CN106033937A - Adaptive power control system for dynamic power supply - Google Patents
Adaptive power control system for dynamic power supply Download PDFInfo
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- CN106033937A CN106033937A CN201510109716.XA CN201510109716A CN106033937A CN 106033937 A CN106033937 A CN 106033937A CN 201510109716 A CN201510109716 A CN 201510109716A CN 106033937 A CN106033937 A CN 106033937A
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Abstract
The invention discloses an adaptive power control system for a dynamic power supply. The system comprises a power supply unit, a current protection unit, a power amplifier, a voltage protection unit, and a control unit. The power supply unit is used for outputting currents. A current input terminal of a current protection unit is connected with the power supply and the current protection unit is used for outputting currents. A current input terminal of the power amplifier is connected with a current output terminal of the current protection unit and the power amplifier is used for outputting a power. The voltage protection unit connected with a voltage output terminal of the current protection unit is used for collecting an output voltage of the current protection unit and outputting a voltage. A voltage collection terminal of the control unit is connected with the voltage protection unit, a control terminal of the control unit is connected with a control terminal of the current protection unit, and a signal output terminal of the control unit is connected with a signal input terminal of the power amplifier; and the control unit is used for controlling turning on or off of the current protection unit according to voltages and controlling the power amplifier to output corresponding powers. According to the invention, with the control unit, a high output power of a power supply with a large dynamic range can be taken; the power utilization rate is optimized; and mutual protection between protection units is realized.
Description
Technical field
The present invention relates to power line carrier communication (Power Line Communication is called for short PLC) neck
Territory, particularly relates to a kind of optimal energy allocation system being applicable to Larger Dynamic range of power.
Background technology
In traditional power control system that power supply is used, due to the discordance of electric power system
(large dynamic range), for the consideration of reliability, when big multipair power supply carries out statistical test, power taking source
Output minima, and on the basis of minimum power, the fixing output control that design matches
System processed.As it is shown in figure 1, after general distribution system uses fire zero line rectifying and wave-filtering mostly, add linear electricity
Source, to the multiple system power supply of rear class, when its own system heavier loads, causes the voltage after rectified wave filter
Time too low, due to from same source, it will cause the linear power supply of other system normally to work.
Such as in intelligent electric meter field, the transformator that used due to different ammeters or concentrator or open
Closing and there is certain difference between power supply, under different output voltages, output also exists bigger
Difference, traditional power control strategy is the minimum by obtaining most of power supplys, sends fixing letter
Number amplitude, to adapt to the demand of the minimum output of power supply, great majority have employed simple current-limiting mode string
The form of connection current-limiting resistance carries out current limliting.
The means that Voltage Drop is controlled also can be used to realize the adjustment of output, such as Fig. 2 at present
Shown in, when input voltage drops into a certain degree, resistance R1 and resistance R2 forms dividing potential drop, works as resistance
When pressure drop on R1 is relatively low, audion VT1 is initially located in micro-off state, so by falling voltage
The detection fallen serves certain protective effect.
In sum, traditional Poewr control method totally also exists following Railway Project:
One, the statistical data according to power supply obtains the minima of power, and this will cause most power supply to be dived
Power can not be mined, and causes certain waste;Two, conventional power control system takes fixing output substantially
The strategy of power, to coordinate power supply lowest power to use, now in the case of power supply is powered and changed,
Can not the demand of self adaptation different electrical power, ultimately cause the situation that power supply damages and occur;Three, traditional method
Mostly using single Control of Voltage or single current control method, salvo is the most single.
Summary of the invention
For the problems referred to above of existing Poewr control method, now provide one to aim at and be applicable to power supply
What system exported high-power scope can be applicable to dynamic electric according to different power supply self-regulation outputs
The optimal energy allocation system in source.
Concrete technical scheme is as follows:
A kind of optimal energy allocation system being applicable to dynamic power supplies, including:
Power subsystem, in order to export electric current;
Current protection unit, the current input terminal of described current protection unit connects described power subsystem, uses
To export described electric current;
Power amplifier, the current input terminal of described power amplifier connects the electricity of described current protection unit
Stream outfan, in order to output;
Voltage protection unit, connects the voltage output end of described current protection unit, in order to gather described electricity
The output voltage of stream protected location, and export described voltage;
Control unit, the voltage acquisition end of described control unit connects described voltage protection unit, described control
The end that controls of unit processed connects the control end of described current protection unit, the signal output of described control unit
End connects the signal input part of described power amplifier, in order to according to current protection described in described Control of Voltage
Being switched on or off and the described power amplifier corresponding power of output of unit.
Preferably, described current protection unit uses the control circuit with feedback, in order to make the institute of output
State electric current in the range of predetermined current threshold.
Preferably, described control unit includes:
Testing circuit, the voltage input end of described testing circuit forms the voltage acquisition end of described control unit,
Connect described voltage protection unit, in order to detect whether described voltage falls, and output detections result.
Preferably, described control unit also includes:
Single-chip microcomputer, connects described testing circuit, in order to control letter accordingly according to the output of described testing result
Number.
Preferably, described single-chip microcomputer is preset with the control signal of multiple fixed interval amplitude.
Preferably, described control unit also includes:
Digital Logical Circuits, the signal input part of described Digital Logical Circuits connects the control of described single-chip microcomputer
Signal output part, the first signal output part of described Digital Logical Circuits forms the control of described control unit
End, connect the control end of described current protection unit, in order to control described current protection unit unlatching or
Turn off, and output digit signals.
Preferably, described control unit also includes:
Analog to digital conversion circuit, connects the digital signal output end of described Digital Logical Circuits, in order to by described
Digital signal is converted to analogue signal and exports.
Preferably, described control unit also includes:
Out amplifier, connects the analog signal output of analog-digital conversion circuit as described, and described output is amplified
The analog signal output of device forms the signal output part of described control unit, connects described power amplifier
Signal input part, the digital signal input end of described out amplifier connects described Digital Logical Circuits
Secondary signal exports, in order to described analogue signal to be amplified and to send to described power amplifier, to control
The output amplitude of described analogue signal.
Preferably, described testing circuit in order to judge whether described voltage drops to predetermined voltage threshold, and
Output detections result.
Preferably, when described Voltage Drop is to predetermined voltage threshold, described testing circuit output interrupt signal
To described single-chip microcomputer.
The beneficial effect of technique scheme:
The output passing through the control unit bigger power supply of desirable dynamic range in the technical program is higher
Value, excavates power supply potentiality as far as possible, optimizes power utilization rate;Protected by two protected locations simultaneously
Voltage and current;Mutually protect between protected location, make system safer.
Accompanying drawing explanation
Fig. 1 is existing general distribution system block diagram;
Fig. 2 is the Voltage Drop testing circuit figure that conventional power controls;
Fig. 3 is the module map of the optimal energy allocation system being applicable to dynamic power supplies of the present invention.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out
Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the present invention, and
It is not all, of embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art are not making
The every other embodiment obtained on the premise of going out creative work, broadly falls into the scope of protection of the invention.
It should be noted that in the case of not conflicting, the embodiment in the present invention and the spy in embodiment
Levy and can be mutually combined.
The invention will be further described with specific embodiment below in conjunction with the accompanying drawings, but not as the present invention's
Limit.
As it is shown on figure 3, a kind of optimal energy allocation system being applicable to dynamic power supplies, including:
Power subsystem 1, in order to export electric current;
Current protection unit 2, the current input terminal of current protection unit 2 connects power subsystem 1, in order to defeated
Go out electric current;
Power amplifier 5, the current input terminal of power amplifier 5 connects the electric current of current protection unit 2
Outfan, in order to output;
Voltage protection unit 3, connects the voltage output end of current protection unit 2, protects in order to gather electric current
Protect the output voltage of unit 2, and output voltage;
Control unit 4, the voltage acquisition end of control unit 4 connects voltage protection unit 3, control unit 4
The end that controls connect the control end of current protection unit 2, the signal output part of control unit 4 connects power
The signal input part of amplifier 5, in order to according to Control of Voltage current protection unit 2 be switched on or off with
And power amplifier 5 exports corresponding power.
Higher by the output of the control unit 4 bigger power supply of desirable dynamic range in the present embodiment
Value, excavates power supply potentiality, maximum optimization power utilization rate as far as possible;Same by two protected locations
Time protect voltage and current;Mutually protect between protected location, make system safer.
The present embodiment may be applied not only to the electric power system of outside, and in actual use, and can be in system
In externally fed is filtered, decoupling processes, bigger to ensure to be unlikely to when system works to produce
Ripple, causes erroneous judgement to the control system of rear class.The most in the present embodiment, can be power subsystem 1
Point, the electric capacity adding multiple order of magnitude carries out progressively smothing filtering, and increases inductance control ripple current.
The present embodiment is also embodied in the difference of traditional power control system: use voltage protection list simultaneously
Unit 3 and current protection unit 2, power supply protected by current protection part, voltage detection portions
While current protection unit 2 is protected, and can indirectly protect power subsystem 1.
In a preferred embodiment, current protection unit 2 uses the control circuit with feedback, in order to make
The electric current of output is in the range of predetermined current threshold.
In the present embodiment, the statistics of the maximum power taking source unit 1 of predetermined current threshold scope is bigger
Being worth rather than traditional statistics minima, this just can excavate the power supply capacity of power-supply system as far as possible,
Even if in the case of limit heavy duty (short-circuit), electric current is still unlikely to infinitely to increase.It addition, electric current
Protected location 2 is controllable by control unit 4, according to unlatching or the pass of Control of Voltage current protection unit 2
Disconnected, this will save more energy for system, makes system be in low power consumpting state.
In a preferred embodiment, control unit 4 includes:
Testing circuit 41, the voltage input end of testing circuit 41 forms the voltage acquisition end of control unit 4,
Connect voltage protection unit 3, in order to detect whether voltage falls, and output detections result.
In a preferred embodiment, control unit 4 also includes:
Single-chip microcomputer 45, connection detection circuit 41, in order to export corresponding control signal according to testing result.
In a preferred embodiment, single-chip microcomputer 45 is preset with the control signal of multiple fixed interval amplitude.
Use in the present embodiment and relax current protection threshold value, use voltage detecting, and by internal flexible
Single-chip microcomputer 45 from controlling to send the mode of signal amplitude, self adaptation power-supply system, excavate electric power system
Maximum potential, and protect electric power system.
In a preferred embodiment, control unit 4 also includes:
Digital Logical Circuits 42, the signal input part of Digital Logical Circuits 42 connects the control of single-chip microcomputer 45
Signal output part, the first signal output part of Digital Logical Circuits 42 forms the control end of control unit 4,
Connect the control end of current protection unit 2, in order to control being switched on or off of current protection unit 2, and
Output digit signals.
In a preferred embodiment, control unit 4 also includes:
Analog to digital conversion circuit 43, connects the digital signal output end of Digital Logical Circuits 42, in order to by number
Word signal is converted to analogue signal and exports.
In a preferred embodiment, control unit 4 also includes:
Out amplifier 44, connects the analog signal output of analog to digital conversion circuit 43, out amplifier
The analog signal output of 44 forms the signal output part of control unit 4, connects the letter of power amplifier 5
Number input, the digital signal input end of out amplifier 44 connects the second letter of Digital Logical Circuits 42
Number output, in order to analogue signal is amplified and sends to power amplifier 5, to control the defeated of analogue signal
Go out amplitude.
In a preferred embodiment, testing circuit 41 is in order to judge whether voltage drops to predeterminated voltage threshold
Value, and output detections result.
In a preferred embodiment, when Voltage Drop to predetermined voltage threshold, testing circuit 41 output is interrupted
Signal is to single-chip microcomputer 45.
Consider the statistics higher value of predetermined current threshold maximum power taking origin system in the present embodiment, for
The power supply of some different requirements, electric power system guarantees to release corresponding power, therefore in scheme
Add voltage detection portions.Voltage protection unit 3 not only can protect part itself by protective current, and
Can indirectly gather the magnitude of voltage of electric power system.Electric resistance partial pressure gathers the power supply electricity of current protection unit output
Pressure, and be connected to after filtering in the interrupt pin of single-chip microcomputer 45.When occurring output electric current relatively big, cause
During electric power system Voltage Drop, voltage protection unit 3 collects threshold signal, and is fed through control unit
4, generation interrupt signal is sent to single-chip microcomputer 45 by the testing circuit 41 of control unit 4, and carries out follow-up
Process.
If voltage does not drops to predetermined voltage threshold, single-chip microcomputer 45 produces phase by Digital Logical Circuits 42
The digital signal answered, by analog to digital conversion circuit 43 and out amplifier 44, finally through power amplifier 5
Input is to load.Current protection unit 2 can be done directly on power amplifier 5, and is controlled by single-chip microcomputer
The digital logic portion of 45, and the signal that voltage protection unit 3 is gathered will be sent to single-chip microcomputer 45 and carry out
Process.When Voltage Drop interrupts producing, and single-chip microcomputer 45 will be by Digital Logical Circuits 42 to analog digital conversion
The amplification of the signal amplification circuit after circuit 43 is controlled, thus controls the width of output signal
Degree, when amplitude output signal reduces, the signal arriving load also reduces with regard to corresponding, and now, load disappears
The power of consumption also just reduces, and has been finally reached the purpose of protection electric power system.
When Voltage Drop interrupt occur after, single-chip microcomputer 45 can use flexibly regulative mode to output signal
It is adjusted.As being divided into multiple shelves by sending signal amplitude, the interval between each shelves can spirit
The control lived, such as mono-gear of 3dB or 1.5dB.Single-chip microcomputer 45 controls to send signal and reduces every time
Fixing class or use the incipient stage to reduce transmission amplitude with large-spacing, after use closely-spaced reduction
The strategy of transmission amplitude, such that ensure that the speed of system convergence (will send signal with prestissimo
It is reduced to the scope that electric power system can be born), ensure again to be unlikely to send the too low of signal fall.Adopt
Control to send signal amplitude by the mode of software algorithm, system more motility will be made.
The advantage of the technical program has: can take the output high value of the bigger power supply of dynamic range, to the greatest extent
Possible excavation power supply potentiality, optimization power utilization rate;Protect voltage and current simultaneously;Protection is single
Mutually protecting between unit, system is safer;Can change by adaptive environment, send signal by regulation
The mode of amplitude adapts to load and power conditions;The mode using combination thereof can adapt to relatively Larger Dynamic
The practical situation of range of power, more flexibly;Add the independent control to rear class components of system as directed circuit.
The foregoing is only preferred embodiment of the present invention, not thereby limit embodiments of the present invention and
Protection domain, to those skilled in the art, it should can appreciate that all utilization description of the invention
And the equivalent done by diagramatic content and the scheme obtained by obvious change, all should comprise
Within the scope of the present invention.
Claims (10)
1. the optimal energy allocation system being applicable to dynamic power supplies, it is characterised in that including:
Power subsystem, in order to export electric current;
Current protection unit, the current input terminal of described current protection unit connects described power subsystem, uses
To export described electric current;
Power amplifier, the current input terminal of described power amplifier connects the electricity of described current protection unit
Stream outfan, in order to output;
Voltage protection unit, connects the voltage output end of described current protection unit, in order to gather described electricity
The output voltage of stream protected location, and export described voltage;
Control unit, the voltage acquisition end of described control unit connects described voltage protection unit, described control
The end that controls of unit processed connects the control end of described current protection unit, the signal output of described control unit
End connects the signal input part of described power amplifier, in order to according to current protection described in described Control of Voltage
Being switched on or off and the described power amplifier corresponding power of output of unit.
Being applicable to the optimal energy allocation system of dynamic power supplies the most as claimed in claim 1, its feature exists
In, described current protection unit uses the control circuit with feedback, in order to make the described electric current of output exist
In the range of predetermined current threshold.
Being applicable to the optimal energy allocation system of dynamic power supplies the most as claimed in claim 1, its feature exists
In, described control unit includes:
Testing circuit, the voltage input end of described testing circuit forms the voltage acquisition end of described control unit,
Connect described voltage protection unit, in order to detect whether described voltage falls, and output detections result.
Being applicable to the optimal energy allocation system of dynamic power supplies the most as claimed in claim 3, its feature exists
In, described control unit also includes:
Single-chip microcomputer, connects described testing circuit, in order to control letter accordingly according to the output of described testing result
Number.
Being applicable to the optimal energy allocation system of dynamic power supplies the most as claimed in claim 4, its feature exists
In, described single-chip microcomputer is preset with the control signal of multiple fixed interval amplitude.
Being applicable to the optimal energy allocation system of dynamic power supplies the most as claimed in claim 5, its feature exists
In, described control unit also includes:
Digital Logical Circuits, the signal input part of described Digital Logical Circuits connects the control of described single-chip microcomputer
Signal output part, the first signal output part of described Digital Logical Circuits forms the control of described control unit
End, connect the control end of described current protection unit, in order to control described current protection unit unlatching or
Turn off, and output digit signals.
Being applicable to the optimal energy allocation system of dynamic power supplies the most as claimed in claim 6, its feature exists
In, described control unit also includes:
Analog to digital conversion circuit, connects the digital signal output end of described Digital Logical Circuits, in order to by described
Digital signal is converted to analogue signal and exports.
Being applicable to the optimal energy allocation system of dynamic power supplies the most as claimed in claim 7, its feature exists
In, described control unit also includes:
Out amplifier, connects the analog signal output of analog-digital conversion circuit as described, and described output is amplified
The analog signal output of device forms the signal output part of described control unit, connects described power amplifier
Signal input part, the digital signal input end of described out amplifier connects described Digital Logical Circuits
Secondary signal exports, in order to described analogue signal to be amplified and to send to described power amplifier, to control
The output amplitude of described analogue signal.
Being applicable to the optimal energy allocation system of dynamic power supplies the most as claimed in claim 4, its feature exists
In, described testing circuit is in order to judge whether described voltage drops to predetermined voltage threshold, and output detections
Result.
It is applicable to the optimal energy allocation system of dynamic power supplies, its feature the most as claimed in claim 9
Being, when described Voltage Drop is to predetermined voltage threshold, described testing circuit output interrupt signal is to described
Single-chip microcomputer.
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CN201510109716.XA CN106033937B (en) | 2015-03-12 | 2015-03-12 | A kind of optimal energy allocation system suitable for dynamic power supplies |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111711469A (en) * | 2020-06-11 | 2020-09-25 | 钜泉光电科技(上海)股份有限公司 | Signal-to-noise ratio-based station area identification method and system, storage medium and STA node |
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CN2798109Y (en) * | 2005-01-12 | 2006-07-19 | 广凌科技股份有限公司 | Automatic DC power tester |
CN102832805A (en) * | 2011-05-18 | 2012-12-19 | 三星显示有限公司 | DC-DC converter, display device including the same and method of controlling driving voltage |
US20130294121A1 (en) * | 2005-08-18 | 2013-11-07 | On-Bright Electronics (Shanghai) Co., Ltd. | System and method providing over current and over power protection for power converter |
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2015
- 2015-03-12 CN CN201510109716.XA patent/CN106033937B/en active Active
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN2798109Y (en) * | 2005-01-12 | 2006-07-19 | 广凌科技股份有限公司 | Automatic DC power tester |
US20130294121A1 (en) * | 2005-08-18 | 2013-11-07 | On-Bright Electronics (Shanghai) Co., Ltd. | System and method providing over current and over power protection for power converter |
CN102832805A (en) * | 2011-05-18 | 2012-12-19 | 三星显示有限公司 | DC-DC converter, display device including the same and method of controlling driving voltage |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111711469A (en) * | 2020-06-11 | 2020-09-25 | 钜泉光电科技(上海)股份有限公司 | Signal-to-noise ratio-based station area identification method and system, storage medium and STA node |
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