improve power factor in inductive loads through wireless communication. The system uses current and voltage sensors to monitor the power factor continuously and send it to a microcontroller and Zigbee module. This allows the power factor to be observed on an LCD and sent to a PC. The PC can then apply power factor correction by controlling a capacitor bank to reduce reactive power and increase the power factor. The goal is to reduce power wastage from loads with a low power factor. The students will develop the processing circuit, test it, and write a report on their results.
This document describes a project to control electrical appliances from a PC using a microcontroller. A mouse is used to control relays connected to appliances via the microcontroller. The microcontroller communicates with the PC over RS-232 using a MAX232 level shifter. The project allows centralized control of appliances like stage lighting from a PC. It could be improved with a GUI control panel and intensity control.
CLOUD BASED NETWORK MANAGEMENT AND CONTROL FOR BUILDING AUTOMATIONAdeel Ahmed
A Complete Home Automation Solution
With the usage of Cloud, Technology users can access devices with any Available Network.
Freedom to Control Appliances with a Smart Phone, chrome extension, 3G, or even 4G.
Freedom to control the Intensity of appliances.
The active feedback system displays energy usage and costs in real-time.
This document summarizes a student project to create a Bluetooth controlled home automation system. The system uses an Arduino Nano and Bluetooth module to allow control of electrical appliances via an Android app. It discusses the components used - Arduino, voltage regulator, relay, Bluetooth module, and capacitor. Applications are listed as homes, stores, hospitals, offices. Benefits are wireless switching, safety, ease of use. Future work could include fan speed control and integrating other devices like TVs. The system was implemented and tested to control four appliances via the Android app.
Android Based Switch Controlling Technique for LED BulbsUsing Bluetooth/Wi-Fi...IJRES Journal
This paper presents an efficient approach to switch on/off and control the intensity of an LED bulb from a remote place using Android Applications installed in a Smartphone. As LED household bulbs and lights are energy efficient, drop-in replacements for the incandescent lighting found in homes and offices. These lights produce a warm brightness while providing a significant cost savings over traditional lighting. Bluetooth & Wi-Fi modules are used simultaneously as an interface that make connection between Android Applicationand the LPC2148 controller by which the generated output can be viewed with the help of an LED bulb and control various other devices, based on the availability in particular areas.
This document describes a project to develop a wireless sensor network-based system for smart power management in intelligent buildings. The system will use an embedded microcontroller and wireless technologies like Wi-Fi and ZigBee to control and monitor household electrical appliances in real-time. It aims to address drawbacks of existing systems by allowing control of more appliances and making control customizable based on user behavior rather than fixed thresholds. The proposed system design includes hardware components like a microcontroller, current sensors, ZigBee modules, and relays to control loads. It will communicate over ZigBee and allow remote control through a PC. The system is intended to improve energy efficiency and security while reducing effort and preventing electricity wastage.
bluetooth controlled home automation using arduino by shubham sinhaShubham Sinha
This document describes a home automation system using an Arduino Uno, Bluetooth module, relays, and an Android app. The system allows remote control of appliances via a smartphone. It provides a circuit diagram and lists the hardware used, including the Arduino, Bluetooth module, relays, power supply, and switchboard. Advantages are convenience and energy savings. Disadvantages include limited range and number of devices controlled. The document discusses problems faced and solutions, and possibilities for future expansion using WiFi.
The main objective of this project is to develop a home automation system using an Arduino board with Bluetooth being remotely controlled by any Android OS Smartphone. Modern houses are gradually shifting from conventional switches to centralized control system, involving remote controlled switches
The project aims to remotely control home appliances and systems using a cell phone interface. A microcontroller-based control module would receive instructions from a cellular phone over the GSM network. Key components include the AT89S52 microcontroller, ULN2003 Darlington transistor array, LM7805 voltage regulator, capacitors, diodes, resistors, relay, and BC547 transistor. The user can send an authentication code and function via SMS to control devices like lights and appliances from their phone.
This document describes a smart microgrid project called "Inferno" created by students from Dayalbagh Educational Institute in Agra, India. The smart microgrid prototype remotely monitors and controls two power stations with various loads through a website and Android app. It integrates solar and grid power sources and uses smart meters, PLC controllers, and IoT technologies to optimize energy usage. The system provides features like remote load monitoring and switching, variable speed motor control, power factor correction, and power transfer between stations during outages. The smart microgrid aims to reduce energy costs, improve reliability, and demonstrate innovative energy management solutions.
This document provides a synopsis of a final year project that monitors energy consumption in university hostels. The project uses an Android application and Raspberry Pi to measure energy parameters like voltage and current. This allows users to view consumption data and remotely trip the hostel's energy if irregularities are detected. It aims to efficiently manage energy usage in the hostels through automated monitoring and control of appliances.
This document presents a PLC-based elevator control system designed by Stenin Frankduf J. It summarizes that PLC-based elevators are easier to maintain and cheaper to build than conventional elevators. The system uses a PLC S-Series 315 to execute a user program that controls field devices like limit switches based on ladder logic. It also includes a power supply, display module, and sensors to monitor the elevator car and called floors. The PLC system allows the elevator to respond to call signals by stopping at the requested floor and opening and closing the doors for loading.
This document presents a home automation system using Arduino that allows users to control appliances in their home from a remote location using a mobile phone. The system uses a Bluetooth module to communicate between an Arduino board and an Android phone app. Home automation provides benefits like security, cost savings, and comfort by allowing control of lights, temperature, and other systems from anywhere via a mobile device. It describes the components used - Arduino, Bluetooth module, relays, LCD display - and how they work together to enable remote control of appliances from a phone.
The document describes the Square D Powerlink G3 lighting control system. It features remotely operated circuit breakers in lighting panelboards that automatically switch lights off during unoccupied periods to reduce energy costs. The system requires no additional installation costs beyond mounting a standard lighting panelboard. It simplifies design and is fully code compliant.
Design and Implementation of an Improved Automatic DC Motor Speed
Control Systems Using Microcontroller
1Enerst Edozie,
2Eze Val Hyginus Udoka,
1Wantimba Janat
1Department of Electrical Engineering, Kampala international University, Uganda
2Department of Publication and Extension, Kampala International University, Uganda
ABSTRACT
Energy wastage is one of the major challenges that is facing the world now as there is
insufficient supply of energy and the little ones supplied was not appropriately used. This
energy wastage has made many researchers to engage more on the research to stop this
energy waste as a result of inappropriate allocation of energy to some devices even when
they don’t need it. This research work was able to design and implement an improved
automated DC Motor speed controller system using microcontroller successfully. The
software used for this research work were Fritzing software and Arduino Nano. This project
was able to improve on the working system of the DC Motors and energy was automatically
and successfully saved. The system runs entirely on Bluetooth technology which consumes
less power than other devices. The Android application is user-friendly with enhanced
Wireless communication. This design was successfully developed and implemented with 80%
accuracy. The design was able to work effectively by increasing the cutting speed when the
softness of the material decreases and as the cutting tool material becomes stronger, the
cutting speed increases. This showed that the design is effectively and efficiently developed
with less energy/power consumption which is the earnest desire of an Engineer as it reduces
cost.
Keywords: Microcontroller, Improved Automatic DC Motor, Energy, Arduino, PWM
Similar to A fully digitally controlled power supply unit for w’less remote controlled led lighting system (20)
A fully digitally controlled power supply unit for w’less remote controlled led lighting system
1. Impulse Technologies
Beacons U to World of technology
044-42133143, 98401 03301,9841091117 ieeeprojects@yahoo.com www.impulse.net.in
A fully Digitally controlled Power supply unit for wireless Remote
controlled LED Lighting System
Abstract
This paper presents a fully digital controlled power supply unit for the
wireless controlled dimmable LED lighting system. The proposed power supply
designed using fly-back converter, which is directly controlled by a
microprocessor. Although the proposed circuit does not sense the AC input current
and has not AC input voltage feed-forward, it can achieve high power factor. The
proposed power supply directly regulates the output power for LED loads using the
PWM and PFM control of the fly-back converter without additional regulator. For
a wireless remote control function, the Zigbee modem is equipped in the proposed
power supply. A prototype set-up has been built and tested. Through the
experiment with a prototype set-up, the usefulness of the proposed power supply is
verified.
Your Own Ideas or Any project from any company can be Implemented
at Better price (All Projects can be done in Java or DotNet whichever the student wants)
1