COMPLETE SPECIFICATION TITLE:
An Automatic control system for power conservation and multi usage thereof. FIELD OF THE INVENTION
The invention generally relates to the design and fabrication of add-on setup for controlling the wastage of power. More specifically, the invention relates to automatic control system which monitors the power usage and intelligently cut offs the power during idle hours or alternates the power to different application when required.
BACKGROUND OF THE INVENTION
In the present era, the investment on energy and power supply is high and unnoticed wastage of energy is enormous. There is an immediate need to minimise the wastage of energy and controlled consumption of energy. The present invention relates to the design and fabrication of an auto controller unit to minimise the power consumption. Herein the present invention, the unwanted usage of power is monitored and channelized to the required application, wherein an application includes an air conditioner, any electrical or electronic appliances and any combination thereof. One preferred embodiments of the invention, an automatic control system for power conservation and multi usage thereof comprises of cut off module which cuts the power supply from any enabled application functioning during idle hours, Herein the idle hours is denoted as working hours of the application when its functionality is not really required. This invention further comprises of intelligent intrusion detector which detects the number of intrusions or entries to calculate the cut off timing in case of office or auto teller machine stations. Another preferred embodiment of this invention is a remote access unit, wherein the said setup shall be controlled and monitored from any distant location. This invention overcomes the above mentioned problem as it is more reliable technology as well as cost effective. OBJECTIVE OF THE INVENTION
1. The primary object of the present invention is to reduce the power or energy wastage from unnecessary working of applications, whereby cutting off the

power load to the unnecessary working, application till the necessary requirement.
2. It is another object of the present invention is a thermostat sensor which monitors the room temperature and controls the application to maintain the optimum or user fixed temperature, whereby cutting of the power load and supplying the power load the application as per the temperature requirements.
3. It is another object of the present invention is an intrusion detector which records the number of entries or intrusions and also frequency of intrusions to calculate the working timing of the application.
4. It is another object of the present invention that the setup comprising alternate switching unit, wherein the power load shall be switched to another application and cutting off the power load from the application which is not required at that instance.
5. It is another object of the present invention that the use of programmed Microcontroller unit to monitor and control the applications.
6. It is another object of the present invention that the single setup shall control plurality of applications.
7. It is another object to increase the longevity of applications connected to present invention since the daily usage will be limited or controlled as per the requirement.
SUMMARY OF THE INVENTION
The present invention relates to design and fabrication of an automated control system for power conservation and multi usage thereof, and the method to perform whereby cutting off the power load to the application during the idle hours and similarly alternating the power load to the different and multiple application. The preferred embodiment of the present invention disclosed in this disclosure comprises of a programmed micro controller unit (MCU), an internal RTC which is programmed in the MCU, at least five relay unit further comprising of relay 1, relay 2, relay 3, relay 4, and relay 5, at least five connector further comprising of connector c 1, c 2, c 3, c 4, and c 5, a remote access unit therein further comprising

of a GSM unit which includes a receiver and a transmitter, a switch mode power supply, a thermostat sensor, for monitoring the temperature inside an auto teller machine premises, an intrusion detection sensor, monitoring the number of human intrusions in the auto teller machine premises. Herein it is noted that an application is characterized as at least two air conditioners, at least two heaters, an indoor lighting, and an outdoor lighting which includes panel board lightings. The present invention is fabricated as a box shaped compartment for housing the MCU, the relay unit, the GSM unit, the SMPS and a door for opening and closing purpose. The thermostat sensor, and intrusion detection sensors are position on the front side of the door and the said connector output is positioned on the side wall of the system. It is noted herein that the programmed MCU comprises of at least one input port PO which is further comprised of plurality of sub input ports characterized as P0.0, P0.1, P0.2, and P0.3 and at least one output port PI which is further comprised of plurality of sub output ports characterized as P1.0, Pl.l, P1.2, P1.3, and P1.4. The MCU is embedded with an internal RTC program, which serves as an internal clock for the apparatus, wherein the system time is continuously maintained. It is noted that the sub relay 1 control end is coupled to the MCU output port P1.0, and the power end of the sub relay 1 is coupled with connector c 1, wherein the programmed MCU signals the relay system to either cut off or supply the power load to air conditioner 1, further the connector c 1 is the power point for the application, air conditioner 1. The control end of the sub relay 2 is coupled to the MCU output port Pl.l, and the power end of the sub relay 2 is coupled with connector c 2, wherein the programmed MCU signals the relay system to either cut off or supply the power to load air conditioner 2, further the connector c 2 is the. power point for the application, air conditioner 2. The control end of the sub relay 3 is coupled to the MCU output port PI.2, and the power end of the sub relay 3 is coupled with connector c 3, wherein the programmed MCU signals the relay system to either cut off or supply the power load to outdoor lights including panel board light, further the connector c 3 is the power point for the application, outdoor lights including panel board light. The control end of the sub relay 4 is coupled to the MCU output port PI.3, and the power end of the sub relay 4 is coupled with

connector c 4, wherein the programmed MCU signals the relay system to either cut off or supply the power load to indoor lights, further the connector c 4 is the power point for the application, indoor lights. The control end of the sub relay 5 is coupled to the MCU output port PI.4, and the power end of the sub relay 5 is coupled with connector c 5, wherein the programmed MCU signals the relay system to either cut off or supply the power load to the heater, further the connector c 5 is the power point for the application, the heater. It is noted that the thermostat sensor is connected to the MCU input port PO at sub port P0.0, and the intrusion detection sensor is connected to the MCU input port PO at sub port P0.1 and similarly the receiver part of the GSM unit from the remote access unit is connected to MCU input port PO at P0.2, the transmitter part of the GSM unit is connected to MCU input port PO at P0.3. The remote access unit herein transmits the total power consumption details to the user on daily basis, or monthly basis or yearly basis. The said programmed MCU is embedded with plurality of program which includes different strategies such as a temperature based control, an intrusion based control, and a time-based control. The programmed MCU analyses and prioritizes the aforesaid strategies and maintains the temperature inside the ATM premises to minimise the power consumption. The said programmed MCU commands the system to run at least one air conditioner during day hours ranging from 6.00 am to 22.00 pm and further commands the system to cut off the power load to air conditioner 1 and air conditioner 2 during night hours ranging from 22.00pm to 6.00 am. In addition to the air conditioner monitoring the programmed MCU monitors and supply power load to the indoor lightings during day hours, wherein time ranging from 6.00am to 18.00pm and supply power load to outdoor lightings during night hours, wherein the time ranging from 18.00 pm to 6.00 am. The programmed MCU commands the system to maintain the temperature of the ATM premises in the range from 20 degree centigrade to 24 degree centigrade, wherein, further the programmed MCU commands the system to cut off the power load to the air conditioner when temperature fall below aforesaid range and it is also programmed to supply the power load the air conditioner if the temperature in the ATM premises above the aforesaid range;

The said intrusion detection sensor counts the number of human intrusions or human entries and if the human intrusions or entries are encountered to continue more than 5 minutes, and if the temperature is more than the aforesaid range, then the programmed MCU commands the system to supply the power load to the air conditioner, further if the temperature of the ATM premises is above the range of from 20 degree centigrade to 24 degree centigrade Ihen the programmed MCU commands the system to supply power load to air conditioner 1 and air conditioner
2 till the ATM premises reaching the optimum aforesaid range, herein later turned
on air conditioner continues to run for next 2 hours, wherein the former turned on
air conditioner is turned off immediately after the ATM premises reaching the
optimum required range of temperatures.
The programmed MCU commands the system to cut off the power load supply to all the air conditioner if there no human intrusion inside the ATM premises for more than the range from 7 minutes to 10 minutes. As another embodiment of the present invention the said application shall also be the heaters instead of the air conditioners if the ATM premises is located in any cold region. As an alternative embodiment the said system shall be used as automatic power management system in the street lights and traffic signal setups.
REFERENCE NUMERALS IN THESE DRAWINGS
I Air Conditioner 1, 2 Air Conditioner 2,
3 Heater, 4 Indoor Lightings,
5 Outdoor lightings, 6 Connector,
7 Thermostat Sensor, 8 Intrusion Detection Sensor,
9 Switch Mode Power Supply 10 Micro Controller Unit (MCU)
(SMPS),
II Remote Access Unit comprising, 12 Relay unit.
GSM mode
BRIEF DESCRIPTION OF THE DRAWINGS
Fig 1 illustrates an isometric overview of a preferred embodiment of an invention,
an automatic control system for power conservation and multi usage thereof;

Fig 2 illustrates an oblique view of a preferred embodiment of an invention, an
automatic control system for power conservation and multi usage thereof;
Fig 3 illustrates a block diagram of a preferred embodiment of an invention an
automatic control system for power conservation and multi usage thereof;
Fig 4 illustrates a Flowchart diagram, explaining the process for working of air
conditioners;
Fig 5 illustrates a Flowchart diagram, explaining the process for working of indoor
and outdoor lightings.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT OF
THE INVENTION
For the purposes of promoting and understanding the principles of the invention,
reference will now be made to the examples, sometimes referred to as
embodiments, illustrated and/or described herein. Those are mere examples. It will
nevertheless be understood that no limitation of the scope of the invention is thereby
intended. Such alterations and farther modifications in the described process,
systems or devices, any further applications of the principles of the invention as
described herein, are contemplated as would normally occur to one skilled in the
art to which the invention relates, now and /or in the future in light of this document.
In the disclosure herein, consideration or use of a particular element number in a
given FIGURE or corresponding descriptive material can encompass the same, an
equivalent, or.an analogous element number identified in another FIGURE or
descriptive material corresponding thereto Referring now to the drawings, Fig 1
illustrates an isometric overview of a preferred embodiment of an invention, an
automatic control system for power conservation and multi usage thereof (100),
wherein, the said invention comprises of Air Conditioner 1 (1), Air Conditioner
(2), Heater (3), Indoor Lightings (4), Outdoor lightings (5), Connector (6),
Thermostat Sensor (7), Intrusion Detection Sensor (8).
Fig 2 illustrates an oblique view of a preferred embodiment of an invention, an
automatic control system for power conservation and multi usage thereof (200),
wherein, the said invention comprises of Air Conditioner 1 (1), Air Conditioner (2),
Heater (3), Indoor Lightings (4), Outdoor lightings (5), Connector (6), Thermostat

Sensor (7), Intrusion Detection Sensor (8), Switch Mode Power Supply (SMPS)
(9), Micro Controller Unit (MCU) (10), Remote Access Unit comprising of GSM
unit (11), Relay unit (12).
Fig 3 illustrates a block- diagram of a preferred embodiment of an invention an
automatic control system for power conservation and multi usage thereof (300),
wherein , the said invention comprises of Thermostat Sensor (7), Intrusion
Detection Sensor (8), Switch Mode Power Supply (SMPS) (9), Micro Controller
Unit (MCU) (10), Remote Access Unit comprising of GSM unit (11), Relay unit
(12).
Fig 4 illustrates a Flowchart diagram, explaining the process for working of air
conditioners;
Fig 5 illustrates a Flowchart diagram, explaining the process for working of indoor
and outdoor lightings.
While the invention has been illustrated and described in detail in the drawings and
foregoing description, the same is to be considered as illustrative and not restrictive
in character, it being understood that only the preferred embodiments have been
shown and described and that all changes and modifications that come within the
spirit of the invention are desired or to be protected. It is also contemplated that
structure and features embodied in the present examples.can be altered, rearranged,
substitute, deleted, duplicated, combined, or added to each other.
The present invention, an automatic control system for power conservation and
multi usage thereof, automatically controls the power wastage, whereby cutting off
the power supply to the applications, or alternating the power supply to the different
applications, wherein the exact need is required. Herein the term application means
devices which is characterised as air-conditioner, heater, lighting setup, any
electrical or electronic devices, and any combination thereof, to which the
automatic controlling system is operatively coupled with to minimise the power
wastage. The present invention is a system which is comprised of a Micro controller
Unit (MCU), at least five relay units, a remote access unit further comprising as a
GSM unit, a switch mode power supply (SMPS), at least five connectors, an internal
RTC programmed in MCU, a thermostat sensor, and an intrusion detection sensor.

The said system is fabricated such as box shaped compartment having a door on the front side for opening and closing purpose further the sensor units are positioned on the outer side of front door and the connector outlet is positioned on side wall of the system such that protruding away from the apparatus, wherein the applications are connected. The said Micro controller Unit (MCU), the relay units, the remote access unit with GSM unit, the SMPS, the internal RTC are housed inside compartment of the system. For experimental purpose the said invention, an automatic controller system for power conservation arid multi usage thereof is coupled with applications to minimise the power wastage from the auto teller machine (ATM) premises.
In one embodiment of the invention, the micro controller unit MCU comprises of plurality of input ports PO such as P0.0, P0.1, P0.2, and P0.3, wherein the thermostat sensor is coupled at PO.O output port, the intrusion detection sensor is coupled at P0.1 port, the receiver end of the GSM unit is coupled at P0.3 port of MCU, and the transmitter end of the GSM unit is coupled at P0.4 port of MCU. In another embodiment of the invention, the micro controller unit MCU comprises of plurality of output ports PI such as P1.0, PI. 1, PI.2, PI.3, and PI .4, wherein the said application an air conditioner 1 is coupled with P1.0 of output port, another application air conditioner 2 is coupled with Pl.l port, the outdoor lights such as Panel board lights of ATM premises is coupled with P1.2 port, indoor lights are coupled with PI.3 output ports, and heater is coupled with PI .4 output port of MCU. It is noted herein, that the Relay unit is connected to the output ports of the MCU and connector, wherein the appropriate applications are connected. For explanation, the said air conditioner 1 is connected with the system at the connector point 1 which is directly coupled with relay unit 1, similarly other applications such as air conditioner 2, heater, outdoor and indoor lights are coupled to the output ports through respective relay unit and connector. Herein relay unit 2 and connector 2 connects with the air conditioner 2, relay unit 3 and connector 3 connects with the outdoor lights, relay unit 4 and connector 4 connects with the indoor lights, and relay 5 and connector 5 connects with the heater in case of requirement.

The said MCU is embedded with plurality of programmes which includes different strategies such as temperature based control, intrusion based control, timing based control, power consumption report, and switching of power load to an alternate application.
In the preferred embodiment, The MCU is programmed to prioritise the sequence of the aforesaid strategies. As a first priority, the system is programmed to run the air conditioners during day hours ranging from 6.00 am till 22.00 pm, herein the application running time is denoted as ON TIME. During ON TIME the two applications, air conditioner 1 coupled through P1.0 and air conditioner 2 coupled through PI.I are alternatively made to run for 2 hours of duration on each application, whereby cutting of the power load from one application and supplying the power load to an alternative application, herein the applications are denoted as air conditioner 1 and 2. In another condition, if the thermostat sensor detects no temperature fall during ON TIME for more than 1 hour then the alternative air conditioner is also turned on, whereby supplying power to the air conditioner 2. In another condition, the air conditioners are turned off during sleeping hours or night hours which ranges from 22.00 pm till 6.00 am. Herein the sleeping hours of the application is denoted as OFF TIME.
In another condition, wherein the intrusion detection sensors detect and counts the number of human entries or human intrusions. If the sensor detects idle period ranging from 7 to 10 mins then the programme analyses another strategy such as temperature conditions. If the temperature of the ATM premises is within the range, then the programme commands the system to cut off the power load supply to the air conditioner, thereby turning the application off. Herein the idle period is denoted as the time period wherein no human intrusions or entries are encountered. In another condition, the temperature based control strategy, wherein the MCU is programmed to maintain the temperature in the range from 20 degree centigrade to 24 degree centigrade. If the temperature fall below 20 degree centigrade then it is programmed to cut off the power load to the air conditioner and similarly if temperature inside the ATM premises increases above 24 degree centigrade, then the MCU commands to supply the power load to the air conditioner. In another

condition, if the ATM premises temperature is higher than the aforesaid range due to continuous intrusions, then it is programmed to turn on both the air conditioner till the temperature reaches the required range and later turned on air conditioner continues to run till next alternate shuttling which is for 2 hours, wherein the former is turned off immediately after the ATM premises reaching the optimum required range of temperatures.
In another embodiment the programme controls the indoor and outdoor lightings, wherein, during day hours ranging from 6.00 am till 22.00 pm at least four indoor lights of the ATM premises are turned on and during night hours ranging from 18.00 pm till 6.00 am at least 8 indoor lights and outdoor lights such as panel board lights are turned on. The system further comprises of relay. The phase or power load of the application which is to be controlled is connected to phase of the relay and neutral is connected to neutral of Main box. When circuit is closed, the system works which means the application is switched ON and similarly if the circuit is open then system does not work means the application is turned OFF. The Switch mode power supply provide minimal voltage such as 5 volts and 12 volts the initiate the relay setup. Herein, the system sends command to relay to which is voltage. The relay opens the circuit thereby turning the switch OFF in the circuit. Similarly, when program is to be ON the system sends command to relay which a minimal voltage, wherein the relay closes the circuit thereby turning ON the application. The thermostat sensor and intrusion detection sensors are positioned on outer front surface of the system, wherein the sensors are coupled with MCU at input port P0 which is housed inside the system case.
As an alternative embodiment, the said system shall be used to control window air conditioning units, split air conditioning units, multi-Split air conditioning units, mini-heat pumps, split packaged units, unitary packaged units, chillers, air handling .units, fan coil units, pumps, VAV boxes, dampers, street lights, traffic signals, and any combinations thereof.
As an alternative embodiment, the said system shall be used to control the power loads at any premises such as any workplace, home, industries, educational institution and others.

Claims
We claim,
1) An automatic control system for power conservation and multi usage thereof
comprising:
a) a programmed micro controller unit MCU (10),
b) an internal RTC which is programmed in the micro controller unit (10)
c) at least five relay unit (12) further comprising of relay 1, relay 2, relay 3, relay 4, and relay 5,
d) at least five connector (6) further comprising of c 1, c 2, c 3, c 4, and c 5,
e) a remote access unit (11) therein further comprising of a GSM unit which includes a receiver and a transmitter,
f) a switch mode power supply (9)'
g) a thermostat sensor (7), for monitoring the temperature inside an auto teller machine premises,
h) an intrusion detection sensor (8), monitoring the number of human
intrusions in the auto teller machine premises i) an application, which is characterized as at least two air conditioner (1) and
(2), at least two heater (3), an indoor lighting (4), and an outdoor lighting
which includes panel board lightings (5).
2) An automatic control system for power conservation and multi usage thereof,
as claimed in the claim 1, wherein:
a) an apparatus includes a compartment in a box shape for housing the programmed MCU (10), the relay unit (12), the GSM unit (11), the SMPS (9);
b) a compartment includes an door for opening and closing purpose further the thermostat sensor (7), and the intrusion detection sensors (8) are position on the front side of the door;
c) the said connector (6) is positioned on the side wall of the system, wherein the applications characterized as an air conditioner (1) or (2) , a lighting system (4) or (5), and a heater (3) which are connected at the respective power points in the connector (6).

3) An automatic control system for power conservation and multi usage thereof,
as claimed in the claim 1, wherein:
a) the programmed MCU (10) comprises of at least one input port PO which is further comprised of plurality of sub input ports characterized as P0.0, P0.1,P0.2,andP0.3;
b) the programmed MCU (10) comprises of at least one output port PI which is further comprised of plurality of sub output ports characterized as P1.0, PU,P1.2,P1.3,andP1.4;
c) the programmed MCU (10) is embedded with an internal RTC program, which serves as an internal clock for the system, wherein the system time is maintained continuously.
4) An automatic control system for power conservation and multi usage thereof,
as claimed in the claim 1, wherein:
a) at least five relay unit (12) is positioned adjacent to the programmed MCU
(10) output port;
b) the control end of the sub relay 1 is coupled to the programmed MCU (10) output port P1.0, and the power end of the sub relay 1 is coupled with connector c 1, wherein the programmed MCU (10) signals the relay unit (12) either to cut off or to supply the power load to air conditioner 1 (1), further the connector c 1 is the power point for the application, air conditioner 1 (1);
c) the control end of the sub relay 2 is coupled to the programmed MCU (10) output port Pl.l, and the power end of the sub relay 2 is coupled with connector c 2, wherein the programmed MCU (10) signals the relay system (12) either to cut off or to supply the power to load air conditioner 2 (2), further the connector c 2 is the power point for the application, air conditioner 2 (2);
d) the control end of the sub relay 3 is coupled to the programmed MCU (10) ■output port PI.2, and the power end of the sub relay 3 is coupled with connector c 3, wherein the programmed MCU (10) signals the relay system (12) either to cut off or to supply the power load to outdoor lights including

panel board light (5), further the connector c 3 is the power point for the application, outdoor lights including panel board light (5);
e) the control end of the sub relay 4 is coupled to the programmed MCU (10) output port PI.3, and the power end of the sub relay 4 is coupled with connector c 4, wherein the programmed MCU (10) signals the relay system (12) either to out off or to supply the power load to indoor lights (4), further the connector c 4 is the power point for the application, indoor lights (4);
f) the control end of the sub relay 5 is coupled to the programmed MCU (10) output port PI.4, and the power end of the sub relay 5 is coupled with connector c 5, wherein the programmed MCU (10) signals the relay system (12) to either cut off or supply the power load to the heater (3), further the connector c 5 is the power point for the application, the heater (3).
5) An automatic control system for power conservation and multi-usage thereof,
as claimed in the claim 1, wherein;
a) the thermostat sensor (7) is connected to the programmed MCU (10) input port P0 at sub port P0.0, whereby the programmed MCU controls the (10) thermostat sensor (7) as per the embedded program;
b) the intrusion detection sensor (8) is connected to the programmed MCU (10) input port P0 at P0.1, whereby the programmed MCU (10) controls the intrusion detection sensor (8) as per the embedded program.
6) An automatic control system for power conservation and multi usage thereof,
as claimed in the claim 1, wherein,
a) the receiver part of the GSM unit from the remote access unit (11) is connected to programmed MCU (10) input port P0 at P0.2;
b) the transmitter part of the GSM unit from the remote access unit (11) is connected to programmed MCU (10) input port P0 at P0.3;
c) the remote access unit (11) transmits the total power consumption details to the user on daily basis, or monthly basis or yearly basis.
7) An automatic control system for power conservation and multi usage thereof,
as claimed in the claim 1, wherein:

a) a plurality of program is embedded in the programmed MCU (10) which includes different strategies such as a temperature based control, an intrusion based control, and a time based control;
b) the programmed MCU (10) analyses and prioritizes the aforesaid strategies and maintains the temperature inside the ATM premises and thereby minimizing the power consumption;
c) the programmed MCU (10) commands the system to run at least one air conditioner (1) or (2) during day hours ranging from 6.00 am to 22.00 pm, wherein the system running time is denoted as on time,
d) the programmed MCU (10) commands the system to cut off the power load to air conditioner 1 (1) and air conditioner 2 (2) during night hours ranging from 22.00 pm to 6.00 am, wherein the system shutofftime is denoted as off time;
e) the programmed MCU (10) commands the system to supply power load to at least four indoor lightings (4) during day hours ranging, from 6.00 am to i 8.00 pm and it is further programmed to supply power load to at least eight outdoor lightings, which includes the outdoor panel board lightings (5) during night hours ranging from 18.00 pm to 6.00 am;
f) the programmed MCU (10) commands the system to alternate the power load supply to the air conditioner 1 (1) and the air conditioner 2 (2) at the regular frequency of 2 hours;
g) the programmed MCU (10) commands the system to maintain the temperature of the ATM premises in the range from 20 degree centigrade to 24 degree centigrade, wherein, further the programmed MCU (10) commands the system to cut off the power load to the air conditioner (1) or (2) when temperature fall below range from 20 degree centigrade to 24 degree centigrade and it is also programmed to supply the power load the air conditioner (1) or (2) if the temperature in the ATM premises above the aforesaid range;
h) the said intrusion detection sensor (8) counts the number of human intrusions or human entries and if the human intrusions or entries are

encountered to continue more than range of 5 minutes to 7 minutes, and if the temperature is more than the range from 20 degree centigrade to 24 degree centigrade, then the programmed MCU (10) commands the system to supply the power load to the air conditioner, further if the temperature of the ATM premises is above the range of from 20 degree centigrade to 24 degree centigrade then the programmed MCU (10) commands the system to supply power load to air conditioner 1 (I) and air conditioner 2 (2) till the ATM premises reaching the optimum temperature ranging from 20 degree centigrade to 24 degree centigrade, herein the later application, air conditioner (1) or (2) is turned on to run continuously for next 2 hours, wherein the former application, air conditioner (1) or (2) is turned off immediately after the ATM premises reaching the optimum required range of temperatures;
i) the programmed MCU (10) commands the system to cut off the power load supply to the air conditioners (1) and (2), if there is no human intrusion, inside the ATM premises for more than the range from 7 minutes to 10 minutes;
j) the said application shall be the heaters (3) as an alternative embodiment, wherein having the ATM premises in any cold region.
8) An automatic control system for power conservation and muIti usage thereof,
as claimed in the claim 1, wherein as an alternative embodiment the said system
shall be used as automatic power management system in the street lights, traffic
signal setups, any suitable workplace, home, industries, educational institution
. and others.
9) An automatic control system for power conservation and multi usage thereof,
as claimed in the claim 1, wherein:
a) the fabrication of the system and method to perform thereof, to minimize the wastage of energy and controlled consumption of energy;
b) the system increases the longevity of the said applications such as air conditioners (1) or (2), whereby reducing the working hours of the air conditioners (1) or (2);

c) the system further reduces the greenhouse gas emission from the air conditioners (1) or (2), whereby reducing the working hours of the air conditioner (1) or (2).