WO2012058981A1 - Electronic device with power supply state evaluation function, and method for evaluating power supply thereof - Google Patents

Abstract

An electronic device (1) with a power supply state evaluation function and a method for evaluating a power supply thereof. The electronic device includes: a battery (40) for providing the power needed by the electronic device (1) with the power supply state evaluation function; a storage module (10) for storing predetermined user records, a plurality of applications and power consumption parameters corresponding thereto, wherein the predetermined user records include a predetermined user number, a predetermined application corresponding to the predetermined user number and a theoretical power consumption curve corresponding to the predetermined application; an input interface for receiving a user number and selecting one of the plurality of applications; a processing module (20) electrically connected to the storage module (10), the input interface, and the battery (40), for detecting the voltage value of the battery, judging whether the predetermined user number is the same as the user number and judging whether the selected application is the same as the predetermined application; and a temporary storage module (50) connected to the processing module (20).

Description

 Electronic device with power state evaluation function and power supply evaluation method thereof

 The present invention relates to an electronic device having a power state evaluation function and a power supply evaluation method thereof, and more particularly to an electronic device having a power state evaluation function and a power source evaluation method thereof, which are used by a user to automatically perform smart power evaluation.

Background technique

 In the period of rapid development of an electronic information industry, the high convenience provided by handheld electronic consumer products has made handheld electronic consumer products such as electronic dictionaries, e-learning machines, and personal digital assistants more and more popular. People's requirements for the functions of handheld electronic consumer products are also increasing. Whether handheld electronic consumer products are easy to use and whether they can respond to users in a timely manner and intelligently meet the needs of users has become an important evaluation indicator for high-tech product technology. Among them, the battery is one of the decisive indicators, but the power supply time of the same battery under different usage habits may be different.

 Most of the handheld electronic consumer products currently on the market do not have a battery usage record. They can only give a reminder before the battery is exhausted, or give the user about the remaining battery information in terms of the number of cells, so the user cannot know accurately. How long can a handheld electronic consumer product be used without charging? And the purpose is not to evaluate the use time for different users.

Summary of the invention

 SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned technical problems existing in the background art, and proposes an electronic device having a power state evaluation function and a power supply evaluation method thereof.

The technical solution of the present invention is an electronic device having a power state evaluation function, which is special in that: the device includes: power required by an electronic device that provides a power state evaluation function of the battery; a storage module, a storage reservation a user record, a plurality of applications, and a power consumption parameter corresponding to the application, the predetermined user record includes a predetermined user number, a predetermined application corresponding to the predetermined user number, and a theoretical power consumption curve corresponding to the predetermined application; , for receiving the user number, and selecting one of the multiple applications; the processing module, electrically connecting the storage module, the input interface and the battery, detecting the voltage value of the battery, and determining whether the predetermined user number is the same as the user number And determining whether the selected application is the same as the intended application; temporary storage a module, a connection processing module; wherein, when the determination result is the same, the processing module stores the theoretical power consumption curve corresponding to the predetermined application in the temporary storage module as a temporary power consumption curve, and generates a battery according to the theoretical power consumption curve and the voltage value time.

 The electronic device further includes a display unit, and the display unit is connected to the processing module to display the available time of the battery.

 The processing module detects the voltage value at a fixed time interval and stores it in the temporary power consumption curve. When the user selects one of the plurality of applications through the input interface, the processing module writes the branch record in the temporary power consumption curve.

 When the user selects to exit one of the selected multiple applications through the input interface, the processing module records the temporary power consumption curve in the predetermined user record, and generates the battery according to the temporary power consumption curve, the theoretical power consumption curve, and the voltage value. Available time.

 A power state evaluation method suitable for evaluating the available time of a battery of an electronic device, the special method comprising: the method comprising the following steps:

 1) providing a storage module for storing a predetermined user record, a plurality of applications, and power consumption parameters corresponding to each application, wherein the predetermined user record includes a predetermined user number, a predetermined application corresponding to the predetermined user number, and a corresponding predetermined application. Theoretical power consumption curve;

 2) receiving the user number through the input interface, and selecting one of the multiple applications;

3) using the processing module to determine whether the predetermined user number is the same as the user number, and determining whether the selected application is the same as the predetermined application;

 4) When the judgment result is the same, the temporary storage module is provided to store the theoretical power consumption curve corresponding to the predetermined application program as the temporary power consumption curve;

 5) Use the processing module to detect the voltage value of the battery, and generate the available time of the battery according to the temporary power consumption curve and the voltage value.

 The above step 5) further includes providing a display unit to display the available time of the battery.

 The above step 4) also includes detecting the voltage value at a fixed time interval by the processing module and storing it in the temporary power consumption curve.

 When the above step 2) also includes selecting one of the multiple applications through the input interface, the processing module writes the branch record in the temporary power consumption curve.

In the above step 5), when one of the selected multiple applications is selected to be exited, the processing module The temporary power consumption curve is recorded in the predetermined user record, and the available time of the battery is generated according to the temporary power consumption curve, the theoretical power consumption curve, and the voltage value.

 The electronic device with power state evaluation function and the power supply evaluation method provided by the invention can provide an evaluation function for the power state of the electronic device, so that the user can better understand the state of use of the power source.

DRAWINGS

 1 is a schematic diagram of an electronic device having a power state evaluation function according to the present invention;

2 is a schematic diagram of a usage database of a power state evaluation function according to the present invention; FIG. _{3 is} a schematic diagram of a theoretical power consumption curve of an electronic device having a power state evaluation function according to the present invention;

 4 is a schematic diagram of a temporary power consumption curve with a mark branch of an electronic device having a power state evaluation function according to the present invention;

 5 is a schematic diagram of an average power consumption curve of an electronic device having a power state evaluation function according to the present invention;

 6 is a flow chart showing the implementation of the power state evaluation method of the present invention.

 Among them, 1-electronic device with power status assessment function, 10-storage module, 110-usage database, 1110-predetermined user record, 1111-preset application, 1112-default user number, 1113-theory Power consumption curve, 1114-average power consumption curve, 1115-counting parameter, 1116-power consumption curve, 120-application database, 130-power consumption parameter database, 20-processing module, 30-input interface, 40-battery, 50 - temporary storage module, 60-display unit;

detailed description

Referring to FIG. 1, an electronic device 1 having a power state evaluation function includes a storage module 10, a processing module 20, an input interface 30, a battery 40, a temporary storage module 50, and a display unit 60. There are three databases in the storage module 10, which are a usage database 110, an application database 120, and a power consumption parameter database 130. The content of the record in the usage database 110 is as shown in FIG. 2. The usage database 110 includes a plurality of predetermined user records 1110, and each predetermined user record 1110 records a preset usage application 1111, a preset user number 1112, and a theory. The power consumption curve 1113, the average power consumption curve 1114, the counting parameter 1115, and the plurality of power consumption curves 1116. The average power consumption curve 1113 is obtained by averaging the power consumption values recorded at different time points. The application database 120 includes a plurality of applications, each of which may be software that performs various functions such as translating, translating, pronunciation, or reading electronic files. The various components required to start each application are also recorded in the application database 120. The data in the application database 120 is as shown in Table 1.

The power consumption parameter database 130 describes the components required by the electronic device 1 having the power state evaluation function and the power consumption parameters of the components. The data of this power consumption parameter database 130 is shown in Table 2.

Table II

 Input interface 30 accepts the user number entered by the user and selects an application. The input interface 30 is preferably an input button of the electronic device 1 having a power state evaluation function, or a touch input device such as a touch panel or a touch panel.

The processing module 20 is electrically connected to the input interface 30 of the storage module 10, the battery 40, the temporary memory 50, and the display unit 60 to detect the voltage value of the battery 40, and determine whether the user number is the same as the predetermined user number 1111, and determine the selection. The application is the same as the predetermined application 1112. When the determination result is the same, the processing module 20 stores the theoretical power consumption curve 1113 corresponding to the preset usage application 1112 in the temporary memory 50 as a temporary power consumption curve. And according to the temporary power consumption The voltage values of line 51 and battery 40 display the available time of electricity 40 on display unit 60. When the user number is different from the predetermined user number 1111, or the selected application 121 is determined to be different from the predetermined application 1112, the processing module 20 generates a new predetermined user record in the temporary memory 50, the new reservation. The user record contains information such as the selected application and the user number, and searches for the power consumption parameter corresponding to the application 121 in the power consumption parameter database 130. For example, in Table 1, the selected application is found in Table 2. Corresponding components, and electrical parameters corresponding to the components, to calculate the theoretical power consumption curve using the application 121. The processing module 20 stores the theoretical power consumption curve 1113 as a temporary power consumption curve in the temporary storage module 50, and calculates the remaining available time of the battery 40 based on the temporary power consumption curve.

 Referring to Figure 3, an application using an electronic file is taken as an example, and the predetermined user record 1110 does not have a predetermined user record 1110 for the user. The processing module 20 generates a corresponding theoretical power consumption curve 1113 according to the used application and the corresponding electrical parameters, and the data of the theoretical power consumption curve 1113 is 5.0 volts, 4.8 volts, 4.7 volts, 4.3 volts, 4.0 volts, 3.6 volts, respectively. 3.2 volts, 2.7 volts, 2.5 volts and 2.1 volts. When the user is reading the electronic file, the processing module 20 detects the voltage value of the battery 40 once every fixed time interval, and the fixed time interval is preferably thirty minutes, and the power consumption of each time is recorded in the The temporary storage module 50 generates a temporary power consumption curve based on the voltage value of the battery 40 at each time interval.

 If the user encounters a word that is not recognized when reading the electronic file, the application corresponding to the electronic dictionary is started, and the application corresponding to the pronunciation is started, and the processing module 20 starts the action record of the other application. In the temporary power consumption curve, and mark the branch one and the mark branch two in the data to correspond to the query action and the pronunciation action, see FIG. When the user exits the application corresponding to the reading function, the processing module 20 records the temporary power consumption curve in the power consumption curve 1116 in the preset user record 110, and increments the counting parameter 1115. Finally, the theoretical power consumption curve 1113 and all recorded power consumption curves 1116 are averaged to obtain an average power consumption curve 1114. See Figure 5.

When the user actively queries the remaining usage time of the battery 40 during the reading of the electronic file, or the voltage value of the battery 40 is less than the threshold value, the processing module 20 corresponds to the voltage in the average electrical curve 1114 by querying the current voltage value. Value, calculate the remaining usage time, to query the current battery 40 voltage value of 4.1 volts as an example, query the average power consumption curve 1114 of Figure 5, so the average remaining usage time can be estimated to be 150 minutes. If the user has started the application corresponding to the query and pronunciation after reading the electronic file for a period of time, the processing module 20 can search for the power consumption curve 1116 of the corresponding application in the preset user record 110 by using the mark branch, as shown in FIG. In the case of the labeled branch one and the labeled branch two, it takes 60 minutes to drop from a voltage value of 4.1 volts to 3.5 volts, and the average power consumption curve 1114 of FIG. 5 requires that 150 steps from 3.5 volts to 2.0 volts requires 150 minutes, so the battery When the voltage value of 40 is 4.1 volts, the remaining usage time displayed on the display unit is 210 minutes. If the processing module 20 finds the corresponding marker branch in the other power consumption curve 1116, and the remaining usage time of the other power consumption curve 1116 is 180 minutes and 240 minutes, the average estimated available time is 210 minutes, the maximum prediction. The available time is 240 minutes and the minimum estimated available time is 180 minutes. The processing module 20 can display the following prompts on the display unit 60 according to the above data:

 "The current voltage is 4.1V, and the current function can be used for 180 minutes to 240 minutes (theoretical value is 210 minutes)". The electronic device 1 having the power state evaluation function according to the present invention can be used according to the application used by the user and feedback the previous use. Get used to accurately estimating the remaining usage time.

 Referring to Figure 6, the power state evaluation method includes the following steps:

 In step S10, the storage module is configured to store a predetermined user record, a plurality of applications, and a power consumption parameter corresponding to each application, where the predetermined user record includes a predetermined user number and a predetermined application corresponding to the predetermined user number. And the theoretical power consumption curve corresponding to the intended application.

 In step S20, the user number is received through the input interface, and an application is selected. In step S30, the processing module determines whether the predetermined user number is the same as the user number, and determines whether the selected application is the same as the predetermined application. When the result is judged, step S40 is performed, and when the result of the determination is different, step S31 is performed.

 In step S31, a theoretical power consumption curve is generated by the power consumption parameter corresponding to the selected application, and step 40 is performed.

 In step S40, the temporary storage module is provided to store the theoretical power consumption curve corresponding to the predetermined application program as a temporary power consumption curve.

 In step S50, the processing module is used to detect the voltage value of the battery, and the available time of the battery is generated according to the temporary power consumption curve and the voltage value.

Claims

Claim

 What is claimed is: 1. An electronic device having a power state evaluation function, comprising: a battery, a power required for an electronic device providing a power state evaluation function; a storage module, storing a predetermined user record, a plurality of applications, and The power consumption parameter corresponding to the application, the predetermined user record includes a predetermined user number, a predetermined application corresponding to the predetermined user number, and a theoretical power consumption curve corresponding to the predetermined application; an input interface for receiving the user number, and Select one of the multiple applications; the processing module, electrically connect the storage module, the input interface and the battery, detect the voltage value of the battery, determine whether the predetermined user number is the same as the user number, and determine whether the selected application is The same as the predetermined application; the temporary storage module, the connection processing module; wherein, when the judgment result is the same, the processing module stores the theoretical power consumption curve corresponding to the predetermined application program as a temporary power consumption curve in the temporary storage module, and consumes power according to the theory Curve and voltage value generate electricity The available time.

 2. An electronic device having a power state assessment function according to claim 1, wherein: said electronic device further comprises a display unit, said display unit being coupled to said processing module for displaying the available time of the battery.

 3. An electronic device having a power state evaluation function according to claim 1, wherein: said processing module detects a voltage value at a fixed time interval and stores it in a temporary power consumption curve.

 4. The electronic device with power state evaluation function according to claim 1, wherein: when the user selects one of the plurality of applications through the input interface, the processing module writes the branch in the temporary power consumption curve. Record.

 5. The electronic device with power state evaluation function according to claim 4, wherein: when the user selects to exit one of the selected plurality of applications through the input interface, the processing module temporarily reduces the power consumption curve. Recorded in the predetermined user record, and the available time of the battery is generated based on the temporary power consumption curve, the theoretical power consumption curve, and the voltage value.

 A method for evaluating a power state, which is suitable for evaluating a usable time of a battery of an electronic device, characterized in that: the method comprises the following steps:

1) providing a storage module for storing a predetermined user record, a plurality of applications, and power consumption parameters corresponding to each application, wherein the predetermined user record includes a predetermined user number and a predetermined user number. The predetermined application and the theoretical power consumption curve corresponding to the predetermined application;

 2) receiving the user number through the input interface, and selecting one of the multiple applications;

3) using the processing module to determine whether the predetermined user number is the same as the user number, and determining whether the selected application is the same as the predetermined application;

 4) When the judgment result is the same, the temporary storage module is provided to store the theoretical power consumption curve corresponding to the predetermined application program as the temporary power consumption curve;

 5) Use the processing module to detect the voltage value of the battery, and generate the available time of the battery according to the temporary power consumption curve and the voltage value.

 7. The power state evaluation method according to claim 6, wherein: the step 5) further comprises the step 6) displaying the available time of the battery.

 The power state evaluation method according to claim 6, wherein: the step 4) further comprises: detecting, by the processing module, a voltage value at a fixed time interval, and storing the voltage value in the temporary power consumption curve.

 9. The power state evaluation method according to claim 1, wherein: when the step 2) further comprises selecting one of the plurality of applications through the input interface, the processing module writes in the temporary power consumption curve. Branch record.

 10. The power state evaluation method according to claim 9, wherein: in step 5), when one of the selected plurality of applications is selected to be exited, the processing module records the temporary power consumption curve. In the predetermined user record, the available time of the battery is generated based on the temporary power consumption curve, the theoretical power consumption curve, and the voltage value.