CN104779694B - The uninterrupted high frequency switch power of high energy efficiency in ATM - Google Patents
The uninterrupted high frequency switch power of high energy efficiency in ATM Download PDFInfo
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- CN104779694B CN104779694B CN201510118270.7A CN201510118270A CN104779694B CN 104779694 B CN104779694 B CN 104779694B CN 201510118270 A CN201510118270 A CN 201510118270A CN 104779694 B CN104779694 B CN 104779694B
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- Y—GENERAL 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
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- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/70—Hybrid systems, e.g. uninterruptible or back-up power supplies integrating renewable energies
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Abstract
The present invention provide ATM in the uninterrupted high frequency switch power of high energy efficiency, including by civil power be converted into ATM needs galvanic current main power circuit;Also include protection circuit, described protection circuit provides the backup battery of power supply in civil power power down for ATM in time.The present invention is after above-mentioned technical proposal is employed, uninterrupted control switching circuit is detected due to adding AC dump, if detecting power-off signal, MCU control circuit can export corresponding signal at once, backup battery is triggered through isolation control circuit or solar energy-electric energy seamless switching control circuit is powered to BUCK mu balanced circuits, the DC bus voltage of conversion output when exchanging normal is substituted with this, so as to ensure ATM power supply uninterrupted power supplies.
Description
Technical field
The present invention relates to high frequency switch power field, and in particular to the high energy efficiency in ATM uninterruptedly switches HF switch
Power supply.
Background technology
Traditional ATM power supplys are that a kind of utilize is exchanged after input rectifying filtering, then are become through PWM pulse width modulation controlleds DC/DC
The power supply for reaching output voltage stabilization is changed, mainly has the advantages that cost is low.It has the disadvantage that efficiency only has 80% or so, in addition,
When using such power supply, if in the case that client operates just on ATM, unexpected alternating current power failure or power failure are then objective
The economic loss at family can not be guaranteed, and inconvenience is brought to client, because such ATM power modules efficiency comparison is low, be damaged
Consume big long-term work and then cause at least following harmful effect:1st, the lost of life of device is so as to influence machine life;2nd, it is unrestrained
Take electric power resource;3rd, alternating current power failure or power failure are unable to uninterrupted power supply.
The content of the invention
The present invention, in AC dump, may allow for current ATM power supplys and produce economic damage using the client of ATM
Mistake etc. is not enough, and there is provided the uninterrupted high frequency switch power of high energy efficiency in a kind of ATM.
The present invention is in order to realize that the technology that its goal of the invention is used is:The uninterrupted high frequency switch power of high energy efficiency in ATM,
Including the main power circuit for the galvanic current that civil power is converted into ATM needs;The output warp of described main power circuit
BUCK mu balanced circuits are crossed to power to ATM;Also include protection circuit, described protection circuit is ATM in time in civil power power down
Machine provides the backup battery of power supply;Including battery and control switching circuit;
The power output end of described battery connects described BUCK voltage stabilizings electricity under described control switching circuit control
Road;
Described control switching circuit includes AC power-fail detection circuits, microprocessor, battery control switching circuit;Described
AC power-fail detection circuits are electrically connected with city, and power-off signal is produced when civil power power down and is output to microprocessor, described microprocessor
Device controls battery control switching circuit by the output of the input access battery of BUCK mu balanced circuits.
Further, in above-mentioned ATM in the uninterrupted high frequency switch power of high energy efficiency:Described main power circuit includes the
One-level current rectifying and wave filtering circuit, DC/DC circuits and second level current rectifying and wave filtering circuit;
The direct current of described first order current rectifying and wave filtering circuit output enters second level rectification after the decompression of DC/DC circuits
Filter circuit produces galvanic current;
Described DC/DC circuits are the main power conversion circuits of open loop half-bridge DC/DC, the main power conversions of open loop half-bridge DC/DC
The output end for the pwm control circuit that the pwm control signal input termination of circuit is controlled by microprocessor.
Further, in above-mentioned ATM in the uninterrupted high frequency switch power of high energy efficiency:Described first order rectifying and wave-filtering electricity
Road, including bridge rectifier and PFC filter circuits;The ac input end of described bridge rectifier connects civil power, and it is exported
The input of the described PFC filter circuits of termination, PFC filter circuits output end produces 400V DC voltages.
Further, in above-mentioned ATM in the uninterrupted high frequency switch power of high energy efficiency:Civil power is being input to described bridge-type
Transformer is additionally provided with before rectification circuit, the armature winding of described transformer connects civil power, and secondary windings connects described bridge-type
The ac input end of rectification circuit.
Further, in above-mentioned ATM in the uninterrupted high frequency switch power of high energy efficiency:In described transformer secondary output winding
End also exports the alternating current being delayed all the way and used for described ATM peripheral equipment.
Further, in above-mentioned ATM in the uninterrupted high frequency switch power of high energy efficiency:Connect and bridge rectifier in secondary windings
EMI filter circuit is additionally provided between the ac input end of circuit.
Further, in above-mentioned ATM in the uninterrupted high frequency switch power of high energy efficiency:Described AC power-fail detection circuit bags
Include the first diode, the second diode, the first divider resistance, the second divider resistance, the first filter capacitor, the second filter capacitor and
First voltage-stabiliser tube;
The first described diode and the anode of the second diode connect the L lines and N lines of AC power supplies, the described the 1st respectively
Pole pipe and the connection of the second diode cathode;
The first described divider resistance and the second divider resistance series winding, first described in another termination of the first divider resistance
Diode and the second diode cathode junction, the other end ground connection of the second divider resistance;
The first described filter capacitor and the second filter capacitor series winding, another pole of the first filter capacitor connects described first
At divider resistance and the second divider resistance series connection, another pole ground connection of the second filter capacitor;
The negative electrode of the first described voltage-stabiliser tube is connect at described the first filter capacitor and the second filter capacitor series connection, the
The plus earth of one voltage-stabiliser tube;
The negative electrode of the first described voltage-stabiliser tube is the output end of described AC power-fail detection circuits, connects described processor
Respective pins.
Further, in above-mentioned ATM in the uninterrupted high frequency switch power of high energy efficiency:In described control switching circuit also
Input overvoltage, undervoltage detection circuit including carrying out over-pressed, under-voltage detection to input AC;Described input is over-pressed, under-voltage detection
Circuit includes the 3rd diode, the 4th diode, the 3rd divider resistance, the 4th divider resistance, the 5th divider resistance, the 6th partial pressure
Resistance, the 3rd filter capacitor, the 4th filter capacitor, the 5th filter capacitor and the second voltage-stabiliser tube;
The 3rd described diode and the anode of the 4th diode connect the L lines and N lines of AC power supplies, the described the 3rd 2 respectively
Pole pipe and the connection of the 4th diode cathode;
Described the 3rd divider resistance, the 4th divider resistance, the 5th divider resistance, the 6th divider resistance are contacted successively, and
The 3rd diode and the 4th diode cathode junction described in another termination of three divider resistances, the 6th divider resistance it is another
End ground connection;
Described the 3rd filter capacitor, the 4th filter capacitor, the 5th filter capacitor are connected respectively to the 3rd described partial pressure
At resistance and the 4th divider resistance series connection, at the 4th divider resistance and the 5th divider resistance series connection, the 5th partial pressure electricity
At resistance and the 6th divider resistance series connection between ground;
The negative electrode of the second described voltage-stabiliser tube is connect at described the 5th divider resistance and the 6th divider resistance series connection, the
The plus earth of two voltage-stabiliser tubes;
The negative electrode of the second described voltage-stabiliser tube is described input overvoltage, the output end of undervoltage detection circuit, connects described
The respective pins of processor.
Further, in above-mentioned ATM in the uninterrupted high frequency switch power of high energy efficiency:In described control switching circuit also
Including temperature sensing circuit, described temperature sensing circuit includes setting thermistor, the 7th divider resistance on a heat sink
With the 6th filter capacitor;
Described thermistor and the 7th divider resistance are contacted, and the other end of thermistor and the 7th divider resistance connects respectively
Standard positive voltage and ground;
The two ends of the 6th described filter capacitor connect at described thermistor and the 7th divider resistance series connection respectively
Between ground;
It is the temperature signal output end of temperature sensing circuit at described thermistor and the 7th divider resistance series connection
Connect the respective pins of described processor.
Further, in above-mentioned ATM in the uninterrupted high frequency switch power of high energy efficiency:Described thermistor is negative temperature
The thermistor of coefficient.
The present invention detects uninterrupted switching control electricity after above-mentioned technical proposal is employed due to adding AC dump
Road, if detecting power-off signal, MCU control circuit can export corresponding signal at once, and standby is triggered through isolation control circuit
Battery or solar energy-electric energy seamless switching control circuit powered to BUCK mu balanced circuits, substituted with this exchange it is normal when convert it is defeated
The DC bus voltage gone out, so as to ensure ATM power supply uninterrupted power supplies.
Below by technical scheme is described in more detail with accompanying drawing in conjunction with specific embodiments.
Brief description of the drawings
Shown in Fig. 1 is the block diagram of the embodiment of the present invention 1.
Fig. 2 is 1AC power-fail detection circuit schematic diagrams of the embodiment of the present invention.
Fig. 3 is that the embodiment of the present invention 1 inputs overvoltage, undervoltage detection circuit schematic diagram.
Fig. 4 is the temperature sensing circuit schematic diagram of the embodiment of the present invention 1.
Fig. 5 is the specifically control circuit theory diagrams of the embodiment of the present invention 1.
Embodiment
Embodiment 1 is as shown in Figure 1:The present embodiment is the efficient uninterrupted high frequency switch power of ATM a kind of, as shown in Figure 1:
The Switching Power Supply includes input transformer, input EMI, rectification, PFC power factor correctings, filtering, the conversion of open loop DC/DC material gains
Uninterrupted control switching circuit is detected with pwm control circuit, protection circuit, AC dump.
When alternating current is by input transformer armature winding, required alternating voltage, warp are induced on the secondary winding
Final required DC bus voltage is converted to after over commutation circuit, filter circuit and control circuit.
The effect of EMI filtering is the interference for filtering out the high-frequency signal in power network to ATM, by being carried out after bridge rectifier
PFC power factor correctings, filtering produce 400V dc source.
Circuit is controlled to include mu balanced circuit, protection circuit.Due to having PFC boost voltage stabilizing primary forceful electric power side, work as change
The secondary alternating voltage of depressor is rectified, turn into the metastable 400V dc bus electricity changed with input voltage after filtering
Pressure, this DC bus voltage will be output to next stage BUCK mu balanced circuits and power.BUCK mu balanced circuits are included by metal-oxide-semiconductor and precision
Voltage negative feedback circuit is constituted.By the voltage and its internal base of accurate voltage negative-feedback circuit sampling BUCK circuit output end of pressure-stabilizing
Quasi- voltage is made comparisons, and then the control pole tension VGS of output signal control metal-oxide-semiconductor makes its drain current IDS make change.When straight
When flowing bus voltage by BUCK mu balanced circuits, because output voltage is fixed by the Feedback Design value of accurate voltage-stabilizing circuit,
And less than the minimum point of input bus voltage, so that the purpose of the regulated output voltage needed for reaching.The protection control electricity
Road includes input overvoltage protection, input undervoltage protection, output over-voltage protection, output overcurrent protection and overheat protector.It is characterized in that,
When detection electric circuit inspection to input, go out voltage higher or lower than range of nominal tension value, output current higher than rated value and power supply
When module temperature rise is higher than rated value, the signal of shut-off output voltage is provided, it is ensured that ATM power modules and be powered equipment and do not damaged
It is bad.
AC power-fail detection circuits are as shown in Figure 2 in the present embodiment:Including the first diode D1, the second diode D2, first
Divider resistance R1, the second divider resistance R2, the first filter capacitor C1, the second filter capacitor C2 and the first voltage-stabiliser tube ZD1;
First diode D1 and the second diode D2 anode connect the L lines and N lines of AC power supplies, the one or two described pole respectively
Pipe D1 and the connection of the second diode D2 negative electrodes;AC output rectification is introduced into circuit by D1 and D2,
First divider resistance R1 and the second divider resistance R2 series windings, the first divider resistance R1 diode of another termination first
D1 and the second diode D2 negative electrodes junction, the second divider resistance R2 other end ground connection;Two resistance are to be pressed into AC height
It is suitable for processor processing after row partial pressure.
First filter capacitor C1 and the second filter capacitor C2 series windings, the first filter capacitor C1 another pole connects the first partial pressure electricity
Hinder at R1 and the second divider resistance R2 series connections, the second filter capacitor C2 another pole ground connection;
First voltage-stabiliser tube ZD1 negative electrode is connect at described the first filter capacitor C1 and the second filter capacitor C2 series connections,
First voltage-stabiliser tube ZD1 plus earth;
First voltage-stabiliser tube ZD1 negative electrode is the output end of described AC power-fail detection circuits, connects the phase of described processor
Answer pin, progress within a processor be able to will be obtained after handling AC whether the signal of power down.
The input for also including carrying out over-pressed, under-voltage detection to input AC in control switching circuit in the present embodiment is over-pressed, deficient
Pressure detection circuit;Input overvoltage, undervoltage detection circuit are similar to AC power-fail detection circuits, are also to be carried out entirely by two diodes
After ripple rectification, then partial pressure and filtering are carried out, AC voltage fact is detected to be input in processor judged, Ran Houzai
According to the result output control signal of judgement.
As shown in figure 3, input overvoltage, undervoltage detection circuit include the 3rd diode D3, the 4th diode D4, the 3rd partial pressure
Resistance R3, the 4th divider resistance R4, the 5th divider resistance R5, the 6th divider resistance R6, the 3rd filter capacitor C3, the 4th filtered electrical
Hold C4, the 5th filter capacitor C5 and the second voltage-stabiliser tube ZD2;
3rd diode D3 and the 4th diode D4 anode connects the L lines and N lines of AC power supplies, the three or two described pole respectively
Pipe D3 and the connection of the 4th diode D4 negative electrodes;
3rd divider resistance R3, the 4th divider resistance R4, the 5th divider resistance R5, the 6th divider resistance R6 contact successively,
The 3rd diode D3 and the 4th diode D4 negative electrodes junction described in 3rd divider resistance R3 another termination, the 6th partial pressure electricity
Hinder R6 other end ground connection;
3rd filter capacitor C3, the 4th filter capacitor C4, the 5th filter capacitor C5 are connected respectively to the 3rd described partial pressure
At resistance R3 and the 4th divider resistance R4 series connections, at the 4th divider resistance R4 and the 5th divider resistance R5 series connections,
At five divider resistance R5 and the 6th divider resistance R6 series connections between ground;
Second voltage-stabiliser tube ZD2 negative electrode is connect at described the 5th divider resistance R5 and the 6th divider resistance R6 series connections,
Second voltage-stabiliser tube ZD2 plus earth;
Second voltage-stabiliser tube ZD2 negative electrode is described input overvoltage, the output end of undervoltage detection circuit, connects described processing
The respective pins of device.
Also have in the present embodiment temperature sensing circuit such as Fig. 4 include setting thermistor TR1 on a heat sink, the 7th point
Piezoresistance R7 and the 6th filter capacitor C6;
Thermistor TR1 and the 7th divider resistance R7 contacts, thermistor TR1 and the 7th divider resistance the R7 other end point
Standard positive voltage and ground are not connect;
6th filter capacitor C6 two ends connect at thermistor TR1 and the 7th divider resistance (R7) series connection and ground respectively
Between;
Terminated at thermistor TR1 and the 7th divider resistance R7 series connections for the temperature signal output of temperature sensing circuit
The respective pins of described processor.
The alternating current of input is after EMI is filtered, then by bridge rectifier, pfc circuit and filtering, open loop half-bridge DC/DC
Main material gain conversion, output rectification filter reach required DC bus voltage, and DC bus voltage gives BUCK circuits one respectively again
Group, two groups of BUCK circuits, three groups of BUCK circuits are powered.When exchanging unexpected power down, at this moment AC power-fail detection circuits are acted immediately, will
Signal delivers to MCU control module analyzing and processing, then triggers battery handover management circuit, and band bus DC voltage is replaced with this, is
This high energy efficiency uninterruptedly switches the operation principle of power supply ATM power supplys.
Present invention employs following technology:AC dump is detected and MCU control technologies, seamless switching technique, input voltage
Linear signal acquisition technique, and perfect protection technique.
It is whole including exchange delay output, EMI filtering, bridge-type that high energy efficiency as shown in Figure 1 uninterruptedly switches power supply ATM power supplys
Stream, pfc circuit and filtering, open loop DC/DC power conversions, output rectification filter, DC bus voltage, one group of BUCK circuits,
Two groups of BUCK circuits, three groups of BUCK circuits, pwm control circuit, protection control circuit, AC power-fail detection circuits, MCU control module
With battery handover management circuit.Protection control circuit includes input over under-voltage protection circuit, output over under-voltage protection circuit, output
Current foldback circuit, output short circuit protection circuit and power module thermal-shutdown circuit.The friendship induced due to transformer secondary output
The DC bus voltage that stream voltage X is converted into after rectification circuit and filter circuit, this voltage passes through by metal-oxide-semiconductor and precision electricity
Press the BUCK mu balanced circuits of negative-feedback circuit composition, the voltage of accurate voltage negative-feedback circuit sampling BUCK circuit output end of pressure-stabilizing
Made comparisons with its internal reference voltage, then the control pole tension VGS of output signal control metal-oxide-semiconductor makes its drain current IDS
Change.When DC bus voltage is by BUCK mu balanced circuits, because output voltage is the design load institute by accurate voltage-stabilizing circuit
It is fixed, and less than the minimum point of input voltage, so that the purpose of the regulated output voltage needed for reaching.If input AC is electric
Abnormal, AC power-fail detection circuits provide AC detection signals to MCU control module and analyzed, and AC-input voltage is judged with this
Whether power down, if detecting power-off signal, MCU control circuit can export corresponding signal at once, through isolation control circuit touch
Hair backup battery or solar energy-electric energy seamless switching control circuit powered to BUCK mu balanced circuits, substituted with this exchange it is normal when
The DC bus voltage of output is converted, so as to ensure ATM power supply uninterrupted power supplies.If protection controls electric circuit inspection to power module
MCU control module is then outputed signal to when working abnormal, defence program is performed after analysis, the output for module of cutting off the electricity supply,
Ensure ATM power modules and be powered equipment and be not damaged by.
Its operation principle is summarized as follows:
When electric in start, delay circuit is exchanged first and exports that exchange supplies electricity to ATM system PC and peripheral equipment is powered on request,
Simultaneously the alternating current of input filtered through EMI, bridge rectifier, pfc circuit and filtering, open loop DC/DC power conversions, then export whole
Stream filtering, reach required DC bus voltage, DC bus voltage again respectively to one group of BUCK circuits, two groups of BUCK circuits,
Three groups of BUCK circuits are powered, then thus three BUCK circuits are transformed into three groups of direct voltage outputs and powered to atm device respectively, such as
Fruit input AC electrical anomaly, AC power-fail detection circuits provide AC detection signals to MCU control module and analyzed, and are judged with this
AC-input voltage whether power down, if detecting power-off signal, microcomputer control circuit can export corresponding signal at once, warp
Isolation control circuit triggers backup battery or solar energy-electric energy seamless switching control circuit is powered to BUCK mu balanced circuits, is come with this
The DC bus voltage of conversion output when exchanging normal is substituted, so as to ensure ATM power supply uninterrupted power supplies.If protection control circuit
Detect when power module works abnormal and then output signal to MCU control module, defence program, cut-out electricity are performed after analysis
The output of source module, it is ensured that ATM power modules and be powered equipment and be not damaged by.
The present embodiment MCU control circuit and civil power power down backup battery control switching circuit schematic diagram are illustrated in figure 5, it
Effect and function specifically have:1st, civil power detection of power loss.2nd, civil power power down backup battery switches.3rd, exchange input is over-pressed, under-voltage
Detection and protection.4th, the detection of environment excess temperature and protection.5th, fan temperature speed regulating control.6th, exchange output delays time to control.7th, input
Delay startup, pfc circuit, each functional module electrifying timing sequence control of DC/DC translation circuits.8th, various abnormality alarm signals are defeated
Go out.9th, frequency signal output is trembled.Its operation principle is described in detail below down:
D9, D10, R247, R248, R268, R269, C133, C134, ZD8 constitute power-fail detection circuit, here according to reality
The first divider resistance in divider resistance is needed to be constituted using three 200K R247, R248, R268 series winding, the second divider resistance is adopted
With 150K R269.What it is due to this circuit acquisition testing is input AC impulse wave, and when power down occurs in civil power, this circuit can
With in several milliseconds wink speed respond give MCU 17 pin carry out detection and analysis judgement, if MCU analysis be judged as that civil power falls
Electricity, MCU 6 pin export power-off signal level triggers isolation control circuit U26 at once, and back-up source switching control electricity is triggered therewith
Road is powered to BUCK mu balanced circuits, and the DC bus voltage of conversion output when exchanging normal is substituted with this.Due to from civil power one
Denier power down starts to calculate, and ATM Switching Power Supplies can maintain 40ms normally to export in itself, and is backed up from civil power detection of power loss and power down
Actuation time only needs to 20ms or so altogether for power supply switching, so guarantee seamless switching can be supported from this data, so as to protect
Demonstrate,prove ATM power supply uninterrupted power supplies.
D9, D10, R241, R242, R243, R250, R251, R164, C122, C123, C136, ZD9 composition input civil power mistake
Pressure, undervoltage detection circuit.Similar to Fig. 3, here, the 3rd divider resistance uses three 390K in divider resistance according to actual needs
Resistance R241, R242, R243 series winding, other structures are identical with Fig. 3.When civil power occurs over-pressed or under-voltage, thus circuit enters
Row voltage detecting, then will detect voltage be sent to MCU 15 pin carry out analysis judgement, if MCU analysis be judged as it is over-pressed or deficient
During pressure, at this moment MCU 7 pin output high level delivers to the breaking circuit of pwm chip, and the main power conversions of DC/DC are turned off with this
Circuit, so as to protect ATM Switching Power Supplies not damage.
TR1 temperature and resistances, R224 resistance, C121 capacitance groups are detected into environment excess temperature and the speed governing of fan temperature detects circuit,
When environment temperature changes, thus circuit carries out temperature detection, because TR1 is the temperature and resistance of a negative temperature coefficient,
Its higher resistance of temperature is smaller, and MCU 14 pin detection voltage is uprised when such environment temperature is too high, as long as the voltage uprised reaches
MCU setting corresponding voltage, at this moment MCU 7 pin export the breaking circuit that high level delivers to pwm chip again, turned off with this
The main power conversion circuits of DC/DC, so as to protect ATM Switching Power Supplies not damaged when temperature is too high.This detection circuit another
Effect is fan temperature speed governing detection, when the temperature varies, and MCU 2 pin output duty cycle square wave can be with temperature change
And change, detection temperature is higher, and MCU 2 pin output duty cycle square wave is also bigger, the square wave control fan now exported
Also bigger, the opposite situation of revolution, the revolution of fan is also just smaller, and for this reason, the service life of fan is significantly
Improve, the service life of indirect ATM Switching Power Supplies is also improved.
MCU 5 pin are that the 1KHZ write trembles frequency signal output, and its signal output is sent to PFC work frequency after integration
Rate shakes pin, and the purpose so designed is the interference to power network when can largely reduce PFC work, is also just improved
EMC indexs, make more green ATM Switching Power Supplies.
MCU 13 pin JDQ are the signal output that upper electric control inputs soft-start circuit, and MCU 8 pin P-OFF are upper automatically controlled
The signal output of pfc circuit work processed, MCU 7 pin are the signal output that upper electric control pwm circuit works, MCU 10 pin TX again
The signal output of delay output circuit work is exchanged for upper electric control, four signals of the above control for each functional module electrifying timing sequence
Signal output, the purpose so designed be in order to substantially reduce dash current during the upper electricity of start, thus avoid ATM system and
Sizable input dash current that ATM Switching Power Supplies powered on moment is produced, it is therefore prevented that because start powered on moment input impact
Electric current is excessive and makes the risk of city's electric tripping.
MCU 9 pin export for various abnormality alarm signals.This signal is connected to ATM system background monitoring, once
Generation is abnormal, and all thus signal sends alarm.
In summary, the uninterrupted ATM of this high energy efficiency powers high frequency switch power, employs energy-saving design, efficiency reaches
More than 90%, product cost is reduced, power-efficient and Module Reliability is improved, it is to avoid alternating current power failure or power failure, visitor
The economic loss at family can not be guaranteed, and the shortcoming of inconvenience is brought to client, can alleviate what electrical equipment was brought to power network
Immense pressure.This ATM power supply belongs to green power supply, is the higher ideal source of site requirements of powering.
Claims (2)
- The uninterrupted high frequency switch power of high energy efficiency in 1.ATM, including civil power is converted into the galvanic current that ATM needs Main power circuit;The output of described main power circuit is powered by BUCK mu balanced circuits to ATM;It is characterized in that:Also wrap Protection circuit is included, described protection circuit provides the backup battery of power supply in civil power power down for ATM in time;Including battery And control switching circuit;The power output end of described battery connects described BUCK mu balanced circuits under described control switching circuit control;Described control switching circuit includes AC power-fail detection circuits, microprocessor, battery control switching circuit;Described AC falls Power detection circuit is electrically connected with city, and power-off signal is produced when civil power power down and is output to microprocessor, described microprocessor control Battery control switching circuit processed accesses the input of BUCK mu balanced circuits the output of battery;Also include temperature sensing circuit in described control switching circuit and the input of over-pressed, under-voltage detection is carried out to input AC Pressure, undervoltage detection circuit;Described temperature sensing circuit includes setting thermistor (TR1) on a heat sink, the 7th partial pressure Resistance (R7) and the 6th filter capacitor (C6);Described thermistor (TR1) is connected with the 7th divider resistance (R7), thermistor (TR1) and the 7th divider resistance (R7) the other end connects standard positive voltage and ground respectively;The two ends of the 6th described filter capacitor (C6) connect described thermistor (TR1) and gone here and there with the 7th divider resistance (R7) respectively Join between junction and ground;Described thermistor (TR1) and the temperature signal that the 7th divider resistance (R7) place of being connected in series is temperature sensing circuit Export the respective pins of the microprocessor described in termination;Described input is over-pressed, undervoltage detection circuit includes the 3rd diode (D3), the 4th diode (D4), the 3rd divider resistance (R3), the 4th divider resistance (R4), the 5th divider resistance (R5), the 6th divider resistance (R6), the 3rd filter capacitor (C3), the 4th Filter capacitor (C4), the 5th filter capacitor (C5) and the second voltage-stabiliser tube (ZD2);The 3rd described diode (D3) and the anode of the 4th diode (D4) connect the L lines and N lines of AC power supplies, described respectively Three diodes (D3) and the connection of the 4th diode (D4) negative electrode;Described the 3rd divider resistance (R3), the 4th divider resistance (R4), the 5th divider resistance (R5), the 6th divider resistance (R6) It is sequentially connected in series, the 3rd diode (D3) and the 4th diode (D4) negative electrode described in another termination of the 3rd divider resistance (R3) Junction, the other end ground connection of the 6th divider resistance (R6);Described the 3rd filter capacitor (C3), the 4th filter capacitor (C4), the 5th filter capacitor (C5) are connected respectively to described 3rd divider resistance (R3) and the 4th divider resistance (R4) are connected in series place, the 4th divider resistance (R4) and the 5th divider resistance (R5) place of being connected in series, the 5th divider resistance (R5) and the 6th divider resistance (R6) are connected in series between place and ground;The negative electrode of described the second voltage-stabiliser tube (ZD2) connects described the 5th divider resistance (R5) and the 6th divider resistance (R6) is connected Junction, the plus earth of the second voltage-stabiliser tube (ZD2);The negative electrode of described the second voltage-stabiliser tube (ZD2) is described input overvoltage, the output end of undervoltage detection circuit, connects described The respective pins of microprocessor;Described AC power-fail detection circuits include the first diode (D1), the second diode (D2), the first divider resistance (R1), the Two divider resistances (R2), the first filter capacitor (C1), the second filter capacitor (C2) and the first voltage-stabiliser tube (ZD1);Described the first diode (D1) and the anode of the second diode (D2) connect the L lines and N lines of AC power supplies, described respectively One diode (D1) and the connection of the second diode (D2) negative electrode;Described the first divider resistance (R1) and the second divider resistance (R2) series connection, another termination of the first divider resistance (R1) Described the first diode (D1) and the second diode (D2) negative electrode junction, the other end ground connection of the second divider resistance (R2);Described the first filter capacitor (C1) and the second filter capacitor (C2) series connection, another pole of the first filter capacitor (C1) connects Described the first divider resistance (R1) and the second divider resistance (R2) is connected in series place, another pole of the second filter capacitor (C2) Ground connection;The negative electrode of described the first voltage-stabiliser tube (ZD1) connects described the first filter capacitor (C1) and the second filter capacitor (C2) is connected Junction, the plus earth of the first voltage-stabiliser tube (ZD1);The negative electrode of described the first voltage-stabiliser tube (ZD1) is the output end of described AC power-fail detection circuits, connects described microprocessor The respective pins of device.
- 2. the uninterrupted high frequency switch power of high energy efficiency in ATM according to claim 1, it is characterised in that:Described temperature-sensitive Resistance (TR1) is the thermistor of negative temperature coefficient.
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CN201510118270.7A CN104779694B (en) | 2011-12-28 | 2011-12-28 | The uninterrupted high frequency switch power of high energy efficiency in ATM |
CN201110446329.7A CN103187792B (en) | 2011-12-28 | 2011-12-28 | The uninterrupted high frequency switch power of high energy efficiency in ATM |
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CN201110446329.7A Expired - Fee Related CN103187792B (en) | 2011-12-28 | 2011-12-28 | The uninterrupted high frequency switch power of high energy efficiency in ATM |
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CN105117352B (en) * | 2015-09-18 | 2018-12-11 | 深圳怡化电脑股份有限公司 | A kind of method and device saving ATM machine withdrawal data |
CN105375615A (en) * | 2015-11-20 | 2016-03-02 | 苏州太阳都信息科技有限公司 | Fire-fighting host computer comprehensive power supply system equipped with main and standby power detecting circuit |
CN105515089A (en) * | 2015-11-27 | 2016-04-20 | 青岛盛嘉信息科技有限公司 | High-frequency switch-based battery pack |
CN105549714A (en) * | 2015-12-25 | 2016-05-04 | 江苏省交通规划设计院股份有限公司 | Stable operation method of self-service terminal during power outage |
CN108400499B (en) * | 2018-01-03 | 2023-07-04 | 桂林肯维霓电器有限公司 | Intelligent socket with protection function |
CN109995135B (en) * | 2019-05-13 | 2024-01-26 | 沈阳睿捷电力科技有限公司 | Industrial uninterrupted seamless switching inverter power supply device for solving voltage sag problem |
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EP0398722A3 (en) * | 1989-05-18 | 1991-01-30 | Hirotami Nakano | Uninterruptable power supply apparatus and isolating method thereof |
JPH07322628A (en) * | 1994-05-26 | 1995-12-08 | Tec Corp | Power equipment |
JPH11160370A (en) * | 1997-11-25 | 1999-06-18 | Oki Electric Ind Co Ltd | Abnormal voltage detection circuit |
JP2004007950A (en) * | 2002-04-15 | 2004-01-08 | Fuji Electric Holdings Co Ltd | Switching power unit |
CN1819426A (en) * | 2005-01-26 | 2006-08-16 | 台达电子工业股份有限公司 | High efficiency power converter with synchronous rectification |
CN1673756A (en) * | 2005-04-11 | 2005-09-28 | 艾默生网络能源有限公司 | AC undervoltage detection circuit |
CN101056487A (en) * | 2006-04-14 | 2007-10-17 | 上海市文来中学 | A portable emergency lamp |
CN201177768Y (en) * | 2007-12-19 | 2009-01-07 | 白勇 | Thermostatic control apparatus for electric water heater |
CN101471584A (en) * | 2007-12-24 | 2009-07-01 | 乐金电子(天津)电器有限公司 | DC/AC power supply source for air conditioner |
CN101471556B (en) * | 2007-12-25 | 2012-01-11 | 深圳Tcl新技术有限公司 | Under-voltage protection circuit |
KR20100085378A (en) * | 2009-01-20 | 2010-07-29 | 엘지이노텍 주식회사 | Power supply device |
CN201570898U (en) * | 2009-09-29 | 2010-09-01 | 北京中纺精业机电设备有限公司 | Power failure data protection circuit |
CN202041907U (en) * | 2011-05-16 | 2011-11-16 | 厦门玛司特电子工业有限公司 | Computer power supply |
CN102222898A (en) * | 2011-06-21 | 2011-10-19 | 威海东兴电子有限公司 | Power supply output overvoltage protection circuit for LED (light emitting diode) LCD TV (liquid crystal display television) |
-
2011
- 2011-12-28 CN CN201510118276.4A patent/CN104779695B/en active Active
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CN104779695B (en) | 2017-07-14 |
CN103187792B (en) | 2015-09-02 |
CN104779694A (en) | 2015-07-15 |
CN104779695A (en) | 2015-07-15 |
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Address after: 518000 Floors 1-3 and 1-5 of Block A, Block B2, Jinweiyuan Industrial Plant, Longshan District, Pingshan New District, Shenzhen City, Guangdong Province Patentee after: Shenzhen Gold Power Technology Co., Ltd. Address before: 518000 Shenzhen, Guangdong, Pingshan new industrial zone, poly dragon hill area Jinwei Industrial Zone A 1 floor. Patentee before: Shenzhen Gold Power Technology Co., Ltd. |