CN209419247U - A kind of lithium battery high temperature automatic protection plate - Google Patents

A kind of lithium battery high temperature automatic protection plate Download PDF

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Publication number
CN209419247U
CN209419247U CN201822007052.8U CN201822007052U CN209419247U CN 209419247 U CN209419247 U CN 209419247U CN 201822007052 U CN201822007052 U CN 201822007052U CN 209419247 U CN209419247 U CN 209419247U
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China
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module
power storage
power
charge
storage module
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CN201822007052.8U
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白俊武
项佰川
熊杰
尹振坤
王兴庆
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Shenzhen Yuanyuan Intelligent Lighting Co.,Ltd.
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SOCREAT ELECTRONICS TECHNOLOGY Ltd
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Abstract

The utility model discloses a kind of lithium battery high temperature automatic protection plate, and wherein lithium battery high temperature automatic protection plate includes power module, charge and discharge control module, temperature protection module, power storage module;Charge and discharge control module receives power storage module voltage signal, when voltage signal is located at first voltage range, powers on module while connecting power storage module to circuit load power supply and charges to power storage module;Voltage signal powers to circuit load less than the first protection voltage threshold, shutdown power storage module;When voltage signal is greater than the second protection voltage threshold, power cutoff module charges to power storage module;Temperature protection module detects power storage module Current Temperatures, when Current Temperatures are greater than preset temperature, issues cut-off signals to charge and discharge control module, charge and discharge control module turns off power storage module and powers to circuit load.Technical solutions of the utility model solve existing charge-discharge circuit and electronic equipment, and there are rechargeable battery overheats can not automatically power off the problems such as easily exploding.

Description

A kind of lithium battery high temperature automatic protection plate
Technical field
The utility model relates to charging technique field, in particular to a kind of lithium battery high temperature automatic protection plate.
Background technique
Existing electronic equipment such as rechargeable table lamp etc. has rechargeable battery, to rechargeable battery when the not enough power supply of rechargeable battery It can be used continuously corresponding electronic equipment after being charged, electronic equipment is typically provided with the protection circuit to rechargeable battery, protects The voltage correspondence of protection circuit identification rechargeable battery makes protection plan.There are rechargeable batteries for existing charge-discharge circuit and electronic equipment Overheat can not automatically power off the problems such as easily exploding.
Utility model content
The main purpose of the utility model is to provide a kind of lithium battery high temperature automatic protection plate, it is intended to solve existing charge and discharge There are rechargeable battery overheats can not automatically power off the problems such as easily exploding for circuit and electronic equipment.
To achieve the above object, the utility model proposes lithium battery high temperature automatic protection plate, including power module, charge and discharge Electric control module, temperature protection module, power storage module;The first input end and the power module of the charge and discharge control module Connection, the second input terminal are connect with the power storage module, and the first output end of the charge and discharge control module and circuit load connect It connects, second output terminal is connect with the power storage module, the controlled end of the charge and discharge control module and the temperature protection module Connection;
The charge and discharge control module is located at for receiving the voltage signal of the power storage module in the voltage signal When first voltage range, module is powered on while connecting power storage module to circuit load power supply and is charged to power storage module;? The voltage signal turns off the power storage module and powers to circuit load less than the first protection voltage threshold;Believe in the voltage Number be greater than second protection voltage threshold when, turn off power storage module described in the electric power source pair of module charging;
The temperature protection module, for detecting the Current Temperatures of the power storage module, when the Current Temperatures are greater than in advance If when temperature, Xiang Suoshu charge and discharge control module issues cut-off signals, and the charge and discharge control module is according to the cut-off signals The power storage module is turned off to power to the circuit load.
Preferably, the charge and discharge control module includes charge and discharge control chip U1 and semiconductor power device Q1;It is described Charge and discharge control chip U1 has discharge control terminal OD, charge control end OC, over-current detection end CS, power end VDD and ground terminal The end VSS, the semiconductor power device Q1 include connected the first field-effect tube MOS1 and the second field-effect tube MOS2 of drain electrode;Institute It states power end VDD to connect with the anode of the power storage module, the ground terminal VSS is connect with the cathode of the power storage module, institute The source S 1 for stating the first field-effect tube MOS1 is connect with the cathode of the power storage module, the grid of the first field-effect tube MOS1 G1 is connect with the discharge control terminal OD, and the source S 2 of the second field-effect tube MOS2 is connect to the cathode with load, institute The grid G 2 for stating the second field-effect tube MOS2 is connect with the charge control end OC.
Preferably, the semiconductor power device Q1 is equipped at least two groups, and power device Q1 described in every group is corresponding described Grid G 1 is connected setting, and the corresponding source S 1 of power device Q1 described in every group is connected setting;Function described in every group The corresponding grid G 2 of rate device Q1 is connected setting, and the corresponding source S 2 of power device Q1 described in every group is connected Connect setting.
Preferably, the temperature protection module includes thermistor R1, the first end and electric power storage mould of the thermistor R1 The anode connection of block, second end are connect with the source S 2.
Preferably, the temperature protection module further include protective resistance R2 and divider resistance R3, the protective resistance R2 and The divider resistance R3 connects with the thermistor R1.
Preferably, the thermistor R1 is NTC type.
Preferably, the charge and discharge control module further includes reset switch K1, one end of the reset switch K1 with it is described The over-current detection end CS connection other end is connect with the power storage module cathode.
Preferably, the power module includes charger and the anode and charger of diode D1, the diode D1 Anode connection, the cathode of the diode D1 are connect with the anode of the power storage module.
Preferably, filter capacitor C1, the power end VDD are equipped between the power end VDD and the end the ground terminal VSS Current-limiting resistance R4 is also in series between the anode of power storage module.
Technical solutions of the utility model pass through setting control power module, charge and discharge control module, temperature protection module, storage Electric module forms a kind of lithium battery high temperature automatic protection plate.The temperature protection module, for detecting the power storage module Current Temperatures, when the Current Temperatures are greater than preset temperature, Xiang Suoshu charge and discharge control module issues cut-off signals, described to fill Control of discharge module turns off the power storage module according to the cut-off signals and powers to the circuit load, solves existing fill There are rechargeable battery overheats can not automatically power off the problems such as easily exploding for discharge circuit and electronic equipment.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, the structure that can also be shown according to these attached drawings obtains other attached drawings.
Fig. 1 is the functional block diagram of one embodiment of the utility model lithium battery high temperature automatic protection plate;
Fig. 2 is the electrical block diagram of one embodiment of the utility model lithium battery high temperature automatic protection plate;
Fig. 3 is the circuit theory schematic diagram of charge and discharge control chip U1 described in the present embodiment;
Fig. 4 is the electrical block diagram of semiconductor power device Q1 described in the present embodiment.
Drawing reference numeral explanation:
Label Title Label Title
100 Power module 101 Charger
D1 Diode 200 Charge and discharge control module
U1 Charge and discharge control chip OD Discharge control terminal
OC Charge control end CS Over-current detection end
VDD Power end Q1 Semiconductor power device
MOS1 First field-effect tube MOS2 Second effect pipe
S1-S2 Field-effect tube source electrode G1-G2 Fet gate
300 Temperature protection module R1 Thermistor
R2 Protective resistance R3 Divider resistance
R4 Current-limiting resistance C1 Filter capacitor
K1 Reset switch 400 Power storage module
The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Under every other embodiment obtained, fall within the protection scope of the utility model.
It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute in the utility model embodiment It is only used for explaining in relative positional relationship, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, such as When the fruit particular pose changes, then directionality instruction also correspondingly changes correspondingly.
In addition, the description for being related to " first ", " second " etc. in the present invention is used for description purposes only, and cannot understand For its relative importance of indication or suggestion or implicitly indicate the quantity of indicated technical characteristic.Define as a result, " first ", The feature of " second " can explicitly or implicitly include at least one of the features.In addition, the technical side between each embodiment Case can be combined with each other, but must be based on can be realized by those of ordinary skill in the art, when the combination of technical solution Occur it is conflicting or when cannot achieve should people think that the combination of this technical solution is not present, also do not wanted in the utility model Within the protection scope asked.
The utility model proposes a kind of lithium battery high temperature automatic protection plates.
Referring to Fig.1, in the utility model embodiment, which includes power module 100, fills Control of discharge module 200, temperature protection module 300, power storage module 400;The first input end of the charge and discharge control module 200 It is connect with the power module 100, the second input terminal is connect with the power storage module 400, the charge and discharge control module 200 First output end is connect with circuit load, and second output terminal is connect with the power storage module 400, the charge and discharge control module 200 controlled end is connect with the temperature protection module 300;The charge and discharge control module 200, for receiving the electric power storage mould It is negative to circuit to connect the power storage module 400 when the voltage signal is located at first voltage range for the voltage signal of block 400 Power on module 100 while carrying power supply to charge to power storage module 400;In the voltage signal less than the first protection voltage threshold Value turns off the power storage module 400 and powers to circuit load;When the voltage signal is greater than the second protection voltage threshold, close The power module 100 that breaks charges to the power storage module 400;The temperature protection module 300, for detecting the electric power storage mould The Current Temperatures of block 400, when the Current Temperatures are greater than preset temperature, Xiang Suoshu charge and discharge control module 200 issues shutdown Signal, the charge and discharge control module 200 turn off the power storage module 400 according to the cut-off signals and supply the circuit load Electricity.
It should be noted that the first protection voltage threshold is the voltage of 400 over-discharge of power storage module, it is possible to understand that It is the critical value of over-discharge voltage for the first protection voltage threshold, the second protection voltage threshold is that power storage module 400 is excessively filled The critical value of voltage when electric, make complete machine work normally voltage be first protection voltage threshold with second protection voltage threshold it Between.The power module 100 can be adopted for charger 101 or rectification circuit, the charge and discharge control module 200 With by being installed with Preservation tactics battery management chip and support circuit realize, the battery management chip can be FM2113 Chip, the internal circuit diagram of the FM2113 chip is as shown in figure 3, the model of the battery management chip is not limited only to certainly FM2113, specific chip can according to actual needs and the matching of existing chip parameter is selected, because of the battery management chip Selecting is the prior art, is just only repeated herein.The temperature protection module 300 can be temperature sensor, thermistor etc. Other convert temperature signal to the electronic component and support circuit of electric signal, and the selection of the temperature sensor model is existing There is technology, i will not repeat them here, and the temperature that the temperature protection module 300 detects power storage module 400 is higher than the default temperature When spending, the corresponding cut-off signals are issued, the cut-off signals can be the change of 300 output voltage of temperature protection module Change;The power storage module 400 can may be lead storage battery etc. for lithium battery.
Technical solutions of the utility model pass through setting power module 100, charge and discharge control module 200, temperature protection module 300, power storage module 400 form a kind of lithium battery high temperature automatic protection plate.The temperature protection module 300, for detecting The Current Temperatures for stating power storage module 400, when the Current Temperatures are greater than preset temperature, Xiang Suoshu charge and discharge control module 200 Cut-off signals are issued, the charge and discharge control module 200 turns off the power storage module 400 to the electricity according to the cut-off signals Road load supplying, solving existing charge-discharge circuit and electronic equipment, there are rechargeable battery overheats can not automatically power off easy generation The problems such as explosion.
Specifically, the charge and discharge control module 200 includes charge and discharge control chip U1 and semiconductor in the present embodiment Power device Q1, the charge and discharge control chip U1 can be FM2113 chip as shown in Figure 3, the semiconductor power device Q1 can be N-channel enhancement mode FET, and the schematic diagram of N-channel enhancement mode FET is as shown in Figure 4;The charge and discharge is automatically controlled Coremaking piece U1 has discharge control terminal OD, charge control end OC, over-current detection end CS, power end VDD and the end ground terminal VSS, institute Stating semiconductor power device Q1 includes connected the first field-effect tube MOS1 and the second field-effect tube MOS2 of drain electrode;The power end VDD is connect with the anode of the power storage module 400, and the ground terminal VSS is connect with the cathode of the power storage module 400, described The source S 1 of first field-effect tube MOS1 is connect with the cathode of the power storage module 400, the grid of the first field-effect tube MOS1 Pole G1 is connect with the discharge control terminal OD, and the source S 2 of the second field-effect tube MOS2 is connect to the cathode with load, The grid G 2 of the second field-effect tube MOS2 is connect with the charge control end OC.
The power end VDD of charge and discharge control chip U1 acquires 400 voltage of power storage module in real time, under normal operating conditions, stores Electric 400 voltage of module detects voltage, that is, described first in over-discharge and protects voltage threshold i.e. described more than and less than detection voltage is overcharged When the second protection voltage threshold, OC and the discharge control terminal OD are output high level, at this time the first field-effect tube MOS1 and Second field-effect tube MOS2 is simultaneously turned on, and charge and discharge at this time can be normally carried out.When electric discharge, 400 voltage of power storage module is reduced To more than over-discharge detection voltage, that is, described first protection voltage threshold, the discharge control terminal OD output of charge and discharge control chip U1 by High level becomes low level, and the first field-effect tube MOS1 (electric discharge MOS) is closed, and stops electric discharge;Connect charger 101, electric power storage mould 400 voltage of block rises, greater than over-discharge voltage hereinafter, the discharge control terminal OD output of charge and discharge control chip U1 is become from low level High level restores normal operating conditions.When charging, cell voltage overcharges the i.e. described second protection voltage threshold of protection voltage More than, the charge control end OC of charge and discharge control chip U1, which is exported from high level, becomes low level, and the second field-effect tube MOS2 (fills Electric MOS) it closes, stop charging, connect load, cell voltage, which is pulled low, overcharges the i.e. described second protection voltage threshold of protection voltage Hereinafter, the charge control end OC output of charge and discharge control chip U1 becomes high level from low level, restore normal operating conditions.
Specifically, it please refers to shown in Fig. 2, the semiconductor power device Q1 is equipped at least two groups, power device described in every group The corresponding grid G 1 of part Q1 is connected setting, and the corresponding source S 1 of power device Q1 described in every group, which is connected, to be set It sets;The corresponding grid G 2 of power device Q1 described in every group is connected setting, the corresponding institute of power device Q1 described in every group Source S 2 is stated to be connected setting.The semiconductor power device Q1, which is equipped with to share at least two groups, flows through each function The electric current of rate device Q1, and when semiconductor power device Q1 is burnt wherein, other semiconductor power device Q1 appoint can be with It realizes the protection for realizing charge and discharge to this circuit, and then increases the safety of this circuit.
Specifically, in the present embodiment as shown in Fig. 2, the temperature protection module 300 includes thermistor R1, the heat The first end of quick resistance R1 is connect with the anode of power storage module 400, and second end is connect with the source S 2.The thermistor can Think that NTC type can also be PTC type, in the present embodiment using lower-cost NTC type thermistor.
When electric discharge, when NTC type thermistor R1 detects temperature of current 400 temperature of power storage module more than protection, resistance value subtracts It is small, over-current detection end CS can be more than protection voltage value, at this point, charge and discharge control chip U1 the discharge control terminal OD output by High level becomes low level, and the first field-effect tube MOS1 (electric discharge MOS) is closed, and stops electric discharge;When charging, over-current detection end CS electricity Pressure is negative, if NTC type thermistor R1 detection current battery temperature is more than the temperature of protection, the over-current detection end end CS voltage Protection voltage value can be less than, at this point, the discharge control terminal OD of charge and discharge control chip U1, which is exported from high level, becomes low electricity Flat, the first field-effect tube MOS1 (electric discharge MOS) is closed, and stops electric discharge;NTC type thermistor R1 detects 400 temperature of power storage module Degree reduces, and when being lower than recovery temperature value, the discharge control terminal OD output of charge and discharge control chip U1 becomes high from low level Level, the first field-effect tube MOS1 (electric discharge MOS) are opened, and restore normal operating conditions.
Further referring to Fig. 2, the temperature protection module 300 further includes protective resistance R2 in the present embodiment, and point Piezoresistance R3, the protective resistance R2 and the divider resistance R3 connect with the thermistor R1.The protective resistance R2 Setting avoid thermistor R1 because temperature change resistance value reduction cause flow test side CS input current it is excessive caused by charge and discharge Control the damage of chip U1.
Specifically, in the present embodiment, as shown in Fig. 2, the charge and discharge control module 200 further includes reset switch K1, One end of the reset switch K1 connect the other end with the over-current detection end CS and connect with 400 cathode of power storage module.Make If used time NTC type thermistor detect battery temperature reduction, be lower than recovery temperature value when, closure K1 by battery cathode with fill 101 cathode of electric appliance is shorted, so that the end CS voltage is restored to higher than overdischarge release voltage (VDR), then the charge and discharge control core The discharge control terminal OD output of piece U1 becomes high level from low level, and the first field-effect tube MOS1 (electric discharge MOS) is opened, extensive Multiple normal operating conditions.The reset switch K1 is avoided when battery temperature is reduced to recovery temperature value or less and can not be opened again Generation, and then improve this product user experience.
In the present embodiment, as shown in Fig. 2, the power module 100 includes charger 101 and diode D1, described two The anode of pole pipe D1 is connect with the anode of charger 101, and the anode of the cathode of the diode D1 and the power storage module 400 is even It connects, the setting of the diode D1, which avoids battery, leads to burning for charger 101 to the reversely charging of charger 101.
Specifically, as shown in Fig. 2, being equipped with filter capacitor C1, institute between the power end VDD and the end the ground terminal VSS It states and is also in series with current-limiting resistance R4 between power end VDD and the anode of power storage module 400.Power module 100 is through the current limliting electricity Hinder shunt regulator, then filter out interference via filter capacitor C1 so that entirely loop stability and work normally, and then improve this electricity The stability on road.
The lithium battery high temperature automatic protection plate of the utility model can be used for electronic equipment, which includes above-mentioned lithium electricity Pond high temperature automatic protection plate, the specific structure of the lithium battery high temperature automatic protection plate is referring to above-described embodiment, since this electronics is set The standby whole technical solutions for using above-mentioned all embodiments, therefore at least brought by the technical solution with above-described embodiment All beneficial effects, this is no longer going to repeat them.
The electronic equipment can be the electronic equipment that desk lamp capable of charging etc. has charge function.
The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model, Under all utility models in the utility model are conceived, equivalent structure made based on the specification and figures of the utility model Transformation, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (9)

1. a kind of lithium battery high temperature automatic protection plate, which is characterized in that including power module (100), charge and discharge control module (200), temperature protection module (300), power storage module (400);The first input end of the charge and discharge control module (200) and institute Power module (100) connection is stated, the second input terminal is connect with the power storage module (400), the charge and discharge control module (200) The first output end connect with circuit load, second output terminal is connect with the power storage module (400), the charge and discharge control mould The controlled end of block (200) is connect with the temperature protection module (300);
The charge and discharge control module (200) is believed for receiving the voltage signal of the power storage module (400) in the voltage Number be located at first voltage range when, connect power storage module (400) to circuit load power while power on module (100) to Power storage module (400) charging;In the voltage signal less than the first protection voltage threshold, it is right to turn off the power storage module (400) Circuit load power supply;When the voltage signal is greater than the second protection voltage threshold, the power module (100) is turned off to described Power storage module (400) charging;
The temperature protection module (300), for detecting the Current Temperatures of the power storage module (400), when the Current Temperatures When greater than preset temperature, Xiang Suoshu charge and discharge control module (200) issues cut-off signals, the charge and discharge control module (200) The power storage module (400) is turned off according to the cut-off signals to power to the circuit load.
2. lithium battery high temperature automatic protection plate as described in claim 1, which is characterized in that the charge and discharge control module It (200) include charge and discharge control chip U1 and semiconductor power device Q1;The charge and discharge control chip U1 has control of discharge Hold OD, charge control end OC, over-current detection end CS, power end VDD and the end ground terminal VSS, the semiconductor power device Q1 packet Include drain electrode connected the first field-effect tube MOS1 and the second field-effect tube MOS2;The power end VDD and the power storage module (400) anode connection, the ground terminal VSS are connect with the cathode of the power storage module (400), first field-effect tube The source S 1 of MOS1 is connect with the cathode of the power storage module (400), the grid G 1 of the first field-effect tube MOS1 with it is described The source S 2 of discharge control terminal OD connection, the second field-effect tube MOS2 is connect to the cathode with load, and described second The grid G 2 of effect pipe MOS2 is connect with the charge control end OC.
3. lithium battery high temperature automatic protection plate as claimed in claim 2, which is characterized in that the semiconductor power device Q1 is set There are at least two groups, the corresponding grid G 1 of power device Q1 described in every group is connected setting, power device Q1 described in every group The corresponding source S 1 is connected setting;The corresponding grid G 2 of power device Q1 described in every group is connected setting, The corresponding source S 2 of power device Q1 described in every group is connected setting.
4. lithium battery high temperature automatic protection plate as claimed in claim 2, which is characterized in that the temperature protection module (300) Including thermistor R1, the first end of the thermistor R1 and the anode of power storage module are connected, second end and the source S 2 Connection.
5. lithium battery high temperature automatic protection plate as claimed in claim 4, which is characterized in that the temperature protection module further includes Protective resistance R2 and divider resistance R3, the protective resistance R2 and the divider resistance R3 connect with the thermistor R1.
6. lithium battery high temperature automatic protection plate as claimed in claim 4, which is characterized in that the thermistor R1 is NTC type.
7. lithium battery high temperature automatic protection plate as claimed in claim 2, which is characterized in that the charge and discharge control module (200) further include reset switch K1, one end of the reset switch K1 connect with the over-current detection end CS other end with it is described The connection of power storage module (400) cathode.
8. lithium battery high temperature automatic protection plate as described in claim 1, which is characterized in that the power module (100) includes The anode of charger (101) and diode D1, the diode D1 are connect with the anode of charger (101), the diode D1 The anode of cathode and the power storage module (400) connect.
9. lithium battery high temperature automatic protection plate as claimed in claim 2, which is characterized in that the power end VDD and described connect It is limited equipped with also connecting between filter capacitor C1, the power end VDD and the anode of power storage module (400) between the end ground terminal VSS Leakage resistance R4.
CN201822007052.8U 2018-11-30 2018-11-30 A kind of lithium battery high temperature automatic protection plate Active CN209419247U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109391010A (en) * 2018-11-30 2019-02-26 深圳源创智能照明有限公司 A kind of lithium battery high temperature automatic protection plate

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109391010A (en) * 2018-11-30 2019-02-26 深圳源创智能照明有限公司 A kind of lithium battery high temperature automatic protection plate

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Effective date of registration: 20210219

Address after: 518000 Wutong street, Baoan District, Shenzhen, Guangdong, China. The 5 floor of 13A building, Taihua Indus Industrial Park

Patentee after: Shenzhen Yuanyuan Intelligent Lighting Co.,Ltd.

Address before: 518000 13A, 6-7F, Taihua Wutong Industrial Park, Baoan District Xixiang street, Shenzhen, Guangdong

Patentee before: SOCREAT ELECTRONICS TECHNOLOGY Ltd.