CN105050025A - Awakening method and device based on low-power-consumption Bluetooth radio frequency - Google Patents

Abstract

The invention discloses an awakening method and device based on low-power-consumption Bluetooth radio frequency, and the method comprises the steps: 1, carrying out system booting of an awakening terminal, and enabling high-power-consumption equipment to enter into a low-power-consumption state: shutdown or sleep; 2, enabling low-power-consumption Bluetooth slave equipment to enter into an intermittent work mode after the system booting of the awakening terminal; 3, enabling low-power-consumption Bluetooth main equipment of a control terminal to send a control instruction; 4, enabling low-power-consumption Bluetooth slave equipment of the awakening terminal to respond to the control instruction, and awakening the high-power-consumption equipment to work; 5, returning to step 2 after the low-power-consumption Bluetooth slave equipment of the awakening terminal completes an awakening task. The device comprises the equipment with a low-power-consumption Bluetooth slave, the awakening terminal formed by the high-power-consumption equipment which can be awakened by the equipment with the low-power-consumption Bluetooth slave, and the control end which consists of equipment with the low-power-consumption Bluetooth main unit. The method and device achieve the awakening of the high-power-consumption equipment in the air based on the radio frequency of low-power-consumption Bluetooth, and reduce the energy consumption of the high-power-consumption equipment.

Description

A kind of based on low-power consumption Bluetooth RF awakening method and device

Technical field

The present invention relates to a kind of based on low-power consumption Bluetooth RF awakening method and device.

Background technology

Low-power consumption bluetooth is the upgraded version (comprise bluetooth 4.0 and more highest version) of bluetooth 3.0, and, 3 millisecond low delay, overlength low compared with the more power saving of 3.0 versions, cost effectively connect distance, AES-128 encryption etc.; Usually be used on the equipment such as bluetooth earphone, Baffle Box of Bluetooth.

Radio-frequency wakeup technology is the method utilizing wireless signal to carry out equipment to wake up, is mainly used in having on the equipment of low-power consumption requirement.

Low-power consumption bluetooth is supplementing of bluetooth 3.0+HS specification, specially towards the wireless solution all had higher requirements to cost and power consumption, can be widely used in the numerous areas such as health care, physical fitness, home entertaining, safety guarantee.It supports two kinds of deployment way: double mode and monotype.In double mode, low-power consumption Bluetooth function is integrated in existing classical bluetooth controller, or on existing classical Bluetooth technology (2.1+EDR/3.0+HS) chip, increases low-power consumption storehouse again, and overall architecture is substantially constant, and therefore cost increases limited.Monotype is towards highly integrated, compact equipment, a lightweight articulamentum (LinkLayer) is used to provide the operate in standby mode of super low-power consumption, simple device recovery and reliable point-to-multipoint transfer of data, can also allow networked sensor in Bluetooth transmission, arrange the order of low-power consumption bluetooth flow properly, also have senior to be energy-conservationly connected with safety encipher simultaneously.

Low-power consumption bluetooth, by three kinds of set of specifications one, comprises traditional bluetooth technology, high speed technology and Low-power Technology, compared with 3.0 versions maximum different be exactly low-power consumption, this characteristic makes Bluetooth technology be extended to some emerging markets adopting button cell to power.Bluetooth Low Energy technology is the upgrade version based on Bluetooth Low Energy wireless technology core specification, for the application of the vast emerging markets such as developing clock and watch, Long-distance Control, health care and motion sensor lays the foundation.

There is a lot of high power consumption devices in current application, due to the existence of aware services object that can not be intelligent, often allow equipment be in the pattern of periodic duty, and then bring a large amount of energy ezpenditure without any effect, both wasted, also not environmentally.

In prior art, the working method of the iBeacon technology of Apple is: be equipped with the equipment of low-power consumption function of Bluetooth communication to send oneself distinctive ID towards periphery, and the application software receiving this ID can take some actions according to this ID.Such as, iBeacon communication module is set in shop, just can allows operation one information notification server on iPhone and iPad, or send coupons by server to client and enter shop integration.In addition, can also iBeacon be used to send information to application software when household electrical appliances break down or quit work.

The scene that the iBeacon technology of Apple is mainly suitable for is indoor positioning, is mainly used on the relevant system schema of location-based service, effectively can not solves the power saving of other high power consuming device.

A kind of radio-frequency wakeup circuit for type active RFID electronic label disclosed in patent publication No. CN202795422U, relate to the improvement of REID, be applicable to the radio-frequency wakeup circuit in electronic labelling system, be particularly useful for the radio-frequency recognition system of intelligent transportation, warehouse logistics, comprise radio-frequency wakeup circuit transmission end and radio-frequency wakeup circuit receiving terminal, operating frequency is 915MHZ common frequency band, and effectively waking working range up is 20m.After type active RFID electronic label enters working range, wake up the processor of type active RFID electronic label, after processor and active RFID card reader complete data processing, type active RFID electronic label enters resting state again, until next time is waken up.

The solution of the above-mentioned radio-frequency wakeup circuit for type active RFID electronic label, possesses the function of radio-frequency wakeup, but application direction is special market (such as water meter, gas meter etc. check meter kind equipment) mostly, needing the control that special wake-up device could realize being waken up equipment, can not be applied on general marketplace.

Summary of the invention

The present invention is directed to the technical problem existed in above-mentioned prior art, there is provided a kind of based on low-power consumption Bluetooth RF awakening method and device, solve and realize waking up high power consuming device in the air by the radio-frequency technique based on low-power consumption bluetooth, reduce the energy ezpenditure of high power consuming device.

For achieving the above object, the technical solution adopted in the present invention is as follows:

A kind of based on low-power consumption Bluetooth RF awakening method, comprise step as follows:

Step 1: wake end system up and start, high power consuming device enters the low power consumpting state of closedown or dormancy;

Step 2: wake end system up and start complete, low-power consumption bluetooth slave devices enters intermittent work pattern;

Step 3: control end low-power consumption bluetooth host equipment sends control command;

Step 4: wake the instruction of end low-power consumption bluetooth slave devices response limiting up, wake high power consuming device up and carry out work;

Step 5: wake end low-power consumption bluetooth slave devices up and complete the task of waking up, return and perform step 2.

Described step 2: wake end system up and start complete, low-power consumption bluetooth slave devices is the intermittent broadcast singal ADV_IND sent with identity tag information under low power consumpting state;

Described step 3: control end low-power consumption bluetooth host equipment receives broadcast singal ADV_IND, the identity tag information judging in signal is send connection request CONNECT_REQ after correct business information;

Described step 4: wake up and wake high power consuming device up after end low-power consumption bluetooth slave devices receives connection request CONNECT_REQ and carry out work.

Described step 2: wake end system up and start complete, low-power consumption bluetooth slave devices is the intermittent broadcast singal ADV_SCAN_IND sent with identity tag information under low power consumpting state;

Described step 3: control end low-power consumption bluetooth host equipment receives broadcast singal ADV_SCAN_IND, the identity tag information judging in signal is send scan request SCAN_REQ after correct business information;

Described step 4: wake up and wake high power consuming device up after end low-power consumption bluetooth slave devices receives scan request SCAN_REQ and carry out work.

Described step 2: wake end system up and start complete, low-power consumption bluetooth slave devices is intermittent monitoring scan request SCAN_REQ under low power consumpting state;

Described step 3: control end low-power consumption bluetooth host equipment initiatively sends scan request SCAN_REQ;

Described step 4: wake up and wake high power consuming device up after end low-power consumption bluetooth slave devices receives scan request SCAN_REQ and carry out work.

A kind of based on low-power consumption Bluetooth RF Rouser, for realizing above-mentioned awakening method, comprise the control end of equipment formation that wake end, a band low-power consumption bluetooth host of a band low-power consumption bluetooth from the equipment of machine and a high power consuming device composition that can be waken up from the equipment of machine by band low-power consumption bluetooth.

Described low-power consumption bluetooth slave devices and low-power consumption bluetooth host equipment can support one or more radio-frequency wakeup methods.

Described high power consuming device includes but not limited to acoustic positioning equipment, broadcast guide equipment, video ads equipment.

The present invention realizes waking up high power consuming device in the air by the radio-frequency technique based on low-power consumption bluetooth, reduces the energy ezpenditure of high power consuming device.Its operation principle mainly realizes the control of main process equipment to slave devices by the two-way communication of low-power consumption bluetooth host equipment and slave devices, and wake (controlling or notice) high power consuming device up by slave devices, high power consuming device is allowed to enter running status from non-operating state, the operating state of high power consuming device can be controlled, reach the target reducing power consumption.

The present invention utilizes the Bluetooth protocol of standard (to comprise ADV_IND, ADV_SCAN_IND, SCAN_REQ, SCAN_RSP and CONNECT_REQ) realize three kinds of different radio-frequency wakeup methods and tackle different application scenarioss, the control that can realize high power consuming device running status by low-power consumption bluetooth host equipment and slave devices.

The present invention utilizes the radio-frequency wakeup function based on low-power consumption Bluetooth technology, the bluetooth equipment of low-power consumption can either be utilized to go to wake high power consuming device up, the needs using the high power consuming device of battery to lengthen working hours can be realized, also can realize the needs of all high power consuming device energy-conserving and environment-protective; The present invention uses the low-power consumption Bluetooth protocol of standard, does not need customization privatization agreement, is applicable to being applied in the Bluetooth system environment of various standard, has and dispose conveniently, be widely used, the feature of low cost; Meanwhile, the present invention can also allow smart mobile phone, the flat board being configured with low-power consumption Bluetooth chip become Rouser by customizing the mode of APP, thus the technology allowing radio-frequency wakeup become popular, be conducive to the construction of smart city.

Accompanying drawing explanation

By reading the detailed description done non-limiting example with reference to the following drawings, other features, objects and advantages of the present invention will become more obvious:

Fig. 1 is the inventive method Whole Work Flow;

Fig. 2 is radio-frequency wakeup method one workflow;

Fig. 3 is radio-frequency wakeup method two workflow;

Fig. 4 is radio-frequency wakeup method three workflow;

Fig. 5 is apparatus of the present invention composition structured flowchart.

Embodiment

Below in conjunction with specific embodiment, the present invention is described in detail.Following examples will contribute to those skilled in the art and understand the present invention further, but not limit the present invention in any form.It should be pointed out that to those skilled in the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.

Shown in Fig. 1, provided by the present invention based on low-power consumption Bluetooth RF awakening method, Whole Work Flow is as follows:

Step 1: wake end system up and start, high power consuming device enters the low power consumpting state of closedown or dormancy;

Step 2: wake end system up and start complete, low-power consumption bluetooth slave devices enters intermittent work pattern;

Step 3: control end low-power consumption bluetooth host equipment sends control command;

Step 4: wake the instruction of end low-power consumption bluetooth slave devices response limiting up, wake (controlling or notice) high power consuming device up and carry out work;

Step 5: wake end low-power consumption bluetooth slave devices up and complete the task of waking up, return and perform step 2.

Be the three kinds of radio-frequency wakeup methods based on low-power consumption Bluetooth technology listed the expansion of Whole Work Flow shown in Fig. 2 ~ Fig. 4, the difference of each method is mainly for the specific implementation of step 2, step 3 and step 4 in Whole Work Flow.

The workflow of the method for radio-frequency wakeup shown in Fig. 2 one:

Step 1: wake end system up and start, high power consuming device enters the low power consumpting state of closedown or dormancy.

Step 2: wake end system up and start complete, low-power consumption bluetooth slave devices is the intermittent broadcast singal (ADV_IND) sent with identity tag information under low power consumpting state.

Step 3: control end low-power consumption bluetooth host equipment receives broadcast singal (ADV_IND), the identity tag information judging in signal is send connection request (CONNECT_REQ) after correct business information

Step 4: wake up and wake (controlling or notice) high power consuming device up after end low-power consumption bluetooth slave devices receives connection request (CONNECT_REQ) and carry out work.

Step 5: wake end low-power consumption bluetooth slave devices up and complete the task of waking up, return and perform step 2.

The workflow of the method two of radio-frequency wakeup shown in Fig. 3:

Step 1: wake end system up and start, high power consuming device enters the low power consumpting state of closedown or dormancy.

Step 2: wake end system up and start complete, low-power consumption bluetooth slave devices is the intermittent broadcast singal (ADV_SCAN_IND) sent with identity tag information under low power consumpting state.

Step 3: control end low-power consumption bluetooth host equipment receives broadcast singal (ADV_SCAN_IND), the identity tag information judging in signal is send scan request (SCAN_REQ) after correct business information

Step 4: wake up and wake (controlling or notice) high power consuming device up after end low-power consumption bluetooth slave devices receives scan request (SCAN_REQ) and carry out work.

Step 5: wake end low-power consumption bluetooth slave devices up and complete the task of waking up, return and perform step 2.

The workflow of the method for radio-frequency wakeup shown in Fig. 4 three:

Step 1: wake end system up and start, high power consuming device enters the low power consumpting state of closedown or dormancy.

Step 2: wake end system up and start complete, low-power consumption bluetooth slave devices is intermittent monitoring scan request (SCAN_REQ) under low power consumpting state.

Step 3: control end low-power consumption bluetooth host equipment initiatively sends scan request (SCAN_REQ).

Step 4: wake up and wake (controlling or notice) high power consuming device up after end low-power consumption bluetooth slave devices receives scan request (SCAN_REQ) and carry out work.

Step 5: wake end low-power consumption bluetooth slave devices up and complete the task of waking up, return and perform step 2.

Shown in Fig. 5, the present invention realizes the above-mentioned device based on low-power consumption Bluetooth RF awakening method, comprises the control end of equipment formation that wake end, a band low-power consumption bluetooth host of a band low-power consumption bluetooth from the equipment of machine and a high power consuming device composition that can be waken up from the equipment of machine by band low-power consumption bluetooth.

Above specific embodiments of the invention are described.It is to be appreciated that the present invention is not limited to above-mentioned particular implementation, those skilled in the art can make various distortion or amendment within the scope of the claims, and this does not affect flesh and blood of the present invention.

Claims (8)

1., based on a low-power consumption Bluetooth RF awakening method, it is characterized in that, comprise step as follows:

Step 1: wake end system up and start, high power consuming device enters the low power consumpting state of closedown or dormancy;

Step 2: wake end system up and start complete, low-power consumption bluetooth slave devices enters intermittent work pattern;

Step 3: control end low-power consumption bluetooth host equipment sends control command;

Step 4: wake the instruction of end low-power consumption bluetooth slave devices response limiting up, wake high power consuming device up and carry out work;

Step 5: wake end low-power consumption bluetooth slave devices up and complete the task of waking up, return and perform step 2.

2. according to claim 1ly to it is characterized in that based on low-power consumption Bluetooth RF awakening method,

Described step 2: wake end system up and start complete, low-power consumption bluetooth slave devices is the intermittent broadcast singal ADV_IND sent with identity tag information under low power consumpting state;

Described step 3: control end low-power consumption bluetooth host equipment receives broadcast singal ADV_IND, the identity tag information judging in signal is send connection request CONNECT_REQ after correct business information;

Described step 4: wake up and wake high power consuming device up after end low-power consumption bluetooth slave devices receives connection request CONNECT_REQ and carry out work.

3. according to claim 1ly to it is characterized in that based on low-power consumption Bluetooth RF awakening method,

Described step 2: wake end system up and start complete, low-power consumption bluetooth slave devices is the intermittent broadcast singal ADV_SCAN_IND sent with identity tag information under low power consumpting state;

Described step 3: control end low-power consumption bluetooth host equipment receives broadcast singal ADV_SCAN_IND, the identity tag information judging in signal is send scan request SCAN_REQ after correct business information;

Described step 4: wake up and wake high power consuming device up after end low-power consumption bluetooth slave devices receives scan request SCAN_REQ and carry out work.

4. according to claim 1ly to it is characterized in that based on low-power consumption Bluetooth RF awakening method,

Described step 2: wake end system up and start complete, low-power consumption bluetooth slave devices is intermittent monitoring scan request SCAN_REQ under low power consumpting state;

Described step 3: control end low-power consumption bluetooth host equipment initiatively sends scan request SCAN_REQ;

Described step 4: wake up and wake high power consuming device up after end low-power consumption bluetooth slave devices receives scan request SCAN_REQ and carry out work.

5. one kind based on low-power consumption Bluetooth RF Rouser, it is characterized in that, for realizing awakening method according to claim 1, it is characterized in that, comprise the control end of equipment formation that wake end, a band low-power consumption bluetooth host of a band low-power consumption bluetooth from the equipment of machine and a high power consuming device composition that can be waken up from the equipment of machine by band low-power consumption bluetooth.

6. according to claim 5ly it is characterized in that based on low-power consumption Bluetooth RF Rouser, described low-power consumption bluetooth slave devices and low-power consumption bluetooth host equipment can support one or more radio-frequency wakeup methods.

7. according to claim 5ly it is characterized in that based on low-power consumption Bluetooth RF Rouser, described high power consuming device includes but not limited to acoustic positioning equipment, broadcast guide equipment, video ads equipment.

8. according to claim 5ly it is characterized in that based on low-power consumption Bluetooth RF Rouser, described high power consuming device includes but not limited to the smart mobile phone, the panel computer that are configured with low-power consumption Bluetooth chip.