AU2021106276A4 - A system and method for monitoring, communicating, and alerting power failure and theft - Google Patents

Abstract

Disclosed is a system for monitoring, communicating, and altering power failure, and power theft. The system comprises a first module comprising a first sub-module associated with a power distribution box having a power supply unit, an AC-to-DC convertor, a microcontroller unit with 5 voltage sensor, a current sensor, and a second sub-module associated with a power consumer premise having a microcontroller unit , and a current sensor connected to the microcontroller, a first current theft indicator, and a second current theft indicator, a second module comprising a cloud server, and a web-based access port or a smart phone-based application connected to the cloud server for facilitating an authority and/or the power consumer to access data associated with 0 the power consumption, power failure, and power theft. The system facilitates power status feedback, current theft detection, alerting authorities, complaint handling, consumer android views, and consumer feedback. 1 1/2 DesktopPC Data Center Web Server Data Base Server Smartphne Tablet loTTechnolcgy Hardware Circuit Power Supply Sensing Element FIG. 1

Description

1/2

DesktopPC

Data Center

Web Server Data Base Server Smartphne Tablet

loTTechnolcgy Hardware Circuit

Power Supply Sensing Element

FIG. 1

TITLE OF THE INVENTION A SYSTEM AND METHOD FOR MONITORING, COMMUNICATING, AND ALERTING POWER FAILURE AND THEFT FIELD OF THE INVENTION

The present invention relates to a system and a method for monitoring, communicating and

alerting power failure and theft to the authority in real time thereby facilitating intime

restoration of power and preventing electricity theft.

BACKGROUND OF THE INVENTION

Today's world is highly technology oriented and digitalized. Technology is growing by leaps

and bounds. The backbone of the technological growth and digitalization is electricity.

Electricity is the magic wand that powers all the machines be it household or be it in large

industries.

However, even in the present times there are areas in India where electricity is yet to reach

or if the electricity is present, there are numerous problems associated with distribution and

supply of electricity. The areas may include both rural and urban areas. In these areas, it is

observed though the electricity grids are installed, there is frequent electricity supply

interruption. In such cases it is required that someone communicates with the maintenance

team/authorities responsible for restoring the electricity supply. There is little or no

automation for such and similar issues pertaining to electricity.

Similarly, if there is theft of electricity, there is no way the authorities can reverse engineer

and know that there the electricity is being stolen.

Additionally, there is no way for consumers to know about the status of electricity supply at

different locations, particularly at remote locations.

In summary, at present there does not exists any effective way to communicate with the

electricity supplying authorities and with the consumers for resolving and registering one or

more issues related to the electricity supply.

More specifically, the existing system does not provide any means for checking power

availability status, reduce or eliminate the need for raising complaints regarding failure of

power, detecting theft of electricity, and the like issues.

Therefore, there exists an urgent need for providing a system and a method for monitoring,

communicating and alerting power failure and theft to the authority in real time thereby

facilitating intime restoration of power and preventing electricity theft.

OBJECTS OF THE INVENTION

Some of the objects of the presently disclosed invention, of which at the minimum one object

is fulfilled by at least one embodiment disclosed herein are as follow:

An object of the present invention is to provide an alternative, which overcomes at least one

drawback encountered in the existing prior art;

Another object of the present invention is to provide a system for monitoring, communicating and alerting power failure and theft to the authority in real time thereby facilitating intime restoration of power and preventing electricity theft; and

Yet another object of the present invention is to provide a method for monitoring,

communicating and alerting power failure and theft to the authority in real time thereby

facilitating intime restoration of power and preventing electricity theft.

Other objects and benefits of the present invention will be more apparent from the following

description which is not intended to bind the scope of the present invention.

SUMMARY OF THE INVENTION

The present invention relates to a system and a method for monitoring, communicating and

alerting power failure and theft to the authority in real time thereby facilitating intime

restoration of power and preventing electricity theft.

The system for monitoring, communicating, and altering power failure, and power theft

comprising the following components:

A first module including a first sub-module and a second submodule.

The first sub-module being associated with a power distribution box, the first sub-module

comprising a power supply unit configured to supply power at a predetermined voltage and

current value, an AC-to-DC convertor connected to the power supply unit via a main line,

the convertor configured to convert the alternating current to direct current at a

predetermined voltage, a microcontroller unit with voltage sensor, the microcontroller connected to the convertor, and to the main line, the microcontroller being powered by the predetermined voltage from the convertor, the microcontroller unit having a transceiver for sending and receiving data, and a current sensor configured to measure the current flowing through the main line, the current sensor connected to the microcontroller unit.

A second sub-module associated with a power consumer premise, the second sub-module

comprising a microcontroller unit connected with the main line at and around the power

consumer premise, the microcontroller unit having a transceiver for sending and receiving

data, and a current sensor connected to the microcontroller and the microcontroller; the

current sensor configured to measure current flowing through the main line.

A first current theft indicator, operably disposed between the first sub-module and the second

sub-module, configured for detecting and indicating theft of current from the main line, and

a second current theft indicator, operably disposed at the power consumer premise for

indicating load at the power consumer premise.

The second module comprising a cloud server configured for receiving data associated with

the first sub-module, and the second sub-module from the respective microcontroller units

via respective transceivers, and a web-based access port or a smart phone-based application

connected to the cloud server for facilitating an authority and/or the power consumer to

access data associated with the power consumption, power failure, and power theft.

BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWING

The present invention is now described with reference to the accompanying drawing, wherein:

FIG. 1 illustrates an architectural diagram, wherein the sensing element senses/detects the

available voltage value; and

FIG. 2 illustrates ...

DETAILED DESCRIPTION

All technical terms and scientific expressions used in the present invention have the same

meaning as understood by a person skilled in the art to which the present invention belongs,

unless and otherwise specified.

As used in the present specification and the claims, the singular forms "a", "an" and "the"

include plural references unless the context clearly dictates otherwise.

The term "comprising" as used in the present specification will be understood to mean that

the list following is non-exhaustive and may or may not include any other extra suitable

things, for instance one or more additional feature(s), part(s), component(s), process step(s),

sub-step(s), and /or constituent(s) as applicable.

Further, the terms "about" and "approximately" used in combination with ranges of sizes of

parts, particles, compositions of mixtures, and/or any other physical properties or

characteristics, are meant to include small variations that may occur in the upper and/or

lower limits of the ranges.

The present invention relates to a system and a method for monitoring, communicating and alerting power failure and theft to the authority in real time thereby facilitating intime restoration of power and preventing electricity theft.

The system comprises three modules which are described herein below with reference to the

accompanying drawings:

Module 1:

This module 1, plays pivotal role for administrative officers (authority) to record power

status and current theft across each block of section office in a village or city or district. The

module 1 is attached to a distribution box of a particular area.

Module 2:

The module 2 comprises a web application which help administrative officers (authority) in:

- Determining live status of power supply

- Live status of current theft;

- Uploading Power supply load schedule

- Consumer complaint handling (Allocation and Addressing)

Module 3:

The module 3 comprises an Android Application, which is a platform for a consumer to:

- check live status of power;

- raise Complaint (if required);

- check power supply load schedule;

- check section office information; and

- provide automated messaging and acknowledgement i.e., Service Feedback

Further, the module 3 also serves as a platform for technician to:

- check live status of power;

- check power supply load schedule;

- upload the reason for power failure;

- section office information; and

- provide Automated messaging and acknowledgement from Section authority for

complaint handling.

Working of the present invention:

Module 1 (with IOT technology):

The module 1 is configured to:

- detect the power supply and power interruption;

- detect current theft;

- receive and transmit detected readings to cloud; and

- employ Ethemet/Wi-Fi depending upon area to transmit detected reading.

Module 2:

The module 2 is configured to:

- fetch the data from cloud;

- display the real time power supply position/status and current theft on web portal;

- handle consumer complaints; and

- identify and analyze data.

Module 3:

The module 3 comprises:

- Two logins:

o First one for the consumer, wherein the consumer using the first login can

check power supply schedule, and register complaints. The complaints so

registered by the consumer are received by the authority, and also provide

service feedback.

o Second one for the technician, wherein the technician using the second long

can check complaints assigned by the section authority and update power regain status.

FIG. 1 illustrates an architectural diagram, wherein the sensing element senses/detects the

available voltage value. The sensed or measured values is sent to a webserver. The measured

values are saved on the webserver with a time stamp and is accessible by the administrative

officer (or the authority) through respective web API or computer system. Further, the

consumer or the technician can access the saved values through respective web server using

smart phone, tablet, and the like.

FIG. 2 illustrates schematic block diagram of the system (100) for monitoring,

communicating, and altering power failure, and power theft. The system (100) comprises:

1. Main power supply (102) of 230-240 V AC is provided to a AC to DC Circuit (104)

(Requires forconvertingAC to DC 5.0V), aNodeMCU(106) (requires forpoweron/off

of NodeMCU), Voltage Sensor Module (108) (required for measuring voltage) and

through Current Sensor Module (110) (required for measuring the current).

2. Two parts, namely, a first part (A) which is connected to a distribution box or panel and

a second part (B) which is connected before an electric meter at each consumer's home.

3. The first part is configured to detect a voltage of a particular area as well as detect an

outgoing current of the distribution box or panel.

The electrical connections are as follows:

a. The NodeMCU (106) and AC to DC Circuit (104) are connected to the electricity or main power supply (102) via the wires or lines.

b. AC to DC Circuit (104) is connected to the Voltage Sensor Module (108).

c. Voltage Sensor Module (108) is connected to the NodeMCU (106).

d. Current Sensor Module (110) is connected to the NodeMCU (106).

In the second part (B), which is configured to detect receiving current at consumers home,

the connections are as follows:

- NodeMCU (112) is connected to the electricity or the main power supply (102) via

the wires or lines.

- Current Sensor Module (114) is connected to the NodeMCU (112).

Internet Connectivity:

1. All the data exchange/communication takes place through a Wifi Module.

2. The WiFi Module is embedded on the NodeMCU (106, 112). In case the connectivity is

provided through ethernet, then the NodeMCU (106, 112) is replaced with RaspberryPi.

3. Wifi Module Requires an Active Internet Connection.

Firebase Connectivity:

1. Firebase Connectivity is provided through the Internet enabled Wifi Module.

2. NodeMCU (106, 112) Interacts with the Firebase and exchanges the data collected from various Sensors.

3. NodeMCU (106, 112) requires program to interact with Firebase.

4. For Firebase Connectivity, program needs a "Firebase ESP8266 Client" and "ESP8266

HTTP Client" and "ESP8266 WIFI" Libraries.

Further, the numerals 116, and 118 represent bulbs, connected for current/load theft and

internal load (home) after the electric meter in home.

In accordance with the embodiments of the present invention, the system for monitoring,

communicating, and altering power failure, and power theft comprises:

- a first module comprising:

o a first sub-module associated with a power distribution box, the first sub

module comprising:

• a power supply unit configured to supply power at a predetermined

voltage and current value;

• an AC-to-DC convertor connected to the power supply unit via a main

line, the convertor configured to convert the alternating current to

direct current at a predetermined voltage;

• a microcontroller unit with voltage sensor, the microcontroller

connected to the convertor, and to the main line, the microcontroller

being powered by the predetermined voltage from the convertor, the microcontroller unit having a transceiver for sending and receiving data;

Sa current sensor configured to measure the current flowing through

the main line, the current sensor connected to the microcontroller unit;

and

o a second sub-module associated with a power consumer premise, the second

sub-module comprising:

• a microcontroller unit connected with the main line at and around the

power consumer premise, the microcontroller unit having a

transceiver for sending and receiving data; and

• a current sensor connected to the microcontroller and the

microcontroller; the current sensor configured to measure current

flowing through the main line;

o a first current theft indicator, operably disposed between the first sub-module

and the second sub-module, configured for detecting and indicating theft of

current from the main line; and

o a second current theft indicator, operably disposed at the power consumer

premise for indicating load at the power consumer premise.

- a second module comprising: o a cloud server configured for receiving data associated with the first sub module, and the second sub-module from the respective microcontroller units via respective transceivers; and o a web-based access port or a smart phone-based application connected to the cloud server for facilitating an authority and/or the power consumer to access data associated with the power consumption, power failure, and power theft.

In accordance with one embodiment of the present invention, the voltage sensors detect the

events of power failure at and around power consumer premise, wherein a voltage drop

below 200 V indicates power failure, and the current sensors detect the events of current

theft at and around power consumer premise and between the first and the second sub

module, wherein the current value consumed at consumer's end being subtracted from the

current value emitted at main power supply, wherein there is a current theft if the current

difference is non-zero positive integer value.

In accordance with one embodiment of the present invention, the respective microcontrollers

are further configured to generate a corresponding power failure signal which being

transmitted through the respective transceivers to the cloud server, and further generate an

alert to be received by the authority for taking appropriate action.

In accordance with one embodiment of the present invention, the microcontrollers are Node

MCU ESP8266 microcontrollers.

In accordance with one embodiment of the present invention, the microcontrollers and the cloud server are connected via internet, wherein the internet connection being through WIFI and/or Ethernet.

The following advantages are realized by the system of the present invention:

- Power Feedback, the system is capable of providing feedback about power supply

status in rural and urban areas through IoT technology.

- Current Theft Detection, the system is capable of detecting current theft in rural and

urban areas through IoT technology.

- Alert Authorities, the system provides an option of altering authorities regarding

power failure and current theft in different areas through the IoT technology enabled

via web application.

- Complaint Handling, the system provides an option of receiving complaints from

consumer relating to power failure through the android application installed on

respective smart phones. The system further includes a module which facilitates

assignment of the complaints to technician of respective area, wherein the technician

upon receiving the complaint and can further update power regain status in

compliance with the standard operating procedures.

- Consumers android view, the system provides an option of checking availability of

power supply to the consumer through an IoT Technology on android application.

Further, the system also provides option of checking schedule of the power supply

and power regain status display through android application in each consumer login,

wherein the schedule allows the consumer to know about pre-planned load

scheduling or it is abnormal behavior (Sudden Power-OFF), thereby reducing the

complaints getting generated from Consumers.

- Consumer Feedback, wherein the system allows the consumer to provide feedback

related to services to authorities through the android application.

Claims (5)

1. A system for monitoring, communicating, and altering power failure, and power theft, the

system comprising:

- a first module comprising:

o a first sub-module associated with a power distribution box, the first sub-module

comprising:

• a power supply unit configured to supply power at a predetermined voltage

and current value;

• an AC-to-DC convertor connected to the power supply unit via a main line,

the convertor configured to convert the alternating current to direct current

at a predetermined voltage;

• a microcontroller unit with voltage sensor, the microcontroller connected to

the convertor, and to the main line, the microcontroller being powered by

the predetermined voltage from the convertor, the microcontroller unit

having a transceiver for sending and receiving data;

• a current sensor configured to measure the current flowing through the main

line, the current sensor connected to the microcontroller unit; and

o a second sub-module associated with a power consumer premise, the second sub

module comprising:

• a microcontroller unit connected with the main line at and around the power

consumer premise, the microcontroller unit having a transceiver for sending

and receiving data; and

• a current sensor connected to the microcontroller and the microcontroller;

the current sensor configured to measure current flowing through the main

line;

o a first current theft indicator, operably disposed between the first sub-module and

the second sub-module, configured for detecting and indicating theft of current

from the main line; and

o a second current theft indicator, operably disposed at the power consumer premise

for indicating load at the power consumer premise.

- a second module comprising:

o a cloud server configured for receiving data associated with the first sub-module,

and the second sub-module from the respective microcontroller units via respective

transceivers; and

o a web-based access port or a smart phone-based application connected to the cloud

server for facilitating an authority and/or the power consumer to access data

associated with the power consumption, power failure, and power theft.

2. The system as claimed in claim 1, wherein

- the voltage sensors detect the events of power failure at and around power consumer premise, wherein a voltage drop below 200 V indicates power failure; and

- the current sensors detect the events of current theft at and around power consumer premise

and between the first and the second sub-module, wherein the current value consumed at

consumer's end being subtracted from the current value emitted at main power supply,

wherein there is a current theft if the current difference is non-zero positive integer value.

3. The system as claimed in claim 2, wherein the respective microcontrollers are further

configured to generate a corresponding power failure signal which being transmitted through

the respective transceivers to the cloud server, and further generate an alert to be received by

the authority for taking appropriate action.

4. The system as claimed in claim 1, wherein the microcontrollers are Node MCU ESP8266

microcontrollers.

5. The system as claimed in claim 1, wherein the microcontrollers and the cloud server are

connected via internet, wherein the internet connection being through WIFI and/or Ethernet.