CN1449084A - Power supply control device for electronic installation equipped with multiple batteries - Google Patents

Abstract

The power supply controller consists of transistor, reference voltage circuit and voltage comparator circuit. The transistor is connected to battery and the electronic equipment; the reference voltage circuit is connected to the electronic equipment and the voltage comparator circuit for outputting regulated load voltage, which is the difference between the load voltage and the reference voltage and has the uncertainty caused by the offset voltage of the voltage comparator circuit eliminated; and the voltage comparator circuit is connected to the reference voltage circuit, the battery and the transistor to control the transistor to be switched on when the power supply voltage is higher than the regulated load voltage or switched off otherwise. The present invention aims at providing one equivalent ideal diode connected serially between the battery and the electronic equipment.

Description

Be used to be equipped with the power supply control apparatus of the electronic installation of many batteries

(1) technical field

The relevant a kind of electric power supply control apparatus of the present invention, particularly relevant a kind of power supply control apparatus that is used to be equipped with the electronic installation of many batteries.

(2) background technology

Making rapid progress of development in science and technology, the appearance of digital electronic product brings the mankind and lives more easily.And various portable apparatus, for example: mobile phone, notebook computer or personal digital assistant (Personal DigitalAssistance, the PDA) fast development of Denging, the efficient that promotes the convenient of human lives more widely and work.

Portable apparatus can be under the situation of external power supply not, relies on battery that it was equipped with fully as power source, and the electric power that needs is provided.The length of the portable apparatus operating time of external power supply not depends on that battery can continue and the power-on time length of stably supplying electric power.At present generally all be in a plurality of battery pack mode of power supply simultaneously or in turn, prolong the not operating time of the portable apparatus of external power supply.Like this, then need a power supply control apparatus to control the power supply situation of each battery pack.

Please refer to Fig. 1, it is the circuit block diagram that tradition is equipped with the employed power supply control apparatus of portable apparatus of double cell.Conventional practice is to utilize two diode D1, D2 to control the power supply situation of first battery 102 and second battery 104.Diode D1, D2 couple with first battery 102 and second battery 104 respectively, and are coupled to node a with load 106.Wherein, load 106 can be any portable apparatus that needs battery that electric power is provided.Like this, be equivalent to first battery 102 in parallel with second battery 104, if the supply power voltage VB1 of first battery 102 is greater than the supply power voltage VB2 of second battery 104, then diode D1 conducting and diode D2 close, and load 106 required electric power are supplied by first battery 102 fully.Otherwise if the supply power voltage VB1 of first battery 102 is less than the supply power voltage VB2 of second battery 104, then diode D2 conducting and diode D1 close, and the required electric power of load 106 are fully by 104 supplies of second battery.In other words, this device is that the size of supply power voltage VB1 and VB2 by first battery 102 relatively and second battery 104 decides the conducting of diode D1, D2 and closes, and then controls by the required electric power of what person's offered load 106.

The shortcoming of above-mentioned power supply control apparatus is: during diode current flow, it is 0.35 ~ 0.7 volt voltage drop approximately that the two poles of the earth of diode can have a size.In other words, the supply power voltage of battery must be higher 0.35 ~ 0.7 volt than load voltage, and diode is just understood conducting.Like this, make the stored electric power of battery can't be supplied to load fully, thereby reduce the power supply capacity and the power-on time of battery.When especially the voltage of battery was just not high originally, the above-mentioned practice caused the loss of powered battery ability can become quite serious.

Please refer to Fig. 2, it is the circuit block diagram that tradition is equipped with employed another power supply control apparatus of portable apparatus of double cell.Different with the above-mentioned practice is, this practice is to replace diode D1, D2 in the above-mentioned practice with two transistor M1, M2, controls the power supply situation of first battery 202 and second battery 204.Wherein, the conducting of transistor M1, M2 is by micro-control unit (micro control unit, MCU) 208 controls with closing.Micro-control unit 208 can detect first battery 202, whether second battery 204 exists, and the supply power voltage of first battery 202, second battery 204, outputing control signals to transistor M1, M2, the conducting of oxide-semiconductor control transistors M1, M2 with close.When transistor M1 conducting, and transistor M2 is when closing, and the required electric power of load 206 are fully by 202 supplies of first battery.Otherwise when power transistor M2 conducting, and power transistor M1 is when closing, and the required electric power of load 206 are fully by 204 supplies of second battery.In other words, this power supply control apparatus be by oxide-semiconductor control transistors M1, M2 conducting with close, and then control is by first battery 202 or the required electric power of second battery, 204 offered load 206.

The problem of the pressure drop at the two poles of the earth when though above-mentioned power supply control apparatus can solve diode current flow, the power supply capacity and the power-on time of raising battery.But shortcoming is the power supply situation that needs micro-control unit to detect and control battery, increases control circuit and the complexity of control method and the manufacturing cost of control circuit.In addition, micro-control unit detects and controls action one period reaction time of needs of battery.If the battery of powering is removed suddenly, or because other reasons suddenly can't normal power supply, need be after after a while, micro-control unit just can detect this situation.During this period of time, though the transistor that couples with another battery is to be in closed condition, but the supply power voltage of another battery can force this transistorized internal body diodes of conducting (body diode), by this internal body diodes output power to load, till this transistor turns.During diode current flow, two have forward voltage (Forward voltage), and size is about 0.7 volt.For load, when the battery of powering suddenly can't normal power supply, the supply power voltage of input load can descend about 0.7 volt moment.The transient voltage pressure drop that this size is about 0.7 volt, to load, especially the influence of the working condition of the load of low operating voltage is very big.In addition, if the supply power voltage of battery was not high at that time, the above-mentioned practice might make load think the power shortage of battery by mistake, even shutdown by force, causes the loss of user's data and the inconvenience of use.Also have, if add new battery as the new power supply source of this load, just need to use software program to go to reset the action of microcontroller, degree of difficulty is higher.

(3) summary of the invention

In view of this, the purpose of this invention is to provide a kind of power supply control apparatus that is used to be equipped with the electronic installation of many batteries, to realize: reduce the pressure reduction of battery to load; Reduce the complexity and the manufacturing cost of circuit; The number of battery cells of configuration can be increased or reduce arbitrarily and when electronic installation is operated, battery can be freely plugged.

According to purpose of the present invention, a kind of power supply control apparatus that is used to be equipped with the electronic installation of many batteries is proposed, in order to control the power supply situation of those batteries, wherein each battery is to couple by independently power supply control apparatus and electronic installation, and battery has supply power voltage and load has load voltage; Each power supply control apparatus is made up of transistor, reference voltage circuit and voltage comparator circuit; Wherein, transistorized drain and battery couple, and source electrode and electronic installation couple; Reference voltage circuit couples with electronic installation and voltage comparator circuit respectively, adjusts load voltage according to load voltage output, and its value subtracts the difference of reference voltage for load voltage; Voltage comparator device has first signal input part and reference voltage circuit couples, secondary signal input and battery couple, and signal output part and transistorized gate couple, size output comparison signal according to supply power voltage and adjustment load voltage, with the conducting of oxide-semiconductor control transistors with close: when supply power voltage when adjusting load voltage, transistor is conducting, battery and electronic installation electric property coupling; When supply power voltage when adjusting load voltage, transistor is promptly closed, battery and electronic installation electrically do not couple.

The present invention can avoid the problem of pressure drop of using diode to cause owing to utilize hardware circuit to control and switch the power supply situation of battery.In addition, the present invention can reduce the complexity of circuit and reduce manufacturing cost owing to do not use micro-control unit.

For further specifying purpose of the present invention, design feature and effect, the present invention is described in detail below with reference to accompanying drawing.

(4) description of drawings

Fig. 1 is the circuit block diagram that tradition is equipped with the employed power supply control apparatus of portable apparatus of double cell.

Fig. 2 is the circuit block diagram that tradition is equipped with employed another power supply control apparatus of portable apparatus of double cell.

Fig. 3 is the circuit block diagram of the power supply control apparatus of the portable apparatus that is used to be equipped with double cell proposed by the invention.

(5) embodiment

Power supply control apparatus proposed by the invention be with each battery all be equipped with one independently power supply control apparatus to control the power supply situation of this battery, rather than the picture conventional practice (Micro Control Unit MCU) removes to control the power supply situation of all batteries by micro-control unit.Like this, when load need add new battery as new power supply, only a new power supply control apparatus need be got final product with new battery and load coupled respectively, need not go to reset the action of micro-control unit with software program, comparatively easy.

Please refer to Fig. 3, it is the circuit block diagram of the power supply control apparatus of proposed by the invention the being used to portable apparatus that is equipped with double cell.Below be to be example, the relation of coupling and the operation principle of the element of power supply control apparatus is described with the power supply control apparatus 300 (1) that couples with first battery 302.Power supply control apparatus 300 (1) is made up of transistor M1, reference voltage circuit 310 (1) and voltage comparator 308 (1) institutes.In the present embodiment, transistor M1 is power metal oxide semiconductor field-effect transistor (the Power Metal Oxide Semiconductor Field Effect Transistor of P passage (P-channel), Power MOSFET), its drain (drain) couples with first battery 302, and source electrode (source) couples with load 306.The effect of transistor M1 is equivalent to a switch, in order to the electric property coupling situation of the control load 306 and first battery 302.And the positive input terminal (+) of voltage comparator 308 (1) and reference voltage circuit 310 (1) couple, and negative input end (-) couples with battery 302, and the gate (gate) of output and transistor M1 couples, as shown in Figure 3.Be noted that the load in Fig. 3 can be any portable apparatus that needs battery that electric power is provided, for example: mobile phone, notebook computer or personal digital aid (PDA) (Personal Digital Assistance, PDA).

The anode (+) of reference voltage circuit 310 (1) is to couple with load 306, and its negative terminal (-) is to couple with voltage comparator 308 (1).Reference voltage circuit 310 (1) has reference voltage VCAL1, and its magnitude of voltage is about 10 millivolts (mV) much smaller than supply power voltage VB1 and load voltage VL.The negative terminal (-) of reference voltage circuit 310 (1) can output one be adjusted reference voltage VL ', and its value deducts the poor of reference voltage VCAL1 gained for load voltage VL.The purpose of reference voltage circuit 310 (1) is to eliminate voltage comparator 308 (1) because the offset voltage that difference caused (offset voltage) of the physical characteristic of element (usually its value for+-5mV) the uncertainty exported of the voltage comparator that causes 308 (1), to guarantee when supply power voltage VB1 equals load voltage VL the certain conducting of transistor M1.

Voltage comparator 308 (1) is the supply power voltage VB1 of comparison first battery 302 and the size of adjusting load voltage VL ', the action that the output control signal is removed oxide-semiconductor control transistors M1.Wherein, the adjustment load voltage VL ' of the positive input terminal of input voltage comparator 308 (1), its value deducts the poor of reference voltage VCAL1 gained for load voltage VL.In the present embodiment, when supply power voltage VB1 when adjusting load voltage VL ', the control voltage VCL that voltage comparator 308 (1) can output one low level is to the gate of transistor M1.Because the transistor M1 of present embodiment is the transistor of p passage, the control signal VCL of low level can be with transistor M1 conducting.Otherwise, when supply power voltage VB1 when adjusting load voltage VL ', the control voltage VCH that voltage comparator 308 (1) can output one high levels is to the gate of transistor M1, M1 closes with transistor.Owing to the adding of reference voltage VCAL1 is arranged, when supply power voltage VB1 equates with the value of load voltage VL, adjusts the certain supply power voltage VB1 of reference voltage VL ', so the certain conducting of transistor M1 less than battery 302.Therefore voltage comparator 308 (1) only can just make transistor M1 close during less than load voltage VL at supply power voltage VB1.

Below explanation is in Fig. 3, the operation principle and the circuit operation of power supply control apparatus 300 (1) that couples with first battery 302 and the power supply control apparatus 300 (2) that couples with second battery 304.

Suppose that 306 of loads are equipped with first battery 302.For power supply control apparatus 300 (1), no matter whether conducting of transistor M1, supply power voltage VB1 must be more than or equal to load voltage VL.So the input voltage of the positive input terminal (+) of input voltage comparator 308 (1) must be less than the supply power voltage VB1 of input negative input end (-).Therefore the control voltage VCL of voltage comparator 308 (1) output low level is to the gate of transistor M1, with transistor M1 conducting.And for power supply control apparatus 300 (2), it may be that conducting also may be to close that transistor M2 can keep last state.

Suppose that couple the negative input end (-) of second battery 304 with transistor M2 and voltage comparator 308 (2) this moment.This moment is as the supply power voltage VB2 of second battery 304 during greater than the supply power voltage VB1 of first battery 302, because the supply power voltage VB2 of second battery 304 is greater than load voltage VL, so the control voltage VCL of voltage comparator 308 (2) output low level is to the gate of transistor M2, with transistor M2 conducting.At this moment, because transistor M1, M2 are all conducting, and the supply power voltage VB2 of second battery 304 is greater than the supply power voltage VB1 of first battery 302 this moment, so for transistor M1, be to be in anti-phase bias voltage (reverse bias) state.Have a backward current that flows to drain by source electrode this moment to 302 chargings of first battery, transistor M1 is subjected to the influence of backward current, between source electrode and drain, produce a voltage drop, its size is when greater than reference voltage V-CAL1, and the input voltage of the positive input terminal (+) of voltage comparator 308 (1) must be greater than the input voltage of negative input end (-).Therefore voltage comparator 308 (1) can output control voltage VCH be closed transistor M1.At this moment, change by the required electric power of the complete offered load of second battery 304 306.Be noted that first battery 302 and second battery 304 mentioned above switch its power supply situation respectively, and the action that its power source is switched in load 306 is to be realized by hardware circuit fully.Rather than carry out by the micro-control unit of software program control.Compare with the micro-control unit of software program control, the startup and the switch speed of hardware circuit are fast, and the needed reaction time is short.Like this, then do not have two batteries when doing switching, because the phenomenon of the long transient voltage deficiency that causes of reaction time of micro-control unit takes place.

Suppose that this moment, second battery 304 was pulled out, the load voltage VL of load 306 reduces to load voltage VL when deducting reference voltage VCAL1 less than the supply power voltage VB1 of first battery 302, and voltage comparator 308 (1) can be with transistor M1 conducting.At this moment, change by the required electric power of the complete offered load of first battery 302 306.

So power supply control apparatus 300 (1) and 300 (2), its equivalent electric circuit characteristic is approximately an ideal diode, by transistor turns, detects a backward current when reverse and makes transistor close in the time of forward.Therefore when two powered battery during to load, can be by the high battery power supply in advance of voltage, be supplied to two cell voltages when equal, again by two batteries parallel operation together.

Be noted that; control electric supply installation of the present invention can not have the adding of early warning ground or pulls out away arbitrary battery; no matter whether this battery was the power supply of load 306 at that time, and can not cause hurriedly falling of load voltage VL transient voltage, did not therefore have outage or the situation of shutting down generation.The above embodiment of the present invention disclosed, and a kind of power supply control apparatus that is used to be equipped with the electronic installation of many batteries is to utilize hardware circuit to control and switch the power supply situation of battery, the quick action of hardware circuit, reaction time is short, and the unsettled phenomenon of transient state can not take place when switching the power supply situation of battery.

Control electric supply installation of the present invention makes field-effect transistors, so can alleviate the problem of voltage drop.And the present invention does not use micro-control unit, can lower the complexity and the manufacturing cost of circuit.

In addition, the present invention be each battery all by one independently power supply control apparatus with control battery power supply situation, and do not need to do the communication of signal with other powered battery control device, so can unrestrictedly freely increase or reduce the number of battery cells that portable apparatus is equipped with.And when the plug battery, can not cause hurriedly falling of momentary load voltage, the situation of do not have outage this moment, shutting down takes place.

Certainly, those of ordinary skill in the art will be appreciated that, above embodiment is used for illustrating the present invention, and be not to be used as limitation of the invention, as long as in connotation scope of the present invention, all will drop in the scope of claims of the present invention variation, the modification of the above embodiment.

Claims (13)

1. power supply control apparatus that is used to be equipped with the electronic installation of many batteries is in order to control the power supply situation of several batteries, wherein, this electronic installation has a load voltage, and this battery has a supply power voltage, it is characterized in that, this power supply control apparatus comprises at least:

One transistor couples with this battery and this electronic installation respectively; And

One voltage comparator circuit, has one first signal input part and this electronic installation couples, a secondary signal input and this battery couples and a signal output part and this transistor couple, this voltage comparator circuit is to export a comparison signal according to the size of this supply power voltage and this load voltage, to control this transistorized conducting and to close;

Wherein, each battery is by independently power supply control apparatus and this electronic installation couple, when this supply power voltage more than or equal to this load voltage, this transistor is conducting, this battery and this electronic installation electric property coupling, when this supply power voltage less than this load voltage, this transistor is promptly closed, this battery and this electronic installation electrically do not couple.

2. power supply control apparatus as claimed in claim 1, it is characterized in that, this power supply control apparatus also comprises a reference voltage circuit, this first signal input part with this electronic installation and this voltage comparator circuit couples respectively, this reference voltage circuit has a reference voltage, in order to adjust load voltage to this voltage comparator circuit according to this load voltage output one, the size of this adjustment load voltage deducts the value of this reference voltage for this load voltage, this voltage comparator circuit is according to this supply power voltage and both size this transistorized conductings of control of this adjustment load voltage and closes, when this supply power voltage is adjusted load voltage greater than this, then with this transistor turns, when this supply power voltage is adjusted load voltage less than this, then this transistor is closed.

3. power supply control apparatus as claimed in claim 2 is characterized in that, this reference voltage is the offset voltage greater than this voltage comparator circuit.

4. power supply control apparatus as claimed in claim 1, it is characterized in that, this voltage comparator circuit is a comparator, and this of this voltage comparator circuit first signal input part is the positive input terminal of this comparator, and this secondary signal input of this voltage comparator circuit negative input end that is this comparator.

5. power supply control apparatus as claimed in claim 1 is characterized in that, this transistor is a power metal oxide semiconductor field-effect transistor.

6. power supply control apparatus as claimed in claim 5, it is characterized in that, this power metal oxide semiconductor field-effect transistor is a P channel power mos field effect transistor, its drain is to couple with this battery, its source electrode is to couple with this electronic installation, and its gate is that this signal output part with this voltage comparator circuit couples.

7. as claim 4 or 6 described power supply control apparatus, it is characterized in that, when this supply power voltage more than or equal to this load voltage, this comparator is promptly exported an electronegative potential control signal, make this P channel power mos field effect transistor conducting, deserve this supply power voltage less than this load voltage, this comparator is promptly exported a high potential control signal, and this P channel power mos field effect transistor is closed.

8. power supply control apparatus as claimed in claim 5, it is characterized in that, this power metal oxide semiconductor field-effect transistor is a N channel power mos field effect transistor, its source electrode is to couple with this battery, its drain is to couple with this electronic installation, and its gate is that this signal output part with this voltage comparator circuit couples.

9. as claim 4 or 8 described power supply control apparatus, it is characterized in that, when this supply power voltage more than or equal to this load voltage, this comparator is promptly exported a high potential control signal, make this N channel power mos field effect transistor conducting, when this supply power voltage less than this load voltage, this comparator is promptly exported an electronegative potential control signal, and this N channel power mos field effect transistor is closed.

10. power supply control apparatus as claimed in claim 1 is characterized in that, this electronic installation is a portable electronic devices.

11. power supply control apparatus as claimed in claim 10 is characterized in that, this portable electronic devices is a mobile phone.

12. power supply control apparatus as claimed in claim 10 is characterized in that, this portable electronic devices is a notebook computer.

13. power supply control apparatus as claimed in claim 10 is characterized in that, this portable electronic devices is a personal digital aid (PDA).

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