ECE Projects for Final Year, Embedded Projects in Bangalore, Engineering Projects in Bangalore, Final Year Projects in Vijayanagar, ECE projects in Vijayanagar, Embedded Project institute in Vijaynagar
Presentation to BRE event on 30 Nov 2010, covering technical challenges arising from the first phase of work in the British smart meter design programme being lead by Ofgem.
ECE Projects for Final Year, Embedded Projects in Bangalore, Engineering Projects in Bangalore, Final Year Projects in Vijayanagar, ECE projects in Vijayanagar, Embedded Project institute in Vijaynagar
Presentation to BRE event on 30 Nov 2010, covering technical challenges arising from the first phase of work in the British smart meter design programme being lead by Ofgem.
This report gives a comprehensive overview of the potential benefits of the smart meters and how they can save billions of rupees to Pakistan over a short period of time. Furthermore, it convinces the reader how the world is actively allocating its resources towards smart meters and how Pakistan is in desperate need of efficient use of energy which can only be facilitated b smart meters.
The IOT based energy meter is based on Arduino. This system eliminates the human involvement in electricity maintenance. The theft of electricity increases the costs paid by customers. Hence this system is used for the detection of theft. The energy meter is connected to the Arduino. The Arduino checks the main meter and sub meter reading. If the difference between the main meter and sub meter is occurred then the message that theft has occurred will be displayed on the LCD display as well as on the thingspeak. The comparison between the main meter and sub meter reading is used to check the theft status. Customer can be access the thingspeak from anywhere on the globe at the anytime using the consumer number. Hence the customer can be easily access their energy usage. Mrs Sandhya Shinde | Mr. Yogesh Yadav | Miss. Bharti Sontakke | Miss. Pratiksha Zapake"IoT Based Smart Energy Meter" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-1 | Issue-6 , October 2017, URL: http://www.ijtsrd.com/papers/ijtsrd5761.pdf http://www.ijtsrd.com/engineering/electronics-and-communication-engineering/5761/iot-based-smart-energy-meter/mrs-sandhya-shinde
e-ENERGY METERING BOX (Smart Meter by KPMP Electronics)Likan Patra
e-EMB also known as e-Energy Metering Box is a Revolutionary “Smart Meter” designed by KPMP Electronics that works through GSM/GPRS modem, tampering proof, self-healing and very Economic. It consist of Meter Reading System and Data Analysis Software.Unleash the true power of smart meter data through our end-to-end solutions.Our unique offering of interoperable hardware and software supports flexible integration in complex business environments to improve your Business Value and Customer Satisfaction.
Automatic Weather Station with Sun Tracker Energy Centerwebadminjk
Sutron Corporation delivered an AWS with Sun Tracker in order to help the Energy Center at KNUST observe and analyze the sun’s radiation, i.e., global solar radiation (pyranometer), diffused solar radiation (pyranometer with shadding assembly), direct normal irradiance or DNI (pyrheliometer), and
sunshine duration.
Packet Power produce mesh wireless power cables and temperature/humidity sensors that delivers electrical power usage and environmental visibility.
Robust wireless mesh
Fully self-configuring
Requires 1 IP address
Simple to install and easy to use
Vendor-neutral
Accurate
Serves ICT devices and facilities
Low cost per measurement point
Solution Components:
Wireless Monitors
Smart power cables and panels
Environmental Sensors
Plug and Play Network
Self-configuring adaptive wireless network
Highly secure (Packet Power’s own wirless protocol)
Monitoring, Analysis and Reporting Software
Real-time data analysis and reporting
Cloud base or PC based software
SNMP and Modbus solo/enterprise option
SMS and email alerts
Security issues:
Physical security
Proprietary, secure wireless protocol inaccessible by common hacking tools
(not 802.11, ZigBee, or BT)
Random frequency-hopping protocol
Out-of-band and “cloudless” deployment options
Physically continuous cable (no power flow interruptions)
Data transmission security
Packet-level encryption at the radio link level
All measurement data optionally encrypted with 256-bit cable-specific irretrievable key
embedded in the cable
HTTPS link security
AES report data file encryption option
Data access security
Decrypt and access data only from your licensed nodes
Impossible to decrypt cable data without a cable key
Standard password-protected HTTPS web access
Separation of measurement data and customer information
How can I get notified if my AC units go down?
How can I know if temperature of various zones at my DC are as required?
Do I need to increase my current cooling capacity?
Can my current cooling setup handle my future expansion plans?
Live reading on temperature and Humidity levels
Reports on historical environment behavior
User defined thresholds and alarms
SMS and e-mail alerts
10 temperature probes per unit
multiple facility centralized analyzing and management
Local software application or Packet Power’s cloud based service
Probe temperature reading range -40 to 85° C
High precision measurement (±1° C, ±2% RH)
Map temperature readings to facility layout diagram
Create historical reports
Export to CSV file
Create and publish dashboards and QR labels
How can I get informed if a device is about to fail?
How much power is my DC, Rack or Server consumes? And how can I reduce it?
Do I need to expand my electric power infrastructure to cope with my future growth plans?
This report gives a comprehensive overview of the potential benefits of the smart meters and how they can save billions of rupees to Pakistan over a short period of time. Furthermore, it convinces the reader how the world is actively allocating its resources towards smart meters and how Pakistan is in desperate need of efficient use of energy which can only be facilitated b smart meters.
The IOT based energy meter is based on Arduino. This system eliminates the human involvement in electricity maintenance. The theft of electricity increases the costs paid by customers. Hence this system is used for the detection of theft. The energy meter is connected to the Arduino. The Arduino checks the main meter and sub meter reading. If the difference between the main meter and sub meter is occurred then the message that theft has occurred will be displayed on the LCD display as well as on the thingspeak. The comparison between the main meter and sub meter reading is used to check the theft status. Customer can be access the thingspeak from anywhere on the globe at the anytime using the consumer number. Hence the customer can be easily access their energy usage. Mrs Sandhya Shinde | Mr. Yogesh Yadav | Miss. Bharti Sontakke | Miss. Pratiksha Zapake"IoT Based Smart Energy Meter" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-1 | Issue-6 , October 2017, URL: http://www.ijtsrd.com/papers/ijtsrd5761.pdf http://www.ijtsrd.com/engineering/electronics-and-communication-engineering/5761/iot-based-smart-energy-meter/mrs-sandhya-shinde
e-ENERGY METERING BOX (Smart Meter by KPMP Electronics)Likan Patra
e-EMB also known as e-Energy Metering Box is a Revolutionary “Smart Meter” designed by KPMP Electronics that works through GSM/GPRS modem, tampering proof, self-healing and very Economic. It consist of Meter Reading System and Data Analysis Software.Unleash the true power of smart meter data through our end-to-end solutions.Our unique offering of interoperable hardware and software supports flexible integration in complex business environments to improve your Business Value and Customer Satisfaction.
Automatic Weather Station with Sun Tracker Energy Centerwebadminjk
Sutron Corporation delivered an AWS with Sun Tracker in order to help the Energy Center at KNUST observe and analyze the sun’s radiation, i.e., global solar radiation (pyranometer), diffused solar radiation (pyranometer with shadding assembly), direct normal irradiance or DNI (pyrheliometer), and
sunshine duration.
Packet Power produce mesh wireless power cables and temperature/humidity sensors that delivers electrical power usage and environmental visibility.
Robust wireless mesh
Fully self-configuring
Requires 1 IP address
Simple to install and easy to use
Vendor-neutral
Accurate
Serves ICT devices and facilities
Low cost per measurement point
Solution Components:
Wireless Monitors
Smart power cables and panels
Environmental Sensors
Plug and Play Network
Self-configuring adaptive wireless network
Highly secure (Packet Power’s own wirless protocol)
Monitoring, Analysis and Reporting Software
Real-time data analysis and reporting
Cloud base or PC based software
SNMP and Modbus solo/enterprise option
SMS and email alerts
Security issues:
Physical security
Proprietary, secure wireless protocol inaccessible by common hacking tools
(not 802.11, ZigBee, or BT)
Random frequency-hopping protocol
Out-of-band and “cloudless” deployment options
Physically continuous cable (no power flow interruptions)
Data transmission security
Packet-level encryption at the radio link level
All measurement data optionally encrypted with 256-bit cable-specific irretrievable key
embedded in the cable
HTTPS link security
AES report data file encryption option
Data access security
Decrypt and access data only from your licensed nodes
Impossible to decrypt cable data without a cable key
Standard password-protected HTTPS web access
Separation of measurement data and customer information
How can I get notified if my AC units go down?
How can I know if temperature of various zones at my DC are as required?
Do I need to increase my current cooling capacity?
Can my current cooling setup handle my future expansion plans?
Live reading on temperature and Humidity levels
Reports on historical environment behavior
User defined thresholds and alarms
SMS and e-mail alerts
10 temperature probes per unit
multiple facility centralized analyzing and management
Local software application or Packet Power’s cloud based service
Probe temperature reading range -40 to 85° C
High precision measurement (±1° C, ±2% RH)
Map temperature readings to facility layout diagram
Create historical reports
Export to CSV file
Create and publish dashboards and QR labels
How can I get informed if a device is about to fail?
How much power is my DC, Rack or Server consumes? And how can I reduce it?
Do I need to expand my electric power infrastructure to cope with my future growth plans?
MONTHLY ELECTRICITY BILLING WITH BILL SMS USING PIC.pptxNANDHAKUMARA10
The project provides a system that allows for consumed electricity reading in unit and How much amount of Current Can be Consumed by User its Prevent the Electricity Theft.
Our system provides the electricity readings on an LCD screen as well as can SMS this reading and cost to the user.
This lets the user know about his exact electricity units consumed and cost directly from his meter so that there is no chance of bill tampering.
The project allows a two way reading. One on LCD display and the second on SMS. Our project consists of IOT connected to a ATMEGA328p is an family of PIC. The system continuously monitors electrical pulses and calculates the unit consumption.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
This document has been prepared related to a project of designing and implementing a single phase 230V 40A digital prepaid energy meter according to IEC standards.
This document has been prepared related to a project of designing and implementing a single phase 230V 40A digital prepaid energy meter according to IEC standards.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
Design and Implementation of Wireless Sensor Node for WSN for Automatic Meter...paperpublications3
Abstract:Deploying an embedded technology, a wireless sensor node is designed and implemented for establishment of Wireless Sensor Network (WSN) for automatic meter reading. The amount of power consumed by the load is extracted by passing the respective current through 1Ohm resistor. The analog voltage observed across it is digitized by employing on chip ADC of AVR Atmega 8L microcontroller. The ADC of 10 bit resolution helps to enhance preciseness in the data. Using principle of energy meter, the power consumed is determined and depicted in the terms of watts and units as well. An embedded firmware is developed by employing CodeVisionAVR, the IDE, which is dedicated for AVR family of microcontrollers. Employing an ubiquitous technology, the Zigbee technology, RF communication is established at 2.4GHz of ISM band. The Zigbee RF module is interfaced to the system and programmed by using X-CTU. Each node (End Devices) is assigned with its own ID and disseminates the data to the co-ordinator node, which is interfaced to the base station. The present wireless sensor network is operating in star technology and following IEEE 802.15.4 standards, it is operating with great reliability. The WSN is suitable for electric power distribution and control boards. Keyword:Automatic Meter Reading, AVR Microcontroller, Embedded technology, IEEE802.15.4, WSN, Zigbee technology.
Title:Design and Implementation of Wireless Sensor Node for WSN for Automatic Meter Reading
Author:A. M. Pawar, S. N. Patil, B. P. Ladgaonkar
International Journal of Recent Research in Mathematics Computer Science and Information Technology, (IJRRMCSIT)
Paper Publications
Design and Implementation of Wireless Sensor Node for WSN for Automatic Meter...paperpublications3
Abstract:Deploying an embedded technology, a wireless sensor node is designed and implemented for establishment of Wireless Sensor Network (WSN) for automatic meter reading. The amount of power consumed by the load is extracted by passing the respective current through 1Ohm resistor. The analog voltage observed across it is digitized by employing on chip ADC of AVR Atmega 8L microcontroller. The ADC of 10 bit resolution helps to enhance preciseness in the data. Using principle of energy meter, the power consumed is determined and depicted in the terms of watts and units as well. An embedded firmware is developed by employing CodeVisionAVR, the IDE, which is dedicated for AVR family of microcontrollers. Employing an ubiquitous technology, the Zigbee technology, RF communication is established at 2.4GHz of ISM band. The Zigbee RF module is interfaced to the system and programmed by using X-CTU. Each node (End Devices) is assigned with its own ID and disseminates the data to the co-ordinator node, which is interfaced to the base station. The present wireless sensor network is operating in star technology and following IEEE 802.15.4 standards, it is operating with great reliability. The WSN is suitable for electric power distribution and control boards.
Keyword:Automatic Meter Reading, AVR Microcontroller, Embedded technology, IEEE802.15.4, WSN, Zigbee technology.
Automated Meter reading systems are a invaluable technological advancement that can lead to
a better standard of living, owing to the fact that metering has become a part and parcel of our
mundane lives.
It solves many issues of the traditional meter reading system like need for human resources, lack
of efficiency and accuracy in meter reading, delayed work, unavailability of customer during
metering visit by employee, etc. Moreover it is more economical and helps to save energy in a
more efficient and effective way. Furthermore it has a very notable advantage of having the
ability to predict the energy demands of the future, starting from every household to the entire
planet.
Automated meter reading systems have been implemented using many different technologies
like GSM, ZigBee, PLC, D-SCADA, WiMAX and Hybrid Technologies that comprises of a mixture
of the above.
This seminar paper describes the working models, strengths and weaknesses of each technology
by considering various factors like feasibility, cost, reliability, efficiency, and maintenance and
user experience. This paper not only explains the existing Energy Metering systems but also
provides an abstract view of developing the most optimal Automated Meter Reading system.
Similar to Energy meter digitization and automatic utility transfer to electricity board using rf (20)
Energy meter digitization and automatic utility transfer to electricity board using rf
1. ENERGY METER DIGITIZATION AND AUTOMATIC UTILITY
TRANSFER TO ELECTRICITY BOARD USING RF
ABSTRACT
Now-a-days technology has developed to a large extend. At the same time the need for
systems with automation and high security are preferred. So, by using one of the best
technologies available i.e. RF we are designing an automatic power meter reading system for
commercial and domestic purposes. For paying electricity bills we have to go to e-seva for
paying the bills, this is very time consuming process and in electrical department side there
may be a chance of errors in noting the units and issue of monthly bills. By using this project
we can avoid such problems.
The system is consists of RF digital Power meters installed in every consumer unit and an
electricity system at the energy provider side. The RF Digital Power Meter is a single phase
digital kWh power meter with embedded RF encoder and decoder which utilizes the RF
network to send its power usage reading using encoder back to the energy provider
wirelessly. A working prototype of the system was build to demonstrate the effectiveness and
efficiency of automatic meter reading, billing and notification through the use of RF network.
This project is aimed to develop a system to provide security by intimating the condition of
energy meter reading to the control section. There are two sections in this project, makes use
of a RF transmitter to send the messages resembling the condition.
The main objective of this project is to design a wireless energy meter system with the help
of RF technology. For measuring energy consumed by the user we are going to use one
digital energy meter, at the same time as it uses 1unit the count will be displayed in LCD and
automatically one message will send through RF communication to the control section. In
this project we are using bulb as a load. On LCD we are going display No of units consumed
in that time. Up to end no of units consumed and total amount to be pay will update
according to the power consumption. All metered data is securely stored as it is updated in a
nonvolatile memory (EEPROM).