CN102751764A - Mobile power supply - Google Patents

Abstract

The invention provides a mobile power supply. The mobile power supply comprises a battery protection circuit, a battery, a switch combination circuit and an internal load circuit, wherein the battery supplies power to the outside via the internal load circuit. The mobile power supply is also provided with a switching device opening or closing the internal load circuit, wherein when the switching device is conducted, the internal load circuit is connected to work normally, and when the switching device is not conducted, the internal load circuit is disconnected, thus stopping working. The mobile power supply has the following beneficial effects that when not using the mobile power supply to supply power to the outside, users can manually disconnect the switching device so as to ensure that an internal load resistor stops working, thus reducing the load current of the battery and prolonging the standby life of the battery; and when the mobile power supply supplying power to the outside is subjected to discharge overcurrent protection, the users can manually disconnect the switching device so as to ensure that the internal load circuit stops working, thus reducing the load current of the battery and ensuring that the battery restores normal discharge.

Description

Portable power source

[technical field]

The present invention relates to field of power supplies, particularly a kind of portable power source.

[background technology]

Portable power source is a kind of portable charger that integrates power supply and charge function, and it can charge or the standby power supply to digital equipments such as mobile phones whenever and wherever possible.Generally by lithium cell or dry cell as charge storage unit.Be different from the battery of product internal configurations, also be externally hanging battery.The multiple power supply adapter of general outfit; Usually have big capacity, multipurpose, volume is little, the life-span is long and characteristics such as safe and reliable, be can be whenever and wherever possible to be the functional product of multiple digital product power supply such as mobile phone, MP3, MP4, mobile phone, PDA, palmtop PC, handheld device or standby charging.

Common said portable power source inside has battery protecting circuit and comes discharging and recharging of the battery in it protected.When portable power source caused output current excessive owing to reasons such as output port short circuit or load are heavier, said battery protecting circuit can cause said portable power source to get into the discharge over-current guard mode.When the positive pole of the said battery pressure reduction to the negative pole of the enough height of pressure reduction on ground or said battery to ground was enough low, said battery protecting circuit just can allow the battery recovery normal power supply.Yet, generally, eliminate even cause the reason of discharge overcurrent, such as having recovered not short circuit after the short circuit again, again load have been got rid of after the heavy duty, said portable power source can't reach the condition that withdraws from the discharge overcurrent protection usually.Therefore, said portable power source system is eliminated even cause the reason of discharge overcurrent after getting into the discharge overcurrent protection, and system still can get into the state of self-locking.Have only external power source is connected to said portable power source, the said portable power source externally driving of power supply is issued to the condition that withdraws from the discharge overcurrent protection, and then recovers the normal power supply of said battery.In other words, said mobile battery must could activate through connecting external power source after getting into the discharge overcurrent protection once more, and this has hindered the application of portable power source greatly, has brought inconvenience also for the use of portable power source.

Therefore, be necessary to provide a kind of improved portable power source to overcome the problems referred to above.

[summary of the invention]

The object of the present invention is to provide a kind of portable power source; It can not withdraw from discharge overcurrent protection state under the situation by external power supply; Make and normally externally power supply of battery also can when not using said portable power source, reduce the internal load electric current in addition.

In order to address the above problem; The present invention provides a kind of portable power source; It comprises battery protecting circuit, battery, switch combination circuit and internal load circuit; Said battery is externally supplied power via said internal load circuit, and said portable power source also is provided with the switching device of opening or cutting out said internal load circuit.

Further, whether said battery protecting circuit detects the discharge of said battery unusual, if then discharge control signal is forbidden in output, if not, then output allows discharge control signal; Said switch combination circuit cuts off the discharge loop of said battery based on the said discharge control signal of forbidding, based on allowing discharge control signal to be communicated with the discharge loop of said battery.

Further; Said discharge comprises that unusually the discharge overcurrent is unusual or the discharge overvoltage is unusual, and both any one think that unusually discharge is unusual, when unusual and discharge overvoltage is unusual at the discharge overcurrent; Said switch combination circuit based on said forbid that discharge control signal cuts off the discharge loop of said battery after; Get into discharge overcurrent protection state, whether whether the absolute value that this moment, said battery protecting circuit detected the positive pole voltage difference over the ground of said battery is higher than a predetermined absolute value that withdraws from the negative pole voltage difference over the ground of voltage threshold or said battery is lower than another predetermined voltage threshold that withdraws from, if; Then output allows discharge control signal; Make the said switch combination circuit discharge loop of the said battery of conducting again, forbid discharge control signal, under discharge overcurrent protection state otherwise continue output; Said battery still can be exported a weak current, and this weak current can be charged to draw high the voltage of said anode gradually to positive pole and the electric capacity between the ground that is connected battery.

Further, under discharge overcurrent protection state, between the negative pole of battery and ground, keep a very weak discharge path so that said battery still can be exported said weak current, this weak current be milliampere and below grade other.

Further, when said switching device conducting, said internal load circuit is unlocked with operate as normal, said switching device by the time, thereby said internal load circuit is closed and quits work.

Further, the input of said internal load circuit links to each other with the positive pole of said battery through said switching device, and when said switching device conducting, said battery is normal to be said internal load circuit supply, and said internal load circuit is unlocked; When said switching device ended, said battery no longer was said internal load circuit supply, and said internal load circuit is closed.

Further; Said internal load circuit comprises booster circuit, and said booster circuit comprises the output circuit that boosts, the bleeder circuit that boosts, boost control circuit, said inductance L of output circuit 1 of boosting, a nmos pass transistor MN1, a diode D1; One end of inductance L 1 links to each other with the positive pole of battery; The other end links to each other with the anode of diode D1, and the negative electrode of diode D1 links to each other with the output VOUT of said booster circuit, and said switching device is arranged between the positive pole of inductance L 1 and battery; Be arranged between inductance L 1 and the diode D1, or be arranged between the output VOUT of diode and booster circuit.

Further, the conducting of said switching device or to close be mechanically operated.

Compared with prior art, be provided with switching device in the present invention, when the user does not use portable power source externally to supply power, can manually break off said switching device, reduce the cell load electric current, prolong the battery standby life-span so that the internal load circuit can not be worked.When the discharge overcurrent protection takes place in the portable power source of external power supply; The user can manually break off said switching device so that the internal load circuit can not be worked; Reduce the cell load electric current, make battery can return to the condition that withdraws from discharge prevention, thereby recover regular picture.When normal the use, the manual said switching device of conducting makes that follow-up internal load circuit can operate as normal, realizes that the normal of said portable power source externally supply power.

[description of drawings]

In order to be illustrated more clearly in the technical scheme of the embodiment of the invention; The accompanying drawing of required use is done to introduce simply in will describing embodiment below; Obviously, the accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills; Under the prerequisite of not paying creative work property, can also obtain other accompanying drawing according to these accompanying drawings.Wherein:

Fig. 1 is the portable power source structured flowchart in one embodiment among the present invention;

Fig. 2 is internal load circuit and the circuit block diagram of connected mode in first embodiment of switching device among Fig. 1;

Fig. 3 is internal load circuit and the connected mode circuit block diagram in a second embodiment of switching device among Fig. 1;

Fig. 4 is internal load circuit and the circuit block diagram of connected mode in the 3rd embodiment of switching device among Fig. 1.

[embodiment]

For make above-mentioned purpose of the present invention, feature and advantage can be more obviously understandable, below in conjunction with accompanying drawing and embodiment the present invention done further detailed explanation.

Alleged here " embodiment " or " embodiment " are meant special characteristic, structure or the characteristic that can be contained at least one implementation of the present invention.Different in this manual local " in one embodiment " that occur not are all to refer to same embodiment, neither be independent or optionally mutually exclusive with other embodiment embodiment.Unless stated otherwise, the speech that the connection among this paper, the expression that links to each other, joins electrically connect is all represented directly or indirectly to be electrical connected.

On portable power source of the present invention, switching device is installed; Be used for cutting off or be connected the path of output VOUT of positive pole and the portable power source of portable power source battery; When the user does not use portable power source externally to supply power; Manually the cut-off switch device reduces the cell load electric current with the positive pole of cut-out battery and the path of output VOUT, prolongs the battery standby life-span.When the discharge overcurrent protection took place the portable power source of external power supply, the user can manually break off said switching device with the positive pole of cut-out battery and the path of output VOUT, reduces the cell load electric current, makes battery can recover regular picture.When needs used portable power source externally to supply power, user manually actuating switch device recovered the external function of supplying power of portable power source with the positive pole of connection battery and the path of output VOUT.

Fig. 1 is portable power source 100 structured flowchart in one embodiment among the present invention.As shown in Figure 1, said portable power source 100 comprises charging control circuit 110, battery protecting circuit 120, switch combination circuit 130, battery 140 and internal load circuit 150, and said battery 140 is externally supplied power via said internal load circuit 150.

The input of said charging control circuit 110 can connect external power supply, and output connects the anodal BATP of said battery 140, and it can be controlled the charging of said battery 140 said external power supply.Such as, the control charging current, when control stops said battery 140 is charged.Do not influence the realization of technical scheme of the present invention about the detailed charging control process of said charging control circuit 110, and the charging control process of said battery can adopt any one battery charge control technology of the prior art, so locate to repeat no more.

Said battery protecting circuit 120 is used for said battery is carried out charge protection and discharge prevention.

Whether the charging that said battery protecting circuit 120 detects said battery is unusual; If it is unusual; Then forbid charging control signal,, then allow charging control signal through its charging control output end C_OUT output if not unusual through its charging control output end C_OUT output.This forbids that charging control signal can be two kinds of logic states of a signal with allowing charging control signal, and such as forbidding that charging control signal is a low level, said permission charging control signal is a high level.Said charging generally includes two kinds unusually, and a kind of is that the charging overcurrent is unusual, and a kind of is that the charging overvoltage is unusual, and both any appearance think then that unusually charging is unusual.Said charging overcurrent is meant the charging current of battery unusually more than or equal to predetermined charging overcurrent threshold value, otherwise it is not unusual to be regarded as charging current.Said charging overvoltage is meant the charging voltage of battery unusually more than or equal to predetermined charging overvoltage threshold, otherwise it is not unusual to be regarded as charging voltage.

Whether the discharge that said battery protecting circuit 120 detects said battery is unusual; If it is unusual; Then forbid discharge control signal,, then allow discharge control signal through its discharge control output end D_OUT output if not unusual through its discharge control output end D_OUT output.This forbids that discharge control signal can be two kinds of logic states of a signal with allowing discharge control signal, and such as forbidding that discharge control signal is a low level, said permission discharge control signal is a high level.Said discharge generally includes two kinds unusually, and a kind of is that the discharge overcurrent is unusual, and a kind of is that the discharge overvoltage is unusual, and both any appearance think then that unusually discharge is unusual.Said discharge overcurrent is meant the discharging current of battery unusually more than or equal to predetermined discharge overcurrent threshold value, otherwise it is not unusual to be regarded as discharging current.Said discharge overvoltage is meant that unusually the discharge voltage of battery is less than or equal to the predetermined discharge overvoltage threshold, otherwise it is not unusual to be regarded as discharge voltage.

In one embodiment; Said battery protecting circuit 120 is confirmed said discharging current or charging current based on the voltage of the voltage of the link VSS that links to each other with the negative pole BATN of battery 140 and the link VM that links to each other with ground, and said battery protecting circuit 120 is confirmed said discharge voltage and charging voltage based on the voltage of the link VDD that links to each other with the anodal BATP of battery 140 with the voltage of the link VSS that links to each other with the negative pole BATN of battery 140.

Said switch combination circuit 130 cuts off the charge circuit of said battery 140 according to the said charging control signal of forbidding, according to the charge circuit of the said battery 140 of said permission charging control signal conducting, so that said battery 140 is carried out charge protection.Said switch combination circuit 130 cuts off the discharge loop of said battery 140 based on the said discharge control signal of forbidding, is communicated with the discharge loop of said battery 140 based on said permission discharge control signal, so that said battery is carried out discharge prevention.

Said switch combination resistance 130 can adopt general switch combination in the relevant battery charging and discharging path of the prior art; Such as two NMOS (N-type Metal Oxide Semiconductor) transistor series between the negative pole and ground of battery 140; At diode of the drain-source two ends of each nmos pass transistor series connection; The grid of one of them nmos pass transistor receives the discharge control signal (comprise and forbid discharge control signal and allow discharge control signal) from said discharge output control terminal; The grid of another nmos pass transistor receives the charging control signal (comprise and forbid charging control signal and allow charging control signal) from said charging output control terminal; A variety of implementation methods in the technology are arranged now, can choose at random, do not do particular determination in the present invention.

In the present invention, the anodal BATP of battery 140 is referred to as internal load circuit 150 to the circuit between the output VOUT of said portable power source, it possibly consume the output current on the said battery 140.Corresponding with the internal load circuit, the load circuit that is connected in the output VOUT of said portable power source 100 can be referred to as external load circuit.

When unusual and discharge overvoltage is unusual at the discharge overcurrent, said switch combination circuit 130 based on said forbid that discharge control signal cuts off the discharge loop of said battery after, said portable power source gets into discharge overcurrent protection state.At this moment; Whether whether the absolute value that said battery protecting circuit 120 detects the anodal BATP voltage difference over the ground of said battery is higher than a predetermined absolute value that withdraws from the negative pole BATN voltage difference over the ground of voltage threshold or said battery is lower than another and withdraws from predetermined voltage threshold (promptly withdrawing from the condition of discharge overcurrent protection); If; Then output allows discharge control signal, makes said switch combination circuit 130 discharge loop of the said battery 140 of conducting again, thereby withdraws from said discharge prevention state; Recover the normal externally power supply of battery, otherwise continue the said discharge control signal of forbidding of output.

Yet, described in background, generally, to eliminate even cause the reason of discharge overcurrent, said portable power source 100 can't reach the condition that withdraws from the discharge overcurrent protection usually, therefore must the external power supply insertion could activate said portable power source once more.

For this reason in the present invention; After portable power source 100 got into discharge overcurrent protection state, said battery 140 still can be exported a weak current, such as milliampere and following other electric current of level; If discharge overcurrent reason is eliminated; This weak current can be charged to the anodal BATP that is connected battery 140 and the capacitor C 1 between the ground, and along with the charging of said weak current to said capacitor C 1, the cathode voltage of said battery raises gradually; Also rising gradually of the cathode voltage of said battery (this moment, cathode voltage was a negative value); The absolute value that is higher than the negative pole BATN voltage difference over the ground of predetermined voltage threshold or said battery at the absolute value of the anodal BATP of said battery voltage difference over the ground is lower than predetermined voltage threshold, and said battery protecting circuit 120 outputs allow discharge control signals, makes the external normal power supply of said battery recovery.For example; Suppose that said cell voltage be BATP to the pressure reduction of BATN is 3.7V; And for battery protecting circuit 120; When the positive pole voltage difference over the ground that is lower than 0.15V (voltage such as negative pole BATN is negative 0.14V, and ground level is 0V) or battery when the absolute value of the negative pole BATN voltage difference over the ground that detects battery was higher than 3.55V, battery protecting circuit 120 just can be exported and allow discharge control signal to make the discharge path conducting of said battery again.

In one embodiment, under discharge overcurrent protection state, can be at the negative pole BATN of said battery to a weak discharge path be set between the ground, thus can produce weak current, this weak discharge through on have kilohm and other resistance of higher level.For instance, under discharge overcurrent protection state, the negative pole BATN of said battery through link VSS and VM and conducting, conduction path is provided with kilohm and other resistance of higher level.

Yet; In order to reduce the power consumption under the discharge prevention state, also avoid destroying down the internal circuit of external loading and portable power source at the state of discharge overcurrent protection, common said weak current all be milliampere and following grade other; In practice; Said weak current is being charged to said capacitor C 1 when drawing high the cathode voltage of said battery, when the condition of discharge overcurrent protection is withdrawed from no show, will produce some load currents on the follow-up internal load circuit; When these internal load electric currents during greater than said weak current; Said weak current is charged to said capacitor C 1 with regard to illegal again, thereby can't continue to rise to the voltage between the ground with the anodal BATP that causes battery, can not withdraw from the discharge prevention state.

In one embodiment, in order to overcome the problems referred to above, also be provided with switching device SW1 in the said portable power source 100, this switching device SW1 can open or close said internal load circuit 150.When said switching device SW1 conducting; Said internal load circuit 150 is unlocked with operate as normal; This moment, said internal load circuit 150 will produce certain load current, said switching device SW1 by the time, thereby said internal load circuit is closed and quits work.

When the discharge overcurrent protection takes place in the portable power source of external power supply; This moment, discharge control signal was forbidden in said battery protecting circuit 120 outputs; The user can manually break off said switching device SW1 so that said internal load circuit 150 quits work; Reduce or eliminate the load current of said internal load circuit 150; The weak current of at this moment said battery 140 outputs can charge constantly for said capacitor C 1, makes continuous rising of cathode voltage of said battery withdraw from the condition of overcurrent protection state of discharging up to reaching, and then makes said portable power source withdraw from discharge overcurrent protection state.When needs used portable power source externally to supply power, the user is the said switching device SW1 of conducting manually, so that said internal load circuit 150 is started working, said battery can externally carry out normal power supply through said internal load circuit.

Said internal load circuit has various the connection and implementation with switching device, below selectivity describe.

Fig. 2 is internal load circuit and the circuit block diagram of switching device in first embodiment among Fig. 1.As shown in Figure 2, said internal load circuit 150 comprises (BOOST) circuit that boosts, and generally is connected with booster circuit in the rear end of battery 140 usually, after cell voltage is boosted, externally supplies power.For instance; Said BOOST circuit generally can return to predetermined voltage threshold at the positive pole voltage over the ground of battery and start working before withdrawing from the discharge prevention state to reach; Its work power consumption is far longer than the weak current of battery output under the said overcurrent protection state; The positive pole of battery voltage difference over the ground can't be elevated to the predetermined threshold that recovers normal power supply like this, cause portable power source output current overload after, it is normal that system also can't recover.

The input of said booster circuit 150 links to each other with the anodal BATP of said battery through said switching device SW1, and when said switching device SW1 conducting, said battery normally is that said booster circuit 150 is supplied power, and said booster circuit is unlocked; When said switching device SW1 ended, said battery no longer was said booster circuit power supply, and said booster circuit is closed.After said portable power source gets into discharge overcurrent protection state; Can cut off said switching device SW1; The weak current of said battery 140 outputs this moment can charge constantly for said capacitor C 1, makes the condition that the cathode voltage of said battery constantly raises and withdraws from discharge overcurrent protection state up to reaching.

Said booster circuit comprises the output circuit that boosts, the bleeder circuit that boosts, boost control circuit and booster power supply circuit.The said output circuit that boosts comprises an inductance L 1, a nmos pass transistor MN1, a diode D1; One end of inductance L 1 (input of booster circuit) links to each other with the positive pole of battery through said switching device SW1; The other end links to each other with the anode of diode D1; The negative electrode of diode D1 is the output VOUT of said booster circuit; The grid of said nmos pass transistor receives the output control signal (EXT end) from said boost control circuit as the control end of the output circuit that boosts, and the drain electrode of said nmos pass transistor MN1 links to each other with the intermediate node of inductance L 1 with diode D1, and the source electrode of said nmos pass transistor MN1 links to each other with ground.The said bleeder circuit that boosts comprises that second resistance R 2 that is connected between output VOUT and the ground and the intermediate node of the 3rd resistance R 3, the second resistance R 2 and the 3rd resistance R 3 link to each other with the feedback end FB of said boost control circuit, are used for to it feedback voltage being provided.

Said booster power supply circuit comprises an end and the resistance R between the ground 1 and capacitor C 2 that is connected on inductance L 1; Node between the two is connected to the power end VDD of said boost control circuit; The test side LX of said boost control circuit connects the node between said inductance L 1 and the diode D1; The earth terminal GND ground connection of said boost control circuit, the Enable Pin EN of said boost control circuit is connected with the output VOUT of said booster circuit.In when work, said boost control circuit produces grid that said output control signal gives said nmos pass transistor so that whole booster circuit is controlled according to feedback voltage, makes the output VOUT of said booster circuit obtain suitable output voltage.

Booster circuit among Fig. 2 among the present invention can also adopt the booster circuit of other types of the prior art, or the control circuit of other types.

Fig. 3 is internal load circuit and the switching device circuit block diagram in a second embodiment among Fig. 1, and said internal load circuit still comprises booster circuit.

The switching device among Fig. 3 and the position of the switching device among Fig. 2 are different, and the switching device among Fig. 3 is between inductance L 1 and diode D1.

When said switching device SW1 conducting, said booster circuit 150 can operate as normal, and said booster circuit is unlocked.Said switching device SW1 by the time, said booster circuit quits work, the load current of said booster circuit consumption this moment is very little or do not have.After said portable power source gets into discharge overcurrent protection state; Can cut off said switching device SW1; The weak current of said battery 140 outputs this moment can charge constantly for said capacitor C 1, makes the condition that the cathode voltage of said battery constantly raises and withdraws from discharge overcurrent protection state up to reaching.

Certainly, when the user need not use said portable power source, also can manually break off said switching device SW1, so that said booster circuit 150 quits work, can reduce the cell load electric current this moment, prolongs the battery standby life-span.

Fig. 4 is internal load circuit and the circuit block diagram of switching device in the 3rd embodiment among Fig. 1, and said internal load circuit still comprises booster circuit.

The difference of the circuit among the circuit among Fig. 4 and Fig. 2 or 3 is: the switching device SW1 among Fig. 4 is between the output VOUT of the negative electrode of diode D1 and booster circuit.

When said switching device SW1 conducting, said booster circuit 150 can operate as normal, and said booster circuit is unlocked.Said switching device SW1 by the time, said booster circuit 150 quits work, the load current of said booster circuit consumption this moment is very little or do not have.After said portable power source gets into discharge overcurrent protection state; Can cut off said switching device SW1; The weak current of said battery 140 outputs this moment can charge constantly for said capacitor C 1, makes the condition that the cathode voltage of said battery constantly raises and withdraws from discharge overcurrent protection state up to reaching.

In above-mentioned instance; With the internal load circuit is that booster circuit is that example is introduced; Said obviously internal load circuit can also be other any internal load circuit; As long as this circuit produces load current in said portable power source withdraws from the process of discharge overcurrent protection state, the above-mentioned switching device of can sampling makes its unlatching work or quits work.The position of said switching device in said internal load circuit also can be confirmed as required, as long as this switching device can play the function of opening or closing said internal load circuit.

In sum; Portable power source among the present invention turn-offs battery after getting into discharge overcurrent protection state after; Can turn-off said internal load circuit through switching device, the faint output current of said battery output under discharge overcurrent protection state, this faint electric current charges to improve constantly the cathode voltage of said battery to an electric capacity; Thereby finally can reach the condition that withdraws from the discharge overcurrent protection; Discharge overcurrent protection state is withdrawed from realization, makes battery normally externally to supply power, thereby user-friendly.

Enabling expression in the present invention makes its work, disable represent to make it not work.

Above-mentioned explanation has fully disclosed embodiment of the present invention.It is pointed out that any change that technical staff's specific embodiments of the invention of being familiar with this field is done does not all break away from the scope of claims of the present invention.Correspondingly, the scope of claim of the present invention also is not limited only to previous embodiment.

Claims (8)

1. portable power source; It comprises battery protecting circuit, battery, switch combination circuit and internal load circuit; Said battery is externally supplied power via said internal load circuit, it is characterized in that, it also is provided with the switching device of opening or closing said internal load circuit.

2. portable power source according to claim 1 is characterized in that, whether said battery protecting circuit detects the discharge of said battery unusual, if then discharge control signal is forbidden in output, if not, then output allows discharge control signal; Said switch combination circuit cuts off the discharge loop of said battery based on the said discharge control signal of forbidding, based on allowing discharge control signal to be communicated with the discharge loop of said battery.

3. portable power source according to claim 1; It is characterized in that; Said discharge comprises that unusually the discharge overcurrent is unusual or the discharge overvoltage is unusual, and both any one think that unusually discharge is unusual, when unusual and discharge overvoltage is unusual at the discharge overcurrent; Said switch combination circuit based on said forbid that discharge control signal cuts off the discharge loop of said battery after; Get into discharge overcurrent protection state, whether whether the absolute value that this moment, said battery protecting circuit detected the positive pole voltage difference over the ground of said battery is higher than a predetermined absolute value that withdraws from the negative pole voltage difference over the ground of voltage threshold or said battery is lower than another predetermined voltage threshold that withdraws from, if; Then output allows discharge control signal; Make the said switch combination circuit discharge loop of the said battery of conducting again, forbid discharge control signal, under discharge overcurrent protection state otherwise continue output; Said battery still can be exported a weak current, and this weak current can be charged to draw high the voltage of said anode gradually to positive pole and the electric capacity between the ground that is connected battery.

4. portable power source according to claim 3; It is characterized in that, under discharge overcurrent protection state, between the negative pole of battery and ground, keep a very weak discharge path; So that said battery still can be exported said weak current, this weak current be milliampere and below level other.

5. according to the arbitrary described portable power source of claim 1-4, it is characterized in that when said switching device conducting, said internal load circuit is unlocked with operate as normal, said switching device by the time, thereby said internal load circuit is closed and quits work.

6. portable power source according to claim 5; It is characterized in that; The input of said internal load circuit links to each other with the positive pole of said battery through said switching device; When said switching device conducting, said battery is said internal load circuit supply normally, and said internal load circuit is unlocked; When said switching device ended, said battery no longer was said internal load circuit supply, and said internal load circuit is closed.

7. portable power source according to claim 5 is characterized in that, said internal load circuit comprises booster circuit, and said booster circuit comprises the output circuit that boosts, the bleeder circuit that boosts, boost control circuit,

Said inductance L of output circuit 1 of boosting, a nmos pass transistor MN1, a diode D1; One end of inductance L 1 links to each other with the positive pole of battery; The other end links to each other with the anode of diode D1, and the negative electrode of diode D1 links to each other with the output VOUT of said booster circuit

Said switching device is arranged between the positive pole of inductance L 1 and battery, is arranged between inductance L 1 and the diode D1, or is arranged between the output VOUT of diode and booster circuit.

8. portable power source according to claim 5 is characterized in that, the conducting of said switching device or to close be mechanically operated.

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