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A method and terminal for reducing bluetooth communication power consumption

A Bluetooth communication and power consumption technology, applied in wireless communication, energy consumption reduction, power management, etc., can solve the problems of multi-power consumption, limited volume, delay, etc., and achieve the effect of reducing power consumption and improving transmission efficiency

Active Publication Date: 2022-05-03
FUJIAN LANDI COMML EQUIP CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] At present, smart wearable devices (such as bracelets or watches) on the market are usually limited in size, and the built-in lithium battery capacity is generally very small, but in the actual application process, smart wearable devices have higher requirements for battery life.
As the only way for smart wearable devices to communicate with mobile phones, the Bluetooth module must maintain a long-term high-speed mode of operation during actual use to ensure real-time upload of various data, which causes a lot of power consumption
When Bluetooth is in communication, although it can change the speed between 200B / s and 3KB / s, once the amount of transmitted data is large and Bluetooth is in low-speed mode, it will take a long time to transmit data and cause serious delays. user experience

Method used

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  • A method and terminal for reducing bluetooth communication power consumption
  • A method and terminal for reducing bluetooth communication power consumption
  • A method and terminal for reducing bluetooth communication power consumption

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0093] Please refer to figure 1 , a method for reducing bluetooth communication power consumption, comprising steps:

[0094] S01. Pre-configure and save the communication rate of the Bluetooth module of the wearable device in each application scenario and the correspondence between the communication rate of the Bluetooth module and each application scenario;

[0095] S1. Set the Bluetooth module of the wearable device to enter the low frequency mode;

[0096] S2. Judging whether a rate switching signal for the current application scene of the wearable device is received, if so, perform step S3, otherwise, set the Bluetooth module of the wearable device to maintain a low frequency mode;

[0097] S3. Switch the Bluetooth module of the wearable device from low frequency mode to high frequency mode, including:

[0098] According to the current application scene of the wearable device indicated by the rate switching signal, the rate switching signal directly indicates the curren...

Embodiment 2

[0104] Please refer to figure 1 and image 3 The difference between this embodiment and Embodiment 1 is that, after the step S3, it also includes:

[0105] Receive an interrupt signal, and set the Bluetooth module of the wearable device to re-enter the low frequency mode according to the interrupt signal;

[0106] The interrupt signal instructs the wearable device to end the current application scenario.

[0107] Applying the above scheme to a specific application scenario, the wearable device is a bluetooth bracelet, and the communication rate of the bluetooth module on the bluetooth bracelet is between 200byte / s and 3kb / s, and the bluetooth module is The default state of the Bluetooth bracelet is in the low frequency mode of 200byte / s when it is in standby, so as to ensure the low power consumption of the Bluetooth bracelet. Or the rate switching signal of the scene corresponding to the swiping card transaction, the Bluetooth bracelet receives the said rate switching sign...

Embodiment 3

[0109] Please refer to figure 1 The difference between this embodiment and Embodiment 1 is that it further includes: receiving a request for reducing the application scenarios of the wearable device, where the request indicates the reduced application scenarios;

[0110] According to the reduced application scenario indicated by the request, delete the communication rate of the corresponding Bluetooth module and the corresponding relationship between the communication rate and the corresponding application scenario;

[0111] At the same time, it also includes: receiving a request to increase the application scenario of the wearable device, the request indicating the increased application scenario and the communication rate of the corresponding Bluetooth module;

[0112] According to the increased application scenario indicated by the request and the communication rate of the corresponding Bluetooth module, increase and store the communication rate of the corresponding Bluetoot...

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PUM

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Abstract

The present invention provides a method and a terminal for reducing the power consumption of Bluetooth communication. By setting the Bluetooth module of the wearable device to enter the low-frequency mode, it is judged whether a rate switching signal for the current application scene of the wearable device is received, and if not, the set The Bluetooth module of the wearable device maintains the low-frequency mode, otherwise, switch the Bluetooth module of the wearable device from the low-frequency mode to the high-frequency mode, and the communication rate of the Bluetooth module of the wearable device in the high-frequency mode is greater than that of the low-frequency mode Lower the communication rate of the Bluetooth module of the wearable device; enter the high-frequency mode when the amount of transmitted data is large, improve the data transmission efficiency, and maintain the low-frequency mode when it is idle or when the amount of data is small, and realize the communication rate of the Bluetooth module according to the current The application scene changes and automatically adjusts, reducing the power consumption of Bluetooth communication.

Description

technical field [0001] The invention relates to the field of energy saving, in particular to a method and a terminal for saving Bluetooth power consumption. Background technique [0002] At present, smart wearable devices (such as bracelets or watches) on the market are usually limited in size, and the built-in lithium battery capacity is generally very small, but in the actual application process, smart wearable devices have higher requirements for battery life. As the only way for smart wearable devices to communicate with mobile phones, the Bluetooth module must maintain a high-speed mode for a long time to ensure real-time upload of various data during actual use, which causes a lot of power consumption. When Bluetooth is in communication, although it can change the speed between 200B / s and 3KB / s, once the amount of transmitted data is large and Bluetooth is in low-speed mode, it will take a long time to transmit data and cause serious delays. user experience. Content...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04W4/80H04W52/02
CPCH04W4/80H04W52/0225H04W52/0261Y02D30/70
Inventor 曾德炎李登希蔡振毅
Owner FUJIAN LANDI COMML EQUIP CO LTD