CN201805252U - Intelligent charger - Google Patents

Abstract

The utility model relates to an intelligent charger, which comprises an upper cover and a lower cover. The lower cover and the upper cover match with each other correspondingly to form a charger casing, a positioning block is convexly arranged at one end of the lower cover, a charging circuit board used for charging is disposed in the charger casing, a plug groove is formed in the lower cover corresponding to an inner cavity of the positioning block, a charging plug is connected with the charging circuit board through a charging input wire, a power output end of the charging circuit board is connected with a power outlet wire, an output wire outlet and an input wire inlet are disposed at one end of the charger casing, an input wire positioning groove is concavely arranged between an input wire outlet and the plug groove, a power input wire can be embedded in the input wire positioning groove, an output wire clamp groove is disposed on the upper cover, an input wire clamp groove is arranged on the outer peripheral surface of the lower cover, the power input wire, corresponding to the other end connected with the charging circuit board, is wound on the lower cover along the input wire clamp groove, and after the power input wire penetrates through the input wire positioning groove, the charging plug is embedded in the plug groove. The intelligent charger is compact in structure, convenient in use, fine in radiating effect, safe and reliable.

Description

Intelligent charger

Technical field

The utility model relates to a kind of charging device, and especially a kind of intelligent charger specifically a kind ofly can be the charger of charge in batteries, belongs to the technical field of charger.

Background technology

Along with the day of petroleum resources is becoming tight and the enhancing of people's environmental consciousness, more and more equipments adopts storage battery as the energy.And each storage battery all need be equipped with corresponding charger, and the charging process of storage battery is to having the greatest impact in useful life of storage battery.Charger is of a great variety in the market, and structure is single.The shell of described charger adopts ABS(alkene nitrile-Styrene-Butadiene more, Acrylonitrile Butadiene Styrene), PC(Merlon Polycarbonate) etc. plastics make, flame retardant rating is poor, it is inflammable that charger case is heated; The heat dispersion of charger case is poor, has shortened the useful life of respective electronic components and parts in the charger case; Charger is bulky, and structure is single, effective water proof and dust proof, and use occasion is single, and it is convenient inadequately to carry.Charger does not match to the parameter of charge in batteries, does not overcharge, and owes exactly to fill; Can not compensate charging to storage battery according to variation of ambient temperature; Battery tension can not keep balance, can change along with the variation of electric current; Charging method is simple, can not effectively protect battery, and can not charge for a long time to storage battery, and reliability is low.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, and a kind of intelligent charger is provided, and its compact conformation is easy to use, and charging performance is good, and good heat dissipation effect is safe and reliable.

According to the technical scheme that the utility model provides, described intelligent charger, comprise loam cake and with the lower cover of the corresponding cooperation of described loam cake, described lower cover and loam cake corresponding matching formation charger housing; One end of described lower cover convexes with locating piece, and described locating piece is positioned at the charger housing; Be provided with the charging circuit plate that is used to charge in the described charger housing, described charging circuit plate utilizes locating piece closely to contact mutually with the inwall of loam cake; Inner chamber corresponding to locating piece in the lower cover forms plug slot, and described plug slot allows charging plug to set; Described charging plug links to each other with the power input of charging circuit plate by the charging incoming line, and the power output end of described charging circuit plate links to each other with power supply output line; One end of described charger housing is provided with output line outlet and incoming line import; Be concaved with the incoming line location notch between described incoming line outlet and plug slot, described incoming line location notch allows power input line to set; The outer peripheral face of loam cake is provided with the output line draw-in groove that allows power supply output line to set; Power supply output line is wrapped in along the output line draw-in groove corresponding to the other end that links to each other with the charging circuit plate and covers, and penetrates in the corresponding crocodile clip draw-in groove in charger housing both sides; The outer peripheral face of lower cover is provided with the incoming line draw-in groove, and the shape of described incoming line draw-in groove and power input line matches; Power input line is wrapped in down along the incoming line draw-in groove corresponding to the other end that links to each other with the charging circuit plate and covers, and after passing the incoming line location notch, charging plug is embedded in the plug slot.

Described charger housing is provided with the output line bayonet socket corresponding to the end that the output line outlet is set, and an end of described output line bayonet socket is positioned at the joint portion of loam cake and lower cover, and fixes with loam cake and lower cover respectively; Power supply output line passes the output line bayonet socket corresponding to the other end that links to each other with the charging circuit plate.

The joint portion of described loam cake and lower cover is provided with sealing strip.Cover on described and be provided with the panel that is used to show the charging circuit board status, described panel is electrically connected with the charging circuit plate, and is fixed on and covers.Be provided with crocodile clip in the described crocodile clip draw-in groove, power supply output line is fixed in the crocodile clip draw-in groove by crocodile clip.

Be provided with magnet in the described charger housing, described magnet is positioned at the charger housing corresponding to the other end that the output line outlet is set.The outer peripheral face of described lower cover is coated with non-skid film.Described non-skid film forms by injection moulding TPE plastics encapsulate on the outer peripheral face of lower cover.

Described charging circuit plate comprises current rectifying and wave filtering circuit, and the input of described current rectifying and wave filtering circuit links to each other with power input line; The output of described current rectifying and wave filtering circuit links to each other with anti exciting converter, the output of described anti exciting converter links to each other with high-frequency isolation transformer, over-current detector and voltage detector respectively, described over-current detector links to each other with the input of protection control circuit with the output of voltage detector, described protection control circuit links to each other with the input of pwm control circuit, the input of described pwm control circuit also links to each other with first temperature sensor of light-coupled isolation module and detection inverse-excitation converting actuator temperature, and protection control circuit and pwm control circuit all are electrically connected with power input line; The output of pwm control circuit links to each other with anti exciting converter, is used to control the unlatching or the shutoff of anti exciting converter; The output of high-frequency isolation transformer links to each other with high-frequency rectification circuit, and an end of described high-frequency rectification circuit links to each other with power supply output line by shunt, and the other end links to each other with the input of voltage stabilizing/pressure limiting module; The two ends of described shunt link to each other with the input of electric current amplification module, the output of described electric current amplification module links to each other with controller, the output of described controller links to each other with current stabilization/current limliting module and voltage stabilizing/pressure limiting module respectively, and current stabilization/current limliting module and voltage stabilizing/pressure limiting module links to each other with pwm control circuit by the light-coupled isolation module; Described controller also links to each other with the output of second temperature sensor that is used for the testing environment temperature.Described controller comprises single-chip microcomputer.

Advantage of the present utility model: the corresponding cooperation with lower cover of loam cake forms the charger housing; The joint portion of loam cake and lower cover is provided with sealing strip, effective dustproof and waterproof, and reliability reaches IP65; Power input line can be wrapped in down by the incoming line draw-in groove and cover, and charging plug can be embedded in the plug slot; Power input line can be wrapped in by the incoming line draw-in groove and cover, and compact conformation is easy to carry; The operating state of charging circuit plate can show by panel, can show the charged state of storage battery.The charging circuit plate can be simultaneously to the temperature sampling of ambient temperature and anti exciting converter, and controller adopts suitable voltage to charge according to temperature; Charging circuit board can effectively be controlled overcurrent, undercurrent, overvoltage and the undervoltage condition in the charging process, can make the charging process of storage battery keep balance, avoid impact that charge in batteries is caused, prolong the useful life of the charger and the storage battery that is complementary, easy to use, safe and reliable.

Description of drawings

Fig. 1 is that the A-A of Fig. 2 is to view.

Fig. 2 is a structural representation of the present utility model.

Fig. 3 is the right view of Fig. 2.

Fig. 4 is the left view of Fig. 3.

Fig. 5 is the vertical view of Fig. 4.

Fig. 6 is the structural representation of the utility model charger housing.

Fig. 7 is the rearview of Fig. 6.

Fig. 8 is that the C-C of Fig. 7 is to view.

Fig. 9 is the upward view of Fig. 6.

Figure 10 is that the B-B of Fig. 7 is to view.

Figure 11 is the structured flowchart of the utility model charging circuit plate.

Embodiment

The utility model is described in further detail below in conjunction with concrete drawings and Examples.

As Fig. 1 ~ shown in Figure 11: the utility model comprises loam cake 1; panel 2; charging circuit plate 3; power supply output line 4; output line bayonet socket 5; sealing strip 6; power supply output line 7; charging plug 8; plug slot 9; lower cover 10; non-skid film 11; magnet 12; crocodile clip 13; crocodile clip draw-in groove 14; incoming line draw-in groove 15; output line draw-in groove 16; draw-in groove locating piece 17; current rectifying and wave filtering circuit 18; voltage detector 19; anti exciting converter 20; first temperature sensor 21; high-frequency isolation transformer 22; high-frequency rectification circuit 23; shunt 24; electric current amplification module 25; controller 26; second temperature sensor 27; voltage stabilizing/pressure limiting module 28; current stabilization/current limliting module 29; light-coupled isolation module 30; pwm control circuit 31; protection control circuit 32; over-current detector 33; output line outlet 34; locating piece 35; incoming line location notch 36 and incoming line import 37.

As Fig. 6 ~ shown in Figure 10: be the structural representation of the utility model charger housing.The charger housing comprises loam cake 1 and lower cover 10; Described lower cover 10 and loam cake 1 corresponding cooperation form the charger housing that seals.One end of lower cover 10 convexes with locating piece 35, and described locating piece 35 is positioned at the charger housing, the inwall of the contiguous loam cake 1 in the end of locating piece 35.In the locating piece 35 is cavity, forms plug slot 9, and the shape of the shape of described plug slot 9 and charging plug 8 matches, and charging plug 8 can be embedded in the plug slot 9.In order to guarantee the dustproof and waterproof performance of charger housing, be provided with sealing strip 6 in the joint portion of loam cake 1 and lower cover 10.

One end of charger housing is provided with output line outlet 34 and incoming line import 37, the intracavity inter-connection of described incoming line outlet 34 and incoming line import 37 and charger housing.Incoming line outlet 34 is positioned at the end of loam cake 1, and incoming line import 37 is positioned on the lower cover 10.For location to power supply output line 4, in output line outlet 34, be provided with output line bayonet socket 5, an end of described output line bayonet socket 5 is positioned at the joint portion of loam cake 1 and lower cover 10, and fixes with loam cake 1 and lower cover 10; Positioning port on the output line bayonet socket 5 is connected with incoming line outlet 34, and power supply output line 4 passes the 5 back outputs of output line bayonet socket.The outer peripheral face of loam cake 1 is provided with output line draw-in groove 16, and the shape of the shape of described output line draw-in groove 16 and power supply output line 4 is complementary, and power supply output line 4 can be wrapped on the outer peripheral face of loam cake 1 along output line draw-in groove 16.In order to guarantee effective location of power input line 7, draw-in groove locating piece 17 is set on the outer peripheral face of lower cover 10,17 of described draw-in groove locating pieces can form the incoming line draw-in groove 15 of power input line 7 location.Power input line 7 can be wrapped on the outer peripheral face of lower cover 10 along incoming line draw-in groove 15; Thereby be convenient for carrying.Lower cover 10 is provided with incoming line location notch 36 corresponding to the end that incoming line import 37 is set, and described incoming line location notch 36 is connected with plug slot 9.The shape of the shape of described incoming line location notch 36 and power input line 7 is complementary, power input line 7 can be embedded in the incoming line location notch 36, thereby in the time of in charging plug 8 is embedded in plug slot 9, guarantee effective location of power input line 7, easy to install.The both sides of charger housing center are provided with the crocodile clip draw-in groove 14 of symmetrical distribution, and described crocodile clip draw-in groove 14 is complementary with crocodile clip 13.For easy to use, on the outer peripheral face of lower cover 10, be coated with non-skid film 11, described non-skid film 11 is by twice injection moulding TPE(Thermoplastic Elastomer on the outer peripheral face of lower cover 10) formation of plastics encapsulate.

As Fig. 1 ~ shown in Figure 5: be the structural representation of the utility model charger when not charging.In order external power source to be converted to required voltage, electric current output, charging circuit plate 3 is installed in the charger housing, described charging circuit plate 3 is installed in the charger housing by locating piece 35; Locating piece 35 makes the inwall closely contact mutually of charging circuit plate 3 and loam cake 1, thereby charging circuit plate 3 is installed in 10 of loam cake 1 and lower covers.Loam cake 1 is provided with the panel 2 that shows charging circuit plate 3 operating states, and described panel 2 is electrically connected with charging circuit plate 3; The surface of panel 2 is bonded on the loam cake 1 by adhesive tape.The power input of charging circuit plate 3 links to each other with power input line 7, and power supply output line 7 is provided with charging plug 8 corresponding to the other end that links to each other with charging circuit plate 3, is used for and being connected of external power receptacle.The power output end of charging circuit plate 3 links to each other with power supply output line 4, and power supply output line 4 is used to export required direct current, can be charge in batteries.Power input line 7 penetrates incoming line import 37 corresponding to an end that links to each other with charging circuit plate 3, and is electrically connected with charging circuit plate 3; Power input line 7 is wrapped on the lower cover 10 along incoming line draw-in groove 15 corresponding to the other end that links to each other with charging circuit plate 3.After power input line 7 twined a segment distance, the end that links to each other with charging plug 8 was embedded in the incoming line location notch 36, and charging plug 8 is embedded in the plug slot 9; Thereby can take in power input line 7; When avoiding charger not use, power input line 7 is long, and that causes carries inconvenient and the electric wire winding.

Power supply output line 4 passes output line outlet 34 and utilizes output line bayonet socket 5 to position corresponding to the other end that links to each other with charging circuit plate 3.Power supply output line 4 is output as direct current, and power supply output line 4 comprises positive terminal and negative pole end; The positive terminal of power supply output line 4 and negative pole end are wrapped on the loam cake 1 along corresponding output line draw-in groove 16 on the loam cake 1 respectively, and the end of power supply output line 4 is embedded in respectively in the corresponding crocodile clip draw-in groove 14, and are electrically connected with crocodile clip 13 in the crocodile clip draw-in groove 14; Thereby convenience is connected with storage battery.For whole charger housing is fixed, in the charger housing, be provided with magnet 12, described magnet 12 is positioned at the charger housing corresponding to the other end that output line bayonet socket 5 is set, and described magnet 12 is three.Described charging plug 8 links to each other with the alternating current of 230V, power supply output line 4 output voltage 12V, and electric current is the direct current of 4A.

As shown in figure 11: be the structured flowchart of the utility model charging circuit plate 3.In order to carry out safe and reliable charging by storage battery, described charging circuit plate 3 comprises current rectifying and wave filtering circuit 18, protection control circuit 32 and PWM(pulse width modulation) control circuit 31; Described current rectifying and wave filtering circuit 18 links to each other with power input line 7; When charging plug 8 linked to each other with external power source, current rectifying and wave filtering circuit 18 can be direct current with the three-phase electricity rectification of outside.The interchange input of power input line 7 inputs also links to each other with protection control circuit 32 and pwm control circuit 31; when the alternating current of power input line 7 input is not required magnitude of voltage; the output signal of pwm control circuit 31 is not worked anti exciting converter 20, thereby stops storage battery being charged.The output of current rectifying and wave filtering circuit 18 links to each other with anti exciting converter 20, the output of described anti exciting converter 20 also links to each other with high-frequency isolation transformer 22, over-current detector 33 and voltage detector 19 respectively, whether described voltage detector 19 is used for detecting anti exciting converter 20 overvoltage or under-voltage situation, and whether the output that over-current detector 33 is used to detect anti exciting converter 20 exists the situation of overcurrent.Over-current detector 33 links to each other with protection control circuit 32 with the output of voltage detector 19, and described protection control circuit 32 links to each other with pwm control circuit 31; Pwm control circuit 31 also links to each other with first temperature sensor 21, and described first temperature sensor 21 is used to detect the temperature value of anti exciting converter 20, thereby can compensate charging to storage battery according to the temperature of anti exciting converter 20.When anti exciting converter 20 output exists overcurrent, overvoltage or when under-voltage; export corresponding signal by over-current detector 33, voltage detector 19 to protection control circuit 32; protection control circuit 32 is to pwm control circuit 31 output correspondent voltage or current signals; pwm control circuit 31 is according to the operating state of outside input control anti exciting converter 20; avoid when anti exciting converter 20 outputs are undesired, the infringement of charge in batteries.The input of high-frequency isolation transformer 22 links to each other with high-frequency rectification circuit 23, and described high-frequency rectification circuit 23 is exported correspondent voltage by power supply output line 4 to storage battery.One end of high-frequency rectification circuit 23 links to each other with power supply output line 4 by shunt 24, and the other end links to each other with the input of voltage stabilizing/pressure limiting 28.The two ends of shunt 24 are provided with electric current amplification module 25, described electric current amplification module 25 links to each other with the input of controller 26, the input of controller 26 also links to each other with second temperature sensor 27, described second temperature sensor 27 is used for the testing environment temperature, thereby, can compensate charging to storage battery according to ambient temperature.Controller 26 can be single-chip microcomputer, also can be other microprocessor.The output of controller 26 links to each other with the input of current stabilization/current limliting module 29 and voltage stabilizing/pressure limiting module 28 respectively, and described current stabilization/current limliting module 29 and voltage stabilizing/pressure limiting module 28 links to each other with pwm control circuit 31 by light-coupled isolation module 30.Controller 26 is according to the ambient temperature value of second temperature sensor, 27 samplings and the current value of electric current amplification module 25 outputs, constitute a feedback loop by current stabilization/current limliting module 29, voltage stabilizing/pressure limiting module 28 and light-coupled isolation 30 modules, guarantee safe and reliable to charge in batteries.The output of described controller 26 links to each other with panel 2, and controller 26 can show the charged state of charging circuit board 3 by panel 2.

As Fig. 1 ~ shown in Figure 11: during use, charging plug 8 goes out to shift out from plug slot 9, and links to each other with external power source; Crocodile clip 13 on the removal crocodile clip draw-in groove 14 links to each other the corresponding terminal of power supply output line 4 and storage battery, thereby charging circuit plate 3 is linked to each other with external power source, and power supply output line 4 links to each other with storage battery.Charging circuit plate 3 with outside 230V AC rectification and step-down after, output voltage 12V, the direct current of electric current 4A.The charging process of 3 pairs of storage batterys of charging circuit plate all can show by panel 2, and charging is visual good.Charging circuit plate 3 also can detect the overvoltage in the charging process, situation under-voltage or overcurrent, and the charging process of protection storage battery.Whole charger housing can link to each other with outside ferromagnetic object by magnet 12, and is easy for installation.After charging was finished, power supply output line 4 can be wrapped on the loam cake 1 by output line draw-in groove 16, and the two ends of power supply output line 4 are fixed in the crocodile clip draw-in groove 14 by crocodile clip 13.Power input line 7 is wrapped on the lower cover 10 by incoming line draw-in groove 15, and charging plug 8 can be embedded in the plug slot 9, forms an integral body, and is easy to carry.The charger housing adopts fire proofing to make, and flame retardant rating can reach V0, can use in multiple occasion such as family, automobile, yacht, is applicable to various batteries.

The utility model loam cake 1 and lower cover 10 corresponding cooperations form the charger housing; Loam cake 1 is provided with sealing strip 6 with the joint portion of lower cover 10, effective dustproof and waterproof, and reliability reaches IP65; Power input line 7 can be wrapped on the lower cover 10 by incoming line draw-in groove 15, and charging plug 8 can be embedded in the plug slot 9; Power supply output line 4 can be wrapped on the loam cake 1 by incoming line draw-in groove 16, and compact conformation is easy to carry; The operating state of charging circuit plate 3 can show by panel 2, can show the charged state of storage battery.Charging circuit plate 3 can be simultaneously to the temperature sampling of ambient temperature and anti exciting converter 20, and controller 26 adopts suitable voltage to charge according to temperature; Charging circuit board 3 can effectively be controlled overcurrent, undercurrent, overvoltage and the undervoltage condition in the charging process, can make the charging process of storage battery keep balance, avoid impact that charge in batteries is caused, prolong the useful life of the charger and the storage battery that is complementary, good heat dissipation effect, easy to use, safe and reliable.

Claims (10)

1. intelligent charger, comprise loam cake (1) and with the lower cover (10) of the corresponding cooperation of described loam cake (1), described lower cover (10) and loam cake (1) corresponding matching formation charger housing; It is characterized in that: an end of described lower cover (10) convexes with locating piece (35), and described locating piece (35) is positioned at the charger housing; Be provided with the charging circuit plate (3) that is used to charge in the described charger housing, described charging circuit plate (3) utilizes locating piece (35) closely to contact mutually with the inwall of loam cake (1); Inner chamber corresponding to locating piece (35) in the lower cover (10) forms plug slot (9), and described plug slot (9) allows charging plug (8) to set; Described charging plug (8) links to each other with the power input of charging circuit plate (3) by charging incoming line (7), and the power output end of described charging circuit plate (3) links to each other with power supply output line (4); One end of described charger housing is provided with output line outlet (34) and incoming line import (37); Be concaved with incoming line location notch (36) between described incoming line outlet (37) and plug slot (9), described incoming line location notch (36) allows power input line (7) to set; The outer peripheral face of loam cake (1) is provided with the output line draw-in groove (16) that allows power supply output line (4) to set; Power supply output line (4) is wrapped on the loam cake (1) along output line draw-in groove (16) corresponding to the other end that links to each other with charging circuit plate (3), and penetrates in the corresponding crocodile clip draw-in grooves in charger housing both sides (14); The outer peripheral face of lower cover (10) is provided with incoming line draw-in groove (16), and described incoming line draw-in groove (16) matches with the shape of power input line (7); Power input line (7) is wrapped on the lower cover (10) along incoming line draw-in groove (16) corresponding to the other end that links to each other with charging circuit plate (3), and after passing incoming line location notch (36), charging plug (8) is embedded in the plug slot (9).

2. intelligent charger according to claim 1, it is characterized in that: described charger housing is provided with output line bayonet socket (5) corresponding to the end that output line outlet (34) is set, one end of described output line bayonet socket (5) is positioned at the joint portion of loam cake (1) and lower cover (10), and fixes with loam cake (1) and lower cover (10) respectively; Power supply output line (4) passes output line bayonet socket (5) corresponding to the other end that links to each other with charging circuit plate (3).

3. intelligent charger according to claim 1 is characterized in that: described loam cake (1) is provided with sealing strip (6) with the joint portion of lower cover (10).

4. intelligent charger according to claim 1 is characterized in that: described loam cake (1) is provided with the panel (2) that is used to show charging circuit plate (3) state, and described panel (2) is electrically connected with charging circuit plate (3), and is fixed on the loam cake (1).

5. intelligent charger according to claim 1 is characterized in that: be provided with crocodile clip (13) in the described crocodile clip draw-in groove (14), power supply output line (4) is fixed in the crocodile clip draw-in groove (14) by crocodile clip (13).

6. intelligent charger according to claim 1 is characterized in that: be provided with magnet (12) in the described charger housing, described magnet (12) is positioned at the charger housing corresponding to the other end that output line outlet (38) is set.

7. intelligent charger according to claim 1 is characterized in that: the outer peripheral face of described lower cover (10) is coated with non-skid film (11).

8. intelligent charger according to claim 7 is characterized in that: described non-skid film (11) forms by injection moulding TPE plastics encapsulate on the outer peripheral face of lower cover (10).

9. intelligent charger according to claim 1 is characterized in that: described charging circuit plate (3) comprises current rectifying and wave filtering circuit (18), and the input of described current rectifying and wave filtering circuit (18) links to each other with power input line (7); The output of described current rectifying and wave filtering circuit (18) links to each other with anti exciting converter (20), the output of described anti exciting converter (20) respectively with high-frequency isolation transformer (22), over-current detector (33) and voltage detector (19) link to each other, described over-current detector (33) links to each other with the input of protection control circuit (32) with the output of voltage detector (19), described protection control circuit (32) links to each other with the input of pwm control circuit (31), the input of described pwm control circuit (31) also links to each other with first temperature sensor (21) of light-coupled isolation module (30) and detection anti exciting converter (20) temperature, and protection control circuit (32) all is electrically connected with power input line (7) with pwm control circuit (31); The output of pwm control circuit (31) links to each other with anti exciting converter (20), is used to control the unlatching or the shutoff of anti exciting converter (20); The output of high-frequency isolation transformer (22) links to each other with high-frequency rectification circuit (23), one end of described high-frequency rectification circuit (23) links to each other with power supply output line (4) by shunt (24), and the other end links to each other with the input of voltage stabilizing/pressure limiting module (28); The two ends of described shunt (24) link to each other with the input of electric current amplification module (25), the output of described electric current amplification module (25) links to each other with controller (26), the output of described controller (26) links to each other with current stabilization/current limliting module (29) and voltage stabilizing/pressure limiting module (28) respectively, and current stabilization/current limliting module (29) and voltage stabilizing/pressure limiting module (28) links to each other with pwm control circuit (31) by light-coupled isolation module (30); Described controller (26) also links to each other with the output of second temperature sensor (27) that is used for the testing environment temperature.

10. intelligent charger according to claim 9 is characterized in that: described controller (26) comprises single-chip microcomputer.

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