CN209728713U - A kind of connector that double touch sensors wake up - Google Patents
A kind of connector that double touch sensors wake up Download PDFInfo
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- CN209728713U CN209728713U CN201920878423.1U CN201920878423U CN209728713U CN 209728713 U CN209728713 U CN 209728713U CN 201920878423 U CN201920878423 U CN 201920878423U CN 209728713 U CN209728713 U CN 209728713U
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- wake
- microprocessor
- touch sensors
- connector
- touch
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Abstract
The utility model discloses a kind of connectors that double touch sensors wake up, including two touch sensors of shell phase back side are arranged in and are arranged in the intracorporal circuit board of shell and battery.Microprocessor is provided on circuit board.Microprocessor connects battery and two touch sensors.When being detected simultaneously by the touch signal of two touch sensors, the microprocessor is waken up to working condition;When the touch signal for failing to detect two touch sensors simultaneously is super after a period of time, the microprocessor power cut-off state.Since two touch sensors are disposed opposite to each other, meet very much the hand-held habit of normal person.When user holds the connector, can wake up to realize noninductive wake-up without special action.When connector is placed, two touch tactility apparatus being disposed opposite to each other are not easy to be triggered simultaneously, and avoid false wake-up, thereby saving energy consumption, extend battery.
Description
Technical field
The utility model relates to the small electronic devices such as lockset connector, Bluetooth electronic controller.
Background technique
Automotive multipurpose Bluetooth electronic controller.It is equipped with microprocessor in Bluetooth electronic controller and is equipped with bluetooth module.It is micro-
Processor is interacted by bluetooth module and automobile, realizes the functions such as unlocking automobiles and locking.Lockset connector is a kind of use
In the gadget of the mobile terminals such as smart phone, palm PC connection lockset.Lockset connector is provided with connecing of docking with lockset
Head is internally provided with microprocessor and bluetooth module.Lockset connector is connected by connector with lockset, and microprocessor passes through bluetooth
Module is connected with mobile terminal, and mobile terminal can connect unlocking of the lockset realization to lockset by the lockset connector as a result,
Lock operation.Bluetooth electronic controller or lockset connector or other small electronic devices with microprocessor need
It is powered by internal battery.Cell package is in the inside of this small electronic device, and replacement is very inconvenient, therefore it is required that this small
The battery of electronic device is able to use for a long time.Due to this small electronic device volume very little itself, thus internal cell
Capacity can not be big, if internal microprocessor is constantly in working condition, not crossing several days batteries will be out of power.For this purpose,
This small electronic device generally has working condition and off working state.Only whenever necessary, small electronic device is in working condition
Lower ability power consumption is relatively more;And usually place, under off working state, hardly power consumption or power consumption is very small, to save
Energy consumption greatly prolongs the use time of battery.
Since this small electronic device is divided into working condition and off working state, there are users by off working state
The wake-up operation of working condition is switched to, also therefore, this small electronic device needs to be equipped with reception user and cuts off working state
Change the wake-up mechanism that working condition wakes up job instruction into.Under the prior art, this reception user switches to off working state
There are many kinds of the wake-up mechanisms of operating state instruction, such as key, touch sensor, pressure sensor, fingerprint sensor, impedance
Tactility apparatus etc..On the one hand, these sensors need user's operation;On the other hand, these sensors are easy to be easy to make by false triggering
It obtains small electronic device and is accidentally switched to working condition, thus power consumption for no reason.
Summary of the invention
Problem to be solved in the utility model: under the prior art, when small electronic device wakes up, user's operation is needed, is made
With inconvenience and small electronic device be easy by false wake-up and for no reason power consumption reduce battery.
To solve the above problems, the scheme that the utility model uses is as follows:
A kind of connector that double touch sensors wake up, two touch sensors in face are held including shell is arranged in opposite to each other
With setting in the intracorporal circuit board of shell and battery;Microprocessor is provided on the circuit board;Described in the microprocessor connection
Battery and two touch sensors.
Further, two touch sensors are capacitive touch sensors perhaps piezoelectric transducer or a touch
Sensor is capacitive touch sensors and another is piezoelectric transducer.
Further, when being detected simultaneously by the touch signal of two touch sensors, the microprocessor is waken up to work
State.
Further, after the touch signal for failing to detect two touch sensors simultaneously is more than the N time, the microprocessor
Power cut-off state.
Further, two touch sensors are directly connected to two pins of the microprocessor respectively;The microprocessor
When being detected simultaneously by the touch signal of two touch sensors in the standby state, the microprocessor by standby mode wake up to
Working condition.
Further, when the microprocessor fails the touch signal for detecting two touch sensors simultaneously in the operating condition
Surpass after a period of time, the microprocessor switches to standby mode by working condition to power cut-off state.
Further, it is connected between the microprocessor and two touch sensors by wake-up circuit;When the wake-up electricity
When road is detected simultaneously by the touch signal of two touch sensors, the power supply that the wake-up circuit opens the microprocessor connects
It connects, so that the microprocessor is waken up by off working state to working condition.
Further, after the touch signal that the wake-up circuit fails to detect two touch sensors simultaneously is more than the N time,
The wake-up circuit disconnects the power supply connection of the microprocessor, so that the microprocessor power cut-off state.
Further, which is bluetooth controller;The circuit board is provided with bluetooth module;The bluetooth module connection
The microprocessor;The microprocessor connects lockset by the bluetooth module.
Further, which is lockset connector, further includes the connector for docking lockset;The circuit board is provided with
Bluetooth module;The bluetooth module connects the microprocessor;The microprocessor is mobile eventually by bluetooth module connection
End.
The technical effect of the utility model is as follows:
1, two touch sensors are disposed opposite to each other, and meet very much the hand-held habit of normal person.When user holds the connector
When, it can wake up to realize noninductive wake-up without special action.
2, when placing, two touch tactility apparatus being disposed opposite to each other are not easy to be triggered simultaneously, and avoid false wake-up, to save
About energy consumption extends battery.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of bluetooth controller in the utility model embodiment 1.
Fig. 2 is the attachment structure schematic diagram of two touch sensors of the utility model, microprocessor and battery.
Fig. 3 is the structural schematic diagram of 2 lockset connector of the utility model embodiment.
Wherein, 100 be circuit board, and 101 be microprocessor, and 102 be battery, and 201 be the first touch tactility apparatus, and 202 be
Two touch sensors, 203 be socket, and 1 is main body, and 2 be connector, and 301 be spring needle stand, and 302 be spring stylus, and 303 be magnet steel.
Specific embodiment
The utility model is described in further details with reference to the accompanying drawing.
Embodiment 1
As shown in Figure 1, the connector that a kind of double touch sensors of the present embodiment wake up is a kind of for automobile door opening
Bluetooth electronic controller, or referred to as bluetooth controller.The bluetooth controller includes shell 900, is set in shell 900
Circuit board 100 and battery 102 and two touch sensors being respectively arranged at the opposite hand-held face of shell 900: first touches
Tactility apparatus 201 and the second touch sensor 202.Microprocessor 101 is provided on circuit board 100.Battery 102 is arranged in circuit board
On 100.As shown in Fig. 2, battery 102 connects micro process 101, first touches tactility apparatus 201 and the connection of the second touch sensor 202
Battery 102 and micro process 101.Battery 102 is for providing electric energy.First touches tactility apparatus 201 and the second touch sensor 202 use
Off working state is switched into working condition wake-up job instruction in receiving user.In the present embodiment, first touches tactility apparatus 201
Two pins of micro process 101 are separately connected with the second touch sensor 202.First, which touches tactility apparatus 201 and second, touches biography
Sensor 202 uses capacitive touch sensors.When the hand contact first of user touches tactility apparatus 201 and the second touch sensor
When 202, the capacitance variations on capacitive touch sensors form high level work by circuit on the corresponding pin of micro process 101
For wake-up signal.There are two types of operating modes for the tool of micro process 101: standby mode and operating mode.Micro process 101 is in standby mode
When, that is, micro process 101 is in the standby state, power consumption is considerably less.Micro process 101 is in operating mode, that is, micro process
101 in the operating condition power consumption it is more.
Under standby mode and operating mode, micro process 101 can detect connection first and touch tactility apparatus 201 and the second touching
Two pin level for touching sensor 202, when detecting two pins is high level, expression detects wake-up signal.Micro- place
Reason is 101 in standby mode, that is, micro process 101 is in the standby state, when being detected simultaneously by the first touching by two pins
When touching the wake-up signal of tactility apparatus 201 and the second touch sensor 202, micro process 101 switches to operating mode by standby mode,
Namely waken up by standby mode into working condition.Micro process 101 is in operating mode, that is, micro process 101 is in work shape
Under state, when the wake-up for failing to be detected simultaneously by the first touch tactility apparatus 201 and the second touch sensor 202 by two pins is believed
After number a period of time, micro process 101 switches to standby mode by operating mode, that is, 101 power cut-off state of micro process and
Into standby mode.Here a period of time is generally 5 ~ 15 seconds.
The connector that a kind of double touch sensors of the present embodiment wake up is micro- as a kind of automobile Bluetooth electronic controller
Processing 101 has bluetooth module.Microprocessor 101 is interacted by its bluetooth module with Blue-tooth communication method and automobile, real
Existing unlocking automobiles and locking.
Embodiment 2
As shown in Figure 1, the connector that a kind of double touch sensors of the present embodiment wake up is a kind of lockset connector.The lock
Having connector includes main body 1 and connector 2.Main body 1 is connected with connector 2.Main body 1 includes shell 900, is set in shell 900
Circuit board 100 and battery 102 and two touch sensors being respectively arranged at the opposite hand-held face of shell 900: first touches
Tactility apparatus 201 and the second touch sensor 202.Microprocessor 101 and socket 203 are provided on circuit board 100.Battery 102 is set
It sets on circuit board 100.Connector 2 equipped with spring needle stand 301 and is arranged on spring needle stand 301 and is located at for docking lockset
The spring stylus 302 of 2 end of connector.The root of connector 2 is provided with magnet steel 203.Magnet steel 203 is for lockset connector to be adsorbed on
On lockset, so that the spring stylus 302 in connector 2 is electrically connected with lockset realization.Spring stylus 302 passes through on circuit board 100
Socket 203 connects microprocessor 101.
As shown in Fig. 2, battery 102 connects micro process 101, first touches tactility apparatus 201 and the second touch sensor 202 company
Connect battery 102 and micro process 101.Battery 102 is for providing electric energy.First touches tactility apparatus 201 and the second touch sensor 202
Off working state is switched into working condition wake-up job instruction for receiving user.In the present embodiment, first touches tactility apparatus
201 and second touch sensor 202 be separately connected two pins of micro process 101.First, which touches tactility apparatus 201 and second, touches
Sensor 202 uses capacitive touch sensors.When the hand contact first of user touches tactility apparatus 201 and the second touch sensor
When 202, the capacitance variations on capacitive touch sensors form high level work by circuit on the corresponding pin of micro process 101
For wake-up signal.There are two types of operating modes for the tool of micro process 101: standby mode and operating mode.Micro process 101 is in standby mode
When, that is, micro process 101 is in the standby state, power consumption is considerably less.Micro process 101 is in operating mode, that is, micro process
101 in the operating condition power consumption it is more.
Under standby mode and operating mode, micro process 101 can detect connection first and touch tactility apparatus 201 and the second touching
Two pin level for touching sensor 202, when detecting two pins is high level, expression detects wake-up signal.Micro- place
Reason is 101 in standby mode, that is, micro process 101 is in the standby state, when being detected simultaneously by the first touching by two pins
When touching the wake-up signal of tactility apparatus 201 and the second touch sensor 202, micro process 101 switches to operating mode by standby mode,
Namely waken up by standby mode into working condition.Micro process 101 is in operating mode, that is, micro process 101 is in work shape
Under state, when the wake-up for failing to be detected simultaneously by the first touch tactility apparatus 201 and the second touch sensor 202 by two pins is believed
After number a period of time, micro process 101 switches to standby mode by operating mode, that is, 101 power cut-off state of micro process and
Into standby mode.Here a period of time is generally 5 ~ 15 seconds.
The lockset connector of the present embodiment can be used for establishing connection for lockset and mobile terminal, and micro process 101 has
Bluetooth module, microprocessor 101 is by bluetooth module to connect mobile terminal with Blue-tooth communication method.
It should be pointed out that two touch sensors are all made of capacitive touch sensors in above-mentioned two embodiment, this
Field technical staff understands, two touch sensors can also using impedance type touch sensor or piezoelectric transducer or its
His sensor.Two touch sensors can also be even arranged to difference, for example a touch sensor uses capacitive touch
Sensor is touched, and another uses piezoelectric transducer.
In addition it is also necessary to illustrate, in above-mentioned two embodiment, two touch sensors are separately connected microprocessor
Two pins, this is because microprocessor used by above-mentioned two embodiment supports the switching of standby mode and working condition.
It will be appreciated by those skilled in the art that there are many this kind of microprocessor currently on the market, this specification is without repeating.If used
Microprocessor does not support the switching of standby mode and working condition, it will be appreciated by those skilled in the art that can be in two touch sensings
Wake-up circuit is arranged in device and microprocessor, it is, being connected between microprocessor and two touch sensors by wake-up circuit.
It will be appreciated by those skilled in the art that wake-up circuit can use ready-made wake-up integrated circuit currently on the market.Related wake-up electricity
Road this specification repeats no more.
Claims (10)
1. a kind of connector that double touch sensors wake up, which is characterized in that hold face opposite to each other including being separately positioned on shell
Two touch sensors and setting are in the intracorporal circuit board of shell and battery;Microprocessor is provided on the circuit board;It is described micro-
Processor connects the battery and two touch sensors.
2. the connector that touch sensors as described in claim 1 double wake up, which is characterized in that two touch sensors are
Capacitive touch sensors perhaps piezoelectric transducer or a touch sensor are capacitive touch sensors and another is
Piezoelectric transducer.
3. the connector that touch sensors as described in claim 1 double wake up, which is characterized in that when being detected simultaneously by two touchings
When touching the touch signal of sensor, the microprocessor is waken up to working condition.
4. the connector that touch sensors as claimed in claim 3 double wake up, which is characterized in that when failing to detect two simultaneously
The touch signal of touch sensor is more than the microprocessor power cut-off state after the N time.
5. the connector that double touch sensors as claimed in claim 3 wake up, which is characterized in that two touch sensor difference
It is directly connected to two pins of the microprocessor;The microprocessor is detected simultaneously by two touch sensings in the standby state
When the touch signal of device, the microprocessor is waken up by standby mode to working condition.
6. the connector that double touch sensors as claimed in claim 4 wake up, which is characterized in that when the microprocessor is in work
It is super after a period of time to make the touch signal for failing to detect two touch sensors simultaneously under state, the microprocessor is by working
State switches to standby mode to power cut-off state.
7. the connector that double touch sensors as claimed in claim 3 wake up, which is characterized in that the microprocessor and two
It is connected between touch sensor by wake-up circuit;When the wake-up circuit is detected simultaneously by the touch letter of two touch sensors
Number when, the wake-up circuit open the microprocessor power supply connection so that the microprocessor is waken up by off working state
To working condition.
8. the connector that double touch sensors as claimed in claim 7 wake up, which is characterized in that when the wake-up circuit fails
After the touch signal of two touch sensors of detection is more than the N time simultaneously, the wake-up circuit disconnects the electricity of the microprocessor
Source connection, so that the microprocessor power cut-off state.
9. the connector that double touch sensors as described in claim 1 wake up, which is characterized in that the connector is Bluetooth control
Device;The circuit board is provided with bluetooth module;The bluetooth module connects the microprocessor;The microprocessor passes through described
Bluetooth module connects lockset.
10. the connector that double touch sensors as described in claim 1 wake up, which is characterized in that the connector is lockset company
Device is connect, further includes the connector for docking lockset;The circuit board is provided with bluetooth module;The bluetooth module connection is described micro-
Processor;The microprocessor connects mobile terminal by the bluetooth module.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920878423.1U CN209728713U (en) | 2019-06-12 | 2019-06-12 | A kind of connector that double touch sensors wake up |
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CN201920878423.1U CN209728713U (en) | 2019-06-12 | 2019-06-12 | A kind of connector that double touch sensors wake up |
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CN209728713U true CN209728713U (en) | 2019-12-03 |
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CN201920878423.1U Active CN209728713U (en) | 2019-06-12 | 2019-06-12 | A kind of connector that double touch sensors wake up |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110109574A (en) * | 2019-06-12 | 2019-08-09 | 南京东屋电气有限公司 | A kind of connector that double touch sensors wake up |
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2019
- 2019-06-12 CN CN201920878423.1U patent/CN209728713U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110109574A (en) * | 2019-06-12 | 2019-08-09 | 南京东屋电气有限公司 | A kind of connector that double touch sensors wake up |
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