CN114397954A

CN114397954A - Game host and game system

Info

Publication number: CN114397954A
Application number: CN202111534845.5A
Authority: CN
Inventors: 赖纬庭; 林廷翰; 王作书
Original assignee: Alibaba China Co Ltd
Current assignee: Yuanjingshengsheng Beijing Technology Co ltd
Priority date: 2021-12-15
Filing date: 2021-12-15
Publication date: 2022-04-26

Abstract

One or more embodiments of the present description provide a game host and a game system. The game system comprises a game host and a game controller. The game host comprises a first control module, a first power management module connected with the first control module, a power supply interface connected to the first power management module and used for being connected to an external power supply, and a charging module connected with the first power management module. The game controller comprises a second control module, a second power management module connected with the second control module, a battery module connected with the second power management module, and a power supply module connected to the second power management module, and the battery module is charged through the power supply module. The charging module of the game host is used for being connected with the power supply module of the game controller in a contact or non-contact manner so as to charge the game controller in a contact or non-contact manner. Therefore, the game controller can be charged in a contact or non-contact manner without a wired connection mode, and the charging operation can be carried out by one hand.

Description

Game host and game system

Technical Field

One or more embodiments of the present disclosure relate to the field of game technologies, and in particular, to a game host and a game system.

Background

A gaming system typically includes a game console and a game controller communicatively coupled to the game console. A game controller is a device used to control a video game. At present, the charging mode of the game controller is mainly wired, and the wired charging mode needs to connect the game controller with the game host through a charging connecting wire with a USB connector, so that the game controller can be charged after the game host starts a power supply.

However, such a wired charging method generally requires a two-handed operation, where one hand holds a charging connection cord inserted into the game machine and the other hand holds the game controller for insertion and removal, and the position of the connection alignment needs to be visually confirmed. Therefore, the insertion and extraction are not convenient.

In addition, the wired charging method requires repeated plugging and unplugging of the charging connection wire every time charging and discharging are performed, and thus the charging connection wire is broken over time.

Disclosure of Invention

In view of this, one or more embodiments of the present disclosure provide a game host and a game system, which can perform contact or non-contact charging on a game controller without a wired connection, and can perform charging operation with one hand, and are convenient to use.

According to a first aspect of one or more embodiments of the present description, a game host is presented. The game host comprises a first control module, a first power management module, a power supply interface and a charging module. The first power management module is connected with the first control module. The power supply interface is connected to the first power management module and used for being connected to an external power supply. The charging module is connected with the first power management module and is used for being connected with a power supply module of the game controller in a contact or non-contact mode so as to charge the game controller in a contact or non-contact mode.

Furthermore, the non-contact charging of the game controller by the game host comprises electromagnetic induction type wireless charging, the charging module of the game host comprises a transmitting coil, and the transmitting coil is used for being coupled with a receiving coil in the power supply module of the game controller, so that the game host can perform electromagnetic induction type wireless charging on the game controller.

Furthermore, the charging module of the game host comprises a first charging port, and the first charging port is used for being in contact fit with a second charging port in the power supply module of the game controller, so that the game host can perform contact charging on the game controller.

Further, the game host is to the contact charging that the game controller goes on is including the formula of inhaling to charge, the game host the module of charging still includes first magnetism keeper, first magnetism keeper be used for with the game controller second magnetism keeper looks magnetism in the power module inhale with first charge port with the second port of charging is aligned and is connected.

Further, the first magnetic holder is disposed within the first charging port; alternatively, the first magnetic holders are disposed at opposite ends of the first charging port.

According to a second aspect of the gaming system of one or more embodiments of the present specification, a gaming system is presented. The game system comprises a game host and a game controller connected with the game host. The game host comprises a first control module, a first power management module connected with the first control module, a power supply interface connected to the first power management module and used for being connected to an external power supply, and a charging module connected with the first power management module. The game controller comprises a second control module, a second power management module connected with the second control module, a battery module connected with the second power management module and a power supply module connected to the second power management module, and the battery module is charged through the power supply module. The charging module of the game host is used for being connected with the power supply module of the game controller in a contact or non-contact manner so as to charge the game controller in a contact or non-contact manner.

Further, the game host computer is to the non-contact charging that the game controller goes on includes that the electromagnetic induction formula is wireless to charge, the game host computer the module that charges includes transmitting coil, the game controller the power module include receiving coil, transmitting coil with receiving coil coupling is so that the game host computer is to the game controller carries out the wireless charging of electromagnetic induction formula.

Further, the charging module of the game host comprises a first charging port, the power supply module of the game controller comprises a second charging port, and the first charging port is in contact fit with the second charging port, so that the game host can perform contact charging on the game controller.

Further, the game host is to the contact that game controller goes on charges including the formula of inhaling charges of inhaling, the game host the module of charging still includes first magnetism keeper, the game controller the power module still includes second magnetism keeper, first magnetism keeper with second magnetism keeper looks magnetism is inhaled in order will first charge port with the second port of charging is aligned and is connected.

Further, the first magnetic holder is disposed within the first charging port and the second magnetic holder is disposed within the second charging port.

Further, the first magnetic holders are disposed at opposite ends of the first charging port, the second magnetic holders are disposed at opposite ends of the second charging port, and the first magnetic holders are aligned with the second magnetic holders.

Furthermore, the game system also comprises a display device, and the display device is connected with the second control module and is used for displaying the current electric quantity state of the battery module.

Furthermore, the display device comprises a display screen, a battery power display icon is arranged on the display screen, and the second control module controls the battery power display icon on the display screen to display correspondingly based on the power state of the battery module.

Furthermore, the display screen is also provided with a charging state display icon, and the second control module controls the charging state display icon of the display screen to correspondingly display based on the charging state of the battery module.

Further, the display screen is connected to the second control module through a flexible printed circuit.

Further, the display device comprises an indicator light, and the second control module controls the indicator light to emit different lights based on the state of charge of the battery module.

Further, the second control module also controls the indicator light to emit different lights based on the charging state of the battery module.

The game host and the game system in one or more embodiments of the present specification can realize the contact or non-contact charging of the game controller by the game host without a wired connection manner, and can realize the one-handed operation by charging the game controller in the contact or non-contact manner.

In the game host and the game system of one or more embodiments of the present disclosure, since the game controller can be charged in a contact or non-contact manner without a wired connection, a problem that a charging connection line is easily broken in a conventional wired connection is solved, and a service life of the game host and the game system is prolonged.

Drawings

FIG. 1 is a schematic diagram of the internal circuit connections of a gaming system according to one embodiment of the present description;

FIG. 2 is a schematic external view of a gaming system according to one embodiment of the present disclosure;

FIG. 3 is a schematic external view of a game console according to an embodiment of the present disclosure;

FIG. 4 is a schematic external view of a game console according to another embodiment of the present disclosure;

FIG. 5 is a simplified schematic diagram of a charging module of a game console according to one embodiment of the present disclosure;

FIG. 6 is a simplified schematic diagram of a charging module of a game console according to another embodiment of the present disclosure;

fig. 7 is a control flow diagram of charging of a game controller by a game host according to an embodiment of the present disclosure.

Detailed Description

Exemplary embodiments will be described in detail herein. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the exemplary embodiments do not represent all embodiments consistent with this specification. Rather, they are merely examples of apparatus consistent with certain aspects of the present description, as defined in the appended claims.

The terminology used in the description of the embodiments is for the purpose of describing particular embodiments only and is not intended to be limiting of the description. Unless otherwise defined, technical or scientific terms used in the embodiments of the present specification should have the ordinary meaning as understood by those having ordinary skill in the art to which the present specification pertains. As used in this specification and the appended claims, the terms "first," "second," and the like do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. "plurality" or "a number" means two or more. The word "comprising" or "comprises", and the like, means that the element or item listed as preceding "comprising" or "includes" covers the element or item listed as following "comprising" or "includes" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

One embodiment of the present specification provides a game machine 10, in which the game machine 10 has a charging function of a game controller 20, and the game machine 10 can perform contact or non-contact charging of the game controller 20 without a wired connection, and can perform a charging operation with one hand, which is convenient to use.

Another embodiment of the present specification also provides a game system 1 having the game machine 10.

The game host 10 and the game system 1 according to one or more embodiments of the present disclosure will be described in detail below with reference to the accompanying drawings.

Fig. 1 and fig. 2 disclose diagrams of a game system 1 according to an embodiment of the present disclosure, where fig. 1 is a schematic diagram of internal circuit connections of the game system 1, and fig. 2 is a schematic diagram of an external appearance of the game system 1. As shown in fig. 1 and 2, a game system 1 according to one embodiment of the present specification includes a game machine 10 and a game controller 20 connected to the game machine 10. The game host 10 includes a first control module 11, a first Power Management IC (PMIC) 12, a Power interface 13, and a charging module 14. The first power management module 12 is connected to the first control module 11, and the first power management module 12 manages and distributes power. The power supply interface 13 is connected to the first power management module 12, and may be connected to an external power supply 30 through a power cord 31 to supply power to the game host 10. The charging module 14 is connected to the first power management module 12.

As shown in fig. 2, the game controller 20 includes a housing 200, and left and right two

rockers

201 and 202, a cross key 203, a plurality of operation keys 204, an L key 205, and an R key 206, which are provided on the housing 200. The left and

right rockers

201 and 202, the cross key 203, and the plurality of operation keys 204 are disposed on the front surface of the housing 200, respectively, the L key 205 is disposed at a position that can be reached by the index finger and the middle finger of the left hand at the top end of the housing 200, and the R key 206 is disposed at a position that can be reached by the index finger and the middle finger of the right hand at the top end of the housing 200. Of course, the keys provided on the housing 200 of the game controller 20 of the present description are not limited thereto, and in other embodiments, the game controller 20 of the present description may further include other keys or omit some keys.

As shown in fig. 1, a game controller 20 according to an embodiment of the present disclosure includes a second control module 21, a second power management module (PMIC)22, a battery module 23, and a power supply module 24. Wherein the second control module 21 is arranged in the housing 200. A main board (not shown) is provided inside the housing 200, and the second control module 21 may be provided on the main board. The second power management module 22 is connected to the second control module 21, and the second power management module 22 manages and distributes power. The battery module 23 is communicatively connected to the second power management module 22 and may be used to power the entire game controller 20. The power supply module 24 is connected to the second power management module 22, and the battery module 23 can be charged through the power supply module 24.

The charging module 14 of the game host 10 can be used to connect the power supply module 24 of the game controller 20 in a contact or non-contact manner, so that the game host 10 can charge the game controller 20 in a contact or non-contact manner.

In one embodiment of the present description, the game host 10 may implement contactless charging of the game controller 20. Fig. 3 shows an external view of the game console 10 according to an embodiment of the present disclosure. As shown in fig. 3, the charging module 14 of the game host 10 is a wireless charging module 141. The contactless charging of the game controller 20 by the game host 10 may include, for example, but is not limited to, electromagnetic induction type wireless charging.

In an embodiment where the game console 10 performs electromagnetic induction type wireless charging on the game controller 20, the charging module 14 of the game console 10 may include a transmitting coil (not shown), the power supply module 24 of the game controller 20 may include a receiving coil (not shown), and the transmitting coil of the game console 10 may be coupled to the receiving coil of the game controller 20, so that after the game console 10 is powered on, the game console 10 can perform electromagnetic induction type wireless charging on the game controller 20 through an electromagnetic induction principle.

In another embodiment of the present description, the game host 10 may implement contact charging of the game controller 20. Fig. 4 shows an external view of the game controller 20 according to another embodiment of the present disclosure. As shown in fig. 4, the charging module 14 of the game host 10 is a contact charging module 142, which includes a first charging port 1421 (shown in fig. 5 and 6), and the power supply module 24 of the game controller 20 includes a second charging port (not shown). The first charging port 1421 of the game host 10 can be in contact-fit with the second charging port of the game controller 20, so that the game host 10 can perform contact charging on the game controller 20.

For example, in one embodiment, the first charging port 1421 of the game console 10 may be a plug-type charging port, and the second charging port of the game controller 20 may be a socket-type charging port. The plug type charging port of the game host 10 can be plugged and matched with the socket type charging port of the game controller 20, so that the charging module 14 of the game host 10 is in contact fit with the power supply module 24 of the game controller 20.

In another embodiment, the contact charging of the game controller 20 by the game host 10 may include magnetic attraction charging.

In an embodiment where the game console 10 magnetically charges the game controller 20, the charging module 14 of the game console 10 may further include a first magnetic holder 1422 (as shown in fig. 5 and 6), and the power supply module 24 of the game controller 20 may further include a second magnetic holder (not shown). Wherein, the first magnetic keeper 1422 of the game host 10 can be magnetically attracted with the second magnetic keeper of the game controller 20, so as to align and connect the first charging port 1421 of the game host 10 with the second charging port of the game controller 20, thereby realizing the magnetic attraction between the charging module 14 of the game host 10 and the power supply module 24 of the game controller 20, and the connection alignment between the first charging port 1421 and the second charging port does not need to be visually confirmed, only needing to bring the power supply module 24 of the game controller 20 close to the charging module 14 of the game host 10, which is very convenient for operation.

Fig. 5 discloses a simplified schematic diagram of the charging module 14 of the game console 10 according to one embodiment of the present disclosure. As shown in fig. 5, in one embodiment, the first magnetic retainer 1422 of the charging module 14 of the game host 10 is disposed within the first charging port 1421, and correspondingly, the second magnetic retainer of the power supply module 24 of the game controller 20 is disposed within the second charging port. Therefore, when the game controller 20 approaches the game host 10, the first charging port 1421 of the charging module 14 can be ensured to be accurately matched with the second charging port of the power supply module 24 under the magnetic attraction force of the first magnetic holder 1422 and the second magnetic holder.

Fig. 6 discloses a simplified schematic diagram of the charging module 14 of the game host 10 according to another embodiment of the present disclosure. As shown in fig. 6, in another embodiment, the first magnetic holders 1422 of the charging module 14 of the game console 10 are disposed at opposite ends of the first charging port 1421, and correspondingly, the second magnetic holders of the power supply module 24 of the game controller 20 are disposed at opposite ends of the second charging port, and the first magnetic holders 1422 of the charging module 14 of the game console 10 are aligned with the second magnetic holders of the power supply module 24 of the game controller 20. Therefore, when the game controller 20 approaches the game host 10, the first charging port 1421 of the charging module 14 and the second charging port of the power supply module 24 are aligned and matched under the magnetic attraction force of the first magnetic holder 1422 and the second magnetic holder.

In the game system 1 according to one or more embodiments of the present disclosure, the charging module 14 is disposed on the game host 10, the power supply module 24 is disposed on the game controller 20, and the charging module 14 can be connected and matched with the power supply module 24 in a contact or non-contact manner, so that the game host 10 can charge the game controller 20 in a contact or non-contact manner without a wired connection manner, and the game controller 20 can be charged in the contact or non-contact manner, thereby achieving one-handed operation, and the game controller 20 is not limited by the length limitation of a conventional charging connection line, which is more convenient to use.

The game host 10 and the game system 1 according to one or more embodiments of the present disclosure can realize contact or non-contact charging of the game controller 20 without using a wired connection method, thereby solving a problem that a charging connection line is easily broken in a conventional wired connection method, and improving a service life.

With continued reference to fig. 1 and 2, the game controller 20 of one embodiment of the present description may further include a display device 25. The display device 25 is connected to the second control module 21 and can be used to display the current power state of the battery module 23, so that the user can easily determine the remaining power of the battery module 23 of the game controller 20 through the display device 25.

When the display device 25 displays that the current power of the battery module 23 of the game controller 20 is insufficient, the game controller 20 may be placed close to or directly on the game host 10 connected to the external power source 30, the power supply module 24 of the game controller 20 may be directly connected to the charging module 14 of the game host 10 in a contact or non-contact manner, and the game host 10 may charge the game controller 20 in a contact or non-contact manner.

In one embodiment, the display device 25 includes a display screen 251, and the display screen 251 may have a battery level display icon (not shown). The second control module 21 may control the battery power display icon on the display screen 251 to be displayed accordingly based on the power state of the battery module 23. For example, when the battery module 23 is full of electricity, the battery electricity display icon on the display screen 251 is controlled to display a full grid; and when the battery module 23 is not fully charged, the battery power display icon on the display screen 251 is controlled to display the corresponding grid number of the remaining power. Alternatively, in other embodiments, the battery level display icon on the display screen 251 may be controlled to display the corresponding percentage of the remaining battery level, and the like. Thus, the current power of the game controller 20 can be displayed in real time.

The display screen 251 may also have a charge status display icon (not shown). The second control module 21 may control the charge state display icon of the display screen 251 to be displayed accordingly based on the charge state of the battery module 23. For example, when the game controller 20 is charged, a charge state display icon on the display screen 251 displays a lightning identification; whereas, when the game controller 20 is not charged, the charge state display icon on the display screen 251 does not display the lightning indication. Thus, the user can be made aware of the current charging state of the game controller 20.

The display screen 251 is disposed on the housing 200 and connected to the second control module 21. In one embodiment, the display screen 251 may be connected to the second control module 21 on the main board through a Flexible Printed Circuit (FPC) (not shown).

In another embodiment, the display device 25 includes an indicator lamp (not shown), and the second control module 21 controls the indicator lamp to emit different lights based on the state of charge of the battery module 23, so that the user can conveniently know the state of charge of the battery module 23. For example, when the battery module 23 has sufficient power, the control indicator lights emit stable light, and when the battery module 23 has insufficient power, the light emitted by the control indicator lights continuously flashes to prompt the user to charge the game controller 20 in time.

The second control module 21 may also control the indicator lamp to emit different lights based on the charge state of the battery module 23, so that it can be conveniently observed by the user. For example, when the battery module 23 is not fully charged, the control indicator lamp displays red; after the battery module 23 is fully charged, the control indicator lamp displays green. Alternatively, in another embodiment, the indicator lamp may be controlled to emit light of different intensities or the like according to the state of charge of the battery module 23.

Fig. 7 discloses a charging control flow chart of the game controller 20 by the game host 10 according to an embodiment of the present disclosure. As shown in fig. 7, the charging control flow of the game host 10 to the game controller 20 according to one embodiment of the present specification may include steps S11 to S15.

In step S11, the game host 10 is connected to the external power supply 30 through the power cord.

The external power supply 30 enters the first power management module 12 through the power supply interface 13 of the game host 10 for distribution, part of the power is distributed to the charging module 14 to wait for charging the game controller 20 to be connected, and part of the power is distributed to the first control module 11 for the whole game host 10 to operate.

In step S12, the game controller 20 is brought close to or placed on the game host 10.

When the game controller 20 is kept powered on or powered off, the power supply module 24 of the game controller 20 is close to or placed on the corresponding charging module 14 of the game host 10, and at this time, the power supply module 24 of the game controller 20 and the charging module 14 of the game host 10 are coupled in a non-contact manner or in a contact manner.

In step S13, the game host 10 starts charging the game controller 20 by coupling the charging module 14 of the game host 10 and the power supply module 24 of the game controller 20.

In step S14, the battery module 23 of the game controller 20 performs power storage.

After receiving the power, the game controller 20 distributes part of the power to the battery module 23 for storage for future use through the distribution of the second power management module 22.

In step S15, the display device 25 displays the current state of charge of the battery module 23.

Part of the power received by the game controller 20 is distributed to the second control module 21 through the second power management module 22 for system operation, and the second control module 21 transmits the power signal of the battery module 23 to the second control module 21, and the second control module 21 controls the power signal of the battery module 23 to be further transmitted to the display device 25 (for example, the display screen 251 or the indicator light) to display the current power state of the battery module 23.

The above description of the embodiments is only intended to help understand the core ideas of the present specification. It should be noted that, for those skilled in the art, without departing from the spirit and principle of the present specification, several improvements and modifications can be made to the present specification, and these improvements and modifications should fall within the protection scope of the claims set forth in the specification.

Claims

1. A game host, comprising:

a first control module;

the first power supply management module is connected with the first control module;

the power supply interface is connected to the first power supply management module and is used for being connected to an external power supply; and

and the charging module is connected with the first power management module and is used for being connected with a power supply module of the game controller in a contact or non-contact manner so as to charge the game controller in a contact or non-contact manner.

2. The game host of claim 1, wherein the non-contact charging of the game controller by the game host comprises electromagnetic induction wireless charging, and the charging module of the game host comprises a transmitting coil, and the transmitting coil is configured to couple with a receiving coil in the power supply module of the game controller, so that the game host electromagnetically and wirelessly charges the game controller.

3. The game host of claim 1, wherein the charging module of the game host comprises a first charging port, and the first charging port is configured to be in contact fit with a second charging port in the power supply module of the game controller, so that the game host can perform contact charging on the game controller.

4. The game console of claim 3, wherein the contact charging of the game console by the game console comprises magnetic attraction charging, and the charging module of the game console further comprises a first magnetic holder for magnetically attracting a second magnetic holder in the power module of the game console to align and connect the first charging port with the second charging port.

5. The game host of claim 4, said first magnetic keeper being disposed within said first charging port; alternatively, the first magnetic holders are disposed at opposite ends of the first charging port.

6. A gaming system, comprising:

the game host comprises a first control module, a first power management module connected with the first control module, a power supply interface connected to the first power management module and used for being connected to an external power supply, and a charging module connected with the first power management module; and

a game controller connected with the game host, the game controller comprises a second control module, a second power management module connected with the second control module, a battery module connected with the second power management module, and a power supply module connected to the second power management module, the battery module is charged through the power supply module,

the charging module of the game host is used for being connected with the power supply module of the game controller in a contact or non-contact manner so as to charge the game controller in a contact or non-contact manner.

7. The gaming system of claim 6, wherein the contactless charging of the game controller by the game host comprises electromagnetic induction wireless charging, the charging module of the game host comprises a transmitting coil, and the power supply module of the game controller comprises a receiving coil, the transmitting coil coupled to the receiving coil, such that the game host electromagnetically inductively wirelessly charges the game controller.

8. The game system of claim 6, wherein the charging module of the game host comprises a first charging port, and the power supply module of the game controller comprises a second charging port, and the first charging port and the second charging port are in contact fit, so that the game host can perform contact charging on the game controller.

9. The gaming system of claim 8, wherein the contact charging of the game controller by the game console comprises magnetic attraction charging, the charging module of the game console further comprises a first magnetic holder, and the power supply module of the game controller further comprises a second magnetic holder, wherein the first magnetic holder and the second magnetic holder are magnetically attracted to align and connect the first charging port and the second charging port.

10. The gaming system of claim 9, the first magnetic holder being disposed within the first charging port, the second magnetic holder being disposed within the second charging port; or

The first magnetic retainers are disposed at opposite ends of the first charging port, the second magnetic retainers are disposed at opposite ends of the second charging port, and the first magnetic retainers are aligned with the second magnetic retainers.

11. The gaming system of any of claims 6-10, further comprising a display device coupled to the second control module for displaying a current state of charge of the battery module.

12. The game system of claim 11, wherein the display device comprises a display screen having a battery power display icon thereon, and the second control module controls the battery power display icon on the display screen to display accordingly based on the power status of the battery module.

13. The game system of claim 12, the display screen further comprises a charging status display icon, and the second control module controls the charging status display icon of the display screen to be displayed correspondingly based on the charging status of the battery module.

14. The game system of claim 11, the display device comprising an indicator light, the second control module controlling the indicator light to emit different lights based on a state of charge of the battery module and/or a state of charge of the battery module.