CN1858805A - Method for recording cell work information, cell and its electronic product and charger - Google Patents

Abstract

This invention provides a method, batteries and its applied electronic products and chargers for recording working information of charge batteries, which sets at least one recorder recording the working information of charging times and the time of the charge of chargable batteries in an electronic product to determine the working information of the battery.

Description

The method of recording cell work information, battery and electronic product thereof and charger

Technical field

The present invention relates to electricity field, relate in particular to the technology of recording cell work information in the electricity field.

Background technology

Along with the progress of science and technology, increasing electronics applications is in people's work and life, as some consumption electronic products such as portable computer, digital camera, mobile phone, portable light disc players.In these electronic products, some can be with multiple power source net (as power nets such as 220 volts, 110 volts) as power supply source, also can be with battery as power supply source, as portable computer, portable light disc player etc.; There are some can only be with battery as power supply source, as mobile phone etc.

But usually, for carrying or easy to use, many electronic products are setting battery all, and this class battery is generally the TunePower that discharges and recharges capable of circulation.But may there be the problem below in the electronic product that disposes this class TunePower:

1, TunePower has the restriction in serviceable life, and the capacity of battery can descend after reaching serviceable life, and to this, the use and the stand-by time that then show as electronic product shorten.

2, user's use habit also may have influence on the service time and the stand-by time of electronic product, as mobile phone: if subscriber phone is more or often check the screen of mobile phone or the environment that mobile phone often is in dtr signal, then can shorten the stand-by time of mobile phone.

For manufacturer, it is the real use habit that is difficult to grasp the user, the electronic product service time that manufacturer generally measures in the laboratory and stand-by time and actual user's actual operating position exists than large deviation, therefore run into user's standby or service time during short problem when manufacturer, difficulty judges whether such battery arrives the time limit in serviceable life.

In addition, because it is often consuming time longer to measure the actual use or the stand-by time of electronic product, so whether the also difficult battery of judging electronic product really has problems or only be that use habit by the user is caused and goes wrong.

Summary of the invention

Have in view of that, the invention provides a kind of electronic product and charger of method, TunePower and application thereof that can recording cell work information, can be easier to judge that battery or electronic product are owing to reach the time limit in serviceable life or real existing problems or only be that battery that use habit causes by the user goes wrong.

The method of TunePower job information in a kind of recorded electronic product comprises in the electronic product that wherein at least one is used to write down the register of TunePower job information, and key step comprises:

A whenever once charges, and the numerical value of the register of this record TunePower job information adds up;

B preserves the numerical value that the register of this record TunePower job information adds up.

Simultaneously, the present invention also provides a kind of electronic product that writes down the TunePower job information, electronic product mainly comprises main frame and the TunePower that links to each other with main frame, wherein, comprises that at least one is used to write down the register of TunePower job information in the main frame or in the TunePower.

The present invention also provides a kind of TunePower of writing task information, and this TunePower comprises battery body and the power interface that links to each other with battery body, wherein, comprises in the battery body that at least one is used to write down the register of TunePower job information.

The present invention also provides a kind of charger, be used for TunePower charging to portable type electronic product, wherein, the register that at least one is used to write down the TunePower job information is set in the storer of charger, and this memory stores has the identification code of its corresponding TunePower, only when corresponding TunePower was rechargeable, this register is recorded information.

Compared with prior art, the present invention is owing to adopt at least one to be used to write down the register of TunePower job information, numerical value by query note device record, can determine the job information of TunePower, be easier to promptly to judge whether battery arrives the time limit in serviceable life or real existing problems or only be that battery that use habit causes by the user goes wrong.

Description of drawings

Fig. 1 is the electronic product structured flowchart of the first preferable embodiment of the present invention.

Fig. 2 is the electronic product structured flowchart of the second preferable embodiment of the present invention.

Fig. 3 is the electronic product structured flowchart of the 3rd preferable embodiment of the present invention.

Fig. 4 is the method step block diagram of the preferable record TunePower job information of the present invention.

Fig. 5 is the method step block diagram of the charging times of the preferable record TunePower of the present invention.

Fig. 6 is the method step block diagram of the charging duration of the preferable record TunePower of the present invention.

Embodiment

For making the purpose, technical solutions and advantages of the present invention clearer, below in conjunction with embodiment and accompanying drawing, the present invention is further detailed explanation.

Electronic product involved in the present invention can be portable computer, digital camera, mobile phone, portable light disc player, charger etc. any one, only need satisfy this electronic product and can work with TunePower.

First embodiment of the present invention as shown in Figure 1, structured flowchart for a kind of mobile phone 1, this mobile phone 1 comprises a main frame 10 and a TunePower 11, wherein main frame 10 comprises a central processor CPU 101 and the nonvolatile memory 102 that links to each other with this CPU101, and this CPU101 further comprises two registers 1011,1012.Main frame 10 links to each other by power interface 12 with TunePower 11, so that TunePower 11 energy driving host 10, and make that mobile phone 1 can operate as normal.

This CPU101 is the core of mobile phone 1, be responsible for to handle the information that various functional entitys transmit in the mobile phone 1, then through after judging and calculating, gives an order data delivered on the correct functional entity again and carries out.Simultaneously, CPU101 also comprises the function of two kinds of calculating, be that CPU101 comprises above-mentioned two registers 1011,1012, mobile phone 1 is when dispatching from the factory, the numerical value of register 1011,1012 only once is initialized to 0 or be set at certain certain value, and register 1011,1012 is set to have only manufacturer it could be provided with, and count value can't be revised by domestic consumer.

In the present embodiment, when TunePower 11 needs charging, the main frame 10 of mobile phone 1 is charged with TunePower 11, whenever carrying out once new charging, register 1011 will add up 1, and with value storage in himself, or further be transferred in CPU101 and the nonvolatile memory 102; At every turn from the whole charging process that charging begins to finish to charging, the numerical value of register 1012 all increases in time, and register 1012 also is stored in its numerical value and himself, or further is transferred in CPU101 and the nonvolatile memory 102.

When needs are inquired about the charge condition of mobile phone 1 and TunePower 11,, just can determine the accumulative total charging times and the accumulative total duration of charging of this mobile phone 1 and TunePower 11 by the data in query note device 1012 or CPU101 or the nonvolatile memory 102.

For further determining the detailed operation information of mobile phone 1, in CPU101, can also be numbered discharging and recharging relevant incident with TunePower 11, each incident is all compiled is numbering independently, and as following incident independently being numbered: insertion charger, charge initiation, charging termination, conversation beginning, end of conversation, mobile phone 1 backlight are lighted, mobile phone 1 backlight extinguishes, TunePower 11 undervoltage alarms, TunePower 11 under-voltage shutdown, location registers, sub-district switching etc.The numbering of above-mentioned incident is configured to 1 round-robin queue, this round-robin queue takes place the event type numbering relevant with battery charging and discharging except that writing down, the ambient condition when also but recording events takes place is as the signal strength of temperature, cell voltage, mobile phone 1 environment of living in, the time and date that incident takes place etc.CPU101 is with the data storage of this round-robin queue or further be transferred in the nonvolatile memory 102.

By inquiry CPU101 or nonvolatile memory 102, both can draw the job information of mobile phone 1, light duration as standby time, the duration of call, charging duration, backlight, can draw the data relevant again with power consumption, whether full charge re-uses or the like as the user.

If consider that the length of round-robin queue is long, can make the cost of mobile phone 1 increase, so can be in CPU101, for each above-mentioned incident is provided with independent register (figure does not show), add up the duration that each incident takes place respectively, light duration, standby time etc. as the duration of call, backlight, simultaneously each register with data storage in itself or further be transferred to CPU101 or nonvolatile memory 102, when one of them register meter is expired, then with whole register zero clearings.Promptly can know the job information of mobile phone 1 and the data relevant by query note device or CPU101 or nonvolatile memory 102 with power consumption.

The mode of the above-mentioned numerical value of nonvolatile memory 102 storages, comprise following dual mode: the capacity of nonvolatile memory 102 is bigger, can preserve above-mentioned all numerical value always, then inquire about the related data in the nonvolatile memory 102, can learn all job informations and the charge information of mobile phone 1 or TunePower 11; Or nonvolatile memory 102 is preserved above-mentioned numerical value in the mode of upgrading, i.e. original numerical value of preserving in the Xin Zeng numerical value corresponding substitute nonvolatile memory 102, then inquire about the related data in the nonvolatile memory 102, can learn the recent job information and the charge information of mobile phone 1, TunePower 11.

Consider and register is set in CPU101 and round-robin queue's cost is higher, so register and round-robin queue can be arranged in the nonvolatile memory 102, then the course of work is to above-mentioned similar substantially, only the storage of numerical value does not need to store in the nonvolatile memory 102 by CPU101, but directly can store in the nonvolatile memory 102.

In addition, the mobile phone 1 of present embodiment does not also require and must be provided with register 1011,1012 simultaneously, also and do not require two registers 1011,1012 must only be set, register 1011 can only be set, or register 1012 only is set, a plurality of and register 1011 or the identical register of register 1012 functions can also be set, or a plurality of registers identical with register 1011 functions and a plurality of register identical with register 1012 functions are set simultaneously.When 1 of mobile phone is provided with register 1011, then has only the process of register 1011 executive logging charging times; When 1 of mobile phone is provided with register 1012, then has only the process of register 1012 executive loggings charging duration; When mobile phone 1 is provided with register 1011,1012 simultaneously, register 1011,1012 process of corresponding executive logging charging times and charging duration simultaneously then; When mobile phone 1 is provided with a plurality of register identical with register 1011 or register 1012 functions simultaneously, then a plurality of recorder trace charging times and charging duration.

First embodiment is the process that TunePower 11 charges with mobile phone main body 10, in the reality, TunePower can also charge with charger, then be provided with a storer in the charger, this storer is equivalent to the nonvolatile memory 102 in the above-mentioned mobile phone 1, register is arranged in the memory access, the course of work is similar substantially, but be the charge information that to determine concrete certain piece TunePower, also need the identification code of its corresponding TunePower of storage in this storer, only when corresponding TunePower was rechargeable, this register is recorded information, and is provided with similar above-mentioned electronic tag in the rechargeable formula battery of correspondence.

In the reality, the TunePower of electronic product generally can take apart independent charging, then its structure can be as shown in Figure 2, structured flowchart for a kind of mobile phone 2 of second embodiment of the invention, this mobile phone 2 mainly comprises a main frame 20 and a TunePower 21, and wherein main frame 20 further comprises a central processor CPU 201 and the storer 202 that links to each other with this CPU201; TunePower 21 comprises battery body (not indicating), power interface 22 and data-interface 23, and battery body comprises a nonvolatile memory 211; This nonvolatile memory 211 further comprises two registers 2111,2112.Main frame 20 links to each other by power interface 22 with TunePower 21, and CPU201 links to each other by data-interface 23 with nonvolatile memory 211.

This CPU201 is the core of mobile phone 2, be responsible for handling the information that various functional entitys transmit in the mobile phone 2, then through after judgement and calculating, give an order again data delivered on the correct functional entity and carry out, simultaneously, CPU201 can also be sent to the data of storage in the nonvolatile memory 211 in the coupled storer 202.Mobile phone 2 is when dispatching from the factory, the numerical value of register 2111,2112 only once is initialized to 0 or be set at certain certain value in the nonvolatile memory 211, and register 2111,2112 is set to have only the manufacturer could be with its first making, and count value can't be revised by domestic consumer.

In the present embodiment, when TunePower 21 needs charging, TunePower 21 can be taken apart independent charging, also mobile phone 2 can be charged with TunePower 21.

When TunePower 21 separately during charging, whenever carrying out once new charging, register 2111 will add up 1, and with value storage in nonvolatile memory 211; At every turn from the whole charging process that charging begins to finish to charging, the numerical value of register 2112 all increases in time, and with value storage in nonvolatile memory 211.

When the main frame 20 of mobile phone 2 charges with TunePower 21, whenever carrying out once new charging, register 2111 will add up 1, and with value storage in nonvolatile memory 211, and nonvolatile memory 211 can also preserve and transmit this numerical value simultaneously and give CUP201, and sends storer 202 again to by CUP201; Begin to the whole charging process of charging end from charging at every turn, the numerical value of register 2112 all increases in time, and register 2112 with its value storage in nonvolatile memory 211, and nonvolatile memory 211 can also preserve and transmit this numerical value simultaneously and give CUP201, and sends storer 202 again to by CUP201.

No matter adopt above-mentioned which kind of charging modes, when needs are inquired about the charge condition of TunePower 21, can determine the accumulative total charging times and the accumulative total duration of charging of this TunePower 21 by the data in inquiry nonvolatile memory 211 or CPU201 or the storer 202.Also can determine the accumulative total charging times and the accumulative total duration of charging of this TunePower 21 by the numerical value of query note device 2011,2012.

For further determining the detailed operation information of mobile phone 2, in nonvolatile memory 211, can also be numbered discharging and recharging relevant incident with TunePower 21, each incident is all compiled is numbering independently, and as following incident being numbered: insertion charger, charge initiation, charging termination, conversation beginning, end of conversation, mobile phone 2 backlights are lighted, mobile phone 2 backlights extinguish, TunePower 21 undervoltage alarms, TunePower 21 under-voltage shutdown, location registers, sub-district switching etc.The numbering of above-mentioned incident is configured to 1 round-robin queue, this round-robin queue takes place the event type numbering relevant with battery charging and discharging except that writing down, the ambient condition when also but recording events takes place is as the signal strength of temperature, cell voltage, mobile phone 2 environment of living in, the time and date that incident takes place etc.Nonvolatile memory 211 is preserved above-mentioned data and can be sent above-mentioned data to CPU201 simultaneously, and sends storer 202 to by CPU201.By inquiring about this round-robin queue, promptly can draw the job information of mobile phone 2, light duration as standby time, the duration of call, charging duration, backlight, can draw the data relevant again with power consumption, whether full charge re-uses or the like as TunePower 21.

If consider that the length of round-robin queue is long, will make the cost of mobile phone 2 increase, so can be in nonvolatile memory 211, for each above-mentioned incident is provided with independent register (figure does not show), add up the duration that each incident takes place respectively, light duration, standby time etc. as the duration of call, backlight, then nonvolatile memory 211 is preserved above-mentioned data and can be sent above-mentioned data to CPU201 simultaneously, and send storer 202 to by CPU201, when one of them register meter is expired, then with whole register zero clearings.Promptly can know the job information of mobile phone 2 and the data relevant by the value of inquiry nonvolatile memory 102 or storer 202 with power consumption.

The mode of nonvolatile memory 211 or above-mentioned all numerical value of storer 202 storages, comprise following dual mode: the capacity of nonvolatile memory 211 or storer 202 is bigger, then can preserve above-mentioned all numerical value always, then inquire about the related data of nonvolatile memory 211 or storer 202, just can determine job information and charge information that mobile phone 2 or TunePower 21 are all; Or, nonvolatile memory 211 or storer 202 are preserved above-mentioned numerical value in the mode of upgrading, i.e. original numerical value of preserving in Xin Zeng numerical value corresponding substitute nonvolatile memory 211 or the storer 202, then inquire about the related data of nonvolatile memory 211 or storer 202, just can determine job information and charge information that mobile phone 2 or TunePower 21 are recent.

In addition, the mobile phone 2 of present embodiment does not also require and must be provided with register 2111,2112 simultaneously, also and do not require two registers 2111,2112 must only be set, register 2111 can only be set, or register 2112 only is set, a plurality of and register 2111 or the identical register of register 2112 functions can also be set, or a plurality of registers identical with register 2111 functions and a plurality of register identical with register 2112 functions are set simultaneously.When 2 of mobile phones are provided with register 2111, then has only the process of register 2111 executive logging charging times; When 2 of mobile phones are provided with register 2112, then has only the process of register 2112 executive loggings charging duration; When mobile phone 2 is provided with register 2111,2112 simultaneously, register 2111,2112 process of corresponding executive logging charging times and charging duration simultaneously then; When mobile phone 2 is provided with a plurality of register identical with register 2111 or register 2112 functions, then a plurality of recorder trace charging times and charging duration.

Usually, nonvolatile memory and register cost are set than higher in detachable TunePower, institute thinks and reduces cost, nonvolatile memory and register can be arranged in the main frame of electronic product, as shown in Figure 3, be a kind of notebook computer 3 with detachable TunePower.

As shown in Figure 3, this notebook computer 3 comprises a main frame 30 and a TunePower 31, wherein main frame 30 comprises a central processor CPU 301 and the nonvolatile memory 302 that links to each other with this CPU301, and this CPU301 further comprises two registers 3011,3012; TunePower 31 comprises an electronic tag 311.Main frame 30 links to each other by power interface 32 with TunePower 31, so that TunePower 31 energy driving host 30, and make that notebook computer 3 can operate as normal.In addition, where necessary can continuous firing for making notebook computer 3, also dispose a standby TunePower (figure do not show) of the same type usually with TunePower 31, then this CPU301 also need comprise two registers 3013,3014.

This CPU301 is the core of notebook computer 3, be responsible for to handle the information that various device transmits in the notebook computer 3, then through after judging and calculating, gives an order data delivered on the correct equipment again and carries out.Simultaneously, CPU301 also comprises the function of two kinds of calculating, be that CPU301 comprises above-mentioned two registers 3011,3012, notebook computer 3 is when dispatching from the factory, the numerical value of register 3011,3012,3013,3014 only once is initialized to 0 or be set at certain certain value, and register 3011,3012,3013,3014 is set to have only the manufacturer could be with its first making, and count value can't be revised by domestic consumer.

One fixing sequence number is arranged in the electronic tag 311 of TunePower 31, and promptly this sequence number can be used for the identification of this TunePower 31.This sequence number comprises some information such as the date of production, type, identity label of TunePower 31, main frame 30 by and the power interface 32 of 31 of TunePowers this sequence number is read out. Register 3011,3012 among the above-mentioned CPU301 is one-to-one relationships with this electronic tag 311 all, and register 3013,3014 is then corresponding to the electronic tag of standby TunePower.

In the present embodiment, when TunePower 31 needs charging, the main frame 30 of notebook computer 3 is charged with TunePower 31, whenever carrying out once new charging, main frame 30 is read the sequence number of TunePower 31 earlier, determine that again register 3011 adds up 1, and with value storage in nonvolatile memory 302; Begin to the whole charging process of charging end from charging, the numerical value of register 3012 all increases in time, and register 3012 also is stored in its numerical value in the nonvolatile memory 302 at every turn.And when the main frame 30 with notebook computer 3 charges with standby TunePower, whenever carrying out once new charging, main frame 30 is read the sequence number of standby TunePower earlier, determines that again register 3013 adds up 1, and with value storage in nonvolatile memory 302; Begin to the whole charging process of charging end from charging, the numerical value of register 3014 all increases in time, and register 3014 also is stored in its numerical value in the nonvolatile memory 302 at every turn.

In the present embodiment, register 3011,3012 only just adds up when main frame 30 charges with TunePower 31, register 3013,3014 only just adds up when main frame 30 charges with standby TunePower, like this for notebook computer 3, the charging times and the time of writing down each battery simultaneously in the time of can using TunePower 31 with standby TunePower alternately.

When needs are inquired about the charge condition of TunePower 31 and standby TunePower,, just can determine TunePower 31 and standby TunePower accumulative total charging times and accumulative total duration of charging separately by the data in the inquiry nonvolatile memory 302.The value that also can inquire about each register is determined the accumulative total charging times and the accumulative total duration of charging of its corresponding TunePower.

Certainly, the notebook computer 3 of present embodiment can also dispose a plurality of standby TunePowers simultaneously, as long as corresponding charging times add up register and the charging duration register that adds up are set in main frame 30 corresponding to each standby TunePower, but the charge information of each standby TunePower of respective record just.

For further determining the detailed operation information of notebook computer 3, in CPU301, can also be numbered discharging and recharging relevant incident with TunePower 31, each incident is all compiled is numbering independently, and as following incident independently being numbered: insertion charger, charge initiation, charging termination, dormancy begin, dormancy finishes, the beginning of working, end-of-job, notebook computer 3 backlights are lighted, notebook computer 3 backlights extinguish, TunePower 31 undervoltage alarms, TunePower 31 under-voltage shutdown etc.The numbering of above-mentioned incident is configured to 1 round-robin queue, this round-robin queue takes place the event type numbering relevant with battery charging and discharging except that writing down, the ambient condition when also but recording events takes place, the time and date that takes place as temperature, cell voltage, incident etc.CPU301 with the data storage of this round-robin queue in nonvolatile memory 302.

By this round-robin queue in the inquiry nonvolatile memory 302, both can draw the job information of notebook computer 3, light duration as dormancy duration, work duration, charging duration, backlight, can draw the data relevant with power consumption again, whether full charge re-uses or the like as the user.

If consider that the length of round-robin queue is long, can make the cost of notebook computer 3 increase, so can be in CPU301, for each above-mentioned incident is provided with independent register (figure does not show), add up the duration that each incident takes place respectively, light duration etc. as dormancy duration, work duration, backlight, each register is given nonvolatile memory 302 with the data transmission of itself simultaneously, when one of them register meter is expired, then with whole register zero clearings.Promptly can know the job information of notebook computer 3 and the data relevant by the relevant value of these registers in the inquiry nonvolatile memory 302 with power consumption.

The mode of the above-mentioned numerical value of nonvolatile memory 302 storages, comprise following dual mode: the capacity of nonvolatile memory 302 is bigger, can preserve above-mentioned all numerical value always, then inquire about the related data in the nonvolatile memory 302, can learn all job informations and the charge information of notebook computer 3 or each TunePower; Or nonvolatile memory 302 is preserved above-mentioned numerical value in the mode of upgrading, i.e. original numerical value of preserving in the Xin Zeng numerical value corresponding substitute nonvolatile memory 302, then inquire about the related data in the nonvolatile memory 302, can learn the recent job information and the charge information of notebook computer 3, each TunePower.

In addition, the notebook computer 3 of present embodiment and not requiring must be provided with the register and the register that is used to write down the charging duration that is used to write down charging times simultaneously, also and do not require two registers must only be set, the register of record charging times can only be set, or the register of record charging duration only is set, a plurality of registers that are used to write down the register of charging times or are used to write down the charging duration can also be set, or a plurality of register and a plurality of registers that are used to write down the charging duration that are used to write down charging times are set simultaneously.When notebook computer 3 only is provided with the register of record charging times, then has only the process of the register executive logging charging times of record charging times; When notebook computer 3 only is provided with the register of record charging duration, then has only the process of the register executive logging charging duration of record charging duration; When notebook computer 3 is provided with the register that writes down charging times simultaneously and writes down the register of charging duration, then write down the register and the process of the corresponding executive logging charging times of register while that writes down the duration that charges of charging times with the charging duration; When a plurality of registers that are used to write down the register of charging times or are used to write down the charging duration being set, then a plurality of recorder trace charging times and charging duration that are used to write down the register of charging times or are used to write down the charging duration.

Consider and register is set in CPU301 and round-robin queue's cost is higher, so register and round-robin queue can be arranged in the nonvolatile memory 302, then the course of work is to above-mentioned similar substantially, only the storage of numerical value does not need to store in the nonvolatile memory 102 by CPU301, but directly can store in the nonvolatile memory 302.

The 3rd embodiment is the process that TunePower 31 charges with mobile phone main body 30, in the reality, TunePower can also charge with charger, then be provided with a storer in the charger, this storer is equivalent to the nonvolatile memory 302 in the above-mentioned mobile phone 3, register and round-robin queue are arranged in the memory access of charger, the course of work is similar substantially, only numerical value directly can store in this memory access, but be the charge information that to determine concrete certain piece TunePower, also need the identification code of its corresponding TunePower of storage in this storer, only when corresponding TunePower is rechargeable, this register is recorded information, and is provided with similar above-mentioned electronic tag in the rechargeable formula battery of correspondence.。

The present invention still provides the method for TunePower job information in a kind of recorded electronic product, comprises in this electronic product that at least one is used to write down the register of TunePower job information, the method step block diagram as shown in Figure 5, key step comprises:

B whenever once charges, and the numerical value of the register of this record TunePower job information adds up;

C preserves the numerical value that the register of this record TunePower job information adds up.

Job information for more definite inquiry TunePower, before step B, also comprise the numerical value that writes down the register of TunePower job information is only done zero clearing once or is made as certain value, and be set to have only manufacturer's ability, count value can't be revised by domestic consumer.

For describing the method for TunePower job information in the recorded electronic product of the present invention in detail, be described in detail below in conjunction with two kinds of registers.

In electronic product, be provided with first register that is used to write down charging times, this first register both can be arranged in the storer of the host CPU of electronic product or main frame, also can be arranged in the TunePower of electronic product, the key step of the first recorder trace charging times comprises as shown in Figure 5:

A1, the first register zero clearing, the numerical value that makes its preservation is 0;

The step of zero clearing can be set at electronic product and carry out when dispatching from the factory, and is set to have only the manufacturer could be with its first making, and count value can't be revised by domestic consumer.

B1, whenever once new charging, this first register adds up 1;

When first register is arranged in the host CPU of electronic product or the storer, be the charging times of record TunePower, the main frame of electronic product needs charging with TunePower; When the TunePower of need recorded electronic product separately during the charging times of charging, then need in TunePower, to be provided with nonvolatile memory, first register is set in nonvolatile memory again, or in TunePower, be provided for the electronic tag that identity is differentiated, only to make the recorder trace information of electronic tag correspondence, at each electronic tag one fixing sequence number is set, this sequence number comprises the date of production, the type of its corresponding TunePower, at least one of identity label.No matter then the TunePower of electronic product is independent charging, still charge with main frame, first register all can add up 1.

C1, this first register preserve the numerical value that adds up or be transferred to simultaneously the storer in the electronic product.

When first register is arranged in the host CPU of electronic product, the numerical value that first register adds up can be preserved, or be transferred to storer in the main frame of electronic product simultaneously, then just can determine the charging times of TunePower by inquiring about storer in first register or this main frame; When first register is arranged in the nonvolatile memory in the TunePower, the numerical value that first register adds up can be preserved, or be stored in the nonvolatile memory simultaneously, can also further this accumulating values be sent to CPU or the storer that is arranged in the main frame by this nonvolatile memory, no matter then the TunePower of electronic product is independent charging, still charge with main frame, by inquiring about the charging times that CPU in first register or nonvolatile memory or this main frame or storer just can be determined TunePower.

Charging duration for the record TunePower, can be in above-mentioned electronic product only be provided with or be provided with second register that is used to write down the duration of charging in the lump with first register, this second register both can be arranged in the host CPU of electronic product, also can be arranged in the TunePower of electronic product, the key step of second recorder trace charging duration comprises as shown in Figure 6:

A2, the second register zero clearing, the numerical value that makes its preservation is 0;

The step of zero clearing can be set at electronic product and carry out when dispatching from the factory, and is set to have only the manufacturer could be with its first making, and count value can't be revised by domestic consumer.

B2, whenever once new charging, the numerical value of this second register begins all to increase in time to the whole charging process of charging end from charging;

When second register is arranged in the host CPU of electronic product, be the charging duration of record TunePower, the main frame of electronic product needs charging with TunePower; When the TunePower of need recorded electronic product separately during the charging duration of charging, then need in TunePower, to be provided with nonvolatile memory, second register is set in nonvolatile memory again, or in TunePower, be provided for the electronic tag that identity is differentiated, only to make the recorder trace information of electronic tag correspondence, at each electronic tag one fixing sequence number is set, this sequence number comprises the date of production, the type of its corresponding TunePower, at least one of identity label.No matter then the TunePower of electronic product is independent charging, still charge second register charging duration that all can add up with main frame.

C2, this second register preserve the numerical value that adds up or be transferred to simultaneously the storer in the electronic product.

When second register is arranged in the host CPU of electronic product, the numerical value that second register adds up can be preserved, or be transferred to CPU or storer in the main frame of electronic product simultaneously, then by inquiring about the charging duration that CPU in second register or this main frame or storer just can be determined TunePower; When second register is arranged in the nonvolatile memory in the TunePower, the numerical value that second register adds up can be preserved, or be stored in the nonvolatile memory simultaneously, can also further this accumulating values be sent to CPU or the storer that is arranged in the main frame by this nonvolatile memory, no matter then the TunePower of electronic product is independent charging, still charge with main frame, by inquiring about the charging duration that CPU in second register or nonvolatile memory or this main frame or storer just can be determined TunePower.

When electronic product only is provided with first register, then has only the process of the first register executive logging charging times; When electronic product only is provided with second register, then has only the process of second register executive logging charging duration; When electronic product is provided with first register and second register simultaneously, first register and second register process of corresponding executive logging charging times and charging duration simultaneously then; When electronic product is provided with a plurality of register identical with first register or second reorder function, then a plurality of recorder trace charging times and charging duration; When electronic product is provided with a plurality of registers identical with first reorder function and a plurality of register identical with second reorder function simultaneously, then a plurality of recorder trace charging times and charging duration.

Detailed operation information for further recorded electronic product, can also will discharge and recharge relevant incident with TunePower in the nonvolatile memory of the storer of the CPU of main frame or main frame or TunePower is numbered, each incident is all compiled is numbering independently, and as following incident independently being numbered: insertion charger, charge initiation, charging termination, work beginning, end-of-job, backlight are lighted, backlight extinguishes, TunePower undervoltage alarm, the under-voltage shutdown of TunePower etc.The numbering of above-mentioned incident is configured to 1 round-robin queue, this round-robin queue takes place the event type numbering relevant with battery charging and discharging except that writing down, the ambient condition when also but recording events takes place, the time and date that takes place as temperature, cell voltage, incident etc.The data of this round-robin queue are stored in the nonvolatile memory of the storer of main frame or TunePower.

This round-robin queue in the storer by inquiry CPU of main frame or main frame or the nonvolatile memory of TunePower, both can draw the job information of electronic product, as the duration of working, charging duration, backlight are lighted duration, can draw the data relevant with power consumption again, whether full charge re-uses or the like as the user.

If consider that the length of round-robin queue is long, can make the cost of electronic product increase, so can be in the nonvolatile memory of the storer of the CPU of main frame or main frame or TunePower, for each above-mentioned incident is provided with independent register, add up the duration that each incident takes place respectively, as the duration of working, backlight are lighted duration etc., each register is given the storer of main frame or the nonvolatile memory of TunePower with the data transmission of itself simultaneously, when one of them register meter is expired, then with whole register zero clearings.The relevant value of these registers promptly can be known the job information of electronic product in the storer by inquiry CPU of main frame or main frame or the nonvolatile memory of TunePower, and the data relevant with power consumption.

The mode of the above-mentioned numerical value of nonvolatile memory stores of the storer of main frame or TunePower, comprise following dual mode: the capacity of the storer of main frame or the nonvolatile memory of TunePower is bigger, can preserve above-mentioned all numerical value always, then inquire about the related data in the nonvolatile memory of the storer of main frame or TunePower, can learn all job informations and the charge information of electronic product or TunePower; Or the nonvolatile memory of the storer of main frame or TunePower is preserved above-mentioned numerical value in the mode of upgrading, i.e. original numerical value of preserving in the nonvolatile memory of the storer of Xin Zeng numerical value corresponding substitute main frame or TunePower, then inquire about the related data in the nonvolatile memory of the storer of main frame or TunePower, can learn the recent job information and the charge information of electronic product, TunePower.

In sum; above-mentioned embodiment can definitely draw the job information of some electronic products and the charge information of TunePower thereof; but above-mentioned only is better embodiment of the present invention; be not to be used to limit protection scope of the present invention; any those skilled in the art of being familiar with will be appreciated that; all within the spirit and principles in the present invention scope, any modification of being done, equivalence replacement, improvement etc. all should be included within the scope of the present invention.

Claims (34)

1. an electronic product mainly comprises main frame and the TunePower that links to each other with main frame, it is characterized in that: comprise that at least one is used to write down the register of TunePower job information in the main frame or in the TunePower.

2. electronic product as claimed in claim 1 is characterized in that: this register is the register that is used to write down charging times, and described TunePower whenever once charges, and the numerical value of the register of this record charging times adds up 1; Or this register is the register that is used to write down the charging duration, and described TunePower whenever once charges, and the numerical value of the register of this record charging duration begins to finish to increase in time to charging from charging.

3. electronic product as claimed in claim 1, it is characterized in that: at least two of the registers of this record TunePower job information, one of them is the register that is used to write down charging times, another is the register that is used to write down the charging duration, described TunePower whenever once charges, the numerical value of the register of this record charging times adds up 1, and the numerical value of the register of this record charging duration begins to finish to increase in time to charging from charging.

4. as claim 1,2 or 3 each described electronic products, it is characterized in that: the register of this record TunePower job information is arranged in the CPU or storer of main frame.

5. electronic product as claimed in claim 4 is characterized in that: round-robin queue also is set in this CPU or storer, and this round-robin queue comprises the numbering of the dependent event that writes down TunePower, and each incident is all compiled to independently numbering; Or, also comprising the register of the dependent event that writes down TunePower in this CPU or the storer, register number of this record dependent event is corresponding one by one with dependent event; Dependent event comprise following at least one: insert that charger, charge initiation, charging termination, work beginning, end-of-job, backlight are lighted, backlight extinguishes, TunePower undervoltage alarm, the under-voltage shutdown of TunePower.

6. electronic product as claimed in claim 5 is characterized in that: the ambient condition when this round-robin queue also writes down dependent event and takes place, this ambient condition comprise following at least one: the time and date that temperature, cell voltage, incident take place.

7. electronic product as claimed in claim 4 is characterized in that: this TunePower is provided with and is used for the electronic tag that identity is differentiated, with the recorder trace information of the record TunePower job information that only makes the electronic tag correspondence.

8. electronic product as claimed in claim 7 is characterized in that: this electronic tag comprises a fixing sequence number, and this sequence number comprises the date of production, the type of its corresponding TunePower, at least one of identity label.

9. electronic product as claimed in claim 4 is characterized in that: the register of described record TunePower job information with its value storage that adds up in itself; Or the register of described record TunePower job information is transferred to this CPU or storer with its numerical value that adds up.

10. as claim 1,2 or 3 each described electronic products, it is characterized in that: the register of this record TunePower job information is arranged in the interior nonvolatile memory of TunePower.

11. electronic product as claimed in claim 10 is characterized in that: round-robin queue also is set in nonvolatile memory, and this round-robin queue comprises the numbering of the dependent event that writes down TunePower, and each incident is all compiled to independently numbering; Or, also comprising the register of the dependent event that writes down TunePower in this nonvolatile memory, register number of this record dependent event is corresponding one by one with dependent event; Dependent event comprise following at least one: insert that charger, charge initiation, charging termination, work beginning, end-of-job, backlight are lighted, backlight extinguishes, TunePower undervoltage alarm, the under-voltage shutdown of TunePower.

12. electronic product as claimed in claim 11 is characterized in that: the ambient condition when this round-robin queue also writes down dependent event and takes place, this ambient condition comprise following at least one: the time and date that temperature, cell voltage, incident take place.

13. electronic product as claimed in claim 10 is characterized in that: the register of described record TunePower job information with its value storage that adds up in itself; Or, the register of this record TunePower job information with its value storage that adds up in nonvolatile memory.

14. a TunePower, this TunePower comprise battery body and the power interface that links to each other with battery body, it is characterized in that: comprise in the battery body that at least one is used to write down the register of TunePower job information.

15. TunePower as claimed in claim 14 is characterized in that: this register is arranged in the interior nonvolatile memory of battery body.

16. as claim 14 or 15 described TunePowers, it is characterized in that: this register is the register that is used to write down charging times, and described TunePower whenever once charges, and the numerical value of the register of this record charging times adds up 1; Or this register is the register that is used to write down the charging duration, and described TunePower whenever once charges, and the numerical value of the register of this record charging duration begins to finish to increase in time to charging from charging.

17. as claim 14 or 15 described TunePowers, it is characterized in that: at least two of the registers of this record TunePower job information, one of them is the register that is used to write down charging times, another is the register that is used to write down the charging duration, described TunePower whenever once charges, the numerical value of the register of this record charging times adds up 1, and the numerical value of the register of this record charging duration begins to finish to increase in time to charging from charging.

18. TunePower as claimed in claim 15 is characterized in that: round-robin queue also is set in nonvolatile memory, and this round-robin queue comprises the numbering of the dependent event that writes down TunePower, and each incident is all compiled to independently numbering; Or, also comprising the register of the dependent event that writes down TunePower in this nonvolatile memory, register number of this record dependent event is corresponding one by one with dependent event; Dependent event comprise following at least one: insert that charger, charge initiation, charging termination, work beginning, end-of-job, backlight are lighted, backlight extinguishes, TunePower undervoltage alarm, the under-voltage shutdown of TunePower.

19. TunePower as claimed in claim 18 is characterized in that: the ambient condition when this round-robin queue also writes down dependent event and takes place, this ambient condition comprise following at least one: the time and date that temperature, cell voltage, incident take place.

20. TunePower as claimed in claim 15 is characterized in that: the register of described record TunePower job information with its value storage that adds up in itself; Or, the register of described record TunePower job information with its value storage that adds up in nonvolatile memory.

21. the method for TunePower job information in the recorded electronic product, it is characterized in that: comprise in the electronic product that at least one is used to write down the register of TunePower job information, key step comprises:

Steps A is whenever once charged, and the numerical value of the register of this record TunePower job information adds up;

Step B preserves the numerical value that the register of this record TunePower job information adds up.

22. method as claimed in claim 21 is characterized in that: before steps A, also comprise the numerical value that writes down the register of TunePower job information is only done zero clearing once or is made as fixed value.

23. method as claimed in claim 21 is characterized in that: when this register is the register that is used to write down charging times, in the then described steps A, the numerical value of the register of this record charging times is accumulated as and adds up 1; Or when this register is the register that is used to write down the charging duration, in the then described steps A, the numerical value of the register of this record charging duration is accumulated as at every turn and begins to finish increase in time to charging from charging.

24. method as claimed in claim 21, it is characterized in that: when the register of this record TunePower job information during at least two, one of them is used to write down the register of charging times, another is used to write down the register of charging duration, in the then described steps A, the numerical value of the register of this record charging times is accumulated as and adds up 1, and the numerical value of the register of this record charging duration is accumulated as at every turn and begins to finish to increase in time to charging from charging.

25. as claim 21,22,23 or 24 each described methods, it is characterized in that: the register that will write down the TunePower job information is arranged in the storer of the CPU of main frame or main frame or in the nonvolatile memory of TunePower.

26. method as claimed in claim 25, it is characterized in that: in the storer of the CPU of this main frame or main frame or in the nonvolatile memory of TunePower, round-robin queue is set also, this round-robin queue comprises the numbering of the dependent event that writes down TunePower, and each incident is all compiled to independently numbering; Or, the register of the dependent event of record TunePower also is set in the storer of the CPU of this main frame or main frame or in the nonvolatile memory of TunePower, register number of this record dependent event is corresponding one by one with dependent event; Dependent event comprise following at least one: insert that charger, charge initiation, charging termination, work beginning, end-of-job, backlight are lighted, backlight extinguishes, TunePower undervoltage alarm, the under-voltage shutdown of TunePower, in the then described steps A, this round-robin queue carries out record.

27. method as claimed in claim 26 is characterized in that: the ambient condition when this round-robin queue also writes down dependent event and takes place, this ambient condition comprise following at least one: the time and date that temperature, cell voltage, incident take place.

28. method as claimed in claim 25, it is characterized in that: when register is arranged in the storer of the CPU of this main frame or main frame, also be provided for the electronic tag that identity is differentiated in this TunePower, with the recorder trace information of the record TunePower job information that only makes the electronic tag correspondence.

29. method as claimed in claim 28 is characterized in that: at each electronic tag one fixing sequence number is set, this sequence number comprises the date of production, the type of its corresponding TunePower, at least one of identity label.

30. method as claimed in claim 25 is characterized in that: described step C for the register of record TunePower job information with its value storage that adds up in itself; Or described step C is transferred to its numerical value that adds up for the register of record TunePower job information in the storer of the CPU of this main frame or main frame or the nonvolatile memory of TunePower.

31. method as claimed in claim 30, it is characterized in that: when the register of record TunePower job information was transferred to nonvolatile memory with its numerical value that adds up, then this nonvolatile memory sent numerical value to the CPU of main frame or the storer of main frame again.

32. charger, be used for TunePower charging to portable type electronic product, it is characterized in that: the register that at least one is used to write down the TunePower job information is set in the storer of charger, and this memory stores has the identification code of its corresponding TunePower, only when corresponding TunePower was rechargeable, this register is recorded information.

33. charger as claimed in claim 32 is characterized in that: this register is the register that is used to write down charging times, and when charger and TunePower whenever once charge, the numerical value of the register of this record charging times adds up 1; Or this register is the register that is used to write down the charging duration, and when charger and TunePower whenever once charge, the numerical value of the register of this record charging duration begins to charging end increase in time from charging.

34. charger as claimed in claim 1, it is characterized in that: at least two of the registers of this record TunePower job information, one of them is the register that is used to write down charging times, another is the register that is used to write down the charging duration, when charger and TunePower whenever once charge, the numerical value of the register of this record charging times adds up 1, and the numerical value of the register of this record charging duration begins to finish to increase in time to charging from charging.

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