CN1979996A - Power supplying system with energy-storage device - Google Patents

Power supplying system with energy-storage device Download PDF

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Publication number
CN1979996A
CN1979996A CNA2005101310241A CN200510131024A CN1979996A CN 1979996 A CN1979996 A CN 1979996A CN A2005101310241 A CNA2005101310241 A CN A2005101310241A CN 200510131024 A CN200510131024 A CN 200510131024A CN 1979996 A CN1979996 A CN 1979996A
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China
Prior art keywords
conversion equipment
power supply
power
storage device
energy storage
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Granted
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CNA2005101310241A
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Chinese (zh)
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CN100426192C (en
Inventor
陈钦洲
张恭维
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Tatung Co Ltd
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Tatung Co Ltd
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Priority to CNB2005101310241A priority Critical patent/CN100426192C/en
Publication of CN1979996A publication Critical patent/CN1979996A/en
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Publication of CN100426192C publication Critical patent/CN100426192C/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The system includes following parts: AC to DC converter, a piece of energy storage, a DC-to-DC converter, and an energy management and control device. Through bus, the energy management and control device connects, detects and manages AC to DC converter, charger, chargeable battery pack, and DC-to-DC converter. Using different connection modes among above said modules makes different DC, AC flow directions so as to form three kinds of state to supply power source.

Description

Power system with energy storage device
Technical field
The invention relates to a kind of power system, refer to a kind of power system that is applicable to especially with energy storage device.
Background technology
Along with the epoch make rapid progress, electric equipment products consequentiality miscellaneous, for example: discman, MP3, PDA, laptop computer or the like.And in order to allow these electronic products conveniently use, the power supply device that drives these electronic product generatings is being played the part of important role.No matter and be which kind of power supply device, for example: carbon zinc battery, mercury cell, lead-acid battery, lithium ion battery, lithium polymerization cell or fuel cell or the like, its most important demand all are to have high power density to come in order to stable power-supplying.
Power supply device in the past utilizes electric capacity to reach the effect of storage power usually.Though only shifting, the energy of capacitor takes place on the surface of electrode, make that power density, the depth of discharge of electrode for capacitors and the ability that recharges are good than battery all, but the electrode major part of capacitor is not used for accumulate, makes the storage of its energy far be inferior to battery.So if utilize capacitor to reach effect with the identical energy storage of battery, its needed number of capacitors will relatively increase the volume of power supply device greater than number of battery cells, more can not effectively utilize energy stored.
Summary of the invention
The object of the invention provides a kind of power system with energy storage device, and it comprises: an AC to DC conversion equipment, an energy storage device flow to current/direct-current conversion device always, and an energy management control device.And, make that the flow direction of intrasystem direct current and alternating current is not identical completely, and form three kinds of different aspects by the be connected to each other difference of mode of four kinds of assemblies thus.
Whether first kind of aspect is: it receives the AC power of an outside input AC to DC conversion equipment, and converts this AC power to one first DC power supply, and have a flag to exist in order to indicate this AC power; One energy storage device, be coupled to this AC to DC conversion equipment, and have a charger and a TunePower group, wherein this charger is in order to receive this first DC power supply, and produce one the charging DC power supply, so that this TunePower group is charged, this TunePower group is exported one second DC power supply; Flow to current/direct-current conversion device always, be coupled to this AC to DC conversion equipment and this TunePower group, be to select this first DC power supply or this second DC power supply to import power supply, and produce at least one working power according to this input power supply as it; An and energy management control device, be coupled to this dc-dc conversion equipment, connect and export at least one output DC source to receive this at least one working power, and be connected to this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment by a bus, this energy management control device by by this bus to detect and to manage this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment.
Wherein, this energy management control device reads this flag by this bus, when this flag indicates this AC power to exist, this energy management control device transmits one by this bus and controls signal to this dc-dc conversion equipment, selects this first DC power supply to import power supply as it to drive this dc-dc conversion equipment.
Second kind of aspect is: an AC to DC conversion equipment, and whether it receives the AC power of an outside input, and converts this AC power to one first DC power supply and one the 3rd DC power supply, and have a flag to exist in order to indicate this AC power; One energy storage device, be coupled to this AC to DC conversion equipment, and have a charger and a TunePower group, wherein this charger is in order to receive this first DC power supply, and produce one the charging DC power supply, so that this TunePower group is charged, this TunePower group is exported one second DC power supply; Flow to current/direct-current conversion device always, be coupled to this TunePower group, be to receive this second DC power supply to import power supply, and produce at least one working power according to this input power supply as it; An and energy management control device, be coupled to this dc-dc conversion equipment and AC to DC conversion equipment, be to select this at least one working power or the 3rd DC power supply as the input power supply, and export at least one output DC source, and be connected to this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment by a bus, this energy management control device by by this bus to detect and to manage this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment.
Wherein, this energy management control device reads this flag by this bus, and when this flag indicated this AC power to exist, this energy management control device selected the 3rd DC power supply as the input power supply.
The third aspect is: an AC to DC conversion equipment, and whether it receives the AC power of an outside input, and converts this AC power to one first DC power supply, and have a flag to exist in order to indicate this AC power; One energy storage device, be coupled to this AC to DC conversion equipment, and have a charger and a TunePower group, wherein this charger is in order to receive this first DC power supply, and produce one the charging DC power supply, so that this TunePower group is charged, this TunePower group is exported one second DC power supply; Flow to current/direct-current conversion device always, be coupled to this AC to DC conversion equipment and this TunePower group, be to select this first DC power supply or this second DC power supply, and produce at least one working power with as an output DC source according to this input power supply as the input power supply; An and energy management control device, be connected to this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment by a bus, this energy management control device by by this bus to detect and to manage this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment.
Wherein, this energy management control device reads this flag by this bus, when this flag indicates this AC power to exist, this energy management control device transmits one by this bus and controls signal to this dc-dc conversion equipment, selects this first DC power supply to import power supply as it to drive this dc-dc conversion equipment.
The present invention utilizes above-mentioned three kinds of aspects, when the external power source supply stops or be unstable, utilizes intrasystem energy storage device to continue power supply, allows the system still can normal operation, is unlikely and stops.
Description of drawings
Fig. 1 is the flow chart of a preferred embodiment of the present invention;
Fig. 2 is the flow chart of a preferred embodiment of the present invention;
Fig. 3 is the flow chart of a preferred embodiment of the present invention.
[primary clustering symbol description]
AC to DC conversion equipment 2 energy management control device 8
First DC power supply, 3 working powers 9
Energy storage device 4 the 3rd DC power supply 10
Charging DC power supply 5 chargers 41
Dc-dc conversion equipment 6 TunePower groups 42
Second DC power supply, 7 flags 21
Embodiment
Power system with energy storage device of the present invention comprises: an AC to DC conversion equipment, an energy storage device flow to current/direct-current conversion device always, and an energy management control device.The present invention is by the be connected to each other difference of mode of four kinds of assemblies thus, makes that the flow direction of intrasystem direct current and alternating current is not identical completely, and forms three kinds of different aspects, respectively with following embodiment explanation.
The first embodiment of the present invention, as shown in Figure 1.Wherein, energy management control device 8 is for example being that the bus of I2C is connected to AC to DC conversion equipment 2, charger 41, TunePower group 42 and dc-dc conversion equipment 6, this energy management control device 8 by by bus with detect and managing and communicating to current/direct-current conversion device 2, charger 41, TunePower group 42 and dc-dc conversion equipment 6 (for example: the temperature of assembly, voltage and electric current, the charge condition of energy storage device 4 etc.).Energy storage device 4 is coupled to AC to DC conversion equipment 2, and has charger 41 and TunePower group 42.6 of dc-dc conversion equipments are coupled to AC to DC conversion equipment 2 and TunePower group 42.And energy management control device 8 is coupled to dc-dc conversion equipment 6.
When AC power via outside input AC to current/direct-current conversion device 2, whether this AC power converts one first DC power supply 3 to, and have a flag 21 to exist in order to indicate this AC power.
Therefore, when flag 21 indication AC power existed, first DC power supply 3 was imported energy storage device 4 on the one hand for charging, imports dc-dc conversion equipment 6 for output on the one hand.After first DC power supply 3 enters charger 41 in the energy storage device 4, and produce a charging DC power supply 5 to TunePower group 42 to charge, this TunePower group 42 is also exported one second DC power supply 7 to dc-dc conversion equipment 6.
Read this flag 21 and work as energy management control device 8 by bus, after determining that AC power exists, energy management control device 8 transmits one by bus and controls signal to dc-dc conversion equipment 6, selects first DC power supply 3 as its input power supply rather than second DC power supply 7 to drive this dc-dc conversion equipment 6.After first DC power supply 3 flows to dc-dc conversion equipment 6, dc-dc conversion equipment 6 will be regulated first DC power supply 3 to produce a working power 9, and the voltage of this working power 9 can be :+24V ,-24V ,+12V ,-12V ,+9V ,-9V ,+5V ,-5V ,+3.3V or+2.5V.And this working power 9 sees through 8 outputs of energy management control device again.
Otherwise, when energy management control device 8 reads this flag 21 by bus, flag 21 indication AC power do not exist or when unstable, the power supply that the TunePower group 42 in the energy storage device 4 will store exports dc-dc conversion equipment 6 to one second DC power supply 7.Dc-dc conversion equipment 6 will be regulated and produce a working power, and the voltage of this working power 9 can be :+24V ,-24V ,+12V ,-12V ,+9V ,-9V ,+5V ,-5V ,+3.3V or+2.5V.
Similarly, please referring to Fig. 2, with the explanation second embodiment of the present invention.Wherein, energy management control device 8 is for example being I 2The bus of C is connected to AC to DC conversion equipment 2, charger 41, TunePower group 42 and dc-dc conversion equipment 6.AC to DC conversion equipment 2 is coupled respectively to charger 41 and the energy management control device 8 in the energy storage device 4.And the TunePower group 42 of energy storage device 4 sees through dc-dc conversion equipment 6 and energy management control device 8 is coupled.
When AC power via outside input AC to current/direct-current conversion device 2, whether this AC power converts one first DC power supply 3 and one the 3rd DC power supply 10 to, and have a flag 21 to exist in order to indicate this AC power.
When flag 21 indication AC power existed, first DC power supply, 3 input energy storage devices 4 were for charging, and the 3rd DC power supply 10 intake management and control devices 8.After first DC power supply 3 enters charger 41 in the energy storage device 4, and produce a charging DC power supply 5 to TunePower group 42 to charge, this TunePower group is also exported one second DC power supply 7 to dc-dc conversion equipment 6.Then, dc-dc conversion equipment 6 will be regulated second DC power supply 7 to produce a working power 9 to energy management control device 8.The voltage of this working power 9 can be :+24V ,-24V ,+12V ,-12V ,+9V ,-9V ,+5V ,-5V ,+3.3V or+2.5V.
Read this flag 21 and work as energy management control device 8 by bus, when these flag 21 indication AC power existed, energy management control device 8 selected the 3rd DC power supply 10 as input power supply rather than working powers 9.This energy management control device 8 will be adjusted this 3rd DC power supply 10 with out-put supply.The voltage of this 3rd DC power supply 10 can be :+24V ,-24V ,+12V ,-12V ,+9V ,-9V ,+5V ,-5V ,+3.3V or+2.5V.
Otherwise, when energy management control device 8 reads this flag 21 by bus, flag 21 indication AC power do not exist or when unstable, the power supply that the TunePower group 42 in the energy storage device 4 will store exports dc-dc conversion equipment 6 to one second DC power supply 7.Dc-dc conversion equipment 6 will be regulated and produce a working power 9, and this working power 9 will be through 8 outputs of energy management control device.And the voltage of this working power 9 can be :+24V ,-24V ,+12V ,-12V ,+9V ,-9V ,+5V ,-5V ,+3.3V or+2.5V.
Then, please referring to Fig. 3, it will illustrate the third embodiment of the present invention.Wherein, energy management control device 8 is for example being I 2The bus of C is connected to AC to DC conversion equipment 2, charger 41, TunePower group 42 and dc-dc conversion equipment 6.AC to DC conversion equipment 2 is coupled respectively to charger 41 and the dc-dc conversion equipment 6 in the energy storage device 4.And the charger 41 in the energy storage device 4 sees through TunePower group 42 and dc-dc conversion equipment 6 is coupled.
When AC power via outside input AC to current/direct-current conversion device 2, whether this AC power converts one first DC power supply 3 to, and have a flag 21 to exist in order to indicate this AC power.
Therefore, when flag 21 indication AC power existed, first DC power supply 3 was imported energy storage device 4 on the one hand for charging, imports dc-dc conversion equipment 6 for output on the one hand.After first DC power supply 3 enters charger 41 in the energy storage device 4, and produce a charging DC power supply 5 to TunePower group 42 to charge, this TunePower group 42 is also exported one second DC power supply 7 to dc-dc conversion equipment 6.
Read this flag 21 and work as energy management control device 8 by bus, after determining that AC power exists, energy management control device 8 transmits one by bus and controls signal to dc-dc conversion equipment 6, selects first DC power supply 3 as its input power supply rather than second DC power supply 7 to drive this dc-dc conversion equipment 6.After first DC power supply 3 flows to dc-dc conversion equipment 6, dc-dc conversion equipment 6 will be regulated first DC power supply 3 to produce a working power 9.This working power 9 is directly no longer passed through energy management control device 8 as out-put supply.The voltage of this working power 9 can be :+24V ,-24V ,+12V ,-12V ,+9V ,-9V ,+5V ,-5V ,+3.3V or+2.5V.And this working power 9 sees through 8 outputs of energy management control device again.
Otherwise, when energy management control device 8 reads this flag 21 by bus, flag 21 indication AC power do not exist or when unstable, the power supply that the TunePower group 42 in the energy storage device 4 will store exports dc-dc conversion equipment 6 to one second DC power supply 7.Dc-dc conversion equipment 6 will be regulated and produce a working power, and the voltage of this working power 9 can be :+24V ,-24V ,+12V ,-12V ,+9V ,-9V ,+5V ,-5V ,+3.3V or+2.5V.
As from the foregoing, no matter whether the outside has the AC power input, this system all can reach the effect of power supply.And this energy storage device can be lithium ion battery, lithium polymerization cell or fuel cell, and wherein, lithium ion battery, lithium polymerization cell or fuel cell see through the situation that energy management control device 8 comes managing internal.For example: the number of moisture and fuel in the fuel cell, situations such as temperature, voltage, electric current.Because its employed battery energy storage used the mode of capacitance energy storage can store higher energy more in the past, so the higher energy unit's performance of tool of the present invention.
The foregoing description only is to give an example for convenience of description, and the interest field that the present invention advocated should be as the criterion so that claim is described certainly, but not only limits to the foregoing description.

Claims (30)

1. the power system with energy storage device is characterized in that, comprising:
One AC to DC conversion equipment, whether it receives the AC power of an outside input, and converts this AC power to one first DC power supply, and have a flag to exist in order to indicate this AC power;
One energy storage device, be coupled to this AC to DC conversion equipment, and have a charger and a TunePower group, wherein this charger is in order to receive this first DC power supply, and produce one the charging DC power supply, so that this TunePower group is charged, this TunePower group is exported one second DC power supply;
Flow to current/direct-current conversion device always, be coupled to this AC to DC conversion equipment and this TunePower group, be to select this first DC power supply or this second DC power supply to import power supply, and produce at least one working power according to this input power supply as it; And
One energy management control device, be coupled to this dc-dc conversion equipment, connect and export at least one output DC source to receive this at least one working power, and be connected to this this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment by a bus, this energy management control device by by this bus to detect and to manage this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment;
Wherein, this energy management control device reads this flag by this bus, when this flag indicates this AC power to exist, this energy management control device transmits one by this bus and controls signal to this dc-dc conversion equipment, selects this first DC power supply to import power supply as it to drive this dc-dc conversion equipment.
2. the power system with energy storage device as claimed in claim 1 is characterized in that, described this TunePower group is a fuel battery.
3. the power system with energy storage device as claimed in claim 1 is characterized in that, described this TunePower group is a lithium ion battery.
4. the power system with energy storage device as claimed in claim 1 is characterized in that, described this TunePower group is a lithium polymerization cell.
5. the power system with energy storage device as claimed in claim 1, it is characterized in that, described this energy management control device by by this bus with the monitoring and the temperature of managing this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment.
6. the power system with energy storage device as claimed in claim 1, it is characterized in that, described this energy management control device by by this bus with monitoring and manage the voltage of this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment.
7. the power system with energy storage device as claimed in claim 1, it is characterized in that, described this energy management control device by by this bus with monitoring and manage the electric current of this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment.
8. the power system with energy storage device as claimed in claim 2 is characterized in that, described this energy management control device by by this bus with monitoring and manage the moisture and the fuel of this fuel battery.
9. the power system with energy storage device as claimed in claim 1 is characterized in that, described this bus is I 2The C bus.
10. the power system with energy storage device as claimed in claim 1, it is characterized in that, the voltage of described this at least one working power be selected from following group at least wherein one :+24V ,-24V ,+12V ,-12V ,+9V ,-9V ,+5V ,-5V ,+3.3V, and+2.5V.
11. the power system with energy storage device is characterized in that, comprising:
One AC to DC conversion equipment, whether it receives the AC power of an outside input, and converts this AC power to one first DC power supply and one the 3rd DC power supply, and have a flag to exist in order to indicate this AC power;
One energy storage device, be coupled to this AC to DC conversion equipment, and have a charger and a TunePower group, wherein this charger is in order to receive this first DC power supply, and produce one the charging DC power supply, so that this TunePower group is charged, this TunePower group is exported one second DC power supply;
Flow to current/direct-current conversion device always, be coupled to this TunePower group, be to receive this second DC power supply to import power supply, and produce at least one working power according to this input power supply as it; And
One energy management control device, be coupled to this dc-dc conversion equipment and AC to DC conversion equipment, be to select this at least one working power or the 3rd DC power supply as the input power supply, and export at least one output DC source, and be connected to this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment by a bus, this energy management control device by by this bus to detect and to manage this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment;
Wherein, this energy management control device reads this flag by this bus, and when this flag indicated this AC power to exist, this energy management control device selected the 3rd DC power supply as the input power supply.
12. the power system with energy storage device as claimed in claim 8 is characterized in that, described this TunePower group is a fuel battery.
13. the power system with energy storage device as claimed in claim 8 is characterized in that, described this TunePower group is a lithium ion battery.
14. the power system with energy storage device as claimed in claim 8 is characterized in that, described this TunePower group is a lithium polymerization cell.
15. the power system with energy storage device as claimed in claim 8, it is characterized in that, described this energy management control device by by this bus with the monitoring and the temperature of managing this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment.
16. the power system with energy storage device as claimed in claim 8, it is characterized in that, described this energy management control device by by this bus with monitoring and manage the voltage of this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment.
17. the power system with energy storage device as claimed in claim 8, it is characterized in that, described this energy management control device by by this bus with monitoring and manage the electric current of this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment.
18. the power system with energy storage device as claimed in claim 9 is characterized in that, described this energy management control device by by this bus with monitoring and manage the moisture and the fuel of this fuel battery.
19. the power system with energy storage device as claimed in claim 8 is characterized in that, described this bus is I 2The C bus.
20. the power system with energy storage device as claimed in claim 8, it is characterized in that, the voltage of described this at least one working power be selected from following group at least wherein one :+24V ,-24V ,+12V ,-12V ,+9V ,-9V ,+5V ,-5V ,+3.3V, and+2.5V.
21. the power system with energy storage device is characterized in that, comprising:
One AC to DC conversion equipment, whether it receives the AC power of an outside input, and converts this AC power to one first DC power supply, and have a flag to exist in order to indicate this AC power;
One energy storage device, be coupled to this AC to DC conversion equipment, and have a charger and a TunePower group, wherein this charger is in order to receive this first DC power supply, and produce one the charging DC power supply, so that this TunePower group is charged, this TunePower group is exported one second DC power supply;
Flow to current/direct-current conversion device always, be coupled to this AC to DC conversion equipment and this TunePower group, be to select this first DC power supply or this second DC power supply, and produce at least one working power with as an output DC source according to this input power supply as the input power supply; And
One energy management control device, be connected to this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment by a bus, this energy management control device by by this bus to detect and to manage this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment;
Wherein, this energy management control device reads this flag by this bus, when this flag indicates this AC power to exist, this energy management control device transmits one by this bus and controls signal to this dc-dc conversion equipment, selects this first DC power supply to import power supply as it to drive this dc-dc conversion equipment.
22. the power system with energy storage device as claimed in claim 15 is characterized in that, described this TunePower group is a fuel battery.
23. the power system with energy storage device as claimed in claim 15 is characterized in that, described this TunePower group is a lithium ion battery.
24. the power system with energy storage device as claimed in claim 15 is characterized in that, described this TunePower group is a lithium polymerization cell.
25. the power system with energy storage device as claimed in claim 15, it is characterized in that, described this energy management control device by by this bus with the monitoring and the temperature of managing this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment.
26. the power system with energy storage device as claimed in claim 15, it is characterized in that, described this energy management control device by by this bus with monitoring and manage the voltage of this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment.
27. the power system with energy storage device as claimed in claim 15, it is characterized in that, described this energy management control device by by this bus with monitoring and manage the electric current of this AC to DC conversion equipment, this charger, this TunePower group and this dc-dc conversion equipment.
28. the power system with energy storage device as claimed in claim 15 is characterized in that, described this energy management control device by by this bus with monitoring and manage the moisture and the fuel of this fuel battery.
29. the power system with energy storage device as claimed in claim 15 is characterized in that, described this bus is I 2The C bus.
30. the power system with energy storage device as claimed in claim 15, it is characterized in that, the voltage of described this at least one working power be selected from following group at least wherein one :+24V ,-24V ,+12V ,-12V ,+9V ,-9V ,+5V ,-5V ,+3.3V, and+2.5V.
CNB2005101310241A 2005-12-08 2005-12-08 Power supplying system with energy-storage device Expired - Fee Related CN100426192C (en)

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Application Number Priority Date Filing Date Title
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Application Number Priority Date Filing Date Title
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CN100426192C CN100426192C (en) 2008-10-15

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102506952A (en) * 2011-10-25 2012-06-20 中颖电子股份有限公司 Electronic flowmeter
WO2020222127A1 (en) * 2019-04-30 2020-11-05 Tong Yui Lung Power supply apparatus and networks thereof

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Publication number Priority date Publication date Assignee Title
US4860185A (en) * 1987-08-21 1989-08-22 Electronic Research Group, Inc. Integrated uninterruptible power supply for personal computers
US5903764A (en) * 1997-05-02 1999-05-11 Micro International, Ltd. Smart battery selector offering power conversion internally within a portable device
KR100595718B1 (en) * 2000-07-28 2006-07-03 엘지전자 주식회사 Secondary smart battery connection apparatus and method of portable computer system
CN1540478A (en) * 2003-10-29 2004-10-27 庞宏冰 Intelligent movable power supply
CN1663838A (en) * 2004-12-24 2005-09-07 清华大学 Hybrid power system for automobile driven by fuel cell

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102506952A (en) * 2011-10-25 2012-06-20 中颖电子股份有限公司 Electronic flowmeter
WO2020222127A1 (en) * 2019-04-30 2020-11-05 Tong Yui Lung Power supply apparatus and networks thereof
CN113767545A (en) * 2019-04-30 2021-12-07 唐裔隆 Power supply device and network thereof
CN113767545B (en) * 2019-04-30 2023-04-14 唐裔隆 Power supply device and network thereof

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