CN105550092A - Information processing method and electronic device - Google Patents
Information processing method and electronic device Download PDFInfo
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- CN105550092A CN105550092A CN201510890750.5A CN201510890750A CN105550092A CN 105550092 A CN105550092 A CN 105550092A CN 201510890750 A CN201510890750 A CN 201510890750A CN 105550092 A CN105550092 A CN 105550092A
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- 230000010365 information processing Effects 0.000 title claims abstract description 25
- 238000003672 processing method Methods 0.000 title claims abstract description 24
- 238000000034 method Methods 0.000 claims description 93
- 230000000052 comparative effect Effects 0.000 claims description 84
- 238000001514 detection method Methods 0.000 claims description 5
- 230000008569 process Effects 0.000 description 55
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- 230000006870 function Effects 0.000 description 16
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- 238000010586 diagram Methods 0.000 description 13
- 230000002159 abnormal effect Effects 0.000 description 8
- 239000003792 electrolyte Substances 0.000 description 8
- 239000000463 material Substances 0.000 description 8
- 238000004519 manufacturing process Methods 0.000 description 5
- 238000010168 coupling process Methods 0.000 description 3
- 238000005859 coupling reaction Methods 0.000 description 3
- 238000004891 communication Methods 0.000 description 2
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/30—Monitoring
- G06F11/3058—Monitoring arrangements for monitoring environmental properties or parameters of the computing system or of the computing system component, e.g. monitoring of power, currents, temperature, humidity, position, vibrations
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Abstract
The invention discloses an information processing method, comprising the steps that an electronic device detects a first charging current, wherein the first charging current is the charging current actually generated by the electronic device when charging; comparing the detected first charging current with a second charging current, thus obtaining a first comparison result, wherein the second charging current is the charging current theoretically generated by the electronic device when charging; generating a control command when the first comparison result represents that the first charging current is not matched with the second charging current, wherein the control command is used for instructing to generate a prompt signal; and responding to the control command to generate the prompt signal. Meanwhile, the invention also discloses the electronic device.
Description
Technical field
The present invention relates to the information processing technology, particularly relate to a kind of information processing method and electronic equipment.
Background technology
Current a lot of electronic equipment is all provide power supply with rechargeable battery, and the method widely using cable connection realizes charging.Make like this, in actual charging process, easily to cause loose contact, thus cause charging problems.
At present, in charging process, the charged state that user can present by electronic equipment and/or charge prompting lamp are to judge that whether battery is in charging.Whether create the problems such as loose contact in charging process, correlation technique there is no effective solution.
Summary of the invention
For solving the technical matters of existing existence, the embodiment of the present invention provides a kind of information processing method and electronic equipment.
For achieving the above object, the technical scheme of the embodiment of the present invention is achieved in that
Embodiments provide a kind of information processing method, be applied to electronic equipment, described method comprises:
Detect the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment;
The first charging current detected and the second charging current are compared, obtains the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment;
When described first charging current of the first comparative result sign is not mated with the second charging current, generate steering order; Described steering order is used to indicate generation cue;
Respond described steering order, produce cue.
In such scheme, described by detect the first charging current and the second charging current compare; Comprise:
Described first charging current and the second charging current are asked deviation, obtains the first deviate;
Described first deviate and the second deviate are compared, obtains the second comparative result; Described second deviate is default deviate;
Correspondingly, when described first deviate of the second comparative result sign is greater than described second deviate, described steering order is generated.
In such scheme, before detecting described first charging current, described method also comprises:
Described second charging current is stored in the first memory of described electronic equipment; Described first memory is nonvolatile memory;
Correspondingly, when the first charging current detected and the second charging current being compared, described method also comprises:
Described second charging current is read from described first memory.
In such scheme, during described first charging current of described detection, described method also comprises:
Detect the first voltage, the cell voltage of described electronic equipment corresponding with described first charging current when described first voltage is the charging of described electronic equipment;
Correspondingly, described from described first memory, read described second charging current before, described method also comprises:
By searching the corresponding relation being stored in cell voltage in described first memory and charging current, obtain described second charging current corresponding with described first voltage.
In such scheme, during described first charging current of described detection, described method also comprises:
Detected for the first duration of charging, the duration of charging corresponding with described first charging current when described first duration of charging is the charging of described electronic equipment;
Correspondingly, described from described first memory, read described second charging current before, described method also comprises:
By searching the corresponding relation being stored in duration of charging in described first memory and charging current, obtain described second charging current corresponding with described first duration of charging.
The embodiment of the present invention additionally provides a kind of electronic equipment, comprising:
First detecting unit, for detecting the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment;
Comparing unit, for the first charging current detected and the second charging current being compared, obtains the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment;
Generation unit, for when described first charging current of the first comparative result sign is not mated with the second charging current, generates steering order; Described steering order is used to indicate generation cue;
Generation unit, for responding described steering order, produces cue.
In such scheme, described comparing unit comprises:
Tolerance module, for described first charging current and the second charging current are asked deviation, obtains the first deviate;
Comparison module, for described first deviate and the second deviate being compared, obtains the second comparative result; Described second deviate is default deviate;
Correspondingly, described generation unit, for when described first deviate of the second comparative result sign is greater than described second deviate, generates described steering order.
In such scheme, described electronic equipment also comprises: writing unit, for being stored in the first memory of described electronic equipment by described second charging current; Described first memory is nonvolatile memory;
Correspondingly, described comparing unit, also for reading described second charging current from described first memory.
In such scheme, described electronic equipment also comprises:
Second detecting unit, for detecting the first voltage, the cell voltage of described electronic equipment corresponding with described first charging current when described first voltage is the charging of described electronic equipment;
Correspondingly, described comparing unit, also for by searching the corresponding relation being stored in cell voltage in described first memory and charging current, obtains described second charging current corresponding with described first voltage.
In such scheme, described electronic equipment also comprises:
3rd detecting unit, for detecting for the first duration of charging, the duration of charging corresponding with described first charging current when described first duration of charging is the charging of described electronic equipment;
Correspondingly, described comparing unit, also for by searching the corresponding relation being stored in duration of charging in described first memory and charging current, obtains described second charging current corresponding with described first duration of charging.
The information processing method that the embodiment of the present invention provides and electronic equipment, electronic equipment detects the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment; The first charging current detected and the second charging current are compared, obtains the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment; When described first charging current of the first comparative result sign is not mated with the second charging current, described electronic equipment generates steering order; Respond described steering order, produce cue, so, so, can automatically, carry out the judgement of loose contact exactly.
Accompanying drawing explanation
In accompanying drawing (it is not necessarily drawn in proportion), similar Reference numeral can describe similar parts in different views.The similar reference numerals with different letter suffix can represent the different examples of similar parts.Accompanying drawing generally shows each embodiment discussed herein by way of example and not limitation.
Fig. 1 is the embodiment of the present invention one information processing method schematic flow sheet;
Fig. 2 is the embodiment of the present invention two information processing method schematic flow sheet;
Fig. 3 is the embodiment of the present invention three information processing method schematic flow sheet;
Fig. 4 is embodiment of the present invention duration of charging and charging current, cell voltage profiles schematic diagram;
Fig. 5 is the embodiment of the present invention four information processing method schematic flow sheet;
Fig. 6 is embodiment of the present invention kind on May Day electronic devices structure schematic diagram;
Fig. 7 is the another kind of electronic devices structure schematic diagram of the embodiment of the present invention five;
Fig. 8 is the embodiment of the present invention 61 kinds of electronic devices structure schematic diagram;
Fig. 9 is the another kind of electronic devices structure schematic diagram of the embodiment of the present invention six;
Figure 10 is embodiment of the present invention kind July 1st electronic devices structure schematic diagram;
Figure 11 is the another kind of electronic devices structure schematic diagram of the embodiment of the present invention seven;
Figure 12 is embodiment of the present invention Aug. 1st kind electronic devices structure schematic diagram;
Figure 13 is the another kind of electronic devices structure schematic diagram of the embodiment of the present invention eight.
Embodiment
Below in conjunction with drawings and Examples, the present invention is described in further detail again.
Before describing the embodiment of the present invention, first learn about correlation technique.
At present, electronic equipment general rechargeable battery provides power supply, and the method using cable to connect realizes charging.In this case, in charging process, general needs 1 to 2 plugs and sockets connect, to be communicated with whole charging circuit.And in charging process, on the one hand, these plugs and sockets connect bad meeting and cause loose contact; On the other hand, the factors such as some external force are such as touched, wind, also can cause in charging process and produce loose contact, thus cause charging problems.
At present, in charging process, the charged state that user oneself can present by electronic equipment and/or charge prompting lamp are to judge that whether battery is in charging, mainly comprises following two kinds of modes:
First kind of way: the charged state presented by electronic equipment and charge prompting lamp are judged.
Particularly, electronic equipment is provided with charge prompting lamp, long bright or flash for prompting charging is normally being carried out.User, by checking whether charge prompting lamp is bright, tentatively judges that whether battery is in charging, and then by conscious inspection, namely enters operation interface inquiry charged state, judge whether further in charging.
Adopt this judgment mode, when electronic equipment is placed back in charge position by user, again must check that whether charging indicator light is bright.
The second way: the charged state that user is presented by electronic equipment judges.
Particularly, in charging process, by the charged state that electronic equipment presents, user directly judges that whether battery is in charging.
As can be seen from description above: at present the charged state that just presents by electronic equipment of user and/or charge prompting lamp are to judge that whether battery is in charging, whether the problems such as loose contact are created, the solution that also has nothing effective at present in charging process.
Based on this, in various embodiments of the present invention: electronic equipment detects the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment; The first charging current detected and the second charging current are compared, obtains the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment; When described first charging current of the first comparative result sign is not mated with the second charging current, described electronic equipment generates steering order; Respond described steering order, produce cue.
Embodiment one
The present embodiment provides a kind of information processing method, and described method is applied in electronic equipment.
Fig. 1 is the realization flow schematic diagram of the embodiment of the present invention one information processing method, and as shown in Figure 1, the method comprises the following steps:
Step 101: detect the first charging current;
Here, the charging current of actual generation when described first charging current is the charging of described electronic equipment.
Wherein, the charging current that described reality produces is the charging current to described electric device battery end.
Described electronic equipment can be notebook computer (laptop), panel computer (pad), mobile phone, intelligent watch, Intelligent bracelet etc.
Step 102: the first charging current detected and the second charging current are compared, obtains the first comparative result;
Particularly, described first charging current and the second charging current are asked deviation by described electronic equipment, obtain the first deviate;
Described first deviate and the second deviate compare by described electronic equipment, obtain the second comparative result; Described second deviate is default deviate.
Wherein, the theoretical charging current produced when described second charging current is the charging of described electronic equipment.
Described second deviate can be arranged according to the performance of described electric device battery.
By the impact of battery own material (negative electrode, anode and electrolyte), in each charging process, the charging current that obtains can not be identical the same duration of charging, so during practical application, described second deviate can be a scope, as long as described first deviate is within the scope of this, then think that described first charging current is mated with the second charging current, when super going beyond the scope, then think that described first charging current is not mated with the second charging current.
Step 103: when described first charging current of the first comparative result sign is not mated with the second charging current, generate steering order;
Here, described steering order is used to indicate generation cue.
Correspondingly, when described first deviate of the second comparative result sign is greater than described second deviate, described electronic equipment generates described steering order.
Described first charging current is not mated with the second charging current, illustrates in charging process, and the problems such as loose contact have appearred in described electronic equipment charging.
Step 104: respond described steering order, produces cue.
Here, during practical application, described cue can be user can be made synchronously to know there is the cue of loose contact etc. in described electronic equipment, the such as loose contact such as sound, light alerting signal.
After user receives cue, just can check connection line, to ensure normally carrying out of charging.
During practical application, step 101 ~ 104 can be carried out in real time, and in other words, in charging process, described electronic equipment detects the first charging current in real time, and the first charging current detected in real time and the second charging current are compared, and obtain the first comparative result; When as long as described first charging current of the first comparative result sign is not mated with the second charging current, just generate steering order, and steering order described in response response, produce cue, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
The information processing method that the embodiment of the present invention provides, electronic equipment detects the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment; The first charging current detected and the second charging current are compared, obtains the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment; When described first charging current of the first comparative result sign is not mated with the second charging current, described electronic equipment generates steering order; Respond described steering order, produce cue, what the charging current produced by reality was produced with theory judges whether charging process has occurred the abnormal conditions such as loose contact comparing of charging current, so, can automatically, exactly judge.
In addition, because electronic equipment judges automatically, and when described first charging current is not mated with the second charging current, produce cue, user and then can check connection line according to cue, with normally carrying out of ensureing to charge, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
Embodiment two
The present embodiment provides a kind of information processing method, and described method is applied in electronic equipment.
Fig. 2 is the realization flow schematic diagram of the embodiment of the present invention two information processing method, and as shown in Figure 2, the method comprises the following steps:
Step 200: the second charging current is stored in the first memory of described electronic equipment;
Here, the theoretical charging current produced when described second charging current is the charging of described electronic equipment.
The object second charging current be stored in the first memory of described electronic equipment is: in described electronic equipment, solidify described second charging current; Based on this, described first memory is nonvolatile memory, ROM (read-only memory) (the ROM of such as described electronic equipment, ReadOnlyMemory), because described second charging current stores in the nonvolatile memory, like this, even if during described electronic equipment power-off, described second charging current also can not be lost.
Described electronic equipment can be laptop, pad, mobile phone, intelligent watch, Intelligent bracelet etc.
Step 201: detect the first charging current;
Here, the charging current of actual generation when described first charging current is the charging of described electronic equipment.
Wherein, the charging current that described reality produces is the charging current to described electric device battery end.
Step 202: read described second charging current from described first memory, and the first charging current detected and the second charging current are compared, obtain the first comparative result;
Particularly, described first charging current and the second charging current are asked deviation by described electronic equipment, obtain the first deviate;
Described first deviate and the second deviate compare by described electronic equipment, obtain the second comparative result; Described second deviate is default deviate.
Wherein, described second deviate can be arranged according to the performance of described electric device battery.
By the impact of battery own material (negative electrode, anode and electrolyte), in each charging process, the charging current that obtains can not be identical the same duration of charging, so during practical application, described second deviate can be a scope, as long as described first deviate is within the scope of this, then think that described first charging current is mated with the second charging current, when super going beyond the scope, then think that described first charging current is not mated with the second charging current.
Step 203: when described first charging current of the first comparative result sign is not mated with the second charging current, generate steering order;
Here, described steering order is used to indicate generation cue.
Correspondingly, when described first deviate of the second comparative result sign is greater than described second deviate, described electronic equipment generates described steering order.
Described first charging current is not mated with the second charging current, illustrates in charging process, and the problems such as loose contact have appearred in described electronic equipment charging.
Step 204: respond described steering order, produces cue.
Here, during practical application, described cue can be user can be made synchronously to know there is the cue of loose contact etc. in described electronic equipment, the such as loose contact such as sound, light alerting signal.
After user receives cue, just can check connection line, to ensure normally carrying out of charging.
During practical application, step 201 ~ 204 can be carried out in real time, and in other words, in charging process, described electronic equipment detects the first charging current in real time, and the first charging current detected in real time and the second charging current are compared, and obtain the first comparative result; When as long as described first charging current of the first comparative result sign is not mated with the second charging current, just generate steering order, and steering order described in response response, produce cue, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
The information processing method that the embodiment of the present invention provides, electronic equipment detects the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment; The first charging current detected and the second charging current are compared, obtains the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment; When described first charging current of the first comparative result sign is not mated with the second charging current, described electronic equipment generates steering order; Respond described steering order, produce cue, what the charging current produced by reality was produced with theory judges whether charging process has occurred the abnormal conditions such as loose contact comparing of charging current, so, can automatically, exactly judge.
In addition, because electronic equipment judges automatically, and when described first charging current is not mated with the second charging current, produce cue, user and then can check connection line according to cue, with normally carrying out of ensureing to charge, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
Embodiment three
The present embodiment provides a kind of information processing method, and described method is applied in electronic equipment.
Fig. 3 is the realization flow schematic diagram of the embodiment of the present invention two information processing method, and as shown in Figure 3, the method comprises the following steps:
Step 300: the second charging current is stored in the first memory of described electronic equipment;
Here, the theoretical charging current produced when described second charging current is the charging of described electronic equipment.
The object second charging current be stored in the first memory of described electronic equipment is: in described electronic equipment, solidify described second charging current; Based on this, described first memory is nonvolatile memory, such as the ROM of described electronic equipment, and because described second charging current stores in the nonvolatile memory, like this, even if during described electronic equipment power-off, described second charging current also can not be lost.
Described electronic equipment can be laptop, pad, mobile phone, intelligent watch, Intelligent bracelet etc.
Step 301: detect the first charging current and the first voltage;
Here, the charging current of actual generation when described first charging current is the charging of described electronic equipment.
Wherein, the charging current that described reality produces is the charging current to described electric device battery end.
The cell voltage of the described electronic equipment that described first voltage is corresponding with described first charging current when being the charging of described electronic equipment.
Step 302: by searching the corresponding relation being stored in cell voltage in described first memory and charging current, obtain described second charging current corresponding with described first voltage;
Here, inventor realizes, in process of the present invention, groping to draw through for a long time: due to the singularity of electric device battery, so the process of charging at electric device battery, the charging current of battery is changed to fixed function, can be cell voltage fixed function.
Based on this, when battery manufacture out time, its charge mode is just determined, so according to the theoretical performance of the charge mode determined and battery, corresponding duration of charging and charging current (theoretical charging current), cell voltage profiles figure (as shown in Figure 4) can be obtained, corresponding cell voltage and the corresponding relation data of charging current can be obtained according to this curve map, thus these data are stored in described first memory.
Before read described second charging current from described first memory, by searching the corresponding relation data being stored in cell voltage in described first memory and charging current, described second charging current corresponding with described first voltage can be obtained.
Step 303: read described second charging current from described first memory, and the first charging current detected and the second charging current are compared, obtain the first comparative result;
Particularly, described first charging current and the second charging current are asked deviation by described electronic equipment, obtain the first deviate;
Described first deviate and the second deviate compare by described electronic equipment, obtain the second comparative result; Described second deviate is default deviate.
Wherein, described second deviate can be arranged according to the performance of described electric device battery.
By the impact of battery own material (negative electrode, anode and electrolyte), in each charging process, the charging current that obtains can not be identical the same duration of charging, so during practical application, described second deviate can be a scope, as long as described first deviate is within the scope of this, then think that described first charging current is mated with the second charging current, when super going beyond the scope, then think that described first charging current is not mated with the second charging current.
Step 304: when described first charging current of the first comparative result sign is not mated with the second charging current, generate steering order;
Here, described steering order is used to indicate generation cue.
Correspondingly, when described first deviate of the second comparative result sign is greater than described second deviate, described electronic equipment generates described steering order.
Described first charging current is not mated with the second charging current, illustrates in charging process, and the problems such as loose contact have appearred in described electronic equipment charging.
Step 305: respond described steering order, produces cue.
Here, during practical application, described cue can be user can be made synchronously to know there is the cue of loose contact etc. in described electronic equipment, the such as loose contact such as sound, light alerting signal.
After user receives cue, just can check connection line, to ensure normally carrying out of charging.
During practical application, step 301 ~ 305 can be carried out in real time, in other words, in charging process, described electronic equipment detects the first charging current and the first voltage in real time, by searching the corresponding relation being stored in cell voltage in described first memory and charging current, obtain described second charging current corresponding with described first voltage, described second charging current is read from described first memory, and the first charging current detected in real time and the second charging current are compared, obtain the first comparative result; When as long as described first charging current of the first comparative result sign is not mated with the second charging current, just generate steering order, and steering order described in response response, produce cue, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
The information processing method that the embodiment of the present invention provides, electronic equipment detects the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment; The first charging current detected and the second charging current are compared, obtains the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment; When described first charging current of the first comparative result sign is not mated with the second charging current, described electronic equipment generates steering order; Respond described steering order, produce cue, what the charging current produced by reality was produced with theory judges whether charging process has occurred the abnormal conditions such as loose contact comparing of charging current, so, can automatically, exactly judge.
In addition, because electronic equipment judges automatically, and when described first charging current is not mated with the second charging current, produce cue, user and then can check connection line according to cue, with normally carrying out of ensureing to charge, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
Embodiment four
The present embodiment provides a kind of information processing method, and described method is applied in electronic equipment.
Fig. 5 is the realization flow schematic diagram of the embodiment of the present invention two information processing method, and as shown in Figure 5, the method comprises the following steps:
Step 500: the second charging current is stored in the first memory of described electronic equipment;
Here, the theoretical charging current produced when described second charging current is the charging of described electronic equipment.
The object second charging current be stored in the first memory of described electronic equipment is: in described electronic equipment, solidify described second charging current; Based on this, described first memory is nonvolatile memory, such as the ROM of described electronic equipment, and because described second charging current stores in the nonvolatile memory, like this, even if during described electronic equipment power-off, described second charging current also can not be lost.
Described electronic equipment can be laptop, pad, mobile phone, intelligent watch, Intelligent bracelet etc.
Step 501: detect the first charging current and the first duration of charging;
Here, the charging current of actual generation when described first charging current is the charging of described electronic equipment.
Wherein, the charging current that described reality produces is the charging current to described electric device battery end.
The duration of charging that described first duration of charging is corresponding with described first charging current when being the charging of described electronic equipment.
Step 502: by searching the corresponding relation being stored in duration of charging in described first memory and charging current, obtain described second charging current corresponding with described first duration of charging;
Here, inventor realizes, in process of the present invention, groping to draw through for a long time: due to the singularity of electric device battery, so the process of charging at electric device battery, the charging current of battery is changed to fixed function, can be duration of charging fixed function.
Based on this, when battery manufacture out time, its charge mode is just determined, so according to the theoretical performance of the charge mode determined and battery, corresponding duration of charging and charging current (theoretical charging current), cell voltage profiles figure (as shown in Figure 4) can be obtained, corresponding duration of charging and the corresponding relation data of charging current can be obtained according to this curve map, thus these data are stored in described first memory.
Before read described second charging current from described first memory, by searching the corresponding relation data being stored in duration of charging in described first memory and charging current, described second charging current corresponding with described first voltage can be obtained.
Step 503: read described second charging current from described first memory, and the first charging current detected and the second charging current are compared, obtain the first comparative result;
Particularly, described first charging current and the second charging current are asked deviation by described electronic equipment, obtain the first deviate;
Described first deviate and the second deviate compare by described electronic equipment, obtain the second comparative result; Described second deviate is default deviate.
Wherein, described second deviate can be arranged according to the performance of described electric device battery.
By the impact of battery own material (negative electrode, anode and electrolyte), in each charging process, the charging current that obtains can not be identical the same duration of charging, so during practical application, described second deviate can be a scope, as long as described first deviate is within the scope of this, then think that described first charging current is mated with the second charging current, when super going beyond the scope, then think that described first charging current is not mated with the second charging current.
Step 504: when described first charging current of the first comparative result sign is not mated with the second charging current, generate steering order;
Here, described steering order is used to indicate generation cue.
Correspondingly, when described first deviate of the second comparative result sign is greater than described second deviate, described electronic equipment generates described steering order.
Described first charging current is not mated with the second charging current, illustrates in charging process, and the problems such as loose contact have appearred in described electronic equipment charging.
Step 505: respond described steering order, produces cue.
Here, during practical application, described cue can be user can be made synchronously to know there is the cue of loose contact etc. in described electronic equipment, the such as loose contact such as sound, light alerting signal.
After user receives cue, just can check connection line, to ensure normally carrying out of charging.
During practical application, step 501 ~ 505 can be carried out in real time, in other words, in charging process, described electronic equipment detects the first charging current and duration of charging in real time, by searching the corresponding relation being stored in duration of charging in described first memory and charging current, obtain described second charging current corresponding with described first duration of charging, described second charging current is read from described first memory, and the first charging current detected in real time and the second charging current are compared, obtain the first comparative result; When as long as described first charging current of the first comparative result sign is not mated with the second charging current, just generate steering order, and steering order described in response response, produce cue, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
The information processing method that the embodiment of the present invention provides, electronic equipment detects the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment; The first charging current detected and the second charging current are compared, obtains the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment; When described first charging current of the first comparative result sign is not mated with the second charging current, described electronic equipment generates steering order; Respond described steering order, produce cue, what the charging current produced by reality was produced with theory judges whether charging process has occurred the abnormal conditions such as loose contact comparing of charging current, so, can automatically, exactly judge.
In addition, because electronic equipment judges automatically, and when described first charging current is not mated with the second charging current, produce cue, user and then can check connection line according to cue, with normally carrying out of ensureing to charge, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
Embodiment five
Based on the method for the embodiment of the present invention one, the present embodiment provides a kind of electronic equipment, and as shown in Figure 6, this electronic equipment 60 comprises:
First detecting unit 61, for detecting the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment;
Comparing unit 62, for the first charging current detected and the second charging current being compared, obtains the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment;
Generation unit 63, for when described first charging current of the first comparative result sign is not mated with the second charging current, generates steering order; Described steering order is used to indicate generation cue;
Generation unit 64, for responding described steering order, produces cue.
Wherein, the charging current that described reality produces is the charging current to described electric device battery end.
Described electronic equipment can be laptop, pad, mobile phone, intelligent watch, Intelligent bracelet etc.
In one embodiment, as shown in Figure 7, described comparing unit 62 can comprise:
Tolerance module 621, for described first charging current and the second charging current are asked deviation, obtains the first deviate;
Comparison module 622, for described first deviate and the second deviate being compared, obtains the second comparative result; Described second deviate is default deviate;
Correspondingly, described generation unit 63, for when described first deviate of the second comparative result sign is greater than described second deviate, generates described steering order.
Here, described second deviate can be arranged according to the performance of described electric device battery.
By the impact of battery own material (negative electrode, anode and electrolyte), in each charging process, the charging current that obtains can not be identical the same duration of charging, so during practical application, described second deviate can be a scope, as long as described first deviate is within the scope of this, then described comparison module 622 thinks that described first charging current is mated with the second charging current, when super going beyond the scope, then described comparison module 622 thinks that described first charging current is not mated with the second charging current.
Described first charging current is not mated with the second charging current, illustrates in charging process, and the problems such as loose contact have appearred in described electronic equipment charging.
During practical application, described cue can be user can be made synchronously to know there is the cue of loose contact etc. in described electronic equipment, the such as loose contact such as sound, light alerting signal.
After user receives cue, just can check connection line, to ensure normally carrying out of charging.
During practical application, above-mentioned functions module is in real time in its function of execution, in other words, in charging process, described first detecting unit 61 detects the first charging current in real time, the first charging current detected in real time and the second charging current compare by described comparing unit 62, obtain the first comparative result; As long as when described first charging current of the first comparative result sign is not mated with the second charging current, described generation unit 63 just generates steering order, steering order described in described generation unit 64 response response, produce cue, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
The electronic equipment that the embodiment of the present invention provides, described first detecting unit 61 detects the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment; The first charging current detected and the second charging current compare by described comparing unit 62, obtain the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment; When described first charging current of the first comparative result sign is not mated with the second charging current, described generation unit 63 generates steering order; Described generation unit 64 responds described steering order, produce cue, what the charging current produced by reality was produced with theory judges whether charging process has occurred the abnormal conditions such as loose contact comparing of charging current, so, can automatically, exactly judge.
In addition, because electronic equipment judges automatically, and when described first charging current is not mated with the second charging current, produce cue, user and then can check connection line according to cue, with normally carrying out of ensureing to charge, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
Embodiment six
Based on the electronic equipment of the embodiment of the present invention five, present embodiments provide a kind of electronic equipment, as shown in Figure 8, this electronic equipment 60 comprises:
Writing unit 65, for being stored in the first memory of described electronic equipment by described second charging current; Described first memory is nonvolatile memory; The theoretical charging current produced when described second charging current is the charging of described electronic equipment;
First detecting unit 61, for detecting the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment;
Comparing unit 62, for the first charging current detected and the second charging current being compared, obtains the first comparative result;
Generation unit 63, for when described first charging current of the first comparative result sign is not mated with the second charging current, generates steering order; Described steering order is used to indicate generation cue;
Generation unit 64, for responding described steering order, produces cue.
Wherein, the object the second charging current be stored in the first memory of described electronic equipment is: in described electronic equipment, solidify described second charging current; Based on this, described first memory is nonvolatile memory, such as the ROM of described electronic equipment, and because described second charging current stores in the nonvolatile memory, like this, even if during described electronic equipment power-off, described second charging current also can not be lost.
Described electronic equipment can be laptop, pad, mobile phone, intelligent watch, Intelligent bracelet etc.
The charging current that described reality produces is the charging current to described electric device battery end.
In one embodiment, as shown in Figure 9, described comparing unit 62 can comprise:
Tolerance module 621, for described first charging current and the second charging current are asked deviation, obtains the first deviate;
Comparison module 622, for described first deviate and the second deviate being compared, obtains the second comparative result; Described second deviate is default deviate;
Correspondingly, described generation unit 63, for when described first deviate of the second comparative result sign is greater than described second deviate, generates described steering order.
Here, described second deviate can be arranged according to the performance of described electric device battery.
By the impact of battery own material (negative electrode, anode and electrolyte), in each charging process, the charging current that obtains can not be identical the same duration of charging, so during practical application, described second deviate can be a scope, as long as described first deviate is within the scope of this, then described comparison module 622 thinks that described first charging current is mated with the second charging current, when super going beyond the scope, then described comparison module 622 thinks that described first charging current is not mated with the second charging current.
Described first charging current is not mated with the second charging current, illustrates in charging process, and the problems such as loose contact have appearred in described electronic equipment charging.
During practical application, described cue can be user can be made synchronously to know there is the cue of loose contact etc. in described electronic equipment, the such as loose contact such as sound, light alerting signal.
After user receives cue, just can check connection line, to ensure normally carrying out of charging.
During practical application, described first detecting unit 61, described comparing unit 62, described generation unit 63 and described generation unit 64 are in real time in its function of execution, in other words, in charging process, described first detecting unit 61 detects the first charging current in real time, the first charging current detected in real time and the second charging current compare by described comparing unit 62, obtain the first comparative result; As long as when described first charging current of the first comparative result sign is not mated with the second charging current, described generation unit 63 just generates steering order, steering order described in described generation unit 64 response response, produce cue, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
The electronic equipment that the embodiment of the present invention provides, described first detecting unit 61 detects the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment; The first charging current detected and the second charging current compare by described comparing unit 62, obtain the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment; When described first charging current of the first comparative result sign is not mated with the second charging current, described generation unit 63 generates steering order; Described generation unit 64 responds described steering order, produce cue, what the charging current produced by reality was produced with theory judges whether charging process has occurred the abnormal conditions such as loose contact comparing of charging current, so, can automatically, exactly judge.
In addition, because electronic equipment judges automatically, and when described first charging current is not mated with the second charging current, produce cue, user and then can check connection line according to cue, with normally carrying out of ensureing to charge, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
Embodiment seven
Based on the electronic equipment of embodiment six, present embodiments provide a kind of electronic equipment, as shown in Figure 10, this electronic equipment 60 comprises:
Writing unit 65, for being stored in the first memory of described electronic equipment by described second charging current; Described first memory is nonvolatile memory; The theoretical charging current produced when described second charging current is the charging of described electronic equipment;
First detecting unit 61, for detecting the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment;
Second detecting unit 66, for detecting the first voltage, the cell voltage of described electronic equipment corresponding with described first charging current when described first voltage is the charging of described electronic equipment;
Comparing unit 62, for by searching the corresponding relation being stored in cell voltage in described first memory and charging current, obtain described second charging current corresponding with described first voltage, and the first charging current detected and the second charging current are compared, obtain the first comparative result;
Generation unit 63, for when described first charging current of the first comparative result sign is not mated with the second charging current, generates steering order; Described steering order is used to indicate generation cue;
Generation unit 64, for responding described steering order, produces cue.
Wherein, the object the second charging current be stored in the first memory of described electronic equipment is: in described electronic equipment, solidify described second charging current; Based on this, described first memory is nonvolatile memory, such as the ROM of described electronic equipment, and because described second charging current stores in the nonvolatile memory, like this, even if during described electronic equipment power-off, described second charging current also can not be lost.
Described electronic equipment can be laptop, pad, mobile phone, intelligent watch, Intelligent bracelet etc.
The charging current that described reality produces is the charging current to described electric device battery end.
Inventor realizes, in process of the present invention, groping to draw through for a long time: due to the singularity of electric device battery, so the process of charging at electric device battery, the charging current of battery is changed to fixed function, can be cell voltage fixed function.
Based on this, when battery manufacture out time, its charge mode is just determined, so according to the theoretical performance of the charge mode determined and battery, corresponding duration of charging and charging current (theoretical charging current), cell voltage profiles figure (as shown in Figure 4) can be obtained, corresponding cell voltage and the corresponding relation data of charging current can be obtained according to this curve map, thus these data are stored in described first memory.
Before read described second charging current from described first memory, by searching the corresponding relation data being stored in cell voltage in described first memory and charging current, described comparing unit 62 can obtain described second charging current corresponding with described first voltage.
In one embodiment, as shown in figure 11, described comparing unit 62 can comprise:
Tolerance module 621, for described first charging current and the second charging current are asked deviation, obtains the first deviate;
Comparison module 622, for described first deviate and the second deviate being compared, obtains the second comparative result; Described second deviate is default deviate;
Correspondingly, described generation unit 63, for when described first deviate of the second comparative result sign is greater than described second deviate, generates described steering order.
Here, described second deviate can be arranged according to the performance of described electric device battery.
By the impact of battery own material (negative electrode, anode and electrolyte), in each charging process, the charging current that obtains can not be identical the same duration of charging, so during practical application, described second deviate can be a scope, as long as described first deviate is within the scope of this, then described comparison module 622 thinks that described first charging current is mated with the second charging current, when super going beyond the scope, then described comparison module 622 thinks that described first charging current is not mated with the second charging current.
Described first charging current is not mated with the second charging current, illustrates in charging process, and the problems such as loose contact have appearred in described electronic equipment charging.
During practical application, described cue can be user can be made synchronously to know there is the cue of loose contact etc. in described electronic equipment, the such as loose contact such as sound, light alerting signal.
After user receives cue, just can check connection line, to ensure normally carrying out of charging.
During practical application, described first detecting unit 61, described second detecting unit 66, described comparing unit 62, described generation unit 63 and described generation unit 64 are in real time in its function of execution, in other words, in charging process, described first detecting unit 61 detects the first charging current in real time, described second detecting unit 66 detects the first voltage in real time, the first charging current detected in real time and the second charging current obtained according to the first voltage and charging current corresponding relation compare by described comparing unit 62, obtain the first comparative result; As long as when described first charging current of the first comparative result sign is not mated with the second charging current, described generation unit 63 just generates steering order, steering order described in described generation unit 64 response response, produce cue, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
The electronic equipment that the embodiment of the present invention provides, described first detecting unit 61 detects the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment; The first charging current detected and the second charging current compare by described comparing unit 62, obtain the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment; When described first charging current of the first comparative result sign is not mated with the second charging current, described generation unit 63 generates steering order; Described generation unit 64 responds described steering order, produce cue, what the charging current produced by reality was produced with theory judges whether charging process has occurred the abnormal conditions such as loose contact comparing of charging current, so, can automatically, exactly judge.
In addition, because electronic equipment judges automatically, and when described first charging current is not mated with the second charging current, produce cue, user and then can check connection line according to cue, with normally carrying out of ensureing to charge, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
Embodiment eight
Based on the electronic equipment of embodiment six, present embodiments provide a kind of electronic equipment, as shown in figure 12, this electronic equipment 60 comprises:
Writing unit 65, for being stored in the first memory of described electronic equipment by described second charging current; Described first memory is nonvolatile memory; The theoretical charging current produced when described second charging current is the charging of described electronic equipment;
First detecting unit 61, for detecting the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment;
3rd detecting unit 67, for detecting for the first duration of charging, the duration of charging corresponding with described first charging current when described first duration of charging is the charging of described electronic equipment;
Comparing unit 62, for by searching the corresponding relation being stored in duration of charging in described first memory and charging current, obtain described second charging current corresponding with described first duration of charging, and the first charging current detected and the second charging current are compared, obtain the first comparative result;
Generation unit 63, for when described first charging current of the first comparative result sign is not mated with the second charging current, generates steering order; Described steering order is used to indicate generation cue;
Generation unit 64, for responding described steering order, produces cue.
Wherein, the object the second charging current be stored in the first memory of described electronic equipment is: in described electronic equipment, solidify described second charging current; Based on this, described first memory is nonvolatile memory, such as the ROM of described electronic equipment, and because described second charging current stores in the nonvolatile memory, like this, even if during described electronic equipment power-off, described second charging current also can not be lost.
Described electronic equipment can be laptop, pad, mobile phone, intelligent watch, Intelligent bracelet etc.
The charging current that described reality produces is the charging current to described electric device battery end.
Inventor realizes, in process of the present invention, groping to draw through for a long time: due to the singularity of electric device battery, so the process of charging at electric device battery, the charging current of battery is changed to fixed function, can be duration of charging fixed function.
Based on this, when battery manufacture out time, its charge mode is just determined, so according to the theoretical performance of the charge mode determined and battery, corresponding duration of charging and charging current (theoretical charging current), cell voltage profiles figure (as shown in Figure 4) can be obtained, corresponding duration of charging and the corresponding relation data of charging current can be obtained according to this curve map, thus these data are stored in described first memory.
Before read described second charging current from described first memory, by searching the corresponding relation data being stored in duration of charging in described first memory and charging current, described comparing unit 63 can obtain described second charging current corresponding with described first voltage.
In one embodiment, as shown in figure 13, described comparing unit 62 can comprise:
Tolerance module 621, for described first charging current and the second charging current are asked deviation, obtains the first deviate;
Comparison module 622, for described first deviate and the second deviate being compared, obtains the second comparative result; Described second deviate is default deviate;
Correspondingly, described generation unit 63, for when described first deviate of the second comparative result sign is greater than described second deviate, generates described steering order.
Here, described second deviate can be arranged according to the performance of described electric device battery.
By the impact of battery own material (negative electrode, anode and electrolyte), in each charging process, the charging current that obtains can not be identical the same duration of charging, so during practical application, described second deviate can be a scope, as long as described first deviate is within the scope of this, then described comparison module 622 thinks that described first charging current is mated with the second charging current, when super going beyond the scope, then described comparison module 622 thinks that described first charging current is not mated with the second charging current.
Described first charging current is not mated with the second charging current, illustrates in charging process, and the problems such as loose contact have appearred in described electronic equipment charging.
During practical application, described cue can be user can be made synchronously to know there is the cue of loose contact etc. in described electronic equipment, the such as loose contact such as sound, light alerting signal.
After user receives cue, just can check connection line, to ensure normally carrying out of charging.
During practical application, described first detecting unit 61, described second detecting unit 66, described comparing unit 62, described generation unit 63 and described generation unit 64 are in real time in its function of execution, in other words, in charging process, described first detecting unit 61 detects the first charging current in real time, described 3rd detecting unit 67 detected for the first duration of charging in real time, the first charging current detected in real time and the second charging current obtained according to the first duration of charging and charging current corresponding relation compare by described comparing unit 62, obtain the first comparative result; As long as when described first charging current of the first comparative result sign is not mated with the second charging current, described generation unit 63 just generates steering order, steering order described in described generation unit 64 response response, produce cue, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
The electronic equipment that the embodiment of the present invention provides, described first detecting unit 61 detects the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment; The first charging current detected and the second charging current compare by described comparing unit 62, obtain the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment; When described first charging current of the first comparative result sign is not mated with the second charging current, described generation unit 63 generates steering order; Described generation unit 64 responds described steering order, produce cue, what the charging current produced by reality was produced with theory judges whether charging process has occurred the abnormal conditions such as loose contact comparing of charging current, so, can automatically, exactly judge.
In addition, because electronic equipment judges automatically, and when described first charging current is not mated with the second charging current, produce cue, user and then can check connection line according to cue, with normally carrying out of ensureing to charge, so, the effect of real-time reminding user can be played, and then user can be allowed reasonably to manage the duration of charging.
It should be noted that: during practical application, described first detecting unit 61, second detecting unit 66 and the 3rd detecting unit 67 can be realized by the detection chip in electronic equipment; Described comparing unit 62, generation unit 63, generation unit 64 and writing unit 65 can by central processing unit (CPU, CentralProcessingUnit), microprocessor (MCU, MicroControlUnit), digital signal processor (DSP, DigitalSignalProcessor) or programmable logic array (FPGA, Field-ProgrammableGateArray) realize.
Should be understood that during instructions in the whole text that " embodiment " or " embodiment " mentioned means that the special characteristic relevant with embodiment, structure or characteristic comprise at least one embodiment of the present invention.Therefore, " in one embodiment " or " in one embodiment " that occur everywhere at whole instructions does not necessarily refer to identical embodiment.In addition, these specific feature, structure or characteristics can combine in one or more embodiments in any suitable manner.Should understand, in various embodiments of the present invention, the size of the sequence number of above-mentioned each process does not also mean that the priority of execution sequence, and the execution sequence of each process should be determined with its function and internal logic, and should not form any restriction to the implementation process of the embodiment of the present invention.The invention described above embodiment sequence number, just to describing, does not represent the quality of embodiment.
It should be noted that, in this article, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or device and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or device.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the device comprising this key element and also there is other identical element.
In several embodiments that the application provides, should be understood that disclosed equipment and method can realize by another way.Apparatus embodiments described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, and as: multiple unit or assembly can be in conjunction with, maybe can be integrated into another system, or some features can be ignored, or do not perform.In addition, the coupling each other of shown or discussed each ingredient or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of equipment or unit or communication connection can be electrical, machinery or other form.
The above-mentioned unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location; Both can be positioned at a place, also can be distributed in multiple network element; Part or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.
In addition, each functional unit in various embodiments of the present invention can all be integrated in a processing unit, also can be each unit individually as a unit, also can two or more unit in a unit integrated; Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form that hardware also can be adopted to add SFU software functional unit realizes.
One of ordinary skill in the art will appreciate that: all or part of step realizing said method embodiment can have been come by the hardware that programmed instruction is relevant, aforesaid program can be stored in computer read/write memory medium, this program, when performing, performs the step comprising said method embodiment; And aforesaid storage medium comprises: movable storage device, ROM, magnetic disc or CD etc. various can be program code stored medium.
Or, if the above-mentioned integrated unit of the present invention using the form of software function module realize and as independently production marketing or use time, also can be stored in a computer read/write memory medium.Based on such understanding, the technical scheme of the embodiment of the present invention can embody with the form of software product the part that prior art contributes in essence in other words, this computer software product is stored in a storage medium, comprises some instructions and performs all or part of of method described in each embodiment of the present invention in order to make a computer equipment (can be personal computer, server or the network equipment etc.).And aforesaid storage medium comprises: movable storage device, ROM, magnetic disc or CD etc. various can be program code stored medium.
The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.
Claims (10)
1. an information processing method, is characterized in that, is applied to electronic equipment, and described method comprises:
Detect the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment;
The first charging current detected and the second charging current are compared, obtains the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment;
When described first charging current of the first comparative result sign is not mated with the second charging current, generate steering order; Described steering order is used to indicate generation cue;
Respond described steering order, produce cue.
2. method according to claim 1, is characterized in that, described by detect the first charging current and the second charging current compare; Comprise:
Described first charging current and the second charging current are asked deviation, obtains the first deviate;
Described first deviate and the second deviate are compared, obtains the second comparative result; Described second deviate is default deviate;
Correspondingly, when described first deviate of the second comparative result sign is greater than described second deviate, described steering order is generated.
3. method according to claim 1 and 2, is characterized in that, before detecting described first charging current, described method also comprises:
Described second charging current is stored in the first memory of described electronic equipment; Described first memory is nonvolatile memory;
Correspondingly, when the first charging current detected and the second charging current being compared, described method also comprises:
Described second charging current is read from described first memory.
4. method according to claim 3, is characterized in that, during described first charging current of described detection, described method also comprises:
Detect the first voltage, the cell voltage of described electronic equipment corresponding with described first charging current when described first voltage is the charging of described electronic equipment;
Correspondingly, described from described first memory, read described second charging current before, described method also comprises:
By searching the corresponding relation being stored in cell voltage in described first memory and charging current, obtain described second charging current corresponding with described first voltage.
5. method according to claim 3, is characterized in that, during described first charging current of described detection, described method also comprises:
Detected for the first duration of charging, the duration of charging corresponding with described first charging current when described first duration of charging is the charging of described electronic equipment;
Correspondingly, described from described first memory, read described second charging current before, described method also comprises:
By searching the corresponding relation being stored in duration of charging in described first memory and charging current, obtain described second charging current corresponding with described first duration of charging.
6. an electronic equipment, is characterized in that, described electronic equipment comprises:
First detecting unit, for detecting the first charging current; The charging current of actual generation when described first charging current is the charging of described electronic equipment;
Comparing unit, for the first charging current detected and the second charging current being compared, obtains the first comparative result; The theoretical charging current produced when described second charging current is the charging of described electronic equipment;
Generation unit, for when described first charging current of the first comparative result sign is not mated with the second charging current, generates steering order; Described steering order is used to indicate generation cue;
Generation unit, for responding described steering order, produces cue.
7. electronic equipment according to claim 6, is characterized in that, described comparing unit comprises:
Tolerance module, for described first charging current and the second charging current are asked deviation, obtains the first deviate;
Comparison module, for described first deviate and the second deviate being compared, obtains the second comparative result; Described second deviate is default deviate;
Correspondingly, described generation unit, for when described first deviate of the second comparative result sign is greater than described second deviate, generates described steering order.
8. the electronic equipment according to claim 6 or 7, is characterized in that, described electronic equipment also comprises: writing unit, for being stored in the first memory of described electronic equipment by described second charging current; Described first memory is nonvolatile memory;
Correspondingly, described comparing unit, also for reading described second charging current from described first memory.
9. electronic equipment according to claim 8, is characterized in that, described electronic equipment also comprises:
Second detecting unit, for detecting the first voltage, the cell voltage of described electronic equipment corresponding with described first charging current when described first voltage is the charging of described electronic equipment;
Correspondingly, described comparing unit, also for by searching the corresponding relation being stored in cell voltage in described first memory and charging current, obtains described second charging current corresponding with described first voltage.
10. electronic equipment according to claim 8, is characterized in that, described electronic equipment also comprises:
3rd detecting unit, for detecting for the first duration of charging, the duration of charging corresponding with described first charging current when described first duration of charging is the charging of described electronic equipment;
Correspondingly, described comparing unit, also for by searching the corresponding relation being stored in duration of charging in described first memory and charging current, obtains described second charging current corresponding with described first duration of charging.
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CN108494035A (en) * | 2018-03-26 | 2018-09-04 | 郑州正方科技有限公司 | The recognition methods of the validity of physical connection, apparatus and system |
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