Description:Background of Invention:
New generation cell phones are supported with wireless charging for which there are many compatible chargers are available in market. These charger provides the facility of charging multiple phones of multiple users which is very useful during travelling. The wireless charging is easily accessible and is not device specific. The aim of coming up with this wireless charging converter is to make wireless charging accessible to any kind of mobile phone. Currently not all the mobile phones in the market have wireless charging support, this invention attempts to provide this feature of wireless charging even in phones which do not have the accessibility to do so.

Summary of invention
In an embodiment, the wireless charging converter device is disclosed. The assembly of a wireless charging converter involves integrating several key components to ensure efficient power transfer and durability. These components include a wireless charging pad, a flat cable, adhesive layer on the assembly, magnet, synthesizing network and a USB Type-C pin. The flat cable is securely connected to the wireless charging pad to ensure a stable electrical connection. Precision and careful alignment are essential for maintaining functionality and durability. High-quality adhesive layer is used for placing and sticking the assembly to the back of the phone. The flat cable is designed to be slim and flexible, carrying electrical signals efficiently. Constructed with multiple layers of conductive material and insulation, it ensures durability and optimal performance. The conductive material comprises of magnetic coil connected with synthesizing network capable of converting magnetic energy to electrical energy. The USB Type-C connector interfaces the wireless charging convertor assembly with the handset or device. Its flat design allows for easy integration into various devices while maintaining a low profile. It is known for its versatility, fast charging capabilities, and can be inserted in either orientation. The pins within the connector handle high power delivery and data transfer rates. During assembly, it is meticulously connected to the flat cable to ensure a robust and reliable connection. The wireless charging converter, through its well-integrated components and robust assembly, ensures efficient and reliable wireless charging for various devices. The components must be precisely aligned and securely bonded to maintain the cable's functionality and durability.

Description of drawing
Figure 1 is wireless charging converter device illustrating its front side and back views.
Figure 2: Wireless power transfer circuit equivalent is illustrated in this figure.

Detailed Description
The embodiment disclosed in Figure 1 is intended to describe the assembly and components of a wireless charging cable. The wireless charging converter shown in Figure 1 is an electronic device used to wirelessly charge incompatible devices. The assembly of the wireless charging converter involves integrating several key components to ensure efficient power transfer and durability. The flat cable 102 is a critical component designed to be slim and flexible while carrying electricity efficiently. Its flat design allows for easy integration into various devices and helps maintain a low profile. The flat cable 102 is constructed with multiple layers of conductive material and insulation, ensuring both durability and optimal performance. The adhesive layers 101 play a crucial role in the assembly of the wireless charging converter. High-quality adhesive 101 is used to place and stick the assembly 100 to the handset, ensuring that the components stay in place and maintain consistent contact. The adhesive must be strong enough to withstand regular use while also being flexible enough to accommodate slight movements and bending without losing its grip or causing damage to the cable. The USB Type-C connector 103 is the USB pin that connects the wireless charging converter to the device or handset. Known for its versatility and fast charging capabilities, the USB Type-C connector can be inserted in either orientation, adding convenience for the user. The pins within the USB Type-C connector are engineered to handle high power delivery and data transfer rates, making it suitable for modern devices. During assembly, the USB Type-C connector 103 is meticulously connected to the flat cable 102, ensuring a robust and reliable connection that supports the efficient transfer from the assembly 100 which in turn draws out power from the wireless chargers. The wireless charging assembly 100, as shown in Figure 1, is designed to interface with the flat cable 102 and USB Type-C connector 103. The assembly 100 receives power through wireless charger. The precise alignment of the flat cable 102 and the secure bonding with adhesive layers 101 are essential to maintain functionality and durability. The wireless charging converter, through its well-integrated components and robust assembly, ensures efficient and reliable wireless charging for various devices. The magnetic coils 201 and 202 shown in figure 2 couples the electric energy from transmitter to receiver wirelessly which is useful to connect to the cell phone batteries (load 206) through wire 102 and port 103.
Assembly(100): The assembly of a wireless charging cable involves integrating various components to ensure efficient power transfer. The key elements include a wireless charging pad, a flat cable, adhesive layers, and a USB Type-C connector. During assembly, the flat cable is securely connected to the wireless charging pad, ensuring a stable electrical connection. Precision and careful alignment are essential to maintain the functionality and durability of the charging cable.
Adhesive(101): Adhesive layers play a crucial role in the assembly of the wireless charging converter. High-quality adhesive is used to place and stick the assembly to the back of the phone, ensuring that the components stay in place and maintain consistent contact. The adhesive must be strong enough to withstand regular use while also being flexible enough to accommodate slight movements and bending without losing its grip or causing damage to the cable.
Flat Cable(102): The flat cable is a critical component of the wireless charging system, designed to be slim and flexible while carrying electrical signals efficiently. Its flat design allows for easy integration into various devices and helps in maintaining a low profile. The flat cable is typically constructed with multiple layers of conductive material and insulation, ensuring both durability and optimal performance. Its flexibility and slim form factor make it ideal for embedding in compact devices and ensuring a neat and organized appearance.
USB Type-C Pin(103): The USB Type-C pin is the interface that connects the wireless charging cable to power sources or devices. Known for its versatility and fast charging capabilities, the USB Type C connector can be inserted in either orientation, adding convenience for the user. The pins within the USB Type-C connector are engineered to handle high power delivery and data transfer rates, making it suitable for modern devices. During assembly, the USB Type-C pin is meticulously connected to the flat cable, ensuring a robust and reliable connection that supports the efficient transfer of power from the charging source to the wireless charging pad.
, Claims:I/We Claim:
1. A Wireless Charging Convertor comprising:
a primary body consists of a combination of a magnet and a synthesizing network;
a backside of primary body has a separate magnet which can be sticked to the phone with the help of a double sided adhesive on the magnet, providing a secure and convenient mounting solution;
a primary body further integrates USB C-type connector to be connected through wire to mobile phone which receives electrical supply received from synthesizing network which converts magnetic energy to electrical energy.