CN207819497U - The drive system of cradle - Google Patents

Abstract

The utility model is related to a kind of drive systems of cradle, the central processing module to charge including cradle the and power management module being connect with the central processing module, charging display module and power supply module, the power supply module are also connect with an output port module.The on or off for the metal-oxide-semiconductor on low and high level control power supply module that the drive system of the cradle is exported by the micro-control unit of central processing module charges to the game paddle of connecting interface on cradle；The high level that the multiple power supply control end different phases of micro-control unit controls of central processing module export is used again carries out time-sharing charging to the game paddle of multiple connecting interfaces on cradle to control the conducting of the metal-oxide-semiconductor on corresponding power supply module, it is realized on a cradle respectively to two Joycon game paddles and a Pro game paddles charging, the demand of modern consumer is met using the cradle of the drive system.

Description

The drive system of cradle

Technical field

The utility model is related to game paddle cradle technical fields, and in particular, to a kind of drive system of cradle.

Background technology

Game paddle is a kind of component of common electronics game machine, by manipulating its button etc., is realized to game virtual angle The control of color.

With the development of society and advancement of technology, game paddle develops into wireless, wireless game pads needs from wired Configure cradle.Existing wireless game pads have Pro game paddles and Joycon game paddles, the charging of this two game paddle Interface is different, must be equipped with different chargers in charging, can not be compatible with, not only inconvenient to carry, and be easy to because The case where omitting and causing can not to charge, can not use, while buying various chargers also and can increase use cost, it is current with The game host that game paddle matches cradle only allows system to provide maximum 500mA's to cradle by USB port Electric current cannot be given while charge to the multiple game paddles being placed on cradle, individually for every a wireless game The drive system of handle for charging seat cannot meet the needs of modern consumer.

Therefore, referring to Fig.1, it is desirable to provide one kind giving two 101 Hes of Joycon game paddles respectively on a cradle The drive system of one Pro game paddle 102 charging, so as to solve the deficiencies in the prior art.

Utility model content

A kind of drive system of cradle that in order to overcome the deficiencies of the prior art, the utility model provides.

The technical solution of the utility model is as follows：

A kind of drive system of cradle, including cradle charging central processing module and with the central processing module The power management module of connection, charging display module and power supply module, the power supply module are also connect with an output port module；

The central processing module is used to control the operation of the charging display module and the power supply module, the center Processing module includes the first micro-control unit U1 and the second micro-control unit U2 for being connect with the first micro-control unit U1, institute The first micro-control unit U1 is stated to connect with power supply module, the second micro-control unit U2 respectively with the power management module and The charging display module connection；

The power management module at least gives the central processing module to power；

The charging display module is used to show the state of cradle charging；

Whether the power supply module is placed on cradle and gives game paddle power supply, institute for detecting a game paddle It includes the first supply control unit to the power supply of Pro game paddles being connect with the first micro-control unit U1 to state power supply module With the second supply control unit powered to two Joycon game paddles, first supply control unit and described second supplies Include circuit for detecting, power supply power supply control circuit and sample circuit on electric control unit；

The output port module with game paddle for connecting.

Preferably, the pin 2 of the first micro-control unit U1 is connect with the pin 10 of the second micro-control unit U2 By the first micro-control unit U1 and the second micro-control unit U2 link together realization to cradle charging control System.

Preferably, the power management module includes power input connectivity port JP1, the first output port of power source VDD, Two output port of power source and connecting pin PW, the first output port of power source VDD and the second micro-control unit U2 pins 11 It powers to the second micro-control unit U2 with 14 connections；The first output port of power source VDD and the charging display module Connection, the second source output port are connect with the pin 1 and 16 of the first micro-control unit U1 to first micro-control Unit U1 power supplies processed；The connecting pin PW is connect with the pin 6 of the second micro-control unit U2.

Preferably, the charging display module includes at least three charging display units, described charging display unit one end It is connect with the first output port of power source VDD, the charging display unit of the other end and the second micro-control unit U2 Connection.

Further, the charging display unit includes at least two display lamps, and two display lamps are respectively red LED lamp And green LED lamp；Three charging display units show the charged state of three charging interfaces of cradle respectively, described in three Charging display unit is respectively the first charging display unit, the second charging display unit and third charging display unit.Specifically, First charging display unit and second charging display unit are for showing cradle to two Joycon game paddles The state of charging, first charging display unit are connect with the pin 1 and 2 of the second micro-control unit U2, and described second Charging display unit is connect with the pin 3 and 4 of the second micro-control unit U2；The third charging display unit is for showing To the state of Pro game paddles charging, the pin 17 of the third charging display unit and the second micro-control unit U2 and 18 connections.

Preferably, the circuit for detecting is for detecting whether game paddle connect with cradle charging contact, the detecting Circuit includes signal connection end, and described signal connection end one end is connect with the first micro-control unit U1, the other end it is described Signal connection end is connect with the output port module.

Further, there are three the signal connection end is arranged in the drive system of the cradle, three letters Number connecting pin is respectively signal connection end CON1, signal connection end CON2 and signal connection end CON3, the signal connection end One end of CON1 is connect with the pin 10 of the first micro-control unit U1, one end of the signal connection end CON2 and described the The pin 9 of one micro-control unit U1 connects, one end of the signal connection end CON3 and drawing for the first micro-control unit U1 Foot 8 connects.Wherein, the signal connection end is also connected an electrostatic impedor ESD2 ground connection.

Preferably, the power supply power supply control circuit includes power supply control end and power supply conveying switch metal-oxide-semiconductor, the power supply Control terminal one end is connect with the first micro-control unit U1, and the power supply control end and the power supply conveying of the other end switch The source electrode of metal-oxide-semiconductor connects, and the drain electrode of the power supply conveying switch metal-oxide-semiconductor is connect with the output port module；In the charging Setting is respectively to give there are three the power supply power supply control circuit, three power supply power supply control circuits in the drive system of seat The the first power supply power supply control circuit and second source power-supplying circuit and swum to a Pro that one Joycon game paddles are powered The third power supply power supply control circuit that handle of playing is powered.

Further, the first power supply power supply control circuit includes power supply control end CHR1 and the second metal-oxide-semiconductor Q2, described One end of power supply control end CHR1 is connect with the pin 14 of the first micro-control unit U1, the power supply control end of the other end CHR1 is connect with after the second source output port parallel connection with the source electrode of the second metal-oxide-semiconductor Q2, the second metal-oxide-semiconductor Q2's Drain electrode is connect with the output port module, the 27th resistance R27 ground connection of gate series 1 of the second metal-oxide-semiconductor Q2.

Further, the second source power-supplying circuit includes power supply control end CHR2 and the first metal-oxide-semiconductor Q1, described One end of power supply control end CHR2 is connect with the pin 13 of the first micro-control unit U1, the power supply control end of the other end CHR2 is connect with after the second source output port parallel connection with the source electrode of the first metal-oxide-semiconductor Q1, the first metal-oxide-semiconductor Q1's Drain electrode is connect with the output port module, the 32nd resistance R32 ground connection of gate series 1 of the first metal-oxide-semiconductor Q1.

Further, the third power supply power supply control circuit includes power supply control end CHR3 and third metal-oxide-semiconductor Q3, described One end of power supply control end CHR3 is connect with the pin 3 of the first micro-control unit U1, the power supply control end of the other end CHR3 is connect with after the second source output port parallel connection with the source electrode of the third metal-oxide-semiconductor Q3, the third metal-oxide-semiconductor Q3's Drain electrode is connect with the output port module, the 33rd resistance R33 ground connection of gate series 1 of the third metal-oxide-semiconductor Q3.

Preferably, the sample circuit is for sampling cradle to being fed back after the whether fully charged charge information of game paddle To being handled in the central processing module, the sample circuit includes two concatenated resistance, the node note of two series resistances It is connect with the output port module for A, node A, a resistance of the other end is connect with the first micro-control unit U1, separately The other end ground connection of one resistance.

Preferably, the output port module includes two first output connecting interfaces and the second output connecting interface, institute It states the first output connecting interface and is also connected with a conversion connecting interface；Two the first output connecting interfaces are respectively with described second Supply control unit connects, and the second output connecting interface is connect with first supply control unit.

The beneficial effects of the utility model are：Compared with prior art, the drive system of the cradle passes through central processing The on or off of metal-oxide-semiconductor on low and high level that the micro-control unit of module exports control power supply module on cradle to connecting The game paddle of connection interface charges；The multiple power supply control end different phases of micro-control unit controls of central processing module are used again The high level exported is to control game of the conducting to multiple connecting interfaces on cradle of the metal-oxide-semiconductor on corresponding power supply module Handle carries out time-sharing charging, is realized on a cradle respectively to two Joycon game paddles and a Pro game paddle Charging, the demand of modern consumer is met using the cradle of the drive system.

Description of the drawings：

Fig. 1 is the structural schematic diagram of the drive system cradle of cradle described in the utility model.

Fig. 2 is the frame diagram of the drive system of cradle described in the utility model.

Fig. 3 is the circuit diagram of the drive system of cradle described in the utility model.

Specific implementation mode

In order to make the goal of the invention of the utility model, technical solution and technique effect are more clearly understood, with reference to tool Body embodiment is described further the utility model.It should be understood that specific embodiment described herein, be only used for explaining The utility model is not used to limit the utility model.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement for illustrative purposes only, are not offered as being unique embodiment.

Unless otherwise defined, all of technologies and scientific terms used here by the article is led with the technology for belonging to the utility model The normally understood meaning of technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein packet Include any and all combinations of one or more relevant Listed Items.

With reference to Fig. 2 and Fig. 3, the drive system of the cradle of the utility model includes the central processing mould of cradle charging The block 100 and power management module 200 being connect with the central processing module 100, charging display module 300 and power supply module 400, the power supply module 400 is also connect with an output port module 500.

With reference to Fig. 2 and Fig. 3, the central processing module 100 is for controlling the charging display module 300 and the power supply The operation of module 400, the central processing module 100 include the first micro-control unit U1 and with the first micro-control unit U1 Second micro-control unit U2 of connection, the first micro-control unit U1 are connect with power supply module 400, the second microcontroller list First U2 is connect with the power management module 100 and the charging display module 300 respectively.In the present embodiment, described first The pin 2 of micro-control unit U1 connect with the pin 10 of the second micro-control unit U2 by the first micro-control unit U1 and The second micro-control unit U2 link together realization to cradle charging controlled.The first micro-control unit U1's Model is preferably YC5013C, and the model of the second micro-control unit U2 is preferably YC5013U.

With reference to Fig. 2 and Fig. 3, the power management module 200 at least gives the central processing module 100 to power, the electricity Source control module 200 includes power input connectivity port JP1, the first output port of power source VDD, second source output port 210 It is connect with the second micro-control unit U2 pins 11 and 14 to described with connecting pin PW, the first output port of power source VDD Second micro-control unit U2 power supplies；The first output port of power source VDD is connect with the charging display module 300, and described Two output port of power source 210 are connect with the pin 1 and 16 of the first micro-control unit U1 to the first micro-control unit U1 Power supply；The connecting pin PW is connect with the pin 6 of the second micro-control unit U2.Specifically, described in order to protect cradle The one fuse F1 of the series connection of pin 1 of power input connectivity port JP1 is connect with the first output port of power source VDD, the guarantor One the 38th resistance R38 of dangerous silk F1 series connection, the 38th resistance R38 is connect with the source electrode of one the 9th metal-oxide-semiconductor Q9, described The drain electrode of 9th metal-oxide-semiconductor Q9 is connect with the second source output port 210, grid and the company of the 9th metal-oxide-semiconductor Q9 Connect end PW connections.Electrostatic generates damage cradle in order to prevent, and the pin 1,2 and 3 of the power input connectivity port JP1 is distinguished The electrostatic impedor ESD1 that connects is grounded.Wherein, the 9th metal-oxide-semiconductor Q9 is second source output port 210 and connecting pin PW Starting protection switchs；The pin 2 of the power input connectivity port JP1 and 3 is connected a resistance and second microcontroller respectively The 12 of unit U2 are connected with 13 pins；The voltage that the second source output port 210 exports is 5V；The power input connection Port JP1 is connect with a USB data line with game host.

With reference to Fig. 2 and Fig. 3, the charging display module 300 is used to show the state of cradle charging；The charging is aobvious Show that module 300 includes at least three charging display units 310,310 one end of the charging display unit and first power supply are defeated Exit port VDD connections, the charging display unit 310 of the other end are connect with the second micro-control unit U2.Wherein, described Charging display unit 310 includes at least two display lamps, and two display lamps are respectively red LED lamp and green LED lamp.In this reality It applies in example, three charging display units 310 show the charged state of three charging interfaces of cradle respectively, are filled described in three Electric display unit 310 is respectively the first charging display unit 311, the second charging display unit 312 and third charging display unit 313.Specifically, first charging display unit 311 and second charging display unit 312 are for showing cradle to two The state of a Joycon game paddles charging, first charging display unit 311 draw with the second micro-control unit U2's Foot 1 and 2 connects, and second charging display unit 312 is connect with the pin 3 and 4 of the second micro-control unit U2；Described Three charging display units 313 are used to be shown to the state of Pro game paddles charging, the third charging display unit 313 and institute The pin 17 and 18 for stating the second micro-control unit U2 connects.

With reference to Fig. 2 and Fig. 3, the power supply module 400 whether be placed on cradle for detecting a game paddle and Give game paddle power supply, the power supply module 400 include connect with the first micro-control unit U1 to Pro game paddles confession First supply control unit 410 of electricity and the second supply control unit 420 to the power supply of two Joycon game paddles, described the One supply control unit 410 and second supply control unit 420 include circuit for detecting 430, power supply power supply control circuit 440 and sample circuit 450.

With reference to Fig. 2 and Fig. 3, the circuit for detecting 430 is used to detect whether game paddle connect with cradle charging contact, The circuit for detecting 430 includes signal connection end 431,431 one end of the signal connection end and the first micro-control unit U1 Connection, the signal connection end 431 of the other end are connect with the output port module 500.In the present embodiment, the signal There are three connecting pin 431 is arranged in the drive system of the cradle, three signal connection ends 431 are respectively that signal connects Meet end CON1, signal connection end CON2 and signal connection end CON3, one end of the signal connection end CON1 and described first micro- The pin 10 of control unit U1 connects, the pin 9 of one end of the signal connection end CON2 and the first micro-control unit U1 Connection, one end of the signal connection end CON3 is connect with the pin 8 of the first micro-control unit U1.Electrostatic is burnt in order to prevent Micro-control unit in bad central processing module, the signal connection end 431 are also connected an electrostatic impedor ESD2 ground connection.

With reference to Fig. 2 and Fig. 3, the power supply power supply control circuit 440 includes power supply control end 441 and power supply conveying switch Metal-oxide-semiconductor, described 441 one end of power supply control end are connect with the first micro-control unit U1, the power supply control end of the other end 441 source electrodes that switch metal-oxide-semiconductor is conveyed with the power supply are connect, the drain electrode of the power supply conveying switch metal-oxide-semiconductor and the output end Mouth mold block 500 connects.In the present embodiment, there are three the power supply power supplies to control for setting in the drive system of the cradle Circuit 440, three power supply power supply control circuits 440 are respectively the first power supply power supply control powered to Joycon game paddles Circuit and second source power-supplying circuit processed and the third power supply power supply control circuit powered to Pro game paddles；It is described First power supply power supply control circuit includes power supply control end CHR1 and the second metal-oxide-semiconductor Q2, one end of the power supply control end CHR1 It is connect with the pin 14 of the first micro-control unit U1, the power supply control end CHR1 of the other end and the second source are defeated It is connect with the source electrode of the second metal-oxide-semiconductor Q2 after 210 parallel connection of exit port, drain electrode and the output end of the second metal-oxide-semiconductor Q2 Mouth mold block 500 connects, the 27th resistance R27 ground connection of gate series 1 of the second metal-oxide-semiconductor Q2.The second source power supply Control circuit includes power supply control end CHR2 and the first metal-oxide-semiconductor Q1, one end of the power supply control end CHR2 and described first micro- The pin 13 of control unit U1 connects, and the power supply control end CHR2 and the second source output port 210 of the other end are simultaneously It is connect with the source electrode of the first metal-oxide-semiconductor Q1 after connection, drain electrode and the output port module 500 of the first metal-oxide-semiconductor Q1 connect It connects, the 32nd resistance R32 ground connection of gate series 1 of the first metal-oxide-semiconductor Q1.The third power supply power supply control circuit packet Include power supply control end CHR3 and third metal-oxide-semiconductor Q3, one end of the power supply control end CHR3 and the first micro-control unit U1 Pin 3 connect, with described the after the power supply control end CHR3 of the other end is in parallel with the second source output port 210 The source electrode of three metal-oxide-semiconductor Q3 connects, and the drain electrode of the third metal-oxide-semiconductor Q3 is connect with the output port module 500, the third The 33rd resistance R33 ground connection of gate series 1 of metal-oxide-semiconductor Q3.Wherein, the first metal-oxide-semiconductor Q1, the second metal-oxide-semiconductor Q2 and third The model of metal-oxide-semiconductor Q3 is preferably 2301.

With reference to Fig. 2 and Fig. 3, the sample circuit 450 gives game paddle whether fully charged charging for sampling cradle Feed back in the central processing module 100 and handle after information, the sample circuit 450 include two concatenated resistance, two The node of series resistance is denoted as A, and node A is connect with the output port module 500, a resistance and described first for the other end Micro-control unit U1 connections, the other end ground connection of another resistance.In the present embodiment, first supply control unit 410 Sample circuit include the 24th resistance R24 and the 23rd resistance that is connected in series with the 24th resistance R24 R23, described 24th one end resistance R24 are connect with the pin 11 of the first micro-control unit U1, the 23rd electricity Hinder one end ground connection of R23；The sample circuit of second supply control unit 420 includes the electricity of the tenth resistance R10 or the 17th Resistance R17 and the 6th resistance R6 or the 16th resistance R16 being connected in series with the tenth resistance R10 or the 17th resistance R17, institute It states the tenth resistance R10 or the 17th one end resistance R17 to connect with the pin 15 or 12 of the first micro-control unit U1, described One end of ten resistance R10 or the 17th resistance R17 is grounded.

With reference to Fig. 2 and Fig. 3, the output port module 500 with game paddle for connecting；The output port module 500 include that two first output connecting interfaces 510 and second export connecting interface 520, for the ease of the first output connection Interface 510 is connect with the charging contact of cradle, and the first output connecting interface 510 is also connected with a conversion connecting interface 530； Two the first output connecting interfaces 510 are connect with second supply control unit 420 respectively, the second output connection Interface 520 is connect with first supply control unit 410.In the present embodiment, the first output connecting interface 510 is five The connecting interface of a pin, two it is described first output connecting interface 510 pins 5 respectively with the signal connection end CON1 and The pin 3 of the signal connection end CON2 connections, two the first output connecting interfaces 510 is supplied with first power supply respectively Electric control circuit is connected with the second source power-supplying circuit, it is described first output connecting interface 510 pin 1 and 2 with The sample circuit 450 of second supply control unit 420 connects；The second output connecting interface 520 is the company of 3 pins The pin 1 of connection interface, the second output connecting interface 520 is connect with signal connection end CON3, and second output connects The pin 2 of connection interface 520 is connect with the third power supply power supply control circuit, the pin 3 of the second output connecting interface 520 It is connect with the sample circuit 450 of first supply control unit 410.The connecting interface 530 of converting is the company of ten pins Connection interface, the pin that the pin 7,4,3,2 and 1 for converting connecting interface 530 exports connecting interface 510 with described first respectively 1, it 2,3,4 and 5 connects one to one.

The operation principle of the drive system of the cradle：

When the circuit for detecting 430 detects the connecting interface for having game paddle and output port module 500 on cradle Electric signal is delivered to the first micro-control unit U1 processing and analysis, institute by the electric signal of connection, the signal connection end 431 The level for stating 441 output of the first micro-control unit U1 control power supply controls end is high level so that the power supply conveying switch MOS Pipe conducting gives the game paddle charging of 500 connecting interface of the output port module connection；The first micro-control unit U1 The level for controlling 441 output of power supply control end is low level, and the power supply conveying switch metal-oxide-semiconductor cut-off, cradle stops to institute State the game paddle charging of 500 connecting interface of output port module connection.When three connecting interfaces of cradle have and play Handle connects, and the game paddle that three 500 connecting interfaces of output port module are sampled according to the sample circuit 450 charges Information feeds back to the first micro-control unit U1, and the first micro-control unit U1 controls power supply control end CHR1, supplies respectively The high level or low level of electric control end CHR2 and power supply control end CHR3 outputs, to realize timesharing to the output end mouth mold The game paddle of 500 connecting interface of block charges.

The height electricity that the drive system of the cradle of the utility model is exported by the micro-control unit of central processing module The on or off of metal-oxide-semiconductor on flat control power supply module charges to the game paddle of connecting interface on cradle；It uses again The high level of the multiple power supply control end different phase outputs of micro-control unit controls of central processing module is corresponding to control The conducting of metal-oxide-semiconductor on power supply module carries out time-sharing charging to the game paddle of multiple connecting interfaces on cradle, is filled at one It is realized on electric seat respectively to two Joycon game paddles and a Pro game paddles charging, uses the charging of the drive system Seat meets the demand of modern consumer.

It, cannot the above content is specific preferred embodiment further detailed description of the utility model is combined Assert that the specific implementation of the utility model is confined to these explanations.For the ordinary skill of the utility model technical field For personnel, without departing from the concept of the premise utility, architectural form cans be flexible and changeable, and can be produced with subseries Product.Several simple deduction or replace are only made, it is true by the claims submitted all to shall be regarded as belonging to the utility model Fixed scope of patent protection.

Claims (10)

1. a kind of drive system of cradle, including the central processing module of cradle charging and connect with the central processing module Power management module, charging display module and power supply module, the power supply module connect is also connect with an output port module, It is characterized in that, the central processing module is used to control the operation of the charging display module and the power supply module, in described Centre processing module includes the first micro-control unit (U1) and the second microcontroller list being connect with first micro-control unit (U1) First (U2), first micro-control unit (U1) connect with power supply module, second micro-control unit (U2) respectively with it is described Power management module is connected with the charging display module；

The power management module at least gives the central processing module to power；

The charging display module is used to show the state of cradle charging；

Whether the power supply module is placed on cradle and gives game paddle power supply, the confession for detecting a game paddle Electric module include connect with first micro-control unit (U1) to Pro game paddles power supply the first supply control unit and To the second supply control unit of two Joycon game paddles power supply, first supply control unit and second power supply Include circuit for detecting, power supply power supply control circuit and sample circuit in control unit；

The output port module with game paddle for connecting.

2. the drive system of cradle according to claim 1, which is characterized in that the type of the first micro-control unit U1 Number be YC5013C, the model YC5013U of the second micro-control unit U2；The power management module includes power input Connectivity port (JP1), the first output port of power source (VDD), second source output port and connecting pin (PW), first power supply Output port (VDD) is connect with the second micro-control unit (U2) pin 11 and 14 to second micro-control unit (U2) Power supply；First output port of power source (VDD) connect with the charging display module, the second source output port and institute The connection of pin 1 and 16 for stating the first micro-control unit (U1) is powered to first micro-control unit (U1), the connecting pin (PW) it is connect with the pin 6 of second micro-control unit (U2).

3. the drive system of cradle according to claim 2, which is characterized in that the charging display module includes at least Three charging display units, described charging display unit one end are connect with first output port of power source (VDD), the other end The charging display unit is connect with second micro-control unit (U2).

4. the drive system of cradle according to claim 2, which is characterized in that the circuit for detecting is played for detecting Whether handle connect with cradle charging contact, and the circuit for detecting includes signal connection end, described signal connection end one end with First micro-control unit (U1) connection, the signal connection end of the other end are connect with the output port module.

5. the drive system of cradle according to claim 4, which is characterized in that the signal connection end is in the charging In the drive system of seat there are three settings, three signal connection ends are respectively signal connection end (CON1), signal connection end (CON2) and signal connection end (CON3), one end of the signal connection end (CON1) and first micro-control unit (U1) Pin 10 connects, and one end of the signal connection end (CON2) is connect with the pin 9 of first micro-control unit (U1), described One end of signal connection end (CON3) is connect with the pin 8 of first micro-control unit (U1)；The signal connection end is also gone here and there Join an electrostatic impedor (ESD2) ground connection.

6. the drive system of cradle according to claim 2, which is characterized in that the power supply power supply control circuit includes Power supply control end and power supply conveying switch metal-oxide-semiconductor, power supply control end one end are connect with first micro-control unit (U1), The source electrode that the power supply control end of the other end conveys switch metal-oxide-semiconductor with the power supply is connect, the power supply conveying switch metal-oxide-semiconductor Drain electrode connect with the output port module；There are three the power supply power supply controls for setting in the drive system of the cradle Circuit processed, three power supply power supply control circuits are respectively that the first power supply power supply powered to a Joycon game paddles controls Circuit and second source power-supplying circuit and the third power supply power supply control circuit powered to a Pro game paddles.

7. the drive system of cradle according to claim 6, which is characterized in that the first power supply power supply control circuit Including power supply control end (CHR1) and the second metal-oxide-semiconductor (Q2), one end and first micro-control of the power supply control end (CHR1) The pin 14 of unit (U1) processed connects, and the power supply control end (CHR1) of the other end is in parallel with the second source output port It is connect afterwards with the source electrode of second metal-oxide-semiconductor (Q2), drain electrode and the output port module of second metal-oxide-semiconductor (Q2) connect It connects, the 27th resistance (R27) of gate series 1 ground connection of second metal-oxide-semiconductor (Q2).

8. the drive system of cradle according to claim 6, which is characterized in that the third power supply power supply control circuit Including power supply control end (CHR3) and third metal-oxide-semiconductor (Q3), one end and first micro-control of the power supply control end (CHR3) The pin 3 of unit (U1) processed connects, and the power supply control end (CHR3) of the other end is in parallel with the second source output port It is connect afterwards with the source electrode of the third metal-oxide-semiconductor (Q3), drain electrode and the output port module of the third metal-oxide-semiconductor (Q3) connect It connects, the 33rd resistance (R33) of gate series 1 ground connection of the third metal-oxide-semiconductor (Q3).

9. the drive system of cradle according to claim 1, which is characterized in that the sample circuit charges for sampling Seat is handled to being fed back in the central processing module after the whether fully charged charge information of game paddle, the sample circuit packet Two concatenated resistance are included, the node of two series resistances is denoted as (A), and node (A) is connect with the output port module, another One resistance at end is connect with first micro-control unit (U1), the other end ground connection of another resistance.

10. the drive system of cradle according to claim 1, which is characterized in that the output port module includes two A first output connecting interface and the second output connecting interface, the first output connecting interface are also connected with a conversion and connect Mouthful；Two the first output connecting interfaces are connect with second supply control unit respectively, and second output connects Mouth is connect with first supply control unit.