CN209070524U - A kind of low-power consumption isolation type bus takes electric MBUS communication interface circuit - Google Patents

Abstract

The utility model discloses a kind of low-power consumption isolation type bus to take electric MBUS communication interface circuit, belong to technical field of circuit control, including rectification circuit, constant current energy-storage voltage stabilizing circuit, decompression converting circuit, frequency conversion drive push-pull output isolation conversion output circuit and equipment to be powered；The input terminal of rectification circuit accesses MBUS bus, and the output end of rectification circuit is connect with constant current energy-storage voltage stabilizing circuit input terminal；The output end of constant current energy-storage voltage stabilizing circuit is connect with decompression converting circuit input terminal；The input terminal connection of conversion circuit is isolated with frequency conversion drive push-pull output for the output end of decompression converting circuit, and frequency conversion drive push-pull output isolation conversion circuit exports the voltage signal pressure stabilizing that decompression converting circuit exports to equipment to be powered.The utility model can effectively reduce the power consumption of MBUS communication interface circuit.

Description

A kind of low-power consumption isolation type bus takes electric MBUS communication interface circuit

Technical field

The utility model relates to technical field of circuit control, in particular to a kind of low-power consumption isolation type bus takes electric MBUS logical Believe interface circuit.

Background technique

MBUS is a kind of bus protocol exclusively for the design of calorimeter remote data transmission, it is data transfer number A kind of important technology changed has been widely used for the data acquisition field of no source contact (water, electricity, gas, heat energy meter, building etc.) It closes.

Currently, MBUS bus connects TSS721A chip to the bus-powered isolation method of MBUS used as shown in Figure 1:, Electricity is taken in the STC output pin output of TSS721A chip and is input to voltage-stabilizing device, and voltage-stabilizing device is depressurized to 4.4V, 4.4V electricity Pressure is that 4 channel NAND gates are powered, and NAND gate is by being combined into oscillator with resistance and capacitive junctions, then passes through transformer and diode Rectifier output voltage is supplied to calorimeter power supply.

But because the STC foot output voltage of TSS721A chip only has 5.6-6.4V, become through voltage stabilizing chip transition loss and isolation The transition loss of depressor can be such that delivery efficiency substantially reduces.If taking the electric current of 1mA from bus, provided according to law of conservation of energy It is not more than 5mW to the power of equipment, therefore the voltage low current for providing equipment is small, and keeps bus loss current big.Namely It says that tri- foot of STC is also the reception circuit power supply of TSS721A, therefore influences to receive the stability of circuit.The circuit bus is caused to take Electrical power consumed is big, communication robust is poor and is unable to satisfy the application of MBUS bus VMARK (20-42V) range, so that slave MBUS takes Electric application limitation reduces subordinate computer node quantity.

Utility model content

The purpose of this utility model is to provide a kind of low-power consumption isolation type bus to take electric MBUS communication interface circuit, with drop The bus of low MBUS communication interface circuit takes electrical power consumed.

In order to achieve the above object, the utility model takes electric MBUS communication interface electricity using a kind of low-power consumption isolation type bus Road, comprising: rectification circuit, constant current energy-storage voltage stabilizing circuit, decompression converting circuit, frequency conversion drive push-pull output isolation conversion output electricity Road and equipment to be powered；

The input terminal of rectification circuit accesses MBUS bus, the output end and constant current energy-storage voltage stabilizing circuit input terminal of rectification circuit Connection, constant current energy-storage voltage stabilizing circuit export the voltage signal conversion that rectification circuit exports for constant current signal and stable DC Voltage signal；

The output end of constant current energy-storage voltage stabilizing circuit is connect with decompression converting circuit input terminal, and decompression converting circuit stores up constant current The d. c. voltage signal of energy voltage regulator circuit output is converted to 5V voltage；

The input terminal connection of conversion circuit is isolated with frequency conversion drive push-pull output for the output end of decompression converting circuit, and frequency conversion is driven Dynamic push-pull output isolation conversion circuit exports the voltage signal pressure stabilizing that decompression converting circuit exports to equipment to be powered.

Further, the rectifier bridge of the rectification circuit forms for diode bridge rectifier bridge, triode composition integrates Chip bridge or thyristor groups at rectifier bridge.

Further, the constant current energy-storage voltage stabilizing circuit is integrated-type voltage regulator circuit, operation type voltage regulator circuit or crystal Cast voltage regulator circuit.

Further, the transistor-type voltage regulator circuit includes the first transistor, second transistor, storage capacitor and steady The output of the rectification circuit is accessed after pressure pipe, the base stage of the first transistor and the emitter connection of second transistor through resistance R3 End, the emitter of the first transistor access the output end of the rectification circuit；

The collector of the first transistor and the base stage of second transistor connect, and the collector of the first transistor connects through resistance R1 Ground, the collector of second transistor are connect with the anode of the storage capacitor, the anode of the storage capacitor and bearing for voltage-stabiliser tube Pole connection, the anode of voltage-stabiliser tube are grounded after connecting with the cathode of the storage capacitor.

Further, the integrated-type voltage regulator circuit includes constant-current source IC chip, voltage-stabiliser tube and storage capacitor, perseverance The input terminal of stream source IC chip is connected with that output end of the rectifying circuit, the output end of constant-current source IC chip with Storage capacitor connection, storage capacitor are in parallel with voltage-stabiliser tube.

Further, the operation type voltage regulator circuit includes integrated operational amplifier, transistor, resistance, voltage-stabiliser tube and storage It can capacitor；The positive input access reference voltage of operational amplifier, the base stage of the output end access transistor of operational amplifier, fortune The reversed input of calculation amplifier is connect after connecting with the emitter of transistor with resistance R110, and resistance R110 meets VCC, transistor The anode of collector and storage capacitor connects, and is grounded after the anode connection of the cathode and voltage-stabiliser tube of storage capacitor, voltage-stabiliser tube is born The anode of pole and storage capacitor connects.

Further, the decompression converting circuit includes voltage-stablizer U2, the input terminal of voltage-stablizer U2 and the constant current energy storage The output end of voltage regulator circuit connects, and voltage-stablizer U2 is electric by the 20-36V voltage of the output of the constant current energy-storage voltage stabilizing circuit and 1mA Stream, is converted to 5V voltage and 35mW power as equipment to be powered and provides electric energy.

Further, voltage-stablizer U2 is voltage-releasing voltage stabilizer or linear voltage regulator.

Further, the frequency conversion drive push-pull output isolation conversion circuit includes driver U4 and high frequency transformer, is driven The output end of dynamic device U4 is connect with the primary of output switching signal driving high frequency transformer with high frequency transformer, high frequency transformer Secondary has pushed away output voltage signal by centre tap；

The secondary output end of high frequency transformer connects with the positive downlink connection of diode D3 and with the anode of diode D5 respectively Connect, connect after the cathode connection of the cathode of diode D3 and diode D5 with filter capacitor C3, filter capacitor C3 successively with pressure stabilizing Pipe D8 parallel connection and resistance R5 are in parallel；

The cathode of voltage-stabiliser tube D8 is connect as output end of pressure-stabilizing with the equipment to be powered.

Compared with prior art, there are following technical effects for the utility model: the utility model is to MBUS slave interface electricity Road improves, and after slave devices MBUS bus takes electricity, passes sequentially through rectification circuit, constant current energy-storage voltage stabilizing circuit and decompression and turns Voltage signal is reduced after changing circuit, expands bus-powered range, reduces the power consumption of bus.Frequency conversion drive is recycled to recommend Output isolation conversion output circuit has the characteristics such as efficiency conversion height, electrical isolation, anti-external interference, further decreases bus function Consumption.Simultaneously by constant current energy-storage voltage stabilizing circuit by the voltage signal that rectification circuit exports be converted into a constant current signal with One steady dc voltage signal, so that bus current output is stablized with the effective stability for guaranteeing communication, slave devices Between do not influence each other.

Detailed description of the invention

With reference to the accompanying drawing, specific embodiment of the present utility model is described in detail:

Fig. 1 is the bus-powered isolation structure schematic diagram of existing MBUS that background technology part is addressed；

Fig. 2 is frequency conversion drive push-pull output isolation conversion output circuit schematic illustration；

Fig. 3 is the structural schematic diagram of rectification circuit, constant current energy-storage voltage stabilizing circuit and decompression converting circuit；

Fig. 4 is the structural schematic diagram of frequency conversion drive push-pull output isolation conversion output circuit.

Specific embodiment

In order to further explain the feature of the utility model, please refer to detailed description below in connection with the utility model with Attached drawing.Institute's attached drawing is only for reference and purposes of discussion, is not used to limit the protection scope of the utility model.

As shown in Fig. 2, present embodiments providing a kind of low-power consumption isolation type bus takes electric MBUS communication interface circuit, including Rectification circuit 1, constant current energy-storage voltage stabilizing circuit 2, decompression converting circuit 3, frequency conversion drive push-pull output isolation conversion output circuit with And equipment to be powered；

The input terminal of rectification circuit 1 accesses MBUS bus, and the output end and constant current energy-storage voltage stabilizing circuit 2 of rectification circuit 1 are defeated Enter end connection, constant current energy-storage voltage stabilizing circuit 2 by the conversion of voltage signal that rectification circuit 1 exports export for constant current signal with surely Determine d. c. voltage signal；

The output end of constant current energy-storage voltage stabilizing circuit 2 is connect with 3 input terminal of decompression converting circuit, and decompression converting circuit 3 will be permanent The d. c. voltage signal that stream energy-storage voltage stabilizing circuit 2 exports is converted to 5V voltage signal, to turn for the isolation of frequency conversion drive push-pull output Change circuit with power driving；

The input terminal connection of conversion circuit, frequency conversion are isolated with frequency conversion drive push-pull output for the output end of decompression converting circuit 3 Driving push-pull output isolation conversion circuit exports the voltage signal pressure stabilizing that decompression converting circuit 3 exports to equipment to be powered.

As shown in Figure 1 and Figure 2, this reality scheme can provide power for load equipment and reach when bus consumes 1.5mA electric current 27-48.5mW range, effectively improves carrying load ability.Communication stability is strong, and single node does not influence other node communications extremely.Tool There is low-power consumption, improves subordinate computer node quantity；

The application of MBUS bus VMARK (20-42V) range can be met, slave MBUS is solved and take electric application limitation.

Further, the rectification circuit 1 is the bridge rectifier bridge of diode composition, the rectifier bridge of triode composition, collection At chip bridge or thyristor groups at rectifier bridge.

As shown in fig.3, the rectification circuit 1 in the present embodiment constitutes device bridge rectifier 1 by four diodes, it is whole DC voltage output end and constant current energy-storage voltage stabilizing circuit 2 input of current circuit 1 connect.MBUS1 accesses the pin 3 of diode D2, MBUS2 accesses the pin 3 of D1, and the pin 1 of D2 and the pin 1 of D1 are grounded, and the pin 2 of D2 is connected with the pin 2 of D1 as defeated Outlet forms full-wave rectification, and the not polarity MBUS bus signals for accessing slave is made to be rectified into 20-42V d. c. voltage signal.

Further, the constant current energy-storage voltage stabilizing circuit is integrated-type voltage regulator circuit, operation type voltage regulator circuit or crystal Cast voltage regulator circuit.

Wherein, as shown in fig.3, transistor-type voltage regulator circuit includes including the first transistor Q1, second transistor Q2, storage Energy capacitor C19 and voltage-stabiliser tube D9, series resistor after the base stage of second transistor Q2 is connect with the collector of the first transistor Q1 R1, resistance R1 ground connection, the base stage of the first transistor Q1 are connected after connecting with the emitter of second transistor Q2 with resistance R3, resistance R3 is connect with 1 output end of rectification circuit, and the emitter of the first transistor Q1 is connect with the output end of the rectification circuit 1；

The collector of second transistor Q2 successively with storage capacitor C19 anode connect, connect with one end of capacitor C25 with And connect with the cathode of voltage-stabiliser tube D9, the anode of the cathode of storage capacitor C19, the other end of capacitor C25 and voltage-stabiliser tube D9 is even It is grounded after connecing.

Further, integrated-type voltage regulator circuit includes constant-current source IC chip, voltage-stabiliser tube and storage capacitor, constant-current source The input terminal of IC chip is connected with that output end of the rectifying circuit, the output end of constant-current source IC chip and energy storage The anode connection of capacitor, the anode of storage capacitor are connect with the cathode of voltage-stabiliser tube, the cathode of storage capacitor and the anode of voltage-stabiliser tube It is grounded after connection.Wherein, constant-current source IC chip can type selecting be LM334.

Further, operation type voltage regulator circuit includes integrated operational amplifier U13, transistor Q19, resistance R110, resistance R111, resistance R112, storage capacitor C62 and voltage-stabiliser tube D23；The positive input of operational amplifier U13 is accessed in the one end resistance R111 Power supply is accessed at end, the other end, and the positive input of operational amplifier U13, other end ground connection are accessed in the one end resistance R112；Resistance One end of R111 connect the positive input of access operational amplifier U13 with one end of resistance R112 to provide for operational amplifier Reference voltage, the reference voltage are that benchmark voltage is (R112/ (R111+R112)) × VCC, and operational amplifier U13's is reversed defeated Enter after end is connect with the emitter of transistor Q19 and connect with resistance R110, resistance R110 meets VCC and generates input voltage；Operation is put The base stage of the output end access transistor Q19 of big device U13, the collector of transistor Q19 are connect with the anode of storage capacitor C62, The anode of storage capacitor C62 is connect with the cathode of voltage-stabiliser tube D23, and the cathode of storage capacitor C62 is connect with the anode of voltage-stabiliser tube D23 After be grounded.

Wherein, operational amplifier U13's and transistor Q19, resistance R110 form constant-current source circuit, constant current output value passes through Operational amplifier in-phase end and the empty short feature of backward end input, hold voltage to be equal to reversed terminal voltage value, it is thus determined that electric in the same direction The pressure difference for hindering the both ends R110 learns the current value for flowing through resistance R110, and transistor Q19 is connected in the output of operational amplifier, Make the electric current generated by resistance R110, so that collector output constant current storage capacitor C62 is carried out electricity through transistor Q19 conducting The collector for flowing energy storage exports constant current, then carries out electric current energy storage through storage capacitor C62 and exports through voltage-stabiliser tube D23 pressure stabilizing.

Constant current energy-storage voltage stabilizing circuit in the present embodiment can make Output Voltage in Rectified Circuits signal pass through constant current energy storage pressure stabilizing Circuit output one constant current 1mA and stable DC voltage signal 20-36V；Bus current output is stablized and is effectively ensured It does not influence each other between communication stability and slave devices, can meet the needs of plurality of devices bus takes electricity.It is steady with transistor-type For volt circuit, it should be noted that in transistor-type voltage regulator circuit, 1 output voltage 20-42V signal of rectification circuit passes through Resistance R2, since Ube pressure difference, that is, transistor base of second transistor Q2 and the voltage difference of emitter terminal are 0.7V, and resistance R2 The both ends Ube of second transistor Q2 are attempted by, therefore it can be concluded that the electric current=Ube/R2 exported, the first transistor Q1 is second Transistor Q2 exports constant current feedback, and when load current is big, the both ends R2 pressure difference becomes larger, the first transistor Q1 collector current Becoming larger, the first transistor Q1 collector voltage increases, and the Ube voltage of second transistor Q2 is reduced, collector current decline, because This first crystal Q1 has negative feedback, makes constant output current, the collector output constant current warp of second transistor Q2 Storage capacitor C19 carries out electric current energy storage, and the collector output selected voltage-stabiliser tube D9 pressure stabilizing of constant current of second transistor Q2 is defeated 20-36V provides properly stable voltage for reduction voltage circuit out, this circuit makes bus current output stablize and communication has been effectively ensured It does not influence each other between stability and slave devices.

As shown in fig.3, decompression converting circuit 3, which includes voltage-stablizer U2(, to be buck regulator or linear voltage regulator), The end VIN of voltage-stablizer U2, the end EN of voltage-stablizer U2 and capacitor C24 are accessed after 2 output end of the constant current energy-storage voltage stabilizing circuit connection One end connection, the other end of resistance R29 connects with one end of capacitor C24 connect with one end of resistance R30 respectively, voltage-stablizer The end RT of U2 is connect with one end of resistance R10, the other end of resistance R10, the other end of capacitor C24 and resistance R30 it is another End is grounded；

The end LX of voltage-stablizer U2 successively connects one end of capacitor C10, one end of resistance R20 and resistance after connecting with inductance L1 One end of R22 connects, and the end GND of voltage-stablizer U2 is grounded after connecting with the other end of capacitor C10, the other end and electricity of resistance R20 It is grounded after holding C11 series connection, the end VOUT of voltage-stablizer U2 is connect with the other end of resistance R22, the other end and resistance of resistance R22 It is grounded after R15 series connection；One end of resistance R22 is connect with one end of capacitor C14, capacitor C5 and capacitor C4 successively with capacitor C14 simultaneously It is grounded after connection.

It should be noted that decompression converting circuit U2 is a current-modulation mode step-down switching regulator, constant current energy storage Voltage regulator circuit exports the electric current of 1.5mA, and the voltage of 20-36V enters the input terminal of device U2, is dropped by device U2 current-modulation Pressure, by resistance R10 be arranged synchronous switch frequency, resistance R15 be device U2 feedback resistance, U2 output voltage by VDD= (R22/R15+1) × 0.8 it is calculated.The decompression converting circuit is steady constant current energy storage by low-power consumption decompression turning property parallel operation part U2 Volt circuit 2 exports electric current 1.5mA, and the d. c. voltage signal of output voltage 20-36V is converted to output by decompression converting circuit 3 Power reaches 27-48.5mW, and efficiency reaches 85% or more and microampere order quiescent current is effectively bus reduction power consumption.

As shown in fig.4, frequency conversion drive push-pull output isolation conversion circuit includes driver U4 and high frequency transformer, driving The end GND of device U4 is grounded, and the primary coil of high frequency transformer, driver U4 are accessed in the end D1, the end D2 and the end VCC of driver U4 The end VCC connect with capacitor C16 after be grounded, the secondary output end of high frequency transformer respectively with the positive downlink connection of diode D3 and It is connect with the anode of diode D5, connect, filter with filter capacitor C3 after the cathode connection of the cathode and diode D5 of diode D3 Wave capacitor C3 is successively in parallel with voltage-stabiliser tube D8 and resistance R5 is in parallel；The cathode of voltage-stabiliser tube D8 is as output end of pressure-stabilizing with described wait supply Electric equipment connection.

Driver U4 output end is connect with the primary of output switching signal driving high frequency transformer, high frequency with high frequency transformer The secondary of transformer has pushed away output by centre tap and has rectified through diode D3 and diode D5, capacitor C13 filtering, voltage-stabiliser tube D8 Pressure stabilizing output provides power supply to the device.

It should be noted that decompression converting circuit output voltage is supplied to driver U4, U4 device generates 360KHZ- 410KHZ switching frequency poor 180 ° of frequency plot of D1 mouthfuls and D2 mouthfuls output, is recommended by the D1 mouth of U4 device and D2 mouthfuls of outputs The primary of high frequency transformer is driven, the secondary of high frequency transformer has pushed away the same frequency of output by centre tap and amplitude is identical Pulse signal is rectified through diode D3 and diode D5, and capacitor C13 filtering, voltage-stabiliser tube D8 pressure stabilizing output provides power supply to the device.

This circuit make to generate push-pull drive high frequency transformer have efficiency conversion is high, transformer has electrical isolation, it is anti-outside Boundary's interference effect, push-pull circuit have many advantages, such as that complementation, low-loss, magnetic core of transformer utilization rate are high, and transformer conversion can be improved Efficiency and load capacity.When making bus-powered Imark=1.5mA, 5.4-9.5mA effective current can be provided for equipment, it is effective full Sufficient MBUS bus VMARK=20.8-42V and Imark < 1.5mA use scope reduces bus low power, the effect of anti-external interference.

It should be noted that the frequency conversion drive push-pull output isolation conversion circuit in the present embodiment is alternatively by timer device Part, resistor network, capacitance network form oscillator drives transformer, and secondary coil output passes through (triode or collection At chip or thyristor) rectification, capacitance network, zener diode composition isolation conversion voltage-stabilizing output circuit.

Or oscillator drives transformer is formed by resistor network, capacitance network, transistor, secondary coil is defeated Out by (triode or integrated chip or thyristor) rectification by capacitor filtering, zener diode pressure stabilizing composition isolation conversion is steady Voltage follower circuit.

The above is only the preferred embodiment of the present invention, is not intended to limit the utility model, all practical at this Within novel spirit and principle, any modification, equivalent replacement, improvement and so on should be included in the guarantor of the utility model Within the scope of shield.

Claims (8)

1. a kind of low-power consumption isolation type bus takes electric MBUS communication interface circuit characterized by comprising rectification circuit, constant current Energy-storage voltage stabilizing circuit, decompression converting circuit, frequency conversion drive push-pull output isolation conversion output circuit and equipment to be powered；

The input terminal of rectification circuit accesses MBUS bus, and the output end and constant current energy-storage voltage stabilizing circuit input terminal of rectification circuit connect It connects, constant current energy-storage voltage stabilizing circuit exports the voltage signal conversion that rectification circuit exports for constant current signal and stable DC electricity Press signal；

The output end of constant current energy-storage voltage stabilizing circuit is connect with decompression converting circuit input terminal, and decompression converting circuit is steady by constant current energy storage The d. c. voltage signal of volt circuit output is converted to 5V voltage；

The input terminal connection of conversion circuit is isolated with frequency conversion drive push-pull output for the output end of decompression converting circuit, and frequency conversion drive pushes away Output isolation conversion circuit is drawn to export the voltage signal pressure stabilizing that decompression converting circuit exports to equipment to be powered.

2. low-power consumption isolation type bus as described in claim 1 takes electric MBUS communication interface circuit, which is characterized in that described whole Current circuit be diode composition bridge rectifier bridge, triode composition rectifier bridge, integrated chip bridge or thyristor groups at Rectifier bridge.

3. low-power consumption isolation type bus as described in claim 1 takes electric MBUS communication interface circuit, which is characterized in that the perseverance Stream energy-storage voltage stabilizing circuit is integrated-type voltage regulator circuit, operation type voltage regulator circuit or transistor-type voltage regulator circuit.

4. low-power consumption isolation type bus as claimed in claim 3 takes electric MBUS communication interface circuit, which is characterized in that the crystalline substance Body cast voltage regulator circuit includes the first transistor, second transistor, storage capacitor and voltage-stabiliser tube, the base stage of the first transistor with The output end of the rectification circuit is accessed after the emitter connection of second transistor through resistance R3, the emitter of the first transistor connects Enter the output end of the rectification circuit；

The collector of the first transistor and the base stage of second transistor connect, and the collector of the first transistor is grounded through resistance R1, The collector of second transistor is connect with the anode of the storage capacitor, and the anode of the storage capacitor connects with the cathode of voltage-stabiliser tube It connects, the anode of voltage-stabiliser tube is grounded after connecting with the cathode of the storage capacitor.

5. low-power consumption isolation type bus as claimed in claim 3 takes electric MBUS communication interface circuit, which is characterized in that the collection Forming voltage regulator circuit includes constant-current source IC chip, voltage-stabiliser tube and storage capacitor, the input of constant-current source IC chip End is connected with that output end of the rectifying circuit, and the output end of constant-current source IC chip is connect with storage capacitor, storage capacitor It is in parallel with voltage-stabiliser tube.

6. low-power consumption isolation type bus as claimed in claim 3 takes electric MBUS communication interface circuit, which is characterized in that the fortune Calculation type voltage regulator circuit includes integrated operational amplifier, transistor, resistance, voltage-stabiliser tube and storage capacitor；The forward direction of operational amplifier Input access reference voltage, the base stage of the output end access transistor of operational amplifier, reversed input and the crystalline substance of operational amplifier It is connect after the emitter connection of body pipe with resistance R110, resistance R110 connects VCC, the collector of transistor and the anode of storage capacitor Connection is grounded after the anode connection of the cathode and voltage-stabiliser tube of storage capacitor, and the cathode of voltage-stabiliser tube and the anode of storage capacitor connect.

7. low-power consumption isolation type bus as described in claim 1 takes electric MBUS communication interface circuit, which is characterized in that the drop Voltage conversion circuit includes voltage-stablizer U2, and the input terminal of voltage-stablizer U2 is connect with the output end of the constant current energy-storage voltage stabilizing circuit, surely The 20-36V voltage and 1mA electric current of the output of the constant current energy-storage voltage stabilizing circuit are converted to 5V voltage and 35mW function by depressor U2 Rate provides electric energy for equipment to be powered.

8. low-power consumption isolation type bus as described in claim 1 takes electric MBUS communication interface circuit, which is characterized in that the change Frequency driving push-pull output isolation conversion circuit includes driver U4 and high frequency transformer, the output end and high frequency transformation of driver U4 Device connection has pushed away output by centre tap with the primary of output switching signal driving high frequency transformer, the secondary of high frequency transformer Voltage signal；

The secondary output end of high frequency transformer is connect with the positive downlink connection of diode D3 and with the anode of diode D5 respectively, and two Connect after the connection of the cathode of the cathode of pole pipe D3 and diode D5 with filter capacitor C3, filter capacitor C3 successively with voltage-stabiliser tube D8 simultaneously Connection and resistance R5 are in parallel；

The cathode of voltage-stabiliser tube D8 is connect as output end of pressure-stabilizing with the equipment to be powered.