CN102590666B - False battery of mobile phone and mobile phone power consumption and charge/discharge testing system - Google Patents
False battery of mobile phone and mobile phone power consumption and charge/discharge testing system Download PDFInfo
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- CN102590666B CN102590666B CN201210029886.3A CN201210029886A CN102590666B CN 102590666 B CN102590666 B CN 102590666B CN 201210029886 A CN201210029886 A CN 201210029886A CN 102590666 B CN102590666 B CN 102590666B
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Abstract
The invention discloses a false battery of a mobile phone and a mobile phone power consumption and charge/discharge testing system. A battery protective circuit, a battery anode, a battery identification end, a battery temperature feedback end, a battery cathode, a battery testing anode, a battery testing identification end, a battery testing temperature feedback end, a battery testing cathode, a first switch, a second switch and a third switch are arranged in the false battery; and the battery testing identification end is connected with the battery identification end through the first switch, the battery testing temperature feedback end is connected with the battery temperature feedback end through the second switch, and the battery testing cathode is connected with the battery cathode through the third switch. When the first switch, the second switch and the third switch are turned off, the battery protective circuit is connected to the circuit, and normal mobile phone power consumption test can be performed; and when the first switch, the second switch and the third switch are turned on, charge/discharge test is performed, so that the mobile phone can detect the battery identification end and the battery temperature feedback end of the battery, and a real effect of stimulating the use of a user is achieved.
Description
Technical field
The present invention relates to communication technical field, particularly the false battery of a kind of mobile phone and mobile telephone power consumption, charging-discharge tester system.
Background technology
In mobile phone research test process; generally need to use the false battery of mobile phone; as depicted in figs. 1 and 2; mobile phone false battery protection circuit plate 11 '; protection circuit plate 11 ' is provided with 4 electrodes, respectively: anode P '+, battery cathode P '-, battery identification end ID ' and battery temperature feedback end TH ', after packaging; these four electrodes are positioned on the end face of false battery body, power after these four electrodes and battery of mobile phone interface contact when testing to mobile phone.Protection circuit plate is also provided with two other electrode; respectively: battery testing positive pole B '+and battery testing negative pole B '-; after false cell package; these two electrodes are embedded at (as shown in Figure 2) on the side of false battery, when testing battery testing positive pole B '+with battery testing negative pole B '-be connected with direct supply.
When carrying out power consumption simulation test to the application of false battery, need false battery be arranged on mobile phone, the positive pole 1 ' of direct supply is connected the battery testing positive pole B ' of false battery+, the negative pole 2 ' of direct supply connects the negative pole 3 ' of reometer, the positive pole 4 ' of the described reometer of the battery testing negative pole B ' of described false battery-connect, as shown in Figure 3, thus the mobile telephone power consumption simulation test of false battery applications can be realized.
When carrying out charge-discharge test to false battery, battery, mobile phone, battery case, voltage table, reometer and some p-wires need be used, as shown in Figure 4, first false battery is needed to be arranged in mobile phone, the battery testing positive pole B ' of false battery+be all connected the positive pole 5 ' of battery case with the positive pole 9 ' of voltage table, is all connected the 4th wiring point 8 ' of battery case by the negative pole 10 ' of voltage table and the negative pole 3 ' of reometer; The positive pole 4 ' of described reometer connect the battery testing negative pole B ' of false battery-.Now, by when carrying out charge-discharge test in existing false battery loading mobile phone, false battery can discharge and recharge, but that mobile phone detects at test process is battery identification end ID ' on false battery and battery temperature feedback end TH ', and battery identification end (i.e. the negative pole 6 ' of battery case) on battery and battery temperature feedback end (i.e. the 3rd wiring point 7 ' of battery case) are all in idle state, battery identification end on visible battery and battery temperature feedback end do not play any effect, therefore when carrying out charge-discharge test simulated experiment to false battery, the result of use of user can not be reached.
Summary of the invention
In view of above-mentioned the deficiencies in the prior art part, the object of the present invention is to provide the false battery of a kind of mobile phone and mobile telephone power consumption, charging-discharge tester system, data accurately can be tested, thus the service condition of the effective analogue mobile phone user of energy, improve the performance of false battery.
In order to achieve the above object, this invention takes following technical scheme:
The false battery of a kind of mobile phone, at the anode that false inside battery is provided with battery protecting circuit and is connected with this battery protecting circuit, battery identification end, battery temperature feedback end, battery cathode, battery testing positive pole, battery testing identification end, battery testing temperature feedback end, battery testing negative pole, for controlling the first switch of the break-make between battery testing identification end and battery identification end, for controlling the second switch of the break-make between battery testing temperature feedback end and battery temperature feedback end and the 3rd switch for controlling the break-make between battery testing negative pole and battery cathode, described battery testing identification end connects described battery identification end by the first switch, and battery testing temperature feedback end connects described battery temperature feedback end by second switch, and battery testing negative pole connects described battery cathode by the 3rd switch, connect corresponding testing tool when battery testing positive pole, battery testing identification end, battery testing temperature feedback end, battery testing negative pole are for testing, this testing tool comprises direct supply, reometer and voltage table, first switch, second switch and the 3rd switch are selected to disconnect or close according to different testing experiments, when the first switch, second switch and the 3rd switch all disconnect, battery protecting circuit is made to access in test macro, first switch, second switch and the 3rd switch are all closed, and false battery is not connected with the protection circuit on false battery, and now false battery is only as a kind of coupling arrangement connecting battery case.
In the false battery of above-mentioned mobile phone, also comprise false battery case, described anode, battery identification end, battery temperature feedback end, battery cathode, battery testing positive pole, battery testing identification end, battery testing temperature feedback end, battery testing negative pole, the first switch, second switch and the 3rd switch are positioned on described false battery case.
In the false battery of above-mentioned mobile phone, described first switch comprises the first wire jumper pin and the first wire jumper block, and second switch comprises the second wire jumper pin and the second wire jumper block, and the 3rd switch comprises the 3rd wire jumper pin and the 3rd wire jumper block.
In the false battery of above-mentioned mobile phone, described first wire jumper pin, the second wire jumper pin and the 3rd wire jumper pin are one-body molded.
In the false battery of above-mentioned mobile phone, the false battery first circuit board of mobile phone and second circuit board, described battery protecting circuit, anode, battery identification end, battery temperature feedback end and battery cathode are laid on described first circuit board, described battery testing positive pole, battery testing identification end, battery testing temperature feedback end and battery testing negative pole are positioned on described second circuit board, described second circuit board is also provided with for being electrically connected described first wire jumper pin, 6 tie points of the second wire jumper pin and the 3rd wire jumper pin, described anode is connected with battery testing positive pole, described battery temperature feedback end connects the first tie point, battery testing temperature feedback end connects the second tie point, battery identification end connects the 3rd tie point, battery testing identification end connects the 4th tie point, battery cathode connects the 5th tie point, battery testing negative pole connects the 6th tie point.
A kind of mobile telephone power consumption test macro, it comprises direct supply, reometer and above-mentioned false battery, described false mounting batteries is in described mobile phone, the positive pole of described direct supply is connected with the battery testing positive pole of false battery, negative pole connects the negative pole of reometer, and the battery testing negative pole of described false battery connects the positive pole of described reometer; Described first switch, second switch and the 3rd switch all disconnect, and battery protecting circuit is accessed in test macro.
In above-mentioned mobile telephone power consumption test macro, described first switch comprises the first wire jumper pin and the first wire jumper block, and second switch comprises the second wire jumper pin and the second wire jumper block, and the 3rd switch comprises the 3rd wire jumper pin and the 3rd wire jumper block.
In above-mentioned mobile telephone power consumption test macro, described first wire jumper pin, the second wire jumper pin and the 3rd wire jumper pin are one-body molded.
A kind of mobile phone charging-discharge tester system, it comprises voltage table, reometer, battery case, battery and above-mentioned false battery; Described mounting batteries is in battery case, and the positive pole of described voltage table connects the positive pole of battery case and the battery testing positive pole of false battery, and its negative pole connects the 4th wiring point of battery case; The negative pole of described battery case connects the battery testing temperature feedback end of false battery, and its 3rd wiring point connects the battery testing identification end of false battery; The negative pole of described reometer connects the 4th wiring point of battery case, and positive pole connects the battery testing negative pole of false battery; Described first switch, second switch and the 3rd switch are all closed makes false battery not be connected with the protection circuit on false battery, and now false battery is only as a kind of coupling arrangement connecting battery case.
Compared to prior art, the false battery of mobile phone provided by the invention and mobile telephone power consumption, charging-discharge tester system, false inside battery is provided with protection circuit plate, the anode described protection circuit plate being laid with battery protecting circuit and being connected with this battery protecting circuit, battery identification end, battery temperature feedback end, battery cathode, battery testing positive pole, battery testing identification end, battery testing temperature feedback end, battery testing negative pole, for controlling the first switch of the break-make between battery testing identification end and battery identification end, for controlling the second switch of the break-make between battery testing temperature feedback end and battery temperature feedback end and the 3rd switch for controlling the break-make between battery testing negative pole and battery cathode, described battery testing identification end connects described battery identification end by the first switch, and battery testing temperature feedback end connects described battery temperature feedback end by second switch, and battery testing negative pole connects described battery cathode by the 3rd switch.Battery protecting circuit, by carrying out mobile telephone power consumption test when described first switch, second switch and the 3rd switch all disconnect, accesses in test macro, battery protecting circuit is played a role, thus can carry out normal mobile telephone power consumption test by the present invention; Charge-discharge test is carried out when the first switch, second switch and the 3rd switch are all closed; battery protecting circuit is made not access test macro; make mobile phone battery identification end and the battery temperature feedback end of battery can be detected; reach the true effect that analog subscriber uses; thus make the data that record more accurately credible, improve the performance of false battery.
Accompanying drawing explanation
Fig. 1 is the circuit theory diagrams of existing false battery.
Fig. 2 is the structural representation of existing false battery.
Fig. 3 is the test principle figure that existing false battery carries out when mobile telephone power consumption is tested.
Test principle figure when Fig. 4 is existing false battery during row mobile phone charge-discharge test.
Fig. 5 is the circuit theory diagrams of the false battery of mobile phone of the present invention.
Fig. 6 is the structural representation of the false battery of mobile phone of the present invention.
Fig. 7 is the STRUCTURE DECOMPOSITION figure of the false battery of mobile phone of the present invention.
Fig. 8 is the test principle figure that the false battery of mobile phone of the present invention carries out when mobile telephone power consumption is tested.
Fig. 9 is the test principle figure of mobile phone of the present invention false battery when carrying out mobile phone charge-discharge test.
Figure 10 is the circuit theory diagrams that in mobile phone charging-discharge tester system of the present invention, battery is connected with battery case.
Embodiment
Battery of mobile phone generally comprises battery core and battery protecting circuit; battery protecting circuit is provided with anode, battery identification end, battery temperature feedback end, battery cathode, battery testing Anode and battery test negative pole; wherein; anode, battery identification end, battery temperature feedback end are powered to mobile phone after contacting with the shell fragment of handset port with battery cathode, and battery testing Anode and battery test negative pole is connected with the positive pole of battery core and negative pole respectively.The present invention provides the false battery of a kind of mobile phone and mobile telephone power consumption, charging-discharge tester system according to the design feature of battery of mobile phone.
For making object of the present invention, technical scheme and effect clearly, clearly, developing simultaneously referring to accompanying drawing, the present invention is described in more detail for embodiment.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.
Refer to Fig. 5, it is the circuit theory diagrams of the false battery of mobile phone of the present invention.As shown in the figure, at the anode P+ that false inside battery arranges battery protecting circuit 10 and is connected with this battery protecting circuit 10, battery identification end ID, battery temperature feedback end TH, battery cathode P-, battery testing positive pole B+, battery testing identification end ID1, battery testing temperature feedback end TH1, battery testing negative pole B-, for controlling the first interrupteur SW 1 of the break-make between battery testing identification end ID1 and battery identification end ID, for controlling the second switch SW2 of the break-make between battery testing temperature feedback end TH1 and battery temperature feedback end TH and the 3rd interrupteur SW 3 for controlling the break-make between battery testing negative pole B-and battery cathode P-, described battery testing identification end ID1 connects described battery identification end ID by the first interrupteur SW 1, battery testing temperature feedback end TH1 connects described battery temperature feedback end TH by second switch SW2, and battery testing negative pole B-connects described battery cathode P-by the 3rd interrupteur SW 3.
See also Fig. 6, in the embodiment of the present invention, the false battery case 110 of the false battery of described mobile phone, described anode P+, battery identification end ID, battery temperature feedback end TH, battery cathode P-, battery testing positive pole B+, battery testing identification end ID1, battery testing temperature feedback end TH1, battery testing negative pole B-, the first interrupteur SW 1, second switch SW2 and the 3rd interrupteur SW 3 are positioned on described false battery case 110.
In the specific implementation, described anode P+, battery identification end ID, battery temperature feedback end TH and battery cathode P-are positioned on the end face of described false battery case 110, when false battery loads mobile phone, this anode P+, battery identification end ID, battery temperature feedback end TH just in time contact with the corresponding shell fragment of handset port with battery cathode P-.Described battery testing positive pole B+, battery testing identification end ID1, battery testing temperature feedback end TH1, battery testing negative pole B-, the first interrupteur SW 1, second switch SW2 and the 3rd interrupteur SW 3 are positioned on the side of described false battery case 110.Battery testing positive pole B+, battery testing identification end ID1, battery testing temperature feedback end TH1, battery testing negative pole B-connect corresponding testing tool when being mainly used in test, and the first interrupteur SW 1, second switch SW2 and the 3rd interrupteur SW 3 are selected to disconnect or close according to different testing experiments.Wherein, the circuit structure of described battery protecting circuit and principle of work thereof are prior art, are not described further herein.
See also Fig. 7, in the specific implementation, described first interrupteur SW 1 comprises the first wire jumper pin 101 and the first wire jumper block 104, second switch SW2 comprises the second wire jumper pin 102 and the second wire jumper block the 105, three interrupteur SW 3 comprises the 3rd wire jumper pin 103 and the 3rd wire jumper block 106.Wherein, described first wire jumper pin 101, second wire jumper pin 102 and the 3rd wire jumper pin 103 one-body molded, assemble time can reduce plug-in unit operation.
Further, the false battery first circuit board 107 of described mobile phone and second circuit board 108, described battery protecting circuit, anode P+, battery identification end ID, battery temperature feedback end TH and battery cathode P-are laid on described first circuit board 107.Described battery testing positive pole B+, battery testing identification end ID1, battery testing temperature feedback end TH1 and battery testing negative pole beta-position, on described second circuit board 108, described second circuit board 108 are also provided with 6 tie points for being electrically connected described first wire jumper pin 101, second wire jumper pin 102 and the 3rd wire jumper pin 103.
Wherein, described anode P+ is connected with battery testing positive pole B+, described battery temperature feedback end TH connects the first tie point 1, battery testing temperature feedback end TH1 connects the second tie point 2, battery identification end ID connects the 3rd tie point 3, battery testing identification end ID1 connects the 4th tie point 4, battery cathode P-connection the 5th tie point 5, battery testing negative pole B-connects the 6th tie point 6.
As shown in Figure 7, the tie point that each wire jumper pin is connected with second circuit board 108 is two, battery identification end ID on first circuit board 107, battery temperature feedback end TH and battery cathode P-, and the battery testing identification end ID1 on second circuit board 108, when battery testing temperature feedback end TH1 and battery testing negative pole B-are connected with these three wire jumpers respectively, only need be connected for a tie point of answering with each wire jumper, as long as by covering and the state of extracting of wire jumper block, between energy corresponding control battery identification end ID and battery testing identification end ID1, break-make between battery temperature feedback end TH and battery testing temperature feedback end TH1 and between battery cathode P-and battery testing negative pole B-.
Based on the false battery of above-mentioned mobile phone, the embodiment of the present invention is also corresponding provides a kind of mobile telephone power consumption test macro, and refer to Fig. 8, it comprises: false battery 201, direct supply 202 and reometer 203.Described false battery 201 is installed in described mobile phone 204, the positive pole 7 of described direct supply 202 is connected with the battery testing positive pole B+ of false battery 201, the negative pole 8 of direct supply 202 connects the negative pole 9 of reometer 203, and the battery testing negative pole B-of described false battery 201 connects the positive pole 10 of described reometer 203; Described first interrupteur SW 1, second switch SW2 and the 3rd interrupteur SW 3 all disconnect, and battery protecting circuit 10 is accessed in test macro.Because the false battery 201 of the present embodiment has been described in detail above, repeated no more herein.
The embodiment of the present invention is also corresponding provides a kind of mobile phone charging-discharge tester system, and refer to Fig. 9, it comprises false battery 301, voltage table 302, reometer 303, battery case 304 and battery 305, and described battery 305 is installed in battery case 304.As shown in Figure 10, described battery anode BAT+, temperature detection end TH2, identification end ID2, battery cathode BAT-and 2 fixing pins PAD1, PAD2, described battery case 304 has four wiring points.When battery 305 loads after in battery case 304, the anode BAT+ of described battery 305 connects the positive pole TP1 of battery case 304, the temperature detection end TH2 of battery 305 connects the negative pole TP2 of battery case 304, the identification end ID2 of battery 305 connects the 3rd wiring point TP3 of battery case 304, battery cathode BAT-and 2 fixing pin PAD1, PAD2 of battery 305, and the equal ground connection of the 4th wiring point TP4 of battery case 304.
Please continue to refer to Fig. 9, when carrying out charge-discharge test, load in mobile phone 306 by false battery 301, the positive pole 11 of described voltage table 302 connects the positive pole TP1 of the battery case 304 and battery testing positive pole B+ of false battery 301, and its negative pole 12 connects the 4th wiring point TP4 of battery case 304; The negative pole TP2 of described battery case 304 connects the battery testing temperature feedback end TH1 of false battery 301, and its 3rd wiring point TP3 connects the battery testing identification end ID1 of false battery 301; The negative pole 13 of described reometer 303 connects the 4th wiring point TP4 of battery case 304, and positive pole 14 connects the battery testing negative pole B-of false battery 301; Described first switch, second switch and the 3rd switch are all closed, make it not be connected with the protection circuit on false battery 301, and now false battery 301 is only as a kind of coupling arrangement connecting battery case 304.In other words, can be understood as herein and by 4 p-wires, battery 305 and handset port are coupled together, like this when doing charge-discharge test, mobile phone 306 makes to detect the data on the identification end ID2 of battery 305 and temperature feedback end TH2, thus reach the true effect of analog subscriber use, make the data recorded of experiment more genuine and believable.
In sum, the false battery of mobile phone provided by the invention and mobile telephone power consumption, charging-discharge tester system, false inside battery is provided with protection circuit plate, the anode described protection circuit plate being laid with battery protecting circuit and being connected with this battery protecting circuit, battery identification end, battery temperature feedback end, battery cathode, battery testing positive pole, battery testing identification end, battery testing temperature feedback end, battery testing negative pole, for controlling the first switch of the break-make between battery testing identification end and battery identification end, for controlling the second switch of the break-make between battery testing temperature feedback end and battery temperature feedback end and the 3rd switch for controlling the break-make between battery testing negative pole and battery cathode, described battery testing identification end connects described battery identification end by the first switch, and battery testing temperature feedback end connects described battery temperature feedback end by second switch, and battery testing negative pole connects described battery cathode by the 3rd switch.Battery protecting circuit, by carrying out mobile telephone power consumption test when described first switch, second switch and the 3rd switch all disconnect, accesses in test macro, battery protecting circuit is played a role, thus can carry out normal mobile telephone power consumption test by the present invention; Charge-discharge test is carried out when the first switch, second switch and the 3rd switch are all closed; battery protecting circuit is made not access test macro; make mobile phone battery identification end and the battery temperature feedback end of battery can be detected; reach the true effect that analog subscriber uses; thus make the data that record more accurately credible, improve the performance of false battery.
Be understandable that, for those of ordinary skills, can be equal to according to technical scheme of the present invention and inventive concept thereof and replace or change, and all these change or replace the protection domain that all should belong to the claim appended by the present invention.
Claims (9)
1. the false battery of mobile phone, it is characterized in that, at the anode that false inside battery is provided with battery protecting circuit and is connected with this battery protecting circuit, battery identification end, battery temperature feedback end, battery cathode, battery testing positive pole, battery testing identification end, battery testing temperature feedback end, battery testing negative pole, for controlling the first switch of the break-make between battery testing identification end and battery identification end, for controlling the second switch of the break-make between battery testing temperature feedback end and battery temperature feedback end and the 3rd switch for controlling the break-make between battery testing negative pole and battery cathode, described battery testing identification end connects described battery identification end by the first switch, and battery testing temperature feedback end connects described battery temperature feedback end by second switch, and battery testing negative pole connects described battery cathode by the 3rd switch, connect corresponding testing tool when battery testing positive pole, battery testing identification end, battery testing temperature feedback end, battery testing negative pole are for testing, this testing tool comprises direct supply, reometer and voltage table, first switch, second switch and the 3rd switch are selected to disconnect or close according to different testing experiments, when the first switch, second switch and the 3rd switch all disconnect, battery protecting circuit is made to access in test macro, first switch, second switch and the 3rd switch are all closed, and false battery is not connected with the protection circuit on false battery, and now false battery is only as a kind of coupling arrangement connecting battery case.
2. the false battery of mobile phone according to claim 1, it is characterized in that, also comprise false battery case, described anode, battery identification end, battery temperature feedback end, battery cathode, battery testing positive pole, battery testing identification end, battery testing temperature feedback end, battery testing negative pole, the first switch, second switch and the 3rd switch are positioned on described false battery case.
3. the false battery of mobile phone according to claim 1, is characterized in that, described first switch comprises the first wire jumper pin and the first wire jumper block, and second switch comprises the second wire jumper pin and the second wire jumper block, and the 3rd switch comprises the 3rd wire jumper pin and the 3rd wire jumper block.
4. the false battery of mobile phone according to claim 3, it is characterized in that, described first wire jumper pin, the second wire jumper pin and the 3rd wire jumper pin are one-body molded.
5. the false battery of mobile phone according to claim 3, it is characterized in that, the false battery first circuit board of mobile phone and second circuit board, described battery protecting circuit, anode, battery identification end, battery temperature feedback end and battery cathode are laid on described first circuit board, described battery testing positive pole, battery testing identification end, battery testing temperature feedback end and battery testing negative pole are positioned on described second circuit board, described second circuit board is also provided with for being electrically connected described first wire jumper pin, 6 tie points of the second wire jumper pin and the 3rd wire jumper pin, described anode is connected with battery testing positive pole, described battery temperature feedback end connects the first tie point, battery testing temperature feedback end connects the second tie point, battery identification end connects the 3rd tie point, battery testing identification end connects the 4th tie point, battery cathode connects the 5th tie point, battery testing negative pole connects the 6th tie point.
6. a mobile telephone power consumption test macro, it is characterized in that, comprise direct supply, reometer and false battery as claimed in claim 1, described false mounting batteries is in described mobile phone, the positive pole of described direct supply is connected with the battery testing positive pole of false battery, negative pole connects the negative pole of reometer, and the battery testing negative pole of described false battery connects the positive pole of described reometer; Described first switch, second switch and the 3rd switch all disconnect, and battery protecting circuit is accessed in test macro.
7. mobile telephone power consumption test macro according to claim 6, it is characterized in that, described first switch comprises the first wire jumper pin and the first wire jumper block, and second switch comprises the second wire jumper pin and the second wire jumper block, and the 3rd switch comprises the 3rd wire jumper pin and the 3rd wire jumper block.
8. mobile telephone power consumption test macro according to claim 7, is characterized in that, described first wire jumper pin, the second wire jumper pin and the 3rd wire jumper pin are one-body molded.
9. a mobile phone charging-discharge tester system, is characterized in that, comprises voltage table, reometer, battery case, battery and false battery as claimed in claim 5; Described mounting batteries is in battery case, and the positive pole of described voltage table connects the positive pole of battery case and the battery testing positive pole of false battery, and its negative pole connects the 4th wiring point of battery case; The negative pole of described battery case connects the battery testing temperature feedback end of false battery, and its 3rd wiring point connects the battery testing identification end of false battery; The negative pole of described reometer connects the 4th wiring point of battery case, and positive pole connects the battery testing negative pole of false battery; Described first switch, second switch and the 3rd switch are all closed makes false battery not be connected with the protection circuit on false battery, and now false battery is only as a kind of coupling arrangement connecting battery case.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201210029886.3A CN102590666B (en) | 2012-02-10 | 2012-02-10 | False battery of mobile phone and mobile phone power consumption and charge/discharge testing system |
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| CN201210029886.3A CN102590666B (en) | 2012-02-10 | 2012-02-10 | False battery of mobile phone and mobile phone power consumption and charge/discharge testing system |
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| CN102590666A CN102590666A (en) | 2012-07-18 |
| CN102590666B true CN102590666B (en) | 2015-04-22 |
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| CN103401972B (en) * | 2013-07-02 | 2016-01-13 | Tcl通讯(宁波)有限公司 | Battery protecting plate and false battery |
| CN103487742B (en) * | 2013-10-09 | 2016-04-27 | 惠州市蓝微电子有限公司 | A kind of test circuit for single lithium battery protection board |
| CN105203957B (en) * | 2014-06-30 | 2019-03-19 | 展讯通信(上海)有限公司 | Battery testing method and system |
| CN104714184B (en) * | 2015-03-12 | 2017-11-10 | 惠州Tcl移动通信有限公司 | Battery ID and the detection means and method of battery temperature are detected by single pin |
| CN104767855B (en) * | 2015-04-02 | 2017-09-29 | 工业和信息化部电信研究院 | A kind of mobile telephone power consumption checking test and its detection method based on insulating box |
| CN107328991A (en) * | 2017-08-04 | 2017-11-07 | 福建升腾资讯有限公司 | A kind of power consumption test device of lithium battery power supply equipment |
| CN108594039A (en) * | 2018-04-13 | 2018-09-28 | 上海与德通讯技术有限公司 | A kind of charge-discharge testing device and method of mobile terminal |
| CN109599931A (en) * | 2018-11-23 | 2019-04-09 | 欣旺达电子股份有限公司 | General mobile phone vacation battery |
| CN109444805A (en) * | 2018-12-29 | 2019-03-08 | 国网河北省电力有限公司电力科学研究院 | Clock of power meter battery current supply circuit detection device, method and terminal device |
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2012
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Patent Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN201127100Y (en) * | 2007-12-13 | 2008-10-01 | 比亚迪股份有限公司 | Switching control tool for testing mobile phone |
| CN201464624U (en) * | 2009-07-28 | 2010-05-12 | 天津力神电池股份有限公司 | Electrical test universal device for non-standard PACK battery |
| CN201749176U (en) * | 2010-06-01 | 2011-02-16 | 奇瑞汽车股份有限公司 | Portable battery power consumption detecting device |
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| CN102590666A (en) | 2012-07-18 |
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