Description:A SERIES CONNECTION CHAIN SYSTEM TO MAKE ADAPTABLE LOAD CONFIGURATIONS IN WIRELESS SMART-HOME SYSTEMS

FIELD OF THE INVENTION

The present invention relates to a series connection chain system to make adaptable load configurations in wireless smart-home systems in order to assemble various compatible devices in already installed wireless smart home systems. Also, it relates to a peripheral electrical load management circuit and it can be placed in the series connection chain system which will allow a user to control any number of electrical load and any type of electrical load, along with providing a wireless gateway for compatible peripheral devices.

BACKGROUND OF THE INVENTION

The smart home is a type of home, where appliances or furnishings are networked together to provide greater functionality with the help of sensors and communication devices. It is to connect various appliances and devices in a single, seamless installation. The smart home aims to make it easier for users to use their appliances and devices. The devices in a smart home allow the user to perform functions including but not limited to timer control for appliances such as fans, air-conditioners, microwave ovens, etc. The security access to the home such as smart door lock, HVAC control of the home or dimming functions. The home entertainment systems control such as home theatre audio systems, televisions, etc.
Conventionally, the smart home automation systems were wired i.e., all of the electronic or electrical devices were controlled by a single control bus which is used to send and receive the communication signals. In home automation systems, long wires run throughout a house, office, factory, or any building. Since shielded cables are often used in wired systems and nothing interferes with the signals that move through them, wired systems are significantly more dependable because wired systems are dedicated to this function only, their performance is continuously superior to wireless ones. This solution has been around for a while, and it is developed quite well, but it still has many drawbacks such as ease of installation compared to its counterpart. Since technology is ever-changing, once these wired systems are installed, upgrading the system becomes much more challenging and costly.
US5621662A patent discloses a home automation system comprises a number of sub-systems for controlling various aspects of a house, such as a security sub-system, an HVAC sub-system, a lighting control sub-system, and an entertainment sub-system. The network comprises a host computer connected through a host interface to a plurality of nodes. The network is in a free-form topology and employs asynchronous communication. The host computer polls each node on the network to determine system configuration and to perform a diagnostic check on the system. The messages that are transmitted between the nodes are comprised of a source address, a destination address that uniquely identifies the location of each piece of hardware on the system, a message type field, and a data length segment. Each hardware device has a mirror image software object in the host computer to which messages are directed. The user interfaces for the various sub-systems share a common interfacing method whereby the use of the system is greatly simplified.
One more patent EP1260886A2 discloses a home automation system comprising an array of functional devices, a plurality of input devices associated with the array of functional devices, and a control unit, interconnected via radio link and constituting a home automation system. The system is employed in combination with an autonomous safety/security system having input sensors, local and/or remote signalling devices, and a control unit between the sensors and the signalling devices. The system also comprises connecting means between the control unit of the safety/security system and the control unit of the automation system for activation of the safety/security system by the automation system and/or for activation of the automation system by the safety/security system.
Wireless technologies opened up different possibilities in many technological domains, it did the same in the smart home automation domain as well. The wired smart home solutions required installing long cables throughout the electrical wiring of a house, it involved the cost of cables and other necessary equipment, labour charge, and possibly renovation of walls; if the user wants an upgrade to the wired automation system, it added additional cost to the users themself. There is no need for any kind of cables for different devices to be interconnected in wireless systems, their installation and upgrading required minimal effort.
The wireless smart home systems covered up many drawbacks of the wired smart home automation legacy. In wireless home automation systems, all the devices are connected wirelessly via a wireless communication protocol. The devices connected to the wireless network can be controlled with any smart electronic device which needs human interaction to operate. With this type of home automation system, any device with a compatible wireless protocol can be controlled.
There are several products that offer wireless connectivity limited to themselves, they may be interconnected. Some examples of such devices include smart door, smart lock, smart fan, smart lights, smart mop robot, smart switch, smart plug etc.
Some products offer interoperability, for example, a single application on a smart electronic device that is used to operate even other products. For example, smart devices with voice-enabled virtual assistants, etc.
The problem associated with the current wireless smart home system available in the market is, the users have limited options to configure their smart home system in terms of controlling different number of electrical load and different types of electrical load. The users cannot configure their smart home system when the system is already installed. In case a user wants a different type of electrical load to be controlled, then the user will have to get another smart home system’s product which will have a separate power supply circuit and wireless entity. In case a user wants to control electrical loads more than a smart home system can operate, then the user will have to get another such a smart home system product which will have a separate power supply circuit and wireless entity. For each permutation and combination of different number of electrical loads and different type of electrical loads, the users will have to get another such a smart home system product which will have a separate power supply circuit and wireless entity. This will not only increase the number devices that are being used but also make the wireless network more complex. Further, there is not an easy way to integrate a different type of device with different functionalities into an already installed smart home system.
The inventors of the present invention have come up with a new innovation which may be installed behind a switchboard; which utilizes a series connection chain system which allows assembling of various devices with compatible hardware serial communication protocol. The present invention is based on the concept of modularism. The belief is that some systems, such as the brain or the ability to process language, operate as a group of interconnected but separate modules. A series connection chain system is used in order to control any type of device that is compatible with a hardware serial communication protocol including, but not limited to, a device which can control any type of electrical load any number of electrical load as per requirements.
The present invention is designed such that it can integrate different type of devices with different functionalities, such as a device that can control general home appliances, a device that can control a high-power electrical load, a device that can dim specific electrical loads, and any device could be used that has different functionality, provided it is compatible with the series connection chain system. The peripheral load management circuit and compatible peripheral devices can be arranged in series in any possible combination of sequence. The present invention allows users to configure their smart home system even when it is already installed because the power supply circuit and the wireless connectivity circuit has been segregated. These separate entities can be connected with different electrical load management circuits with different number of electrical loads controlling capability; It can also be connected to peripheral devices. The system can require a connection from the electrical grid and connections to the appropriate electrical load, also it can have other connections for different functionalities. The electrical load is directly controlled either by a wireless smart home product or by a switch. The present invention can also detect physical control of a switch and control the electrical load accordingly. The present invention is compact in order to be able to fit behind a switch board. The present invention has connectors, which may consist of a low-voltage, DC power, and a wired gateway for wireless communication purposes.
OBJECT OF THE INVENTION
The principal object of the present invention is to overcome the drawbacks and limitations associated with the prior technology by providing a series connection chain system to make adaptable load configurations in wireless smart-home systems of different type of devices to be controlled in a smart home system, devices including but not limited to a device which can control any number of electrical loads and any type of electrical load as per requirements; also allowing integration of peripheral devices without the need of adding extra power supply circuit and a wireless circuit.
Another object of the present invention is to provide a microcontroller unit capable to analysing and controlling the electrical load in the smart home automation system.
Another object of the present invention is to provide a wireless connectivity circuit having an antenna being capable to transmit and receive the data to and from different wireless devices.
Yet another object of the present invention is to provide a peripheral electrical load management circuit can detect physical control of a switch and control the electrical load accordingly.
Another object of the present invention is to provide a radio frequency wireless connection that can be selected but not limited to Bluetooth, WI-FI, Mobile network etc.

Yet another object of the present invention is to provide a peripheral electrical load management device, which is an electrical load management circuit being capable but not limited to control different number of electrical loads.
Another object of the present invention is to provide a peripheral electrical load management device, which is an electrical load management circuit capable of controlling any type of electrical loads.
Another object of the present invention is to provide a series connection chain system to make adaptable load configurations in wireless smart-home systems being capable for peripheral devices to inter communicate with all the other peripheral devices whichever are in series connection chain system and send and/or receive the device’s data to in-series wireless device.
One more object of the present invention is to provide a series connection chain system with wireless connectivity being capable to lead a less intricate wireless network.
Yet another object of the present invention is to provide a series connection chain system with wireless connectivity circuit which is located behind the switchboard; which can be configured to adapt to any type of electrical load, any number of electrical load and any peripheral compatible device, without the need of adding extra power supply circuit and a wireless circuit.
Another object of the present invention is to provide a series connection chain system to make adaptable load configurations in wireless smart-home systems which can adapt to any type of electrical load such as a high-power electrical load, a dimmable electrical load etc., without the need of adding extra power supply circuit and a wireless circuit.
Another object of the present invention is to provide a series connection chain system to make adaptable load configurations in wireless smart-home systems which can adapt to any number of electrical loads to be controlled in smart home, without the need of adding extra power supply circuit and a wireless circuit.
Another object of the present invention is to provide a series connection chain system to make adaptable load configurations in wireless smart-home systems which can adapt to any peripheral compatible device, without the need of adding extra power supply circuit and a wireless circuit.
Another object of the present invention is to provide a series connection chain system such that the peripheral load management circuit and compatible peripheral devices can be arranged in series in any possible combination of sequence.
SUMMARY OF THE INVENTION

This summary is provided to introduce a selection of concepts in a simplified form that is further disclosed in the detailed description of the invention. This summary is not intended to identify key or essential inventive concepts of the claimed subject matter, nor is it intended for determining the scope of the claimed subject matter.

The main aspect of the present invention is to provide a series connection chain system to make adaptable load configurations in wireless smart-home systems including but not limited to a device which can control any number of electrical load and any type of electrical load as per requirements; also allowing integration of peripheral devices without the need of adding extra power supply circuit and a wireless circuit; where the peripheral load management circuit and compatible peripheral devices can be arranged in series in any possible combination of sequence. The wireless connectivity circuit having a data storage module, at least one antenna, and a microcontroller unit. The peripheral electrical load management circuit further comprising a microcontroller unit, plurality of tri-state switch, plurality of physical switch points and plurality of electrical load point. The power supply circuit being capable to provide sufficient power to the wireless connectivity circuit and every peripheral device connected in series. The series connection chain system being capable to expand the peripheral device connectivity.

As per another aspect of the present invention, the peripheral electrical load management circuit is connected with electrical loads and switch elements being capable to control any number of electrical load and any type of electrical load as per the requirement. The wireless connectivity circuit being capable to pass the signal to said electrical load management circuit as well as any series connected peripheral devices.

As per another aspect of the present invention is to provide a wireless connectivity node which are RF radio frequency, which can form a wireless network mesh system.

As per another aspect of the present invention is to provide an antenna being capable to transmit any data from peripheral devices to the users; also receive any data from the users to control the peripheral devices.

As per another aspect of the present invention is providing a peripheral electrical load management circuit that can detect physical control of a switch and control the electrical load accordingly. The peripheral electrical load management circuit being capable to control any numbers of electrical load. The peripheral electrical load management circuit can be capable of controlling high-power electrical load. The peripheral electrical load management circuit can be capable of dimming specific electrical loads. The electrical load management circuit being capable to transmit data signals via hardware serial communication protocol to the in series wireless connectivity circuit and receive appropriate data from in series wireless device.

As per another aspect of the present invention is to provide a series connection chain system to lead to a less intricate wireless network. The wireless connectivity circuit which is a single wireless circuit which is located behind a switchboard connected with other such wireless devices expanding the wireless mesh network.
BRIEF DESCRIPTION OF DRAWINGS

The foregoing summary, as well as the following detailed description of the invention, is better understood when read in conjunction with the appended drawings. To illustrate the invention, exemplary constructions of the invention are shown in the drawings. However, the invention is not limited to the specific methods and structures disclosed herein. The description of a method step or a structure referenced by a numeral in a drawing applies to the description of that method step or structure shown by that same numeral in any subsequent drawing herein.

Fig.1 is a schematic presentation of a wireless connectivity circuit that is used in a series connection chain system to adapt to the different load configuration in a smart home system.

Fig.2 illustrates an embodiment of a peripheral electrical load management circuit in a series connection chain system to adapt to any type of electrical load and any number of electrical loads to be controlled in the smart home.

Fig.3 represents the series connection chain system to adapt to any type of electrical load and any number of electrical loads to be controlled in the smart home.

Fig.4 represents the whole series connection chain system, including the power supply circuit, wireless connectivity circuit, peripheral electrical load management circuit and peripheral devices.

DETAILED DESCRIPTION OF INVENTION

The present invention overcomes the aforesaid drawbacks of the above, and other objects, features and advantages of the present invention will now be described in greater detail. Also, the following description includes various specific details and are to be regarded as merely exemplary. Accordingly, those of ordinary skill in the art will recognize that: without departing from the scope and spirit of the present disclosure and its various embodiments there may be any number of changes and modifications described herein.

It must also be noted that as used herein and in the appended claims, the singular forms "a", "an," and "the" include plural references unless the context dictates otherwise. Although any systems and methods similar or equivalent to those described herein can be used in the practice or testing of embodiments of the present invention, the preferred, systems and methods are now described.

The main embodiment of the present invention is to provide a series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems to adapt to any type of electrical load (101) and any number of electrical loads (101) to be controlled in a smart home comprising at least a power supply circuit (113), wireless connectivity circuit (102), a peripheral electrical load management circuit (103), a peripheral device (115) and a connector (104); said power supply circuit (113), wireless connectivity circuit (102), peripheral electrical load management circuit (103), and peripheral device (115) can be arranged in series in any possible combination of sequence; said connector (104) is power and data communication connector (104) which can carry the commands to the peripheral devices (115); said wireless connectivity circuit (102) having a data storage modules (105), at least one antenna (106), a microcontroller unit (107a); said peripheral electrical load management circuit (103) further comprising a microcontroller unit (107b), plurality of electronically controlled tri-state switch (110) is not limited to the relay, triac, etc. , plurality of switch points, and plurality of electrical load (101) point; said power supply circuit (113) provides power to the said wireless connectivity circuit (102), and peripheral devices (115); it may have a data communication connector (104); wherein, said series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems being capable to adapt to any type of electrical load (101) and any type of compatible peripheral devices (115) along with said wireless connectivity circuit (102) creating a node within a switchboard (114); said series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems being capable to add a new peripheral device (115) with different functionality, even when the peripheral device (115) doesn’t have a power supply circuit, in single switchboard (114); said power supply circuit (113) and said wireless connectivity circuit (102) are segregated and connected further with a peripheral electrical load management circuit (103), and a peripheral device (115); also allowing integration of peripheral devices (115) without the need of adding extra power supply circuit and a wireless circuit. This series connected system of power supply circuit (113), a wireless connectivity circuit (102) and peripheral device (115) is capable to pass the necessary data from the connected in-series peripheral device (115) to the wireless connectivity circuit (102) and then pass the signal wirelessly to the users; the said series connected chain system (100) is also capable to receive any data from the user wirelessly, and then to the wireless connectivity circuit (102), which will send the data to the in-series peripheral devices (115).

The power supply circuit (113) provides the necessary power for the whole series connection chain system (100) to function properly. It may also have connector (104) to supply the power and data to the devices connected in the series chain connection system (100).

As per another embodiment of the present invention is to provide a wireless connectivity circuit (102) which consists of a data storage module (105), at least one antenna (106), a microcontroller (107a). The data storage module (105) can, but not limited to, store the necessary data for the wireless connectivity circuit (102) to operate as needed. The microcontroller unit (107a) being capable to, but not limited to, perform functions as commanded via wireless data received from the user and send appropriate commands to the peripheral devices (115). The wireless connectivity circuit (102) creates a wireless node, which operates on radio frequency. The wireless connectivity circuit (102) being capable to connect to a wireless network of same such devices creating a mesh network, where each such device becomes a wireless node for that particular switchboard (114). The wireless connectivity circuit (102) having an antenna (106) being capable to transmit, and receive as well, the data to a wireless device via smart electronic device which has Bluetooth connectivity, WI-FI connectivity, Mobile network connectivity etc.

As per one embodiment of the present invention is to provide a wireless connectivity circuit (102) which can receive communications from peripheral devices (115) for feedback to the users. The single wireless connectivity circuit (102) that is located behind the switchboard (114), which leads a less intricate wireless network, connected with other such wireless devices expanding the wireless mesh network where each wireless connectivity circuit (102) becomes a wireless node for that particular switchboard (114). The input and output connectors (104) have power and data transfer connectivity.

As per one embodiment of the present invention, the series chain connection system (100) to make adaptable load (101) configurations in wireless smart-home systems consists a power supply circuit (113) which provides the necessary power for the whole series connection chain system (100) to function properly. It may also have connector (104) to supply the power and data to the devices connected in the series chain connection system (100).

As per one embodiment of the present invention is to provide a peripheral electrical load management circuit (103) having microcontroller unit (107b), plurality of electronically controlled tri-state switch (110), plurality of switch points and plurality of electrical load (101) points. The peripheral electrical load management circuit (103) can detect physical control of a switch and control the electrical load (101) accordingly. The peripheral electrical load management circuit (103) being capable to control any number of electrical loads (101) and any type of electrical load (101) with the help of a hardware serial communication protocol.

As per one embodiment of the present invention is to provide a series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems . The wireless connectivity circuit (102), peripheral devices (115), and peripheral electrical load management circuit (103) are connected with the power supply circuit (113) which provides the necessary power for the whole series connection chain system (100) to function properly. The peripheral electrical load management circuit (103) being connected with the peripheral electrical load (101) and switch elements being capable to control the electrical load (101) as per the requirement, which receives the control signals from the wireless connectivity circuit (102) for controlling the electrical load (101).

As per one embodiment of the present invention is to provide a series connection chain system (100) such that the peripheral load management circuit (103) and compatible peripheral devices (115) can be arranged in series in any possible combination of sequence.

As per one embodiment of the present invention is to provide a convenient way to send and receive data from peripheral devices (115) such as, but not limited to, energy meter device, gas sensor, temperature sensor etc. The wireless connectivity circuit (102) provides the necessary gateway for the peripheral device’s function. The data sent by the peripheral device can be allowed to be shared by the wireless connectivity circuit (102) providing an easy gateway. The peripheral devices (115) are provided with a power supply circuit and a wireless gateway, which will extend the applications of the series connection chain system (100). A hardware serial communication protocol can be used for the peripheral devices (115) to be able to inter-communicate. For Example, a device such as a gas sensor can be made, which would have compatibility with hardware serial communication protocol with appropriate connectors (104). Such an example is shown in figure 4. The data sent by the gas sensor can be allowed to be shared by the wireless connectivity circuit (102) which provides a necessary gateway for its data.

Referring FIG.1 of the present invention represents the wireless connectivity circuit (102), which can send and receive data signals wirelessly. It can communicate with peripheral devices (115) and peripheral electrical load management circuit (103) via a hardware serial communication protocol and communicate with users wirelessly. The single wireless connectivity circuit (102) that is located behind the switchboard (114) (114), connected with other such wireless devices expanding the wireless mesh network where each wireless connectivity circuit (102) becomes a wireless node for that particular switchboard (114). The wireless connectivity circuit (102) having an antenna (106) being capable to transmit, and receive as well, the data to a smart electronic device which has Bluetooth connectivity, WI-FI connectivity, Mobile network connectivity etc. It may include, but not limited to, data storage module (105), antenna (106) and microcontroller (107a) shown in FIG.1. The input and output connectors (104) have power and data transfer capability. The data storage module (105) can, but not limited to, store the necessary data for the wireless connectivity circuit (102) to operate as desired. The microcontroller unit (107a) being capable to, but not limited to, perform functions as commanded via wireless data received from the user and send appropriate commands to the peripheral devices (115).

Referring FIG.2 of the present invention represent the peripheral electrical load management circuit (103) having microcontroller unit (107b), plurality of electronically controlled tri-state switch (110), plurality of switch points and plurality of electrical load (101) points. The peripheral electrical load management circuit (103) can detect physical control of a switch and control the electrical load (101) accordingly. The peripheral electrical load management circuit (103) being capable to control any number of electrical loads (101) and any type of electrical load (101) with the help of a hardware serial communication protocol.

Referring FIG.3 of the present invention represent a series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems to be controlled in a smart home system, devices including but not limited to a device which can control an electrical load (101) as per requirements; also allowing integration of peripheral devices (115) without the need of adding extra power supply circuit and a wireless circuit. The figure shows the power supply circuit (113), the wireless connectivity circuit (102), peripheral electrical load management circuit (103), peripheral devices (115) and a power and date transfer connector (104). The power supply circuit (113) provides the necessary power for the whole series connection chain system (100) which includes said wireless connectivity circuit (102), peripheral electrical load management circuit (103) and peripheral devices (115). This series connected chain system (100) of power supply circuit (113), a wireless connectivity circuit (102) and peripheral device (115) is capable to pass the necessary data from peripheral device (115) to the wireless connectivity circuit (102) and then pass the signal wirelessly to the users; the said series connected chain system (100) is also capable to receive any data from the user wirelessly, and then to the wireless connectivity circuit (102), which will send the data to the peripheral devices (115).

Continuously referring FIG.3, the peripheral electrical load management circuit (103) is connected with an electrical load (101) and its switch elements being capable to control any number of electrical load (101) and any type of electrical load (101) as per the requirement. The wireless connectivity circuit (102) being capable to pass the signal to said peripheral electrical load management circuit (103) for controlling the electrical load (101) as needed.

Referring FIG.4 of the present invention represents the whole series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems in its full functionality. The power supply circuit (113), wireless connectivity circuit (102), peripheral devices (115), and the peripheral electrical load management circuit (103) are shown in series connection all together. The peripheral load management circuit (103) and compatible peripheral devices (115) can be arranged in series in any possible combination of sequence. A hardware serial communication protocol can be used for the peripheral devices (115) by the gateway provided by the wireless connectivity circuit (102). The peripheral devices (115) being capable to inter communicate with all the devices whichever are in series connection chain system (100).

Continuously referring FIG.4 in the series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems, the peripheral devices (115) can have different functionalities such as, but not limited to, energy meter, gas sensor, temperature sensor etc. The peripheral devices (115) are provided with necessary power supply and a gateway for its data to reach to the users and also receive data from the users.

Without further description, it is believed that one ordinary skill in the art can, using the preceding description and the illustrative examples, make and utilize the present invention and practice the claimed methods. It should be understood that the foregoing discussion and examples merely present a detailed description of certain preferred embodiments. It will be apparent to those of ordinary skill in the art that various modifications and equivalents can be made without departing from the spirit and scope of the invention.

Reference Numeral
Series connection chain system (100)
Load (101)
Wireless connectivity circuit (102)
Peripheral electrical load management circuit (103)
Connector (104)
Data storage modules (105)
Antenna (106)
Microcontroller unit (107a)
Microcontroller unit (107b)
Switches (109)
Electronically controlled tri-state switch (110)
Power supply circuit (113)
Switchboard (114)
Peripheral devices (115)


, Claims:CLAIMS
We Claim,
1. A series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems comprising:
at least a power supply circuit (113), wireless connectivity circuit (102), a peripheral electrical load management circuit (103), peripheral devices (115) and a power and data transfer connector (104);

said wireless connectivity circuit (102) having a data storage module (105), at least one antenna (106), a microcontroller unit (107a), said connector (104);

said peripheral electrical load management circuit (103) further comprising a microcontroller unit (107b), plurality of electronically controlled tri-state switch (110), plurality of switch points and plurality of electrical load (101) point, and said connector (104);

said power supply circuit (113) provides power to the said wireless connectivity circuit (102), peripheral electrical load management circuit (103) and peripheral devices (115); it may have a power and data communication connector (104);

wherein, said series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems being capable to adapt to the any number of electrical loads (101); said series connection chain system (100) is a connected system of power supply circuit (113), a wireless connectivity circuit (102), peripheral electrical load management circuit (103) and peripheral device (115) capable to pass the necessary data from peripheral device (115) and peripheral electrical load management circuit (103) to the wireless connectivity circuit (102) and then pass the signal wirelessly to the users to make sense of the data; the said series connected chain system (100) is also capable to receive any data from the user wirelessly, and then to the wireless connectivity circuit (102), which will send the data to the peripheral devices (115) and peripheral electrical load management circuit (103);

said peripheral electrical load management circuit (103) being connected with the peripheral electrical load (101) and switch elements and being capable to control any number of electrical loads (101) as per the requirement;

said wireless connectivity circuit (102) being capable to pass the wireless signal received from the user to said peripheral electrical load management circuit (103) and peripheral devices (115); also receive data from said peripheral electrical load management circuit (103) and peripheral devices (115) to the wireless connectivity circuit (102) and then to the users wirelessly.

2. The series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems as claimed in claim 1, wherein said microcontroller unit (107a, 107b) being capable to, but not limited to, perform functions as commanded via wireless signal received from the user and send appropriate commands to the peripheral devices (115) and peripheral electrical load management circuit (103).

3. The series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems as claimed in claim 1, wherein said wireless connectivity circuit (102) is connected with other such wireless devices expanding the wireless mesh network where each wireless connectivity circuit (102) becomes a wireless node for that particular switchboard (114).

4. The series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems as claimed in claim 1, wherein said wireless connectivity circuit (102) having an antenna being capable to transmit any data from peripheral devices to the users; also receive any data from the users to control the peripheral devices (115) and peripheral electrical load management circuit (103).

5. The series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems as claimed in claim 1, wherein said peripheral electrical load management circuit (103) can control any number of electrical loads (101).

6. The series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems as claimed in claim 1, the peripheral load management circuit (103) and compatible peripheral devices (115) can be arranged in series in any possible combination of sequence.

7. The series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems as claimed in claim 1, wherein said peripheral electrical load management circuit (103) can detect physical control of a switch and control the electrical load (101) accordingly.

8. The series connection chain system (100) to make adaptable load configurations (101) in wireless smart-home systems as claimed in claim 1, wherein said radio frequency wireless connection can be selected but not limited to Bluetooth, WI-FI, Mobile network etc.

9. The series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems as claimed in claim 1, wherein said series connection chain system (100) to make adaptable load (101) configurations being capable to communicate with peripheral devices (115) such as but not limited to energy meter, gas sensor, temperature sensor etc.

10. The series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems as claimed in claim 1, wherein said series connection chain system (100) being capable to allow inter communication with all the devices whichever are in series connection chain system (100) and communicate with peripheral devices (115) and peripheral electrical load management circuit (103) in series.

11. The series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems as claimed in claim 1, wherein said series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems having a wireless network being capable to lead to a less intricate wireless network.

12. The series connection chain system (100) to make adaptable load (101) configurations in wireless smart-home systems as claimed in claim 1, wherein said peripheral electrical load management circuit (103) being capable to control various household and non-industrial office space electrical loads such as but not limited to heaters, lights, fans, air conditioner, etc.

Date this 21st Nov of 2022