CN105978367A - Power system based on load voltage feedback control - Google Patents

Abstract

The invention discloses a power system based on load voltage feedback control, relates to the technical field of power of intelligent traffic equipment, and aims to solve the technical problems that the power consumption is high, the frequency response speed is low, power-on overshoot is caused or voltage compensation lacks, particularly during power-on overshoot, no overshoot feedback is produced for timely informing a control chip of debugging, the output voltage logic is fixed, load feedback signals are difficult to acquire, the noise is high and the like in the prior art. The power system mainly comprises an input voltage conversion circuit, an intermediate adjusting circuit, an output voltage conversion circuit, an overshoot feedback adjusting circuit, a buffer circuit, a load group and a voltage control circuit, wherein the input voltage conversion circuit is used for receiving the output voltage of power; the intermediate adjusting circuit is used for receiving gain voltage output by the input voltage conversion circuit; the output voltage conversion circuit is used for voltage reduction modulation, comprises a linear compensation circuit, and is also used for receiving voltage signals output by the intermediate adjusting circuit and isolating and outputting direct current signals. The power system is used for providing a stable power structure of a traffic light array or other information display equipment.

Description

A kind of power-supply system based on load voltage feedback control

Technical field

The present invention relates to intelligent transportation power technique fields, be specifically related to a kind of based on load voltage feedback control Power-supply system.

Background technology

Prior art receives exchange input, the driving of some linear stable often through circuit of power factor correction Grid (base stage) the voltage meeting variation abnormality of pipe, causes the punching that powered on of linear stable.The most quick power supply Power on, the punching that powered on of linear stable can be caused, it can be seen that only use BOOST-BOOST and isolator Drawback.If overshoot voltage loads pressure voltage higher than it, rushing narrower in width even if crossing, also load can be caused cause The destruction of life property, reduces the reliability of power supply application；Input voltage is not always for stablize amplitude, for The power supply of BOOST-BUCK type, lacks the voltage compensation of the BUCK change-over circuit of correspondence, thus causes the next circuit Electricity shortage triggers restarts, and brings inconvenience.

If additionally, the electric current for driving gate terminal electric capacity is the least, load group's power consumption is big, then export NMOS Gate terminal voltage and output PMOS gate terminal voltage can not be according to the input voltage to input terminal Suddenly change and charge or discharge.This is just delayed response, and is therefore delayed the output from lead-out terminal The response of voltage.In order to make the output voltage from lead-out terminal that the input voltage of input terminal is quickly made sound Should, need increase for driving the gate terminal electric capacity of the output NMOS forming output part and output PMOS Electric current.But, because electric current always flows, hamper the reduction of power consumption.As it has been described above, because low-power consumption and Speedy carding process response is in trade-off relationship, it is difficult to realize meeting the buffer circuit of the two characteristic simultaneously.

Different systems needs different logic 1/0 threshold voltages.Being processor in some load, voltage is less than 5V means logical zero, and means logic 1 more than 15V, simultaneously in some loads as servo-driver, Voltage means logical zero less than 1V, and means logic 1 more than 4V, if now by processor directly with Servo-driver connects then can produce the biggest problem.

Summary of the invention

For above-mentioned prior art, present invention aim at providing a kind of power supply based on load voltage feedback control System, it is high that it aims to solve the problem that prior art exists power consumption, and frequency effect speed is slow, and powered on punching or shortage voltage Compensate, particularly powered on rush time, control chip carries out debugging, exporting not to have punching feedback to notify in time Voltage logic is fixed and load feedback signal gathers the technical problems such as difficult, noise is big.

For reaching above-mentioned purpose, the technical solution used in the present invention is as follows:

A kind of power-supply system based on load voltage feedback control, including power supply, also includes input voltage conversion electricity Road, receives the output voltage of power supply；Middle rank regulation circuit, receives the gain electricity of input voltage switching circuit output Pressure；Output voltage change-over circuit, modulates for blood pressure lowering, including linear compensation circuit, receives middle rank regulation The voltage signal of circuit output isolation and amplifier direct current signal；Cross and rush feedback regulating circuit, received the direct current of punching Signal, and fed back rush signal to output voltage change-over circuit and middle rank regulation circuit；Described voltage signal is Big voltage magnitude scope is less than two times of amplitudes of gain voltage；Digital input circuit, receives buffer circuit output D. c. voltage signal；Voltage control circuit, receives the voltage input signal of load group's feedback；Processor, receives The output signal of voltage control circuit also controls power supply.

In such scheme, described input voltage switching circuit, including the first programmable controller, it is used for the tune that boosts System；First field effect transistor, is used for the modulation switch that boosts, and receives the output voltage of power supply, receives by the first programming The Phase synchronization modulating clock that controller is exported relative to electric power output voltage.

In such scheme, described input voltage switching circuit, also include the first inductance, its one end connects power supply And the other end connects the first field effect transistor；First diode, its high electrode connects the first field effect transistor；Two or two Pole is managed, and its high electrode connection power supply and low electrode connect the low electrode of the first diode.

In such scheme, described middle rank regulation circuit, including the second programmable controller, adjust for voltage pulse width System；Second field effect transistor, receives the gain voltage of input voltage switching circuit output, receives the second programming Control Device output pulsewidth modulation clock and export limit pulsewidth voltage signal；Second inductance, to the electricity limiting pulsewidth Pressure signal filtering；First electric capacity, the voltage signal lowest amplitude after compensation filter.

In such scheme, described middle rank regulation circuit, also include the first Zener diode, its low electrode connects Second field effect transistor and high electrode ground connection；3rd field effect transistor, receives the charging letter of the second programmable controller output Number clock also compensates the electric charge of the first electric capacity.

In such scheme, described output voltage change-over circuit, including the 3rd programmable controller, adjust for blood pressure lowering System；4th field effect transistor and the 5th field effect transistor, the 4th field effect transistor source electrode connects the 5th field effect transistor drain electrode, And all receive the blood pressure lowering modulating clock of the 3rd programmable controller output；Second electric capacity and the 3rd electric capacity, be serially connected, And vacant end is respectively connecting to the 4th field effect transistor and the 5th field effect transistor；4th field effect transistor, the 5th effect Ying Guan, the second electric capacity and the 3rd electric capacity are by isolator, the 3rd diode and the 4th diode output direct current signal.

In such scheme, described output voltage change-over circuit, its linear compensation circuit includes the 4th electric capacity, its One end ground connection and the other end connect the drain electrode of the 4th field effect transistor；5th diode, its high electrode ground connection and low electricity Pole connects the drain electrode of the 4th field effect transistor；6th diode, its high electrode ground connection and low electrode connect the 4th effect Should the source electrode of pipe；7th diode, its high electrode ground connection and low electrode connect the source electrode of the 5th field effect transistor.

In such scheme, described mistake rushes feedback regulating circuit, and including the second Zener diode, its low electrode connects Received the direct current signal of punching；Optical coupler, its luminous tube high electrode connects high electrode and the light of the second Zener diode Quick pipe fed back and rushed signal to output voltage change-over circuit and middle rank regulation circuit.

Described buffer circuit, including

Output unit, described output unit has lead-out terminal, and described lead-out terminal is based on input for output The output signal of input signal, wherein

In such scheme, described output unit includes: the first transistor, and it has and is connected to described lead-out terminal A main electrode；And transistor seconds, it has and is connected to described lead-out terminal and is connected to described One main electrode of the one main electrode of the first transistor, and described buffer circuit includes: the 3rd crystal Pipe, for reducing the voltage controlling electrode of described the first transistor based on described input signal；4th transistor, For increasing the voltage controlling electrode of described transistor seconds based on described input signal；First voltage difference detection Circuit, for detecting described output signal voltage difference on the basis of described input signal；Second voltage difference detection Circuit, for detecting described input signal voltage difference on the basis of described output signal；First electric current provides single Unit, for absolute value based on the voltage difference detected by described first voltage difference detection circuits, increases described The electric current of flowing in third transistor；And second electric current provide unit, for based on by described second voltage difference The absolute value of the voltage difference that testing circuit is detected, increases the electric current of flowing in described 4th transistor.

In such scheme, described digital input circuit, including bleeder circuit, comparison circuit and reference voltage electricity Road, described bleeder circuit is sent to comparison circuit after serial signal amplitude limit；Described reference voltage circuit to Comparison circuit provides the anti-phase reference voltage that can change；Described comparison circuit, its outfan is also associated with 8 bit flash memory single-chip microcomputers of RISC Architecture；Described reference voltage circuit, including single-pole double-throw switch (SPDT)；Described Digital input circuit is also associated with loading group.

In such scheme, described voltage control circuit, including a gain amplification module, according to an input signal Produce an amplification signal；One voltage clamp module, is coupled in this gain amplification module, clamps down on this amplification signal Current potential is in a preset range, to produce a voltage clamp signal；And a gain control module, it is coupled in this electricity Pressing tongs molding block, is used for selecting signal and this voltage clamp signal according to one, produces an output signal；This voltage Clamping down on module to comprise, an electric capacity, one the first end is coupled to this gain amplification module, to receive this amplification signal； And one upper voltage limit clamp down on module, its one end is coupled to one second end of this electric capacity, so that the electricity of this amplification signal Position is limited to a upper boundary potential.

Compared with prior art, beneficial effects of the present invention:

Provide the BOOST-BUCK power supply architecture that there is voltage compensation, cross punching feedback, improve the conversion of power supply Efficiency, drives the output of structure to provide stable linear compensation blood pressure lowering modulation field effect transistor, is obviously reduced The noise introduced due to nonlinear device (such as isolator, inductance), power supply output is more stable, substantially eliminates Phenomenon or the waveform jitter phenomenon caused due to overshoot current is constantly restarted due to what electricity shortage caused；Reduce The noise of load feedback signal；Realize meeting reduction power consumption and the switching rate spy with mutual trade-off relationship simultaneously The buffer circuit of property；Threshold voltage logic can provide different reference voltage, and threshold voltage logic 1/0 is adjustable.

Accompanying drawing explanation

Fig. 1 is the circuit module schematic diagram of the present invention；

Fig. 2 is the circuit theory schematic diagram of the present invention；

Fig. 3 is buffer circuit principle schematic of the present invention；

Fig. 4 is voltage control circuit principle schematic of the present invention.

Detailed description of the invention

All features disclosed in this specification, or disclosed all methods or during step, except mutually Beyond the feature repelled and/or step, all can combine by any way.

The present invention will be further described below in conjunction with the accompanying drawings:

Embodiment 1

Described input voltage switching circuit, including the first programmable controller, is used for modulation of boosting；First effect Should pipe Q1, be used for the modulation switch that boosts, receive the output voltage of power supply, receive relative by the first programmable controller In the Phase synchronization modulating clock that electric power output voltage is exported.

Described input voltage switching circuit, also includes the first inductance L1, and its one end connects power supply and the other end connects Connect the first field effect transistor Q1；First diode D3, its high electrode connects the first field effect transistor Q1；Second diode D2, its high electrode connection power supply and low electrode connect the low electrode of the first diode D3.

Described middle rank regulation circuit, including the second programmable controller, for voltage PWM；Second effect Should pipe Q2, receive input voltage switching circuit output gain voltage, receive second programmable controller output arteries and veins Wide modulating clock also exports the voltage signal limiting pulsewidth；Second inductance L2, to the voltage signal filter limiting pulsewidth Ripple；First electric capacity C1, the voltage signal lowest amplitude after compensation filter.

Described middle rank regulation circuit, also includes the first Zener diode D4, and its low electrode connects the second field effect Pipe Q2 and high electrode ground connection；3rd field effect transistor Q3, receives the charging signals clock of the second programmable controller output And compensate the electric charge of the first electric capacity C1.

Described output voltage change-over circuit, including the 3rd programmable controller, modulates for blood pressure lowering；4th effect Should pipe Q4 and the 5th field effect transistor Q5, the 4th field effect transistor Q4 source electrode connects the 5th field effect transistor Q5 drain electrode, and all Receive the blood pressure lowering modulating clock of the 3rd programmable controller output；Second electric capacity C2 and the 3rd electric capacity C3, is serially connected, And vacant end is respectively connecting to the 4th field effect transistor Q4 and the 5th field effect transistor Q5；4th field effect transistor Q4, Five field effect transistor Q5, the second electric capacity C2 and the 3rd electric capacity C3 pass through isolator T1, the 3rd diode D6 and the four or two Pole pipe D7 exports direct current signal.

Described output voltage change-over circuit, its linear compensation circuit includes the 4th electric capacity C5, one end ground connection and The other end connects the drain electrode of the 4th field effect transistor Q4；5th diode D11, its high electrode ground connection and low electrode are even Connect the drain electrode of the 4th field effect transistor Q4；6th diode D9, its high electrode ground connection and low electrode connect the 4th effect Should the source electrode of pipe Q4；7th diode D10, its high electrode ground connection and low electrode connect the 5th field effect transistor Q5 Source electrode.

Described mistake rushes feedback regulating circuit, and including the second Zener diode D8, its low electrode received punching Direct current signal；Optical coupler U1, its luminous tube high electrode connects the high electrode of the second Zener diode D8 and photosensitive Pipe fed back and rushed signal to output voltage change-over circuit and middle rank regulation circuit.

Embodiment 2

The lead-out terminal " Vo " of buffer circuit connects source terminal and the output having output nmos transistor m1 The source terminal of PMOS transistor m2, forms push-pull type output circuit.In the following description, in order to simply For the sake of, each MOS transistor is referred to as NMOS or PMOS.Form the output NMOS m1 of output circuit Drain terminal be connected with power supply.Gate terminal with from power supply provide electric current current/charge-voltage convertor 21, Connect with the source terminal of PMOS m3.Respectively, the drain terminal of PMOS m3 is connected with reference potential, and And gate terminal is connected with input terminal " Vout ".In the present embodiment, below execution as described later Operation: by operation of current/charge-voltage convertor 21 etc., be input to input terminal in response to lifting The input voltage of " Vout " promotes the output voltage to export from lead-out terminal " Vo ".Form another output The drain terminal of the output PMOS m2 of circuit is connected with reference potential, gate terminal and Voltage-current conversion electricity Road 22 connects, and described current/charge-voltage convertor 22 provides to the source terminal of reference potential and NMOS m4 Electric current.Respectively, the drain terminal of NMOS m4 is connected with power supply, and gate terminal and input terminal " Vout " connects.In the present embodiment, following operation is performed: by the behaviour of current/charge-voltage convertor 22 Making etc., being input to that the input voltage of input terminal " Vout " reduces in response to reduction will be from lead-out terminal The output voltage that " Vo " exports.Voltage difference detection circuits 10, input terminal " Vout " and outfan are provided Son " Vo " is connected with described voltage difference detection circuits 10.Voltage difference detection circuits 10 detects input terminal Voltage difference between the output voltage Vo of the input voltage Vout of " Vout " and lead-out terminal " Vo ".

Voltage difference detection circuits 10 includes differential amplifier circuit 11 and differential amplifier circuit 12.Such as Fig. 1 Shown in, with the input signal inputted with differential amplifier circuit 12 and the opposite polarity polarity of output signal Described input signal and output signal is inputted to differential amplifier circuit 11.From differential amplifier circuit 11 Output be connected with current/charge-voltage convertor 21, and from differential amplifier circuit 12 output with electricity Piezo-electric stream change-over circuit 22 connects.

Embodiment 3

Described reference voltage circuit includes a single-pole double-throw switch (SPDT), and the switching of this switch can turn on preset First anti-phase reference voltage or the connection of the second anti-phase reference voltage, thus this first anti-phase reference that will be connected Voltage or this second anti-phase reference voltage provide to described comparison circuit, as in order to determine the anti-phase of logic 1/0 Reference voltage.

Embodiment 4

Fig. 4, in addition to gain amplification module 110 with gain control module 120, voltage control circuit 200 additionally comprises One voltage clamp module 220, and voltage clamp module 220 comprises an electric capacity C2, a upper voltage limit clamps down on module 230 And one lower voltage limit clamp down on module 240.The purpose of design of voltage clamp module 220 is to will be located in one end of electric capacity C2 The current potential of node Vx clamp down in a preset range, so that the gain control molding of rear end receiving node Vx current potential Block 120 too do not charged because of node Vx or too electric discharge and produce the output signal with surging, the wherein upper limit Voltage clamp module 230 is used for the current potential of node Vx is limited in a below upper boundary potential of upper voltage limit source V2, And lower voltage limit clamps down on module 240 for the current potential of node Vx is limited in a bottom boundary potential of lower limit voltage source V1 Above, and voltage clamp module 220 is powered by direct voltage source VDD.

The above, the only detailed description of the invention of the present invention, but protection scope of the present invention is not limited thereto, Any those skilled in the art of belonging in the technical scope that the invention discloses, the change that can readily occur in Or replace, all should contain within protection scope of the present invention.

Claims (10)

1. a power-supply system based on load voltage feedback control, including power supply, it is characterised in that also include

Input voltage switching circuit, receives the output voltage of power supply；

Middle rank regulation circuit, receives the gain voltage of input voltage switching circuit output；

Output voltage change-over circuit, modulates for blood pressure lowering, including linear compensation circuit, receives middle rank regulation The voltage signal of circuit output isolation and amplifier direct current signal；

Cross and rush feedback regulating circuit, received punching direct current signal, and fed back rush signal to output voltage change Circuit and middle rank regulation circuit；

Buffer circuit, is used for balance the load power consumption and frequency corresponding speed, receives the output of output voltage change-over circuit Direct current signal；

Digital input circuit, receives the d. c. voltage signal of buffer circuit output；Described digital input circuit is also Connect and have load group；

Voltage control circuit, receives the voltage input signal of load group's feedback；

Processor, receives the output signal of voltage control circuit and controls power supply.

A kind of power-supply system based on load voltage feedback control the most according to claim 1, its feature exists In, described input voltage switching circuit, including

First programmable controller, is used for modulation of boosting；

First field effect transistor, is used for the modulation switch that boosts, and receives the output voltage of power supply, receives by the first programming The Phase synchronization modulating clock that controller is exported relative to electric power output voltage.

A kind of power-supply system based on load voltage feedback control the most according to claim 2, its feature exists In, described input voltage switching circuit, also include

First inductance, its one end connects power supply and the other end connects the first field effect transistor；

First diode, its high electrode connects the first field effect transistor；

Second diode, its high electrode connection power supply and low electrode connect the low electrode of the first diode.

A kind of power-supply system based on load voltage feedback control the most according to claim 1, its feature exists In, described middle rank regulation circuit, including

Second programmable controller, for voltage PWM；

Second field effect transistor, receives the gain voltage of input voltage switching circuit output, receives the second programming Control Device output pulsewidth modulation clock and export limit pulsewidth voltage signal；

Second inductance, to the voltage signal filtering limiting pulsewidth；

First electric capacity, the voltage signal lowest amplitude after compensation filter.

A kind of power-supply system based on load voltage feedback control the most according to claim 4, its feature exists In, described middle rank regulation circuit, also include

First Zener diode, its low electrode connects the second field effect transistor and high electrode ground connection；

3rd field effect transistor, receives the charging signals clock of the second programmable controller output and compensates the first electric capacity Electric charge.

A kind of power-supply system based on load voltage feedback control the most according to claim 1, its feature exists In, described output voltage change-over circuit, including

3rd programmable controller, modulates for blood pressure lowering；

4th field effect transistor and the 5th field effect transistor, the 4th field effect transistor source electrode connects the 5th field effect transistor drain electrode, And all receive the blood pressure lowering modulating clock of the 3rd programmable controller output；

Second electric capacity and the 3rd electric capacity, be serially connected, and vacant end is respectively connecting to the 4th field effect transistor and Five field effect transistor；

4th field effect transistor, the 5th field effect transistor, the second electric capacity and the 3rd electric capacity pass through isolator, the three or two pole Pipe and the 4th diode output direct current signal.

A kind of power-supply system based on load voltage feedback control the most according to claim 1, its feature exists In, described buffer circuit, including

Output unit, described output unit has lead-out terminal, and described lead-out terminal is based on input for output The output signal of input signal, wherein

Described output unit includes:

The first transistor, it has the main electrode being connected to described lead-out terminal；And

Transistor seconds, it has and is connected to described lead-out terminal and is connected to the institute of described the first transistor State a main electrode of a main electrode, and

Described buffer circuit includes:

Third transistor, for reducing the electricity controlling electrode of described the first transistor based on described input signal Pressure；

4th transistor, for increasing the electricity controlling electrode of described transistor seconds based on described input signal Pressure；

First voltage difference detection circuits, for detecting described output signal voltage on the basis of described input signal Difference；

Second voltage difference detection circuits, for detecting described input signal voltage on the basis of described output signal Difference；

First electric current provides unit, for based on the voltage difference detected by described first voltage difference detection circuits Absolute value, increases the electric current of flowing in described third transistor；And

Second electric current provides unit, for based on the voltage difference detected by described second voltage difference detection circuits Absolute value, increases the electric current of flowing in described 4th transistor.

A kind of power-supply system based on load voltage feedback control the most according to claim 1, its feature exists In, described mistake rushes feedback regulating circuit, including

Second Zener diode, its low electrode received the direct current signal of punching；

Optical coupler, its luminous tube high electrode connects the high electrode of the second Zener diode and photosensitive tube fed back punching letter Number to output voltage change-over circuit and middle rank regulation circuit.

A kind of power-supply system based on load voltage feedback control the most according to claim 1, its feature exists In, described digital input circuit, including bleeder circuit, comparison circuit and reference voltage circuit,

Described bleeder circuit is sent to comparison circuit after serial signal amplitude limit；

Described reference voltage circuit provides the anti-phase reference voltage that can change to comparison circuit；Described comparison Circuit, its outfan is also associated with 8 bit flash memory single-chip microcomputers of RISC Architecture；

Described reference voltage circuit, including single-pole double-throw switch (SPDT).

A kind of power-supply system based on load voltage feedback control the most according to claim 1, its feature It is, described voltage control circuit, including

One gain amplification module, produces an amplification signal according to an input signal；

One voltage clamp module, is coupled in this gain amplification module, and the current potential clamping down on this amplification signal makes a reservation in one In the range of, to produce a voltage clamp signal；

And a gain control module, it is coupled in this voltage clamp module, is used for selecting signal and this voltage according to one Clamp down on signal, produce an output signal；

This voltage clamp module comprises, an electric capacity, and one the first end is coupled to this gain amplification module, to receive This amplification signal；

And one upper voltage limit clamp down on module, its one end is coupled to one second end of this electric capacity, so that this amplification signal Current potential be limited to a upper boundary potential.