TWI822995B - Method and system of battery data verification and exchange - Google Patents

Abstract

The present disclosure provides a method of battery data verification and exchange, and the method includes steps as follows. When a first battery is close to a first communication device, a first communication module of the first battery receives a first verification code transmitted from the first communication device. The first battery determines whether the first verification code is correct. When a second battery is close to a second communication device, a second communication module of the second battery receives a second verification code transmitted from the second communication device. The second battery determines whether the second verification code is correct. When the first verification code is correct and when the second verification code is correct, the first battery and the second battery are allowed to perform data exchange.

Description

Method and system for battery data verification and exchange

The present invention relates to a method and system, and in particular, to a method and system for battery data verification and exchange.

A battery exchange station is an energy station that supplies electric energy to electric vehicles by providing large-scale battery replacement. However, battery exchange stations take up a lot of space, and the density of battery exchange stations in cities is too low, causing inconvenience to users.

In view of this, how to exchange battery data without using a battery exchange station has become an important issue.

The present invention proposes a method and system for battery data verification and exchange, which improves the problems of the prior art.

In one embodiment of the present invention, the battery data verification and exchange method proposed by the present invention includes the following steps: when the first battery and the first communication device are close to each other, receive data through the first communication module of the first battery. The first verification code transmitted from the first communication device; judging whether the first verification code is correct through the first battery; when a second battery and a second communication device are close to each other, a second communication module of the second battery Receive a second verification code transmitted from the second communication device; determine whether the second verification code is correct through the second battery; when the first verification code is correct and the second verification code is correct, the first battery and the second battery allow execution Data exchange.

In an embodiment of the present invention, determining whether the first verification code is correct through the first battery includes: determining whether the first verification code matches a first verification data of the first battery; when the first verification code matches the first verification code, When the data matches, it is determined that the first verification code is correct; when the first verification code is correct, the first prompt action is performed through the first battery.

In an embodiment of the present invention, the first prompting action is that the first display light of the first battery continues to light up.

In an embodiment of the present invention, determining whether the second verification code is correct through the second battery includes: determining whether the second verification code matches a second verification data of the second battery; when the second verification code matches the second verification code, When the data matches, it is determined that the second verification code is correct; when the second verification code is correct, a second prompt action is performed through the second battery.

In an embodiment of the present invention, the second prompting action is that the second display light of the second battery continues to light up.

In an embodiment of the present invention, allowing data exchange includes: when the first battery performs the first prompting action and the second battery performs the second prompting action, if the first battery and the second battery are close to each other, through the first battery The first communication module establishes communication with the second communication module of the second battery, thereby Allows data exchange to be performed.

In an embodiment of the present invention, performing data exchange includes: copying the first battery data of the first battery to the second battery, where the first battery data includes the first verification data.

In an embodiment of the present invention, performing data exchange includes: exchanging first battery data of the first battery and a second battery data of the second battery, wherein the first battery data includes first verification data, and the second battery data includes: The battery data includes secondary verification data.

In an embodiment of the present invention, performing data exchange includes: transferring the first battery data of the first battery to the second battery, and deleting the first battery data from the first battery, wherein the first battery data includes the 1. Verification information.

In an embodiment of the present invention, the above method further includes: during the execution of data exchange, the first battery changes from the first prompting action to performing the third prompting action, and the second battery changes from the second prompting action to performing the third prompting action. Four prompt actions. After the data exchange is performed, the first battery stops the third prompting action, and the second battery stops the fourth prompting action.

In one embodiment of the invention, the battery data verification and exchange system proposed by the invention includes a first communication device, a second communication device, a first battery and a second battery. The first battery includes the first communication module, and the second battery includes the second communication module. When the first battery and the first communication device are close to each other, the first communication module of the first battery receives the first verification code transmitted from the first communication device, and the first battery determines whether the first verification code is correct. When the second When the battery and the second communication device are close to each other, the second communication module of the second battery receives a second verification code transmitted from the second communication device, and the second battery determines whether the second verification code is correct. When the first verification code is correct and the second verification code is correct, the first battery and the second battery are allowed to perform data exchange.

To sum up, the technical solution of the present invention has obvious advantages and beneficial effects compared with the existing technology. Through the technical solution of the present invention, battery data can be exchanged without using a battery exchange station.

The above description will be described in detail in the following embodiments, and a further explanation of the technical solution of the present invention will be provided.

In order to make the above and other objects, features, advantages and embodiments of the present invention more obvious and understandable, the accompanying symbols are explained as follows:

110:First battery

111:The first communication module

112:First processor

113: First storage device

114: First display light signal

115: First battery unit

120: Second battery

121: Second communication module

122: Second processor

123: Second storage device

124: Second display signal

125: Second battery unit

130: First communication device

140: Second communication device

200: Methods of verifying and exchanging battery data

S201~S205: steps

In order to make the above and other objects, features, advantages and embodiments of the present invention more clearly understood, the accompanying drawings are described as follows: Figure 1 is a battery data verification and exchange system according to an embodiment of the present invention. Block diagram; and Figure 2 is a flow chart of a battery data verification and exchange method according to an embodiment of the present invention.

In order to make the description of the present invention more detailed and complete, reference may be made to the attached drawings and the various embodiments described below. The same numbers in the drawings represent the same or similar components. On the other hand, well-known components and steps are not described in the embodiments to avoid unnecessary limitations on the present invention.

In the embodiments and patent claims, the description of "connection" may generally refer to one element being indirectly coupled to another element through other elements, or one element being directly connected to another element without going through other elements.

In the embodiments and the scope of the patent application, the description of "connection" can generally refer to one component indirectly communicating with another component through wired and/or wireless communication through other components, or one component not being physically connected through other components. Connect to another component.

In the embodiments and the scope of the patent application, unless there is a special limitation on the article in the context, "a" and "the" can generally refer to a single one or a plurality.

The words "about", "approximately" or "approximately" used in this article are used to modify any quantity that may vary slightly, but such slight variations will not change its essence. Unless otherwise specified in the implementation, the error range of the numerical values modified by "approximately", "approximately" or "approximately" is generally allowed to be within 20%, preferably within 10%. Within, and preferably within 5%.

Figure 1 is a block diagram of a battery data verification and exchange system according to an embodiment of the present invention. As shown in FIG. 1 , the first battery 110 includes a first communication module 111 , a first processor 112 , a first storage device 113 , a first display light 114 and a first battery unit 115 . The second battery 120 includes a second communication module 121, a second processor 122, a second storage device 123, a second display light 124 and a second battery unit 125.

For example, the first communication module 111 and the second communication module 121 It can be a communication circuit, the first processor 112 and the second processor 122 can be a microcontroller, the first storage device 113 and the second storage device 123 can be a memory device, the first display light 114 and the second display light The number 124 may be a light emitting diode, and the first battery unit 115 and the second battery unit 125 may be a battery cell and its management circuit.

Architecturally, the first processor 112 is electrically connected to the first communication module 111, the first storage device 113, the first display light 114 and the first battery unit 115. The second processor 122 is electrically connected to the second communication module 121, the second storage device 123, the second display light 124 and the second battery unit 125.

During use, when the first battery 110 and the first communication device 130 (such as a mobile phone, a chip card) are close to each other, the first communication module 111 of the first battery 110 establishes wireless communication with the first communication device 130 . When the second battery 120 and the second communication device 140 (such as a mobile phone or a chip card) are close to each other, the second communication module 121 of the second battery 120 establishes wireless communication with the second communication device 140 . When the first battery 110 and the second battery 120 are close to each other, the first communication module 111 of the first battery 110 and the second communication module 121 of the second battery 120 establish wireless communication.

Regarding battery data verification, when the first battery 110 and the first communication device 130 are close to each other, the first verification code transmitted from the first communication device 130 is received through the first communication module 111 of the first battery 110. The first processor 112 Determine whether the first verification code is correct. Similarly, when the second battery 120 and the second communication device 140 are close to each other, the second verification code transmitted from the second communication device 140 is received through the second communication module 121 of the second battery 120, and the second process The processor 122 determines whether the second verification code is correct. When the first verification code is correct and the second verification code is correct, the first battery 110 and the second battery 120 allow data exchange to be performed.

Regarding the mechanism for determining whether the first verification code is correct, the first processor 112 determines whether the first verification code matches the first verification data in the first storage device 113 . When the first verification code matches the first verification information, the first processor 112 determines that the first verification code is correct. When the first verification code is correct, the first display light 114 performs a first prompting action, and the first prompting action may be that the first displaying light 114 continues to light up.

Similarly, regarding the mechanism for determining whether the second verification code is correct, the second processor 122 determines whether the second verification code matches the second verification data in the second storage device 123 . When the second verification code matches the second verification information, the second processor 122 determines that the second verification code is correct. When the second verification code is correct, the second display light 124 performs a second prompting action, and the second prompting action may be that the second displaying light 124 continues to light up.

When the first battery 110 performs the first prompting action and the second battery 120 performs the second prompting action, if the first battery 110 and the second battery 120 are close to each other, the first communication module 111 of the first battery 110 and the second battery The second communication module 121 of 120 establishes communication to allow data exchange to be performed.

In one embodiment of the present invention, data exchange may be copy access. The first processor 112 copies the first battery data of the first storage device 113 to the second storage of the second battery 120 through the first communication module 111 device 123. For example, the first battery data may include the above-mentioned first verification data and/or other data. In practice, "copy access" can be applied to the operation when buying new batteries. The user's original first battery 110 is an old battery, and the purchased second battery 120 is a new battery.

In another embodiment of the present invention, data exchange may be swap access. The first processor 112 transfers the first battery data of the first storage device 113 to the second battery data of the second battery 120 through the first communication module 111 . The second storage device 123 is provided, and the second processor 122 transfers the second battery data of the second storage device 123 to the first storage device 113 of the first battery 110 through the second communication module 121 . For example, the first battery data may include the above-mentioned first verification data and/or other data, and the second battery data may include the above-mentioned second verification data and/or other data. In practice, "swap access" can be applied to borrowing and swapping.

In another embodiment of the present invention, the data exchange may be transfer access. The first processor 112 transfers the first battery data of the first storage device 113 to the second battery 120 through the first communication module 111 . the second storage device 123, and the first processor 112 deletes the first battery data of the first storage device 113. For example, the first battery data may include the above-mentioned first verification data and/or other data. In practice, "transfer access" is suitable for the sharing economy model, where the user returns the first battery 110 and takes the second battery 120 .

Regarding the selection of the above different types of data exchange, in practice, the first battery 110 and the second battery 120 may be provided with input devices for the user to select "copy access", "swap access" or "transfer access" ”. Or, make The user can select "copy access", "exchange access" or "transfer access" through the first communication device 130 (such as a mobile phone) and/or the second communication device 140 (such as a mobile phone).

During the execution of data exchange, the first display light 114 changes from the first prompt action (e.g., always on) to the third prompt action (e.g., light flashes), and the second display light 124 changes from the second prompt action (e.g.: always on) changes to the execution of the fourth prompt action (e.g.: light flashing).

After the data exchange is performed, the first display light 114 stops the third prompting action, and the second displaying light 124 stops the fourth prompting action.

In order to further elaborate on the above battery data verification and exchange method, please refer to Figures 1 to 2. Figure 2 is a flow chart of a battery data verification and exchange method 200 according to an embodiment of the present invention. As shown in Figure 2, the battery data verification and exchange method 200 includes steps S201 to S205 (it should be understood that, unless the order of the steps mentioned in this embodiment is specifically stated, all of them can be changed according to actual needs. Adjust the order before and after, and even execute them simultaneously or partially simultaneously).

In step S201, when the first battery 110 and the first communication device 130 are close to each other, the first verification code transmitted from the first communication device 130 is received through the first communication module 111 of the first battery 110. In step S202, it is determined whether the first verification code is correct through the first battery 110.

Specifically, in step S202, it is determined whether the first verification code matches the first verification information of the first battery 110; when the first verification code matches the first verification information, it is determined that the first verification code is correct; when the first verification code matches the first verification information, it is determined that the first verification code is correct; Verification code When correct, the first prompting action is performed through the first battery 110 . In an embodiment of the present invention, the first prompting action is that the first display light 114 of the first battery 110 continues to light up.

Similarly, in step S203, when the second battery 120 and the second communication device 140 are close to each other, the second verification code transmitted from the second communication device 140 is received through the second communication module 121 of the second battery 120. In step S204, it is determined whether the second verification code is correct through the second battery 120.

Specifically, in step S204, it is determined whether the second verification code matches the second verification information of the second battery 120; when the second verification code matches the second verification information, it is determined that the second verification code is correct; when the second verification code matches the second verification information, it is determined that the second verification code is correct; When the verification code is correct, the second prompting action is performed through the second battery 120 . In an embodiment of the present invention, the second prompting action is that the second display light 124 of the second battery 120 continues to light up.

When the first verification code is correct and the second verification code is correct, in step S205, the first battery 110 and the second battery 120 are allowed to perform data exchange.

Specifically, in step S205, when the first battery 110 performs the first prompting action and the second battery 120 performs the second prompting action, if the first battery 110 and the second battery 120 are close to each other, through the first battery 110 A communication module 111 establishes communication with the second communication module 121 of the second battery 120, thereby allowing data exchange to be performed.

In step S205, the data exchange may be copy access, and executing the data exchange includes copying the first battery data of the first battery 110 to the second battery 120, where the first battery data includes the first verification data. Example Specifically, the first battery information may include the above-mentioned first verification information and/or other information. In practice, "copy access" can be applied to the operation when buying new batteries. The user's original first battery 110 is an old battery, and the purchased second battery 120 is a new battery.

Alternatively, in step S205, the data exchange may be exchange access, and performing the data exchange includes: exchanging the first battery data of the first battery 110 and a second battery data of the second battery 120 with each other. For example, the first battery data may include the above-mentioned first verification data and/or other data, and the second battery data may include the above-mentioned second verification data and/or other data. In practice, "swap access" can be applied to borrowing and swapping.

Alternatively, in step S205, performing data exchange includes: transferring the first battery data of the first battery 110 to the second battery 120, and deleting the first battery data from the first battery 110. For example, the first battery data may include the above-mentioned first verification data and/or other data. In practice, "transfer access" is suitable for the sharing economy model, where the user returns the first battery 110 and takes the second battery 120 .

In the method 200 of battery data verification and exchange, during the execution of data exchange, the first battery 110 changes from the first prompting action (for example, always on) to the third prompting action (for example, the light flashes), and the second prompting action is performed. The battery 120 changes from the second prompt action (eg, always on) to the fourth prompt action (eg, light flashing). After the data exchange is performed, the first battery 110 stops the third prompting action, and the second battery 120 stops the fourth prompting action.

To sum up, compared with the prior art, the technical solution of the present invention has the following advantages: Obvious advantages and beneficial effects. Through the technical solution of the present invention, battery data can be exchanged without using a battery exchange station.

Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention. Anyone skilled in the art can make various modifications and modifications without departing from the spirit and scope of the present invention. Therefore, the protection of the present invention is The scope shall be determined by the appended patent application scope.

200: Methods of verifying and exchanging battery data

S201~S205: steps

Claims (11)

A method for verifying and exchanging battery data. The method includes: when a first battery and a first communication device are close to each other, receiving a message from the first communication device through a first communication module of the first battery. a first verification code; determine whether the first verification code is correct through the first battery; when a second battery is close to a second communication device, a second communication module of the second battery receives data from the second A second verification code transmitted from the communication device; judging whether the second verification code is correct through the second battery; and when the first verification code is correct and the second verification code is correct, the first battery and the second verification code The battery allows data exchange to be performed. The method of claim 1, wherein determining whether the first verification code is correct through the first battery includes: determining whether the first verification code matches a first verification data of the first battery; when the first verification code matches the first verification data of the first battery; When the verification code matches the first verification data, it is determined that the first verification code is correct; and when the first verification code is correct, a first prompting action is performed through the first battery. The method of claim 2, wherein the first prompting action is that a first display light of the first battery continues to light up. The method described in claim 2, wherein judging whether the second verification code is correct through the second battery includes: judging whether the second verification code matches a second verification data of the second battery; when the second verification code matches When the verification code matches the second verification data, it is determined that the second verification code is correct; and when the second verification code is correct, a second prompt action is performed through the second battery. The method of claim 4, wherein the second prompting action is that a second display light of the second battery continues to light up. The method of claim 4, wherein allowing the data exchange includes: when the first battery performs the first prompting action and the second battery performs the second prompting action, if the first battery and the third The two batteries are close together, and communication is established through the first communication module of the first battery and the second communication module of the second battery, thereby allowing the data exchange to be performed. The method described in claim 6, wherein the data exchange is performed, includes: Copy a first battery data of the first battery to the second battery, where the first battery data includes the first verification data. According to the method of claim 6, performing the data exchange includes: exchanging a first battery data of the first battery and a second battery data of the second battery, wherein the first battery data includes the third battery data. A verification data, the second battery data includes the second verification data. According to the method described in claim 6, performing the data exchange includes: transferring a first battery data of the first battery to the second battery, and deleting the first battery data from the first battery, wherein The first battery data includes the first verification data. The method of claim 6 further includes: during the execution of the data exchange, the first battery changes from the first prompting action to perform a third prompting action, and the second battery changes from the second prompting action to performing a third prompting action. The action changes to executing a fourth prompting action; and after the data exchange is performed, the first battery stops the third prompting action, and the second battery stops the fourth prompting action. A system for battery data verification and exchange, which includes: A first communication device; a first battery, including a first communication module. When the first battery is close to the first communication device, the first communication module of the first battery receives data from the first communication device. A first verification code sent from the device, the first battery determines whether the first verification code is correct; a second communication device; and a second battery including a second communication module. When the second battery and the When the second communication device approaches, the second communication module of the second battery receives a second verification code transmitted from the second communication device, and the second battery determines whether the second verification code is correct. When a verification code is correct and the second verification code is correct, the first battery and the second battery are allowed to perform data exchange.