CN206149567U - Switching device and electronic equipment - Google Patents
Switching device and electronic equipment Download PDFInfo
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- CN206149567U CN206149567U CN201621066036.0U CN201621066036U CN206149567U CN 206149567 U CN206149567 U CN 206149567U CN 201621066036 U CN201621066036 U CN 201621066036U CN 206149567 U CN206149567 U CN 206149567U
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Abstract
The utility model provides a switching device, including battery module, control module and switch module, battery module with control module is parallelly connected. Control module includes level output end and the 2nd level output end. The switch module includes two same type's MOS pipe, the grid of two MOS pipe all with control module's level output end electric connection, the source electrode of two MOS pipe all with control module's the 2nd level output end electric connection. The utility model also provides an electronic equipment. Through the specific built -up connection of two MOS pipes, be suitable for the control of handing over dc circuit simultaneously, the suitability is strong, and the facilitate promotion is used.
Description
Technical field
This utility model is related to switching technique field, in particular to a kind of switching device and electronic equipment.
Background technology
At present, during family's illumination intelligent, the wireless remote control transformation of light switch is related to wiring transformation, and process is numerous
It is trivial.The existing technology for exempting to connect up is mostly single live wire remote switch technology, but the on-off circuit based on single live wire control technology is simultaneously
It is not proper breaking circuit.In order to realize on-off control, even if being off state in light fixture, on-off circuit is still
There is weak current to flow through, to ensure on-off circuit therefrom " power taking ", so as to meet the normal work of on-off circuit, do not meet electricity consumption
Specification.Even if being off state in light fixture, circuit still has power consumption, causes the wasting of resources and so that user undertakes normal circuit
Electricity cost beyond work.Because on-off circuit still has weak current to flow through, easily go out in the case where light fixture is off state
Now glisten, be commonly called as " will-o'-the-wisp " phenomenon, easily the life-span of detraction light fixture.
Certainly, on-off circuit can also realize the power supply to on-off circuit, but this switch by alternating current come power taking
Circuit needs to have the complete supply line of zero live wire, but in actual life, it is neat that lamp switch arrangement does not typically possess zero live wire
Entirely, thus cannot actually promote the use of.
Utility model content
This utility model is based on the problems referred to above, it is proposed that one kind can simultaneously be applied to DC circuit and alternating current circuit
Switching device and electronic equipment, to improve the situation for needing to change circuit when existing wireless remote control is transformed.
In view of this, one side of the present utility model proposes switching device, including battery module, control module and switch
Module, the battery module and the control module are in parallel.
Further, the control module includes the first level output end and second electrical level outfan.
Further, the switch module includes metal-oxide-semiconductor (the Metal Oxid Semiconductor of two same types
Mos field effect transistor), the grid of described two metal-oxide-semiconductors is defeated with the first level of the control module
Go out end to be electrically connected with, the source electrode of described two metal-oxide-semiconductors is electrically connected with the second electrical level outfan of the control module.
Further, the control module includes that a pair of joins single control switch, the duplex single control switch include control end, the
One terminals and the second terminals.The control end of the duplex single control switch connects the grid of described two metal-oxide-semiconductors, the duplex
First terminals of single control switch connect the negative pole end of the battery module, the second terminals connection of the duplex single control switch
The positive terminal of the battery module.The source electrode of described two metal-oxide-semiconductors is all connected with the negative pole end of the battery module or described two
The source electrode of metal-oxide-semiconductor is all connected with the positive terminal of the battery module.
Further, the control module include processor, and with the processor be electrically connected with touch modules and
Level management module.Touch operation of the processor response user to the touch modules, controls the level management module
High level or low level are exported in first level output end, and low level or high electricity are exported in the second electrical level outfan
It is flat.
Further, the control module includes processor, and the radio communication mold being electrically connected with the processor
Block and level management module.The wireless communication module receives the wireless control signal from user side.The processor response
The wireless control signal, controls the level management module and exports high level or low level in first level output end,
And export low level or high level in the second electrical level outfan.
Further, the control module include processor, and with the processor be electrically connected with key-press module and
Level management module.Pressing operation of the processor response user to the key-press module, controls the level management module
High level or low level are exported in first level output end, and low level or high electricity are exported in the second electrical level outfan
It is flat.
Further, the control module includes processor and relay, the relay include control end, normally opened end,
Normal-closed end and common port.The control end of the relay connects the processor, and the normally opened end of the relay connects the electricity
The negative pole end of pond module, the normal-closed end of the relay connects the positive terminal of the battery module, the common port of the relay
Connect the grid of described two metal-oxide-semiconductors.The source electrode of described two metal-oxide-semiconductors connects the normally opened end or described two of the relay
The source electrode of metal-oxide-semiconductor connects the normal-closed end of the relay.
Further, the control module also includes the touch modules being electrically connected with the processor.The processor
Touch operation of the response user to the touch modules, the common port for controlling the relay connects the normally opened end or described normal
Closed end.
Further, the control module also includes the wireless communication module being electrically connected with the processor.The nothing
Line communication module receives the wireless control signal from user side.Wireless control signal described in the processor response, controls institute
The common port for stating relay connects the normally opened end or the normal-closed end.
Further, the control module also includes the key-press module being electrically connected with the processor.The processor
Pressing operation of the response user to the key-press module, the common port for controlling the relay connects the normally opened end or described normal
Closed end.
On the other hand this utility model embodiment additionally provides a kind of electronic equipment, and the electronic equipment includes that this practicality is new
A kind of switching device that type embodiment is provided.
A kind of switching device and electronic equipment that this utility model embodiment is provided, by the combination connection of two metal-oxide-semiconductors,
Not only can realize that the control to alternating current circuit can also be realized to the control of DC circuit, improve existing wireless remote control
The situation for changing circuit is needed during transformation, strong applicability is easy to utilize;Battery module is introduced as the power supply of switching device
Supply, the characteristics of make use of metal-oxide-semiconductor control low in energy consumption well, keeps the control low advantage of power supply power consumption, extended switch device
Service life.
To enable above-mentioned purpose of the present utility model, feature and advantage to become apparent, preferred embodiment cited below particularly, and
Coordinate appended accompanying drawing, be described in detail below.
Description of the drawings
In order to be illustrated more clearly that the technical scheme of this utility model embodiment, below will be to use needed for embodiment
Accompanying drawing be briefly described, it will be appreciated that the following drawings illustrate only some embodiments of the present utility model, therefore should not be by
Regard the restriction to scope as, for those of ordinary skill in the art, on the premise of not paying creative work, may be used also
To obtain other related accompanying drawings according to these accompanying drawings.
Fig. 1 shows the first structure schematic diagram of the switching device that this utility model embodiment is provided;
Fig. 2 shows the second structural representation of the switching device that this utility model embodiment is provided;
Fig. 3 shows the 3rd structural representation of the switching device that this utility model embodiment is provided;
Fig. 4 shows the 4th structural representation of the switching device that this utility model embodiment is provided;
Fig. 5 shows the 5th structural representation of the switching device that this utility model embodiment is provided;
Fig. 6 shows the 6th structural representation of the switching device that this utility model embodiment is provided;
Fig. 7 shows the 7th structural representation of the switching device that this utility model embodiment is provided;
Fig. 8 shows the 8th structural representation of the switching device that this utility model embodiment is provided.
Main element symbol description:
100- switching devices;10- battery modules;20- control modules;21- duplex single control switches;22- processors;23- is touched
Touch module;24- level management modules;25- wireless communication modules;26- key-press modules;27- relays;30- switch modules.
Specific embodiment
For the ease of understanding this utility model, switching device and electronic equipment are carried out below with reference to relevant drawings more clear
Chu, it is fully described by.The preferred embodiment of switching device and electronic equipment is given in accompanying drawing.Switching device and electronic equipment can
To be realized by many different forms, however it is not limited to embodiment described herein.Therefore, below to providing in the accompanying drawings
The detailed description of embodiment of the present utility model be not intended to limit claimed scope of the present utility model, but only
Represent selected embodiment of the present utility model.Based on embodiment of the present utility model, those skilled in the art are not making wound
The every other embodiment that the property made is obtained on the premise of working, belongs to the scope of this utility model protection.
Embodiment 1
Fig. 1 shows the structural representation of the switching device that this utility model embodiment is provided.
As shown in figure 1, a kind of switching device 100 that this utility model embodiment is provided, including battery module 10, control mould
Block 20 and switch module 30.Control module 20 is in parallel with battery module 10.
Battery module 10 includes lithium thionyl chloride cell or lithium-manganese cell etc., and the battery has the high spy of volume energy density
Point, can still have larger capacity in less space, have the advantages that self discharge is low, it is few to consume electric energy.Another embodiment
In, battery module 10 also include solaode, solaode existing battery module 10 can be played one expansion
Effect, was both provided to electric energy using solaode and was supplemented, again being capable of energy saving.Certainly, battery module 10 also has a lot
Other implementations, such as rechargeable battery, will not be described here.
Control module 20 can be mechanical switch, touch switch or wireless switching etc..Control module 20 includes the first level
Outfan X and second electrical level outfan Y.Control module 20 exports high level or low level in the first level output end X, and
Low level or high level are exported in the second electrical level outfan Y.
Switch module 30 includes the metal-oxide-semiconductor of two same types.
The metal-oxide-semiconductor can be N-type metal-oxide-semiconductor, or p-type metal-oxide-semiconductor.Metal-oxide-semiconductor is a kind of opening for voltage drive control
Element is closed, can realize that the break-make to circuit is controlled by relatively low voltage.But metal-oxide-semiconductor typically can be used only in directive direct current
The conducting control of circuit, and the control to alternating current cannot be realized.Specifically, the present embodiment is by taking N-type metal-oxide-semiconductor as an example, the MOS
Pipe includes grid G, source S and drain D.It is low between S poles and D poles when certain direct-flow positive voltage is applied between G poles and S poles
Resistance is turned on;When a no-voltage or negative DC voltage is applied between G poles and S poles, between S poles and D poles high value by, from
And realize controlling galvanic break-make.But because metal-oxide-semiconductor inside carries diode, when applying certain zero between G poles and S poles
When voltage or exchange negative voltage, diode can play bypass action, and the conducting in a direction is yet suffered between S poles and D poles, only
The break-make of forward current can be controlled, negater circuit can flow through from internal diode bypass, so as to realize to alternating current
Control.
In the present embodiment, by being arranged in series for two metal-oxide-semiconductors, not only can realize can be to the control of DC circuit, also
The control to alternating current circuit can be realized.Specifically, the G of described two metal-oxide-semiconductors is extremely defeated with the first level of control module 20
Go out and hold X to be electrically connected with, the S of described two metal-oxide-semiconductors is extremely electrically connected with the second electrical level outfan Y of control module 20.Can be with
Understand, if the metal-oxide-semiconductor is N-type metal-oxide-semiconductor, when the first level output end X output high level of control module 20 and second electric
During flat outfan Y outputs low level, described two N-type metal-oxide-semiconductors are both turned on;If the metal-oxide-semiconductor is p-type metal-oxide-semiconductor, when control mould
When the first level output end X output low levels and second electrical level outfan Y output high level of block 20, described two p-type metal-oxide-semiconductors
It is both turned on.
The present embodiment will be described by taking N-type metal-oxide-semiconductor as an example to the course of work of switching device 100.
Specifically, when simultaneously the level output end X of control module 20 first and second electrical level outfan Y exports high level or low
Level, or when the level output end X of control module 20 first output low levels and second electrical level outfan Y output high level, two N
Type metal-oxide-semiconductor high value is ended.Now, because the diode inside two N-type metal-oxide-semiconductors is in opposite direction, even if there is positive exchange
Electricity or Opposed crossing electricity, can only also flow through a wherein N-type metal-oxide-semiconductor, so as to cannot flow through the whole control of 2 N-type metal-oxide-semiconductor compositions
Circuit processed, realizes the control disconnected to circuit.
Further, when the level output end X of control module 20 first exports high level, and second electrical level outfan Y outputs
During low level, the voltage between two N-type metal-oxide-semiconductor G poles and S poles is cell voltage, reaches turn-on voltage, now two N-types
Metal-oxide-semiconductor low resistance is turned on.Now, even if there is positive alternating current or Opposed crossing electricity, it is also possible to without flow through arbitrary diode,
Realize the control to circuit turn-on.
In the present embodiment, the power supply for introducing battery module 10 as switching device 100 is supplied, and can be very good to utilize MOS
The characteristics of management and control system is low in energy consumption, the advantage for keeping control power supply power consumption low.Specifically, because metal-oxide-semiconductor is a kind of voltage drives control
The switch element of system, the power supply supply required for switch module 30 is very little, in the case where low-frequency degree is switched, switching device
100 circuital currents are negligible.There, it is introduced to battery module 10 is supplied as the power supply of switching device 100, can be fine
Extended switch device 100 service life.
A1 and A2 are respectively as the access point of external control circuit.Specifically, in actual use, switching device 100 exists
Two connection points of A1, A2 are concatenated into circuit, you can the switch of original mechanical switch is directly replaced, without the need for rewiring
Or circuit is transformed, facilitate movement of the user to switching device 100, while saving subscribers' line cost of layout.
Embodiment 2
Fig. 2 shows the structural representation of the switching device that this utility model embodiment is provided.
As shown in Fig. 2 a kind of switching device 100 that this utility model embodiment is provided, including battery module 10, control mould
Block 20 and switch module 30.Control module 20 is in parallel with battery module 10.
In the present embodiment, control module 20 is that a pair of joins single control switch 21.Duplex single control switch 21 include control end a, the
One terminals b and the second terminals c.First terminals b connects the negative pole end of battery module 10, the second terminals c connection battery moulds
The positive terminal of block 10.
Switch module 30 includes the metal-oxide-semiconductor of two same types.
In the present embodiment, the G of described two metal-oxide-semiconductors is extremely electrically connected with control end a of duplex single control switch 21, and described two
The S of individual metal-oxide-semiconductor extremely with the negative pole end of battery module 10 be electrically connected with or described two metal-oxide-semiconductors S extremely with battery module 10 just
It is extreme to be electrically connected with.Specifically, when the metal-oxide-semiconductor be N-type metal-oxide-semiconductor when, then the S of two N-type metal-oxide-semiconductors extremely with battery module 10
Negative pole end is electrically connected with;When the metal-oxide-semiconductor be p-type metal-oxide-semiconductor when, then the S of two p-type metal-oxide-semiconductors extremely with the positive pole of battery module 10
End is electrically connected with.
The present embodiment will by metal-oxide-semiconductor for N-type metal-oxide-semiconductor when as a example by, the course of work of switching device 100 is described.
Specifically, switching manipulation of the user to duplex single control switch 21 is responded, when the connection of control end a of duplex single control switch 21
During the first terminals b, the G poles of two N-type metal-oxide-semiconductors and the voltage of S poles are no-voltage, high value cut-off.Now, because two
Diode inside N-type metal-oxide-semiconductor is in opposite direction, even if there is positive alternating current or Opposed crossing electricity, also can only flow through wherein
One N-type metal-oxide-semiconductor, so as to cannot flow through the whole control circuit of 2 N-type metal-oxide-semiconductor compositions, realizes the control disconnected to circuit.
Further, when control end a of duplex single control switch 21 connects the second terminals c, two N-type metal-oxide-semiconductor G poles and S
Voltage between pole is cell voltage, reaches turn-on voltage, now two N-type metal-oxide-semiconductor low resistance conductings.Now, even if depositing
In positive alternating current or Opposed crossing electricity, it is also possible to without flow through arbitrary diode, realize the control to circuit turn-on.
Embodiment 3
Fig. 3 shows the structural representation of the switching device that this utility model embodiment is provided.
As shown in figure 3, a kind of switching device 100 that this utility model embodiment is provided, including battery module 10, control mould
Block 20 and switch module 30.Control module 20 is in parallel with battery module 10.
In the present embodiment, control module 20 includes processor 22 and level management module 24.
Level management module 24 is used to export high level and/or low level.Level management module 24 can be chip or collection
Into circuit etc., including the first level output end M and second electrical level outfan N.Level management module 24 electrically connects with processor 22
Connect.
In the present embodiment, control module 20 also includes touch modules 23.Touch modules 23 are used to obtain the touch letter of user
Number.Touch modules 23 are electrically connected with processor 22.Processor 22 is used to respond the touch signal, control level management module
24 first level output end M export high level and second electrical level outfan N output low levels, or control level management module 24 the
One level output end M exports low level and second electrical level outfan N output high level.
See also shown in Fig. 4, in another embodiment, control module 20 also includes wireless communication module 25.Channel radio
Letter module 25 is used to receive the wireless control signal from user side.Wireless communication module 25 can be infrared remote control etc..Wirelessly
Communication module 25 is electrically connected with processor 22.Processor 22 is used to respond the wireless control signal, control level management mould
The level output end M of block 24 first exports high level and second electrical level outfan N output low levels, or control level management module 24
First level output end M exports low level and second electrical level outfan N output high level.
See also shown in Fig. 5, in another embodiment, control module 20 also includes key-press module 26.Key-press module 26
For obtaining the pressing operation of user.Key-press module 26 can be keyboard, button, mouse etc..Key-press module 26 and processor 22
It is electrically connected with.Processor 22 is used to respond pressing operation of the user to key-press module 26, and control level management module 24 first is electric
Flat outfan M output high level and second electrical level outfan N output low levels, or the level of control level management module 24 first is defeated
Go out to hold M output low levels and second electrical level outfan N output high level.
Switch module 30 includes the metal-oxide-semiconductor of two same types.In the present embodiment, the G of described two metal-oxide-semiconductors extremely with electricity
The level output end M of flat management module 24 first is electrically connected with, the S of described two metal-oxide-semiconductors extremely with the second electrical level of battery module 10
Outfan N is electrically connected with.
Processor 22 is used to respond the touch signal, and the level output end M of control level management module 24 first outputs are high
Level and second electrical level outfan N output low levels, or the level output end M of control level management module 24 first output low levels
And second electrical level outfan N output high level.
The present embodiment will by metal-oxide-semiconductor for N-type metal-oxide-semiconductor when as a example by, the course of work of switching device 100 is described.
Specifically, when the level output end M of level management module 24 first and second electrical level outfan N exports high level simultaneously
Or low level, or the level output end M of level management module 24 first output low levels and second electrical level outfan N output high level
When, high value cut-off between the G poles and S poles of two N-type metal-oxide-semiconductors.Now, because the diode direction inside two N-type metal-oxide-semiconductors
Even if conversely, there is positive alternating current or Opposed crossing electricity, a wherein N-type metal-oxide-semiconductor can only be also flow through, so as to cannot flow through 2
The whole control circuit of individual N-type metal-oxide-semiconductor composition, realizes the control disconnected to circuit.
Further, when the level output end M of level management module 24 first exports high level and second electrical level outfan N is defeated
When going out low level, low resistance conducting between two N-type metal-oxide-semiconductor G poles and S poles.Now, even if there is positive alternating current or reverse
Alternating current, it is also possible to without flow through arbitrary diode, realize the control to circuit turn-on.
Need explanation when, external wireless remote control, touch-control or machinery that the switching device 100 that this utility model is provided is adopted
The control modes such as switch are preferable embodiment, are not intended to limit the implementation of switching device 100, new by this practicality
The embodiment of switching device 100 that the multiple embodiments of type are provided, can derive various more practical switch forms, with opening
The property shown, any those familiar with the art can readily occur in change in the technical scope that this utility model is disclosed
Or replace, all should cover within protection domain of the present utility model.
Embodiment 4
Fig. 6 shows the structural representation of the switching device that this utility model embodiment is provided.
As shown in fig. 6, a kind of switching device 100 that this utility model embodiment is provided, including battery module 10, control mould
Block 20 and switch module 30.Control module 20 is in parallel with battery module 10.
In the present embodiment, control module 20 includes processor 22 and relay 27.
Relay 27 includes control end d, common port e, normally opened end f and normal-closed end g, for exporting the defeated of response control end d
Enter, control common port e connects normally opened end f or normal-closed end g.Control end d of relay 27 connects processor 22, normally opened end f connections electricity
The negative pole end of pond module 10, the normal-closed end g connection positive terminals of battery module 10.
In the present embodiment, control module 20 also includes touch modules 23.Touch modules 23 are used to obtain the touch letter of user
Number.Touch modules 23 are electrically connected with processor 22.Processor 22 is used to respond the touch signal, and control relay 27 is public
End e connects normally opened end f or normal-closed end g.
See also shown in Fig. 7, in another embodiment, control module 20 also includes wireless communication module 25.Channel radio
Letter module 25 is used to receive the wireless control signal from user side.Wireless communication module 25 can be infrared remote control etc..Wirelessly
Communication module 25 is electrically connected with processor 22.Processor 22 is used to respond the wireless control signal, and control relay 27 is public
E is held to connect normally opened end f or normal-closed end g altogether.
See also shown in Fig. 8, in another embodiment, control module 20 also includes key-press module 26.Key-press module 26
For obtaining the pressing operation of user.Key-press module 26 can be keyboard, button, mouse etc..Key-press module 26 and processor 22
It is electrically connected with.Processor 22 is used to respond pressing operation of the user to key-press module 26, and the common port e of control relay 27 connections are normal
Beginning f or normal-closed end g.
Switch module 30 includes the metal-oxide-semiconductor of two same types.In the present embodiment, the G of described two metal-oxide-semiconductors extremely with after
The common port e of electrical equipment 27 is electrically connected with.When the metal-oxide-semiconductor is N-type metal-oxide-semiconductor, the S of two N-type metal-oxide-semiconductors is extremely normal with relay 27
Beginning f is electrically connected with, or when the metal-oxide-semiconductor is p-type metal-oxide-semiconductor, the S of two p-type metal-oxide-semiconductors extremely with the normal-closed end g of relay 27
It is electrically connected with.
The present embodiment will by metal-oxide-semiconductor for N-type metal-oxide-semiconductor when as a example by, the course of work of switching device 100 is described.
Specifically, when common port e connects normally opened end f, high value cut-off between the G poles and S poles of two N-type metal-oxide-semiconductors.This
When, because the diode inside two N-type metal-oxide-semiconductors is in opposite direction, even if there is positive alternating current or Opposed crossing electricity, also only
A wherein N-type metal-oxide-semiconductor can be flow through, so as to cannot flow through the whole control circuit of 2 N-type metal-oxide-semiconductor compositions, realizes disconnecting circuit
Control.
Further, when common port e connects normal-closed end g, low resistance conducting between two N-type metal-oxide-semiconductor G poles and S poles.This
When, even if there is positive alternating current or Opposed crossing electricity, it is also possible to without flow through arbitrary diode, realize the control to circuit turn-on
System.
Embodiment 5
This utility model embodiment provides a kind of electronic equipment, including the switching device 100 that this utility model is provided.
A kind of switching device and electronic equipment that this utility model embodiment is provided, by the particular combination of two metal-oxide-semiconductors
Connection, not only can realize that the control to alternating current circuit can also be realized to the control of DC circuit, improve existing wireless
Remote control needs the situation for changing circuit when transforming, strong applicability is easy to utilize;Battery module is introduced as switching device
Power supply is supplied, and the characteristics of make use of metal-oxide-semiconductor control low in energy consumption well, keeps the control low advantage of power supply power consumption, extends switch
Device service life.
In all examples being illustrated and described herein, any occurrence should be construed as merely exemplary, and not
Be for limit, therefore, other examples of exemplary embodiment can have different values.It should be noted that:Similar label and word
Mother represents similar terms in following accompanying drawing, therefore, once be defined in a certain Xiang Yi accompanying drawing, then in subsequent accompanying drawing
It need not further be defined and is explained.
In several embodiments provided herein, it should be understood that disclosed device can pass through other sides
Formula is realized.Device embodiment described above is only schematic, and for example, the division of the unit, only one kind are patrolled
Volume function is divided, and can have other dividing mode when actually realizing, and for example, multiple units or component can with reference to or can
To be integrated into another system, or some features can be ignored, or not perform.It is another, it is shown or discussed each other
Coupling or direct-coupling or communication connection can be INDIRECT COUPLING or communication link by some communication interfaces, device or unit
Connect, can be electrical, mechanical or other forms.
The unit for separating component explanation can be or may not be physically separate, be what unit showed
Part can be or may not be physical location, you can with positioned at a place, or can also be distributed to multiple networks
On unit.Some or all of unit therein can according to the actual needs be selected to realize the purpose of this embodiment scheme.
In addition, each functional unit in this utility model each embodiment can be integrated in a processing unit,
Can be that unit is individually physically present, it is also possible to which two or more units are integrated in a unit.
The above, specific embodiment only of the present utility model, but protection domain of the present utility model do not limit to
In this, any those familiar with the art can readily occur in change in the technical scope that this utility model is disclosed
Or replace, all should cover within protection domain of the present utility model.Therefore, protection domain of the present utility model should be described with power
The protection domain that profit is required is defined.
Claims (10)
1. a kind of switching device, it is characterised in that including battery module, control module and switch module, the battery module and
The control module is in parallel,
The control module includes the first level output end and second electrical level outfan,
The switch module includes the metal-oxide-semiconductor of two same types, the grid of described two metal-oxide-semiconductors with the control module
First level output end is electrically connected with, and the source electrode of described two metal-oxide-semiconductors is electric with the second electrical level outfan of the control module
Property connection.
2. switching device according to claim 1, it is characterised in that the control module includes duplex single control switch, institute
Duplex single control switch is stated including control end, the first terminals and the second terminals,
The control end of the duplex single control switch connects the grid of described two metal-oxide-semiconductors, and the first of the duplex single control switch connects
Line end connects the negative pole end of the battery module, and the second terminals of the duplex single control switch are connecting the battery module just
Extremely;
The source electrode of described two metal-oxide-semiconductors is all connected with the negative pole end of the battery module or the source electrode of described two metal-oxide-semiconductors is all connected with
The positive terminal of the battery module.
3. switching device according to claim 1, it is characterised in that the control module includes processor, and and institute
The touch modules and level management module of processor electric connection are stated,
Touch operation of the processor response user to the touch modules, controls the level management module described first
Level output end exports high level or low level, and exports low level or high level in the second electrical level outfan.
4. switching device according to claim 1, it is characterised in that the control module includes processor, and and institute
The wireless communication module and level management module of processor electric connection are stated,
The wireless communication module receives the wireless control signal from user side;
Wireless control signal described in the processor response, controls the level management module defeated in first level output end
Go out high level or low level, and low level or high level are exported in the second electrical level outfan.
5. switching device according to claim 1, it is characterised in that the control module includes processor, and and institute
The key-press module and level management module of processor electric connection are stated,
Pressing operation of the processor response user to the key-press module, controls the level management module described first
Level output end exports high level or low level, and exports low level or high level in the second electrical level outfan.
6. switching device according to claim 1, it is characterised in that the control module includes processor and relay,
The relay includes control end, normally opened end, normal-closed end and common port,
The control end of the relay connects the processor, and the normally opened end of the relay connects the negative pole of the battery module
End, the normal-closed end of the relay connects the positive terminal of the battery module, and the common port connection of the relay is described two
The grid of metal-oxide-semiconductor;
The source electrode of described two metal-oxide-semiconductors connect the normally opened end of the relay or described two metal-oxide-semiconductors source electrode connection it is described after
The normal-closed end of electrical equipment.
7. switching device according to claim 6, it is characterised in that the control module also includes and processor electricity
Property connection touch modules,
Touch operation of the processor response user to the touch modules, the common port connection for controlling the relay is described
Normally opened end or the normal-closed end.
8. switching device according to claim 6, it is characterised in that the control module also includes and processor electricity
Property connection wireless communication module,
The wireless communication module receives the wireless control signal from user side;
Wireless control signal described in the processor response, the common port for controlling the relay connects the normally opened end or described
Normal-closed end.
9. switching device according to claim 6, it is characterised in that the control module also includes and processor electricity
Property connection key-press module,
Pressing operation of the processor response user to the key-press module, the common port connection for controlling the relay is described
Normally opened end or the normal-closed end.
10. a kind of electronic equipment, it is characterised in that including the switching device described in any one of claim 1~9.
Priority Applications (1)
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CN201621066036.0U CN206149567U (en) | 2016-09-20 | 2016-09-20 | Switching device and electronic equipment |
Applications Claiming Priority (1)
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CN201621066036.0U CN206149567U (en) | 2016-09-20 | 2016-09-20 | Switching device and electronic equipment |
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CN206149567U true CN206149567U (en) | 2017-05-03 |
Family
ID=58619713
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CN201621066036.0U Withdrawn - After Issue CN206149567U (en) | 2016-09-20 | 2016-09-20 | Switching device and electronic equipment |
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CN (1) | CN206149567U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106304562A (en) * | 2016-09-20 | 2017-01-04 | 周长坡 | A kind of switching device and electronic equipment |
-
2016
- 2016-09-20 CN CN201621066036.0U patent/CN206149567U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106304562A (en) * | 2016-09-20 | 2017-01-04 | 周长坡 | A kind of switching device and electronic equipment |
CN106304562B (en) * | 2016-09-20 | 2019-08-06 | 周长坡 | A kind of switching device and electronic equipment |
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