CN101527372A - Programmable energy storage control module and system - Google Patents

Programmable energy storage control module and system Download PDF

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Publication number
CN101527372A
CN101527372A CN200810082694A CN200810082694A CN101527372A CN 101527372 A CN101527372 A CN 101527372A CN 200810082694 A CN200810082694 A CN 200810082694A CN 200810082694 A CN200810082694 A CN 200810082694A CN 101527372 A CN101527372 A CN 101527372A
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energy
storage
control module
module
programmable
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CN101527372B (en
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贡振邦
侯维新
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Industrial Technology Research Institute ITRI
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Industrial Technology Research Institute ITRI
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries

Abstract

The invention provides a programmable energy storage control module and a system. The programmable energy storage control module comprises an energy storage output unit which can supply output energy to an energy storage element. A rated voltage selection unit controls the output energy of the energy storage output unit according to the rated voltage of the energy storage element. Different energy transmission conditions can be set according to the specifications of different energy storage elements so that energy storage actions are performed on the energy storage elements with different specifications. The programmable energy storage control module can set the energy transmission conditions in a non-contact mode or a contact mode. Besides, the programmable energy storage control module can set the energy transmission conditions in a non-contact mode or a contact mode in advance, and then is combined to the energy storage element to form an energy storage system.

Description

Programmable energy storage control module and system
Technical field
The invention relates to a kind of energy storage control module and system, particularly relevant for a kind of programmable energy storage control module and system.
Background technology
The instrument that portable type electronic product has almost become now even following human lives is integral, but in the face of various different system products, for example mobile phone, digital camera, laptop computer or the like, employed battery specification (for example output voltage, output current, power capacity or the like) difference, make that different system products can need to use different charging devices, and cause inconvenience and puzzlement in charging.For example United States Patent (USP) provides a kind of wireless charging device No. 7288918, its battery charger does not have (programmable) able to programme function, can't change its charging output specification according to the different energy-storage travelling wave tubes of specification that use, on using, can't directly use at the energy-storage travelling wave tube of various use specifications.It is to utilize the power supply supply as power end of solar cell and fuel cell at power end that the open application case of the U.S. provides a kind of wireless charging device for No. 20030231001, utilizes the radio energy-transmitting module to the action of charging of the energy-storage travelling wave tube of mancarried device again.Described wireless charging device also can't be changed the energy output specification of its radio energy-transmitting module, to satisfy the use specification of different energy-storage travelling wave tubes.
Summary of the invention
The invention provides a kind of programmable energy storage control module, can set different power transfer conditions with contactless or contact mode, to be suitable for providing energy to give the energy-storage travelling wave tube of different size at the energy-storage travelling wave tube of different size.
The invention provides a kind of programmable energy storage control module, can contactless or contact mode received energy.
The present invention provides a kind of energy-storage system in addition, and in conjunction with energy-storage travelling wave tube and programmable energy storage control module, wherein said programmable energy storage control module can preestablish suitable power transfer condition at described energy-storage travelling wave tube, again in conjunction with described energy-storage travelling wave tube.
A kind of energy-storage system provided by the invention can contactless or contact mode received energy.
According to above-mentioned, a kind of programmable energy storage control module provided by the invention comprises energy storage output unit and rated voltage selection unit, wherein said energy storage output unit provides the output energy to give energy-storage travelling wave tube, and described rated voltage selection unit is according to the rated voltage of described energy-storage travelling wave tube, to control the aforementioned output energy of described energy storage output unit.
On the one hand, the present invention can be contactless or the contact mode transmit the described rated voltage selection unit that described energy-storage travelling wave tube rated voltage related data is given aforementioned programmable energy storage control module.
On the other hand, the aforementioned programmable energy storage control module of the present invention also comprises the energy receiver module, can contactless or contact mode received energy.
According to above-mentioned, a kind of energy-storage system provided by the invention comprises energy-storage travelling wave tube and programmable energy storage control module, and wherein said programmable energy storage control module comprises energy storage output unit and rated voltage selection unit.Described energy storage output unit provides the output energy to give described energy-storage travelling wave tube, and described rated voltage selection unit is according to the rated voltage of described energy-storage travelling wave tube, to control the aforementioned output energy of described energy storage output unit.
On the one hand, the described programmable energy storage control module of the aforementioned energy-storage system of the present invention preestablishes its power transfer condition at described energy-storage travelling wave tube with contactless or contact mode.
On the other hand, the aforementioned energy-storage system of the present invention can contactless or contact mode received energy.
The present invention also provides a kind of energy emission system, comprise energy transmitter module and voltage selection control module, wherein said energy transmitter module, give the energy receiving terminal with the wireless mode emitted energy, and described voltage selection control module, comply with the energy launching condition that described energy receiving terminal is controlled described energy transmitter module.
On the one hand, energy emission system of the present invention can be radio-frequency (RF) identification reading system (RadioFrequency Identification Reader, RFID Reader).
On the other hand, the described energy transmitter module of energy emission system of the present invention can be Anneta module, and described voltage selects control module can comprise Data Input Interface.
The present invention also provides a kind of programmable energy storage control system, and it comprises energy emission system, energy receiving system and energy storage output unit.Described energy emission system comprises the wireless energy transmitter module and voltage is selected control module, wherein said voltage is selected control module to transmit energy-storage travelling wave tube rated voltage related data and is given described wireless energy transmitter module, and is sent in conjunction with energy signal and described rated voltage related data by described wireless energy transmitter module.Described energy receiving system comprises energy receiver module and rated voltage selection unit, wherein said energy receiver module comprises photoelectricity conversion module and wireless energy receiver module, described photoelectricity conversion module converts surround lighting to electric energy, described energy receiver module receives aforementioned energy signal and described rated voltage related data, and described rated voltage related data is sent to described rated voltage selection unit, so that described rated voltage selection unit is sent out control signal according to this.Described energy storage output unit receives from the energy signal of described energy receiver module and the described control signal of described rated voltage selection unit, and determines its energy output condition according to described control signal, transmits energy according to this and gives described energy-storage travelling wave tube.
On the one hand, the described photoelectricity conversion module of the aforementioned programmable energy storage control system of the present invention can also replace by the piezoelectricity modular converter, and described piezoelectricity modular converter converts deformation kinetic energy to electric energy.
Description of drawings
Fig. 1 is an energy-storage system functional block diagram of the present invention; And
Fig. 2 is the functional block diagram of programmable energy storage control system of the present invention in conjunction with energy-storage travelling wave tube.
Fig. 3 is the specific embodiment functional block diagram of programmable energy storage control system of the present invention.
Drawing reference numeral:
The 1----energy-storage system
2,3----programmable energy storage control system
10,32----programmable energy storage control module
The 12----energy-storage travelling wave tube
20,30----energy emission system
22,34----energy-storage travelling wave tube 101,322----energy receiver module
102,324----energy storage output unit
103,326----rated voltage selection unit
201,302----energy transmitter module
202,304----voltage is selected control module 3021----power-supply unit
3022----first power supply changeover device
The 3023----first modulating/demodulating system unit
3024----the one NFC transceiver
3041----user's interface
The 3042----first data buffer
3043----the one NFC controller
The 3220----solar module
3222----wireless energy receiver module
3222a----the 2nd NFC transceiver
The 3222b----second modulating/demodulating system unit
3222c----second source transducer
The 3241----input selector
The 3242----power output circuit
The 3243----o controller
3261----the 2nd NFC controller
The 3262----second data buffer
Embodiment
The invention provides a kind of programmable energy storage control module, give energy-storage travelling wave tube in order to energy to be provided.The present invention can change the power transfer condition enactment of described programmable energy storage control module according to the different size of different energy-storage travelling wave tubes with contactless or contact mode.In other words, programmable energy storage control module of the present invention can cooperate various different energy-storage travelling wave tube specifications to revise its power transfer condition on using, so that its output energy specification satisfies the use specification of different energy-storage travelling wave tubes.
The aforementioned programmable energy storage control module of the present invention can be in conjunction with energy-storage travelling wave tube, to constitute energy-storage system, and the aforementioned programmable energy storage control module of the present invention can be according to the described energy-storage travelling wave tube specification of desiring combination, preestablish its power transfer condition, so that the transmission of power of described programmable energy storage control module satisfies the use specification of described energy-storage travelling wave tube.
A kind of programmable energy storage control module provided by the invention and energy-storage system will cooperate appended graphic detailed description the in detail by following specific embodiment.
Fig. 1 shows the functional block diagram of programmable energy storage control module 10 of the present invention and the functional block diagram of energy-storage system of the present invention 1.Programmable energy storage control module 10 of the present invention comprises energy receiver module 101, energy storage output unit 102 and rated voltage selection unit 103.Described energy receiver module 101 is responsible for providing dc energy to described energy storage output unit 102, described energy receiver module 101 can contactless mode for example electromagnetic induction or opto-electronic conversion mode obtain energy, execution mode that can also for example described energy receiver module 101 of contact mode, it can be component of piezoelectric conversion, so that deformation kinetic energy is changed into electric energy, or electric terminal, directly be plugged to power source supply end to obtain energy.Its execution mode can be Anneta module or solar module (solarcell module) when described energy receiver module 101 obtained energy in the noncontact mode.Described energy storage output unit 102 be responsible for to energy-storage units for example energy-storage travelling wave tube 12 carry out energy output.Described rated voltage selection unit 103 is sent and is controlled signal to described energy storage output unit 102, exports to the energy size of described energy-storage travelling wave tube 12 to control described energy storage output unit 102.Particularly, described rated voltage selection unit 103 is according to the specification requirement (for example output voltage values, output current value, power capacity) of described energy-storage travelling wave tube 12, send control signal and give described energy storage output unit 102, to set the energy output condition of described energy storage output unit 102, for example set the energy way of output for deciding electric current output or deciding voltage output and export energy value or the like.Described rated voltage selection unit 103 can contactless mode or the contact mode receive described energy-storage travelling wave tube 12 rated voltage related datas, give described energy storage output unit 102 according to received aforementioned rated voltage related data to send described control signal again.Described energy storage output unit 102 has functions such as automatic detection and switching energy output mode, it can detect the present store energy state of described energy-storage travelling wave tube 12 automatically, for example present charged state, to judge whether the to switch energy output mode, for example switch to and decide the voltage output mode from deciding the electric current output mode.Thus, described energy storage output unit 102 can carry out high-effect energy storage and avoid described energy-storage travelling wave tube 12 to cause damage because of the input of unsuitable voltage or electric current described energy-storage travelling wave tube 12.
Programmable energy storage control module 10 of the present invention can cooperate the energy-storage units of different size and set the energy output condition that the satisfied energy-storage units of desiring combination uses specification, so that programmable energy storage control module of the present invention 10 can be applied to various types of now portable type electronic product.
Refer again to Fig. 1, programmable energy storage control module 10 of the present invention promptly constitutes energy-storage system 1 of the present invention in conjunction with described energy-storage travelling wave tube 12.Described energy-storage travelling wave tube 12 generally can be a rechargeable battery.The described energy storage output unit 102 of described programmable energy storage control module 10 inside can preestablish the energy output condition that satisfies described energy-storage travelling wave tube 12 specification requirements, is integrated into described energy-storage system 1 with described energy-storage travelling wave tube 12 again.
Fig. 2 is the functional block diagram that shows a kind of programmable energy storage control system 2 provided by the invention, and it is in order to provide energy to give energy-storage travelling wave tube 22.Described programmable energy storage control system 2 comprises described programmable energy storage control module 10 shown in Figure 1 and energy emission system 20.Described energy emission system 20 comprises energy transmitter module 201 and voltage is selected control module 202.Described energy emission system 20 can contactless mode for example wireless transmission method transmit energy/data and give described programmable energy storage control module 10.Particularly, described energy transmitter module 201 can contactless mode emitted energy gives the described energy receiver module 101 of described programmable energy storage control module 10, and for example described energy transmitter module 201 and described energy receiver module 101 can Anneta module be realized the transmission of energy.Described voltage selects control module 202 can have Data Input Interface, user's interface for example, import described energy-storage travelling wave tube 22 specification data for the user with touch-control or key mode, so that the rated voltage related data that described voltage selects control module 202 can transmit described energy-storage travelling wave tube 22 is according to this given described rated voltage selection unit 103, to set the power transfer condition of described energy storage output unit 102.The rated voltage related data that described voltage selects control module 202 can contactless mode to transmit described energy-storage travelling wave tube 22 is given described rated voltage selection unit 103.Described energy emission system 20 can radio-frequency (RF) identification reading system (Radio FrequencyIdentification Reader, RFID Reader) implement, that is described energy transmitter module 201 and described voltage select control module 202 can be integrated in the radio-frequency (RF) identification reading system.
Fig. 2 illustrates programmable energy storage control system 2 of the present invention can adopt wireless transmission method to transmit energy/data, but the transmission energy/data mode of programmable energy storage control system 2 of the present invention is not limited to this.In other words, the transmission energy/data mode of programmable energy storage control system 2 of the present invention can also adopt contact, that is described energy transmitter module 201 can for example electric inserting mode of the electric way of contact carry out energy delivery with described energy receiver module 101.Described energy transmitter module 201 can be a power source supply end, and described energy receiver module 101 can be a for example metallic contact of electric terminal.Select described voltage control module 202 and described rated voltage selection unit 103 also can adopt the electric way of contact to transmit data.In addition, energy receiver module 101 of the present invention can be a component of piezoelectric conversion and deformation kinetic energy is changed into electric energy, or photoelectricity conversion elements solar module for example, converts electric energy to and directly receive surrounding environment light.In the case, programmable energy storage control system 2 of the present invention promptly need not aforementioned energy transmitter module 201, and described voltage selects control module 202 then can the electric way of contact transmit data.
Below realize that with RFID Reader system described energy emission system 20 illustrates the energy/data mode of programmable energy storage control system 2 of the present invention.Described programmable energy storage control system 2 is bonded to affiliated energy-storage travelling wave tube 22 earlier, the user imports described energy-storage travelling wave tube 22 with touch-control or key mode and uses the extremely described voltage selection of specification related data control module 202 afterwards, the rated voltage related data of selecting control module 202 to send out described energy-storage travelling wave tube 22 via described voltage is given described rated voltage selection unit 103 again, send control signal according to this by described rated voltage selection unit 103 again and give described energy storage output unit 102, to set the energy output condition of described energy storage output unit 102.Described voltage is selected control module 202 to send signal simultaneously and is driven described energy transmitter module 201 emitted energies.Be stored in described energy storage output unit 102 after described energy receiver module 101 received energies, be enough to offer described energy-storage travelling wave tube 22, use specification to satisfy it until described energy output unit 102 energy stored.Then, described energy storage output unit 102 gives described energy-storage travelling wave tube 22 according to the energy output condition output energy of setting.Described energy storage output unit 102 can detect the store energy state of described energy-storage travelling wave tube 22 automatically, judging whether the switching energy output mode, if, the then described energy storage output unit 102 energy output mode that promptly can automatically switch.
The programmable energy storage control system 2 of the present invention various different energy-storage travelling wave tubes of specifications that use of can arranging in pairs or groups use, and the energy output condition that can optionally change described energy storage output unit 102 sets, to satisfy the use specification of described energy-storage travelling wave tube 22.
Fig. 3 is the specific embodiment functional block diagram of programmable energy storage control system 3 of the present invention, and it is bonded to energy-storage travelling wave tube 34, for example is the power supply energy-storage travelling wave tube of electronic product.Described programmable energy storage control system 3 comprises energy emission system 30 and programmable energy storage control module 32.Described energy emission system 30 comprises energy transmitter module 302 and voltage selection control module 304.Described energy transmitter module 302 comprises power-supply unit 3021, first power supply changeover device 3022, the first modulating/demodulating system unit 3023 and a NFC (Near Field Communication, near-field communication) transceiver 3024, and wherein said power-supply unit 3021 can be built-in fuel cell, solar cell or external AC power supply supply.Described voltage selects control module 304 to comprise user's interface 3041, the first data buffer 3042 and a NFC controller 3043.Described programmable energy storage control module 32 comprises energy receiver module 322, energy storage output unit 324 and rated voltage selection unit 326.Described energy receiver module 322 comprises solar module 3220 and wireless energy receiver module 3222, and wherein said wireless energy receiver module 3222 has the 2nd NFC transceiver 3222a, the second modulating/demodulating system unit 3222b and second source transducer 3222c.Described solar module 3220 can also replace by other photoelectricity conversion module, perhaps replaces with other piezoelectricity modular converter.Described energy storage output unit 324 comprises input selector 3241, power output circuit 3242 and o controller 3243.Described rated voltage selection unit 326 comprises the 2nd NFC controller 3261 and the second data buffer 3262.Below provide energy to give described energy-storage travelling wave tube 34 with regard to programmable energy storage control system 3 of the present invention function mode described in detail.
At first, the user can touch-control or key mode the specification data of described energy-storage travelling wave tube 34 is selected control module 304 and is stored in the described first data buffer 3042 via the described voltage of described user's interface 3041 inputs.A described NFC controller 3043 is promptly from the specification data of the aforementioned energy-storage travelling wave tube 34 of the described first data buffer, 3042 accesses and be sent to the described first modulating/demodulating system unit 3023 of described energy transmitter module 302.3023 specification data with described energy-storage travelling wave tube 34 in the described first modulating/demodulating system unit convert its rated voltage related data to.The described power-supply unit 3021 of described energy transmitter module 302 is with direct current or alternating current, perhaps direct current or alternating voltage offer described first power supply changeover device 3022, converting the energy signal that meets a described NFC transceiver 3024 emission specifications to, and be sent to the described first modulating/demodulating system unit 3023.The described first modulating/demodulating system unit 3023 is in conjunction with the rated voltage related data of described energy signal and aforementioned energy-storage travelling wave tube 34 and be sent to a described NFC transceiver 3024, sends via a described NFC transceiver 3024 again.Described the 2nd NFC transceiver 3222a of the described energy receiver module 322 of described programmable energy storage control module 32 receives the rated voltage related data of described energy signal and aforementioned energy-storage travelling wave tube 34, and is sent to the described second modulating/demodulating system unit 3222b.The aforementioned energy-storage travelling wave tube 34 rated voltage related datas that the described second modulating/demodulating system unit 3222b then will receive are sent to described the 2nd NFC controller 3261 of described rated voltage selection unit 326, and the energy signal that receives is sent to described second source transducer 3222c.Described second source transducer 3222c then converts described energy signal to the electric power signal of the operations specifications that meets described energy storage output unit 324.The rated voltage related data of the aforementioned energy-storage travelling wave tube 34 that described the 2nd NFC controller 3261 will receive is stored in the described second data buffer 3262, and 3262 rated voltage related datas according to aforementioned energy-storage travelling wave tube 34 of the described second data buffer are sent and controlled signal to described energy storage output unit 324.
The solar module 3220 reception environment light sources that described energy receiver module 322 is built-in also convert electric energy to, and solar module 3220 built-in power supply changeover device (not shown) convert the electric energy that described solar battery module 3220 stores to meet described energy storage output unit 324 operations specifications electric power signal.The described input selector 3241 of described energy storage output unit 324 receives the electric power signal from the described second source transducer 3222c transmission of the electric power signal of described solar module 3220 and described wireless energy receiver module 3222, and selection is to provide electric energy to described energy storage output unit 324 by described solar module 3220 or described wireless energy receiver module 3222.Described input selector 324 is enough to offer described energy-storage travelling wave tube 22 by the electric energy of judging described solar module 3220 and described wireless energy receiver module 3222 which storage, use specification to satisfy it, and select according to this to provide electric energy to give described energy storage output unit 324 by described solar module 3220 or described wireless energy receiver module 3222.The electric energy that described energy receiver module 322 is provided can be sent to described power output circuit 3242 via described input selector 3241.On the other hand, the described control signal that the described second data buffer 3262 of described rated voltage selection unit 326 is transmitted is received by the described o controller 3243 of described energy storage output unit 324, and delivers to described power output circuit 3242.3242 of described power output circuits determine its energy output condition according to described control signal, and transmit electric energy according to described energy output condition and give described energy-storage travelling wave tube 34.Described energy-storage travelling wave tube 34 can transmit the described o controller 3243 of the described energy storage output unit 324 of feedback signals, be resent to described power output circuit 3242, the present energy storage state of described feedback signal and described energy-storage travelling wave tube 34 is relevant, judge whether to switch the energy output mode so that described power supply transfers out circuit 3242, for example whether change into and decide the electric current way of output from deciding the voltage way of output.Described o controller 3243 is sent to described feedback signal described rated voltage selection unit 326 simultaneously, send to described energy transmitter module 302 via described wireless energy receiver module 3222 again, be resent to described voltage and select control module 304, and demonstrate the present energy storage state of described energy-storage travelling wave tube 34 via described user's interface 3041.Aforementioned programmable energy storage control module provided by the invention can be bonded to the various different energy storage devices that use specification, reset the power transfer condition of described programmable energy storage control module again according to the use specification of described energy storage device, described energy storage device is carried out suitable energy storage action.Aforementioned programmable energy storage control module provided by the invention can increase the ease of use of portable type electronic product now.
The above is specific embodiments of the invention only, is not in order to limit claims of the present invention; All other do not break away from the equivalence of being finished under the disclosed spirit and changes or modification, all should be included in claims.

Claims (33)

1. a programmable energy storage control module is characterized in that, described programmable energy storage control module comprises:
The energy storage output unit provides the output energy to give energy-storage travelling wave tube; And
Rated voltage selection unit is according to the rated voltage of described energy-storage travelling wave tube, to control the aforementioned output energy of described energy storage output unit.
2. programmable energy storage control module as claimed in claim 1 is characterized in that described programmable energy storage control module also comprises the energy receiver module, gives described energy storage output unit in order to electric energy to be provided.
3. programmable energy storage control module as claimed in claim 2 is characterized in that described programmable energy storage control module also comprises the energy transmitter module, gives described energy receiver module in order to energy to be provided.
4. programmable energy storage control module as claimed in claim 1, it is characterized in that, described programmable energy storage control module also comprises voltage and selects control module, transmit the rated voltage related data of described energy-storage travelling wave tube and give described rated voltage selection unit, so that described rated voltage selection unit is controlled the aforementioned output energy of described energy storage output unit according to this.
5. programmable energy storage control module as claimed in claim 2, it is characterized in that, described programmable energy storage control module also comprises voltage and selects control module, transmit the rated voltage related data of described energy-storage travelling wave tube and give described rated voltage selection unit, so that described rated voltage selection unit is controlled the aforementioned output energy of described energy storage output unit according to this.
6. programmable energy storage control module as claimed in claim 3, it is characterized in that, described programmable energy storage control module also comprises voltage and selects control module, transmit the rated voltage related data of described energy-storage travelling wave tube and give described rated voltage selection unit, so that described rated voltage selection unit is controlled the aforementioned output energy of described energy storage output unit according to this.
7. programmable energy storage control module as claimed in claim 2 is characterized in that, described energy receiver module is with contactless or contact received energy.
8. programmable energy storage control module as claimed in claim 7 is characterized in that, described energy receiver module comprises Anneta module, photoelectricity conversion elements, component of piezoelectric conversion or electric terminal.
9. programmable energy storage control module as claimed in claim 3 is characterized in that, described energy transmitter module is with contactless or contact emitted energy.
10. programmable energy storage control module as claimed in claim 9 is characterized in that, described energy transmitter module comprises radio-frequency (RF) identification reading system or Anneta module.
11. programmable energy storage control module as claimed in claim 4 is characterized in that, described voltage selection control module is the rated voltage related data with contact or the described energy-storage travelling wave tube of contactless transmission.
12. programmable energy storage control module as claimed in claim 6 is characterized in that, described energy transmitter module and described voltage select control module to be integrated in the radio-frequency (RF) identification reading system.
13. an energy-storage system is characterized in that, described energy-storage system comprises:
Energy-storage travelling wave tube; And
Programmable energy storage control module, comprise energy storage output unit and rated voltage selection unit, wherein said energy storage output unit provides the output energy to give described energy-storage travelling wave tube, and described rated voltage selection unit is according to the rated voltage of described energy-storage travelling wave tube, to control the aforementioned output energy of described energy storage output unit.
14. energy-storage system as claimed in claim 13 is characterized in that, described programmable energy storage control module also comprises the energy receiver module, gives described energy storage output unit in order to electric energy to be provided.
15. energy-storage system as claimed in claim 14 is characterized in that, described programmable energy storage control module also comprises the energy transmitter module, gives described energy receiver module in order to energy to be provided.
16. energy-storage system as claimed in claim 13, it is characterized in that, described programmable energy storage control module also comprises voltage and selects control module, transmit the rated voltage related data of described energy-storage travelling wave tube and give described rated voltage selection unit, so that described rated voltage selection unit is controlled the aforementioned output energy of described energy storage output unit according to this.
17. energy-storage system as claimed in claim 14, it is characterized in that, described programmable energy storage control module also comprises voltage and selects control module, transmit the rated voltage related data of described energy-storage travelling wave tube and give described rated voltage selection unit, so that described rated voltage selection unit is controlled the aforementioned output energy of described energy storage output unit according to this.
18. energy-storage system as claimed in claim 15, it is characterized in that, described programmable energy storage control module also comprises voltage and selects control module, transmit the rated voltage related data of described energy-storage travelling wave tube and give described rated voltage selection unit, so that described rated voltage selection unit is controlled the aforementioned output energy of described energy storage output unit according to this.
19. energy-storage system as claimed in claim 14 is characterized in that, described energy receiver module is with contactless or contact received energy.
20. energy-storage system as claimed in claim 19 is characterized in that, described energy receiver module comprises Anneta module, photoelectricity conversion elements, component of piezoelectric conversion or electric terminal.
21. energy-storage system as claimed in claim 15 is characterized in that, described energy transmitter module is with contactless or contact emitted energy.
22. energy-storage system as claimed in claim 21 is characterized in that, described energy transmitter module comprises radio-frequency (RF) identification reading system or Anneta module.
23. energy-storage system as claimed in claim 16 is characterized in that, described voltage selection control module is the rated voltage related data with contact or the described energy-storage travelling wave tube of contactless transmission.
24. energy-storage system as claimed in claim 18 is characterized in that, described energy transmitter module and described voltage select control module to be integrated in the radio-frequency (RF) identification reading system.
25. energy-storage system as claimed in claim 13 is characterized in that, described energy-storage travelling wave tube is a rechargeable battery.
26. an energy emission system is characterized in that, described energy emission system comprises:
The energy transmitter module gives the energy receiving terminal with the wireless mode emitted energy; And
Voltage is selected control module, controls the energy launching condition of described energy transmitter module according to described energy receiving terminal.
27. energy emission system as claimed in claim 26 is characterized in that, described energy emission system is the radio-frequency (RF) identification reading system.
28. energy emission system as claimed in claim 26 is characterized in that, described energy transmitter module is an Anneta module.
29. energy emission system as claimed in claim 26 is characterized in that, described voltage selects control module to comprise Data Input Interface.
30. a programmable energy storage control system is characterized in that, described programmable energy storage control system comprises:
The energy emission system, comprise wireless energy transmitter module and voltage and select control module, wherein said voltage is selected control module to transmit energy-storage travelling wave tube rated voltage related data and is given described wireless energy transmitter module, and is sent in conjunction with energy signal and described rated voltage related data by described wireless energy transmitter module;
The energy receiving system, comprise energy receiver module and rated voltage selection unit, wherein said energy receiver module comprises photoelectricity conversion module, piezoelectricity conversion elements and wireless energy receiver module, described photoelectricity conversion module and component of piezoelectric conversion change surround lighting and deformation kinetic energy into electric energy respectively, described energy receiver module receives aforementioned energy signal and described rated voltage related data, and described rated voltage related data is sent to described rated voltage selection unit, so that described rated voltage selection unit is sent out control signal according to this; And
The energy storage output unit receives from the energy signal of described energy receiver module and the described control signal of described rated voltage selection unit, and determines its energy output condition according to described control signal, transmits energy according to this and gives described energy-storage travelling wave tube.
31. programmable energy storage control system as claimed in claim 30 is characterized in that, described energy emission system comprises the power supply unit, be for following any one: fuel cell, solar cell, piezoelectricity modular converter or AC power end.
32. programmable energy storage control system as claimed in claim 30, it is characterized in that, described voltage selects control module to comprise user's interface, receiving the specification data of described energy-storage travelling wave tube, and selects control module to convert described rated voltage related data to by described voltage.
33. programmable energy storage control system as claimed in claim 30 is characterized in that, described energy storage output unit is according to the energy storage state of described photoelectricity conversion module, piezoelectricity modular converter and described wireless energy receiver module, to select institute received energy signal source.
CN2008100826942A 2008-03-06 2008-03-06 Programmable energy storage control module and system Expired - Fee Related CN101527372B (en)

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WO2012122695A1 (en) * 2011-03-11 2012-09-20 海尔集团公司 Wireless power supply device and method
CN104077619A (en) * 2013-09-25 2014-10-01 苏州天趣信息科技有限公司 Device for increasing radio frequency identification signal transmission distance and assembly thereof
CN104319830A (en) * 2014-10-09 2015-01-28 深圳市安普盛科技有限公司 Near field communication (NFC)-based charging system and method
CN109980752A (en) * 2019-05-09 2019-07-05 奇越科技(北京)有限公司 A kind of intelligent battery of configurable output and the configuration method of intelligent battery

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US6031353A (en) * 1998-02-25 2000-02-29 Ericsson, Inc. Method and apparatus for communicating battery pack information
CN1529182A (en) * 2003-10-01 2004-09-15 复旦大学 Electricity-quantity identification of active radio-frequency identification card cell and charging method thereof
US7068013B2 (en) * 2004-02-20 2006-06-27 Motorola, Inc. Battery circuit with non-volitable memory and thermistor on a single line
CN1710777A (en) * 2005-07-21 2005-12-21 张定港 Isolation type charging system and use thereof

Cited By (7)

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Publication number Priority date Publication date Assignee Title
WO2012122695A1 (en) * 2011-03-11 2012-09-20 海尔集团公司 Wireless power supply device and method
CN102934327A (en) * 2011-03-11 2013-02-13 海尔集团公司 Wireless power supply device and method
CN102934327B (en) * 2011-03-11 2015-11-25 海尔集团公司 Wireless power supply and method
CN104077619A (en) * 2013-09-25 2014-10-01 苏州天趣信息科技有限公司 Device for increasing radio frequency identification signal transmission distance and assembly thereof
CN104319830A (en) * 2014-10-09 2015-01-28 深圳市安普盛科技有限公司 Near field communication (NFC)-based charging system and method
CN109980752A (en) * 2019-05-09 2019-07-05 奇越科技(北京)有限公司 A kind of intelligent battery of configurable output and the configuration method of intelligent battery
CN109980752B (en) * 2019-05-09 2021-12-14 奇越科技(北京)有限公司 Intelligent battery capable of configuring output and configuration method of intelligent battery

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