Summary of the invention
In view of the problem that prior art exists, the invention provides that a kind of operating frequency height, power consumption are low, (500W) ozone high-voltage power supply of good reliability.
The present invention for achieving the above object, the technical scheme of being taked is: a kind of ozone high-voltage power supply, comprise the power circuit in power supply complete machine casing and the casing, it is characterized in that: described power circuit comprises control circuit, current feedback circuit, thermal-shutdown circuit, protection circuit against input over-voltage, power supply circuits, drive and output circuit, described control circuit respectively with current feedback circuit, thermal-shutdown circuit, protection circuit against input over-voltage, power supply circuits, drive and the output circuit connection, described power supply circuits are connected with driving and output circuit, and described driving and output circuit are connected with current feedback circuit;
13 pin of control chip U1 link to each other with 15 pin and meet inner voltage stabilizing feeder ear Vcc in the described control circuit, 3 pin of control chip U1,10 pin link to each other with 12 pin and meet control ground GND1,1 pin of control chip U1 links to each other with 9 pin and meets control ground GND1 by capacitor C 4, resistance R 6 is in parallel with capacitor C 5, the 2 pin difference connecting resistance R5 of control chip U1 and an end of resistance R 6,16 pin of control chip U1 connect the anodal of capacitor C 3 and as internal reference voltage end Vref, the negative pole of capacitor C 3 links to each other with the other end of resistance R 6 and meets control ground GND1, the positive pole of capacitor C 1 meets inner voltage stabilizing feeder ear Vcc, the negative pole of capacitor C 1 meets control ground GND1,5 pin of control chip U1 connect an end of capacitor C 2 and connect 7 pin of control chip U1 by resistance R 2,6 pin of control chip U1 connect 2 ends of adjustable resistance W1 by resistance R 1,2 ends of adjustable resistance W1 link to each other with 3 ends, 1 end of adjustable resistance W1 links to each other with the other end of capacitor C 2 and meets control ground GND1,1 pin of control chip U2A links to each other with 2 pin and the other end of connecting resistance R5, the end of the 7 pin connecting resistance R3 of control chip U2B, resistance R 7 is in parallel with capacitor C 6, the 6 pin difference connecting resistance R7 of control chip U2B and an end of resistance R 4, the other end of resistance R 3, the positive pole of diode D3,3 pin of another termination control chip U2A of resistance R 4,5 pin of control chip U2B meet internal reference voltage end Vref, 4 pin of control chip U2A meet control ground GND1, and 8 pin of control chip U2A meet inner voltage stabilizing feeder ear Vcc;
An end of resistance R 26 connects the negative pole of diode D4 and the positive pole of diode D5 respectively by capacitor C 14 in the described current feedback circuit, the positive pole of another terminating diode D4 of resistance R 26, the end of the negative pole difference connecting resistance R27 of diode D5 and the positive pole of capacitor C 13, the negative pole of capacitor C 13 meets high pressure output ground G, the other end difference connecting resistance R28 of resistance R 27 and an end of resistance R 29,2 ends of another termination adjustable resistance W4 of resistance R 28,2 ends of adjustable resistance W4 link to each other with 3 ends, the 1 termination output ground G of adjustable resistance W4, the other end of resistance R 29 connects 1 pin of photoelectrical coupler U5 and an end of capacitor C 15 respectively, 2 pin of photoelectrical coupler U5 link to each other with the other end of capacitor C 15 and meet output ground G, 3 pin of photoelectrical coupler U5 connect control ground GND1,8 pin of control chip U1 in the 4 pin connection control circuits of photoelectrical coupler U5;
Resistance R 25 is in parallel with capacitor C 9 in the described thermal-shutdown circuit, 5 pin of control chip U4B are by an end of resistance 15 difference connecting resistance R14 and resistance R 25, the base stage of triode T5, another termination of resistance R 14 meets inner voltage stabilizing feeder ear Vcc, the other end of resistance R 25 links to each other with the collector electrode of triode T5 and meets control ground GND1, resistance R 17 is in parallel with capacitor C 11, the 6 pin difference connecting resistance R16 of control chip U4B and an end of resistance R 17, another termination control ground GND1 of resistance R 16,7 pin of control chip U4B are the end of connecting resistance R20 respectively, the other end of resistance R 17,2 pin of another termination control chip U4A of resistance R 20, resistance R 19 is in parallel with capacitor C 12, the 3 pin difference connecting resistance R21 of control chip U4A and an end of resistance R 18, the positive pole of capacitor C 12, the negative pole of capacitor C 12 meets control ground GND1,2 ends of another termination adjustable resistance W3 of resistance R 18,2 ends of adjustable resistance W3 link to each other with 3 ends, the inner voltage stabilizing feeder ear of 1 termination of adjustable resistance W3 Vcc, the end of the 1 pin difference connecting resistance R22 of control chip U4A and the other end of resistance R 21, the other end of resistance R 22 is the end of connecting resistance R23 respectively, the base stage of triode T4, the other end of resistance R 23 links to each other with the emitter of triode T4 and meets control ground GND1, the collector electrode of triode T4 is the negative pole of sending and receiving optical diode D3 respectively, the negative pole of diode D1 in the control circuit, the positive pole of light-emitting diode D3 meets in-line power end V2 by resistance R 24,4 pin of control chip U4A meet control ground GND1,8 pin of control chip U4A meet inner voltage stabilizing feeder ear Vcc, the positive pole of capacitor C 10 meets inner voltage stabilizing feeder ear Vcc, and the negative pole of capacitor C 10 meets control ground GND1;
2 pin of control chip U3A meet internal reference voltage end Vref by resistance R 8 in the described protection circuit against input over-voltage, the 3 pin difference connecting resistance R9 of control chip U3A and an end of resistance R 10, the other end of resistance R 9 connects the positive pole of capacitor C 7 respectively, one end of resistance R 11,1 end of adjustable resistance W2,3 ends of adjustable resistance W2 link to each other with 2 ends and with meet control ground GND1 after the negative pole of capacitor C 7 links to each other, the positive pole of another termination voltage stabilizing didoe D2 of resistance R 11, the negative pole of voltage stabilizing didoe D2 meets in-line power end V2,1 pin of control chip U3A is the end of connecting resistance R12 respectively, the other end of resistance R 10, the end of the other end difference connecting resistance R13 of resistance R 12 and the base stage of triode T3, the other end of resistance R 13 links to each other with the emitter of triode T3 and meets control ground GND1, the collector electrode of triode T3 connects the positive pole of capacitor C 8 respectively, 8 pin of control chip U1 in the control circuit, the negative pole of capacitor C 8 meets control ground GND1,4 pin of control chip U3A meet control ground GND1, and 8 pin of control chip U3A meet inner voltage stabilizing feeder ear Vcc;
The L of Alternating Current Power Supply end connects 1 pin of input filter inductance L1 in the described power supply circuits by protective tube BX, 2 pin of the N termination input filter inductance L1 of Alternating Current Power Supply, 3 pin of input filter inductance L1 connect 1 pin of rectifier bridge BRIDGE1 respectively, 1 end of transformer TRF3 primary coil, 5 pin of input filter inductance L1 connect 3 pin of rectifier bridge BRIDGE1 respectively, 2 ends of transformer TRF3 primary coil, 4 pin of input filter inductance L1 meet the earth E, resistance R 31 is in parallel with capacitor C 16, resistance R 32 is in parallel with capacitor C 17,2 pin of rectifier bridge BRIDGE1 connect the anodal of capacitor C 16 and as internal power feeder ear V1, the negative pole of capacitor C 16 connects the positive pole of capacitor C 17, the negative pole of capacitor C 17 connects 4 pin of rectifier bridge BRIDGE1 respectively, one end of capacitor C 20 and exchange thermally HG, another termination output ground G of capacitor C 20,3 of transformer TRF3 secondary coil, 4 ends connect the AC end of rectifier bridge BRIDGE2 respectively, the end of the positive terminating resistor R30 of rectifier bridge BRIDGE2 and as in-line power end V2, the other end of resistance R 30 connects 1 pin of voltage stabilizing chip U6 and the positive pole of capacitor C 18 respectively, 3 pin of voltage stabilizing chip U6 connect the anodal of capacitor C 19 and as inner voltage stabilizing feeder ear Vcc, 2 pin of voltage stabilizing chip U6 respectively with the negative terminal of rectifier bridge BRIDGE2, the negative pole of capacitor C 18 and capacitor C 19 links to each other and meets control ground GND1;
11 pin of control chip U1 in the primary coil 1 termination control circuit of isolation drive transformer TRF2 in described driving and the output circuit, 14 pin of control chip U1 in the primary coil 2 termination control circuits of isolation drive transformer TRF2, resistance R 33 is in parallel with diode D6, resistance R 34 is in parallel with diode D7, the negative pole of the secondary coil 3 terminating diode D6 of isolation drive transformer TRF2, the end of the positive pole difference connecting resistance R35 of diode D6 and the grid of fet T1, secondary coil 4 ends of isolation drive transformer TRF2 connect the source electrode of fet T1 respectively, the other end of resistance R 35, the drain electrode of fet T2,2 ends of main transformer TRF1 primary coil and an end of capacitor C 25, the drain electrode of fet T1 meets internal power feeder ear V1, the negative pole of the secondary coil 5 terminating diode D7 of isolation drive transformer TRF2, the end of the positive pole difference connecting resistance R36 of diode D7 and the grid of fet T2, secondary coil 6 ends of isolation drive transformer TRF2 connect the source electrode of fet T2 respectively, the other end of resistance R 36 and exchange thermally HG, capacitor C 21 is in parallel with capacitor C 22, capacitor C 23 is in parallel with capacitor C 24, one termination internal power feeder ear V1 of capacitor C 21, the other end of capacitor C 21 connects an end of capacitor C 23 respectively, 1 end of one end of resistance R 37 and main transformer TRF1 primary coil, the other end of the other end connecting resistance R37 of capacitor C 25, another termination of capacitor C 23 exchanges thermally HG, 3 termination high-voltage output end HV.out of main transformer TRF1 secondary coil, the linking to each other a little of capacitor C 14 and resistance R 26 in the 4 termination current feedback circuits of main transformer TRF1 secondary coil, high pressure output ground G connects the positive pole of diode D4 in the current feedback circuit.
The invention has the beneficial effects as follows: the operating frequency height, the complete machine power consumption is low; Have the input overvoltage, power transfer is overheated and defencive function such as output overcurrent; Is furnished with the power output manual fine-tuning and the indication of reporting to the police; Long-term working stability is good, and weight is lighter, good looking appearance.
Embodiment
Shown in Fig. 1~4, ozone high-voltage power supply, comprise the power circuit in power supply complete machine casing 1 and the casing, power circuit comprises control circuit, current feedback circuit, thermal-shutdown circuit, protection circuit against input over-voltage, power supply circuits, driving and output circuit, control circuit is connected with current feedback circuit, thermal-shutdown circuit, protection circuit against input over-voltage, power supply circuits, driving and output circuit respectively, power supply circuits are connected with driving and output circuit, and driving and output circuit are connected with current feedback circuit;
13 pin of control chip U1 link to each other with 15 pin and meet inner voltage stabilizing feeder ear Vcc in the control circuit, 3 pin of control chip U1,10 pin link to each other with 12 pin and meet control ground GND1,1 pin of control chip U1 links to each other with 9 pin and meets control ground GND1 by capacitor C 4, resistance R 6 is in parallel with capacitor C 5, the 2 pin difference connecting resistance R5 of control chip U1 and an end of resistance R 6,16 pin of control chip U1 connect the anodal of capacitor C 3 and as internal reference voltage end Vref, the negative pole of capacitor C 3 links to each other with the other end of resistance R 6 and meets control ground GND1, the positive pole of capacitor C 1 meets inner voltage stabilizing feeder ear Vcc, the negative pole of capacitor C 1 meets control ground GND1,5 pin of control chip U1 connect an end of capacitor C 2 and connect 7 pin of control chip U1 by resistance R 2,6 pin of control chip U1 connect 2 ends of adjustable resistance W1 by resistance R 1,2 ends of adjustable resistance W1 link to each other with 3 ends, 1 end of adjustable resistance W1 links to each other with the other end of capacitor C 2 and meets control ground GND1,1 pin of control chip U2A links to each other with 2 pin and the other end of connecting resistance R5, the end of the 7 pin connecting resistance R3 of control chip U2B, resistance R 7 is in parallel with capacitor C 6, the 6 pin difference connecting resistance R7 of control chip U2B and an end of resistance R 4, the other end of resistance R 3, the positive pole of diode D3,3 pin of another termination control chip U2A of resistance R 4,5 pin of control chip U2B meet internal reference voltage end Vref, 4 pin of control chip U2A meet control ground GND1, and 8 pin of control chip U2A meet inner voltage stabilizing feeder ear Vcc;
An end of resistance R 26 connects the negative pole of diode D4 and the positive pole of diode D5 respectively by capacitor C 14 in the current feedback circuit, the positive pole of another terminating diode D4 of resistance R 26, the end of the negative pole difference connecting resistance R27 of diode D5 and the positive pole of capacitor C 13, the negative pole of capacitor C 13 meets high pressure output ground G, the other end difference connecting resistance R28 of resistance R 27 and an end of resistance R 29,2 ends of another termination adjustable resistance W4 of resistance R 28,2 ends of adjustable resistance W4 link to each other with 3 ends, the 1 termination output ground G of adjustable resistance W4, the other end of resistance R 29 connects 1 pin of photoelectrical coupler U5 and an end of capacitor C 15 respectively, 2 pin of photoelectrical coupler U5 link to each other with the other end of capacitor C 15 and meet output ground G, 3 pin of photoelectrical coupler U5 connect control ground GND1,8 pin of control chip U1 in the 4 pin connection control circuits of photoelectrical coupler U5;
Resistance R 25 is in parallel with capacitor C 9 in the thermal-shutdown circuit, 5 pin of control chip U4B are by an end of resistance 15 difference connecting resistance R14 and resistance R 25, the base stage of triode T5, another termination of resistance R 14 meets inner voltage stabilizing feeder ear Vcc, the other end of resistance R 25 links to each other with the collector electrode of triode T5 and meets control ground GND1, resistance R 17 is in parallel with capacitor C 11, the 6 pin difference connecting resistance R16 of control chip U4B and an end of resistance R 17, another termination control ground GND1 of resistance R 16,7 pin of control chip U4B are the end of connecting resistance R20 respectively, the other end of resistance R 17,2 pin of another termination control chip U4A of resistance R 20, resistance R 19 is in parallel with capacitor C 12, the 3 pin difference connecting resistance R21 of control chip U4A and an end of resistance R 18, the positive pole of capacitor C 12, the negative pole of capacitor C 12 meets control ground GND1,2 ends of another termination adjustable resistance W3 of resistance R 18,2 ends of adjustable resistance W3 link to each other with 3 ends, the inner voltage stabilizing feeder ear of 1 termination of adjustable resistance W3 Vcc, the end of the 1 pin difference connecting resistance R22 of control chip U4A and the other end of resistance R 21, the other end of resistance R 22 is the end of connecting resistance R23 respectively, the base stage of triode T4, the other end of resistance R 23 links to each other with the emitter of triode T4 and meets control ground GND1, the collector electrode of triode T4 is the negative pole of sending and receiving optical diode D3 respectively, the negative pole of diode D1 in the control circuit, the positive pole of light-emitting diode D3 meets in-line power end V2 by resistance R 24,4 pin of control chip U4A meet control ground GND1,8 pin of control chip U4A meet inner voltage stabilizing feeder ear Vcc, the positive pole of capacitor C 10 meets inner voltage stabilizing feeder ear Vcc, and the negative pole of capacitor C 10 meets control ground GND1;
2 pin of control chip U3A meet internal reference voltage end Vref by resistance R 8 in the protection circuit against input over-voltage, the 3 pin difference connecting resistance R9 of control chip U3A and an end of resistance R 10, the other end of resistance R 9 connects the positive pole of capacitor C 7 respectively, one end of resistance R 11,1 end of adjustable resistance W2,3 ends of adjustable resistance W2 link to each other with 2 ends and with meet control ground GND1 after the negative pole of capacitor C 7 links to each other, the positive pole of another termination voltage stabilizing didoe D2 of resistance R 11, the negative pole of voltage stabilizing didoe D2 meets in-line power end V2,1 pin of control chip U3A is the end of connecting resistance R12 respectively, the other end of resistance R 10, the end of the other end difference connecting resistance R13 of resistance R 12 and the base stage of triode T3, the other end of resistance R 13 links to each other with the emitter of triode T3 and meets control ground GND1, the collector electrode of triode T3 connects the positive pole of capacitor C 8 respectively, 8 pin of control chip U1 in the control circuit, the negative pole of capacitor C 8 meets control ground GND1,4 pin of control chip U3A meet control ground GND1, and 8 pin of control chip U3A meet inner voltage stabilizing feeder ear Vcc;
The L of Alternating Current Power Supply end connects 1 pin of input filter inductance L1 in the power supply circuits by protective tube BX, 2 pin of the N termination input filter inductance L1 of Alternating Current Power Supply, 3 pin of input filter inductance L1 connect 1 pin of rectifier bridge BRIDGE1 respectively, 1 end of transformer TRF3 primary coil, 5 pin of input filter inductance L1 connect 3 pin of rectifier bridge BRIDGE1 respectively, 2 ends of transformer TRF3 primary coil, 4 pin of input filter inductance L1 meet the earth E, resistance R 31 is in parallel with capacitor C 16, resistance R 32 is in parallel with capacitor C 17,2 pin of rectifier bridge BRIDGE1 connect the anodal of capacitor C 16 and as internal power feeder ear V1, the negative pole of capacitor C 16 connects the positive pole of capacitor C 17, the negative pole of capacitor C 17 connects 4 pin of rectifier bridge BRIDGE1 respectively, one end of capacitor C 20 and exchange thermally HG, another termination output ground G of capacitor C 20,3 of transformer TRF3 secondary coil, 4 ends connect the AC end of rectifier bridge BRIDGE2 respectively, the end of "+" terminating resistor R30 of rectifier bridge BRIDGE2 and as in-line power end V2, the other end of resistance R 30 connects 1 pin of voltage stabilizing chip U6 and the positive pole of capacitor C 18 respectively, 3 pin of voltage stabilizing chip U6 connect the anodal of capacitor C 19 and as inner voltage stabilizing feeder ear Vcc, 2 pin of voltage stabilizing chip U6 are held with rectifier bridge BRIDGE2 "-" respectively, the negative pole of capacitor C 18 and capacitor C 19 links to each other and meets control ground GND1;
11 pin of control chip U1 in the primary coil 1 termination control circuit of isolation drive transformer TRF2 in driving and the output circuit, 14 pin of control chip U1 in the primary coil 2 termination control circuits of isolation drive transformer TRF2, resistance R 33 is in parallel with diode D6, resistance R 34 is in parallel with diode D7, the negative pole of the secondary coil 3 terminating diode D6 of isolation drive transformer TRF2, the end of the positive pole difference connecting resistance R35 of diode D6 and the grid of fet T1, secondary coil 4 ends of isolation drive transformer TRF2 connect the source electrode of fet T1 respectively, the other end of resistance R 35, the drain electrode of fet T2,2 ends of main transformer TRF1 primary coil and an end of capacitor C 25, the drain electrode of fet T1 meets internal power feeder ear V1, the negative pole of the secondary coil 5 terminating diode D7 of isolation drive transformer TRF2, the end of the positive pole difference connecting resistance R36 of diode D7 and the grid of fet T2, secondary coil 6 ends of isolation drive transformer TRF2 connect the source electrode of fet T2 respectively, the other end of resistance R 36 and exchange thermally HG, capacitor C 21 is in parallel with capacitor C 22, capacitor C 23 is in parallel with capacitor C 24, one termination internal power feeder ear V1 of capacitor C 21, the other end of capacitor C 21 connects an end of capacitor C 23 respectively, 1 end of one end of resistance R 37 and main transformer TRF1 primary coil, the other end of the other end connecting resistance R37 of capacitor C 25, another termination of capacitor C 23 exchanges thermally HG, 3 termination high-voltage output end HV.out of main transformer TRF1 secondary coil, the linking to each other a little of capacitor C 14 and resistance R 26 in the 4 termination current feedback circuits of main transformer TRF1 secondary coil, high pressure output ground G connects the positive pole of diode D4 in the current feedback circuit.
The integrated control chip U1 of PWM is adopted in the core of power circuit, the operating frequency height, and operating voltage range is wide, and totem pillar export structure adopts isolating transformer to drive the half-bridge output circuit, by the adjusting of output current feedback, to stablize power output.Simultaneously, this circuit has the kinds of protect function, and is easy to use.
Select that low noise, low temperature float for use, the control chip of good stability and other components and parts; Reasonably the PCB layout designs is guaranteed control circuit and Alternating Current Power Supply and output isolation fully; At aspects such as transformer line pack arrangement technology, assembly technology and High-Voltage Insulation processing strict demand is arranged, guarantee the reliability and the stability of power supply long-term work.
Power supply complete machine casing 1 is the 3U standard PC case, the output high pressure is drawn two lead-in wires with the high pressure cable from a side of power supply complete machine casing 1 rear board, be respectively high-voltage output end H.V.Out, high pressure output ground G, Alternating Current Power Supply input AC IN, the front panel of power supply complete machine casing is provided with input voltage display list 2, input current display list 3, alarm lamp 4 and power work switch 5.
Operation principle: power frequency civil power 220V is behind insurance BX and filter inductance L1, lead up to after full-wave bridge rectifier circuit BRIDGE1 and the filtering, power power supply as output circuit, another road obtains in-line power V2 and inner voltage stabilizing power supply Vcc by transformer TRF3, rectification circuit BRIDGE2 and voltage stabilizing chip U6.
The integrated control chip U1 of PWM is adopted in the core of control circuit, PWM oscillation pulse signal from its 11 pin and the output of 14 pin both-ends, directly connect isolation drive transformer TRF2, this transformer can make secondary level shift, can make control circuit and main converter circuit isolate the half-bridge output circuit that couple drive is made up of MOS pliotron T1 and T2, main transformer TRF1, capacitor C 21 and capacitor C 22 etc. again.
In thermal-shutdown circuit; when the power conversion device working temperature is too high; the temperature voltage signal that temperature sensor T5 gathers; by control chip U4A and U4B etc.; make triode T4 conducting, 2 pin current potentials with control chip U1 in the control circuit drag down on the one hand, and it is quit work; electric charge on the soft start timing capacitor of will starting shooting the on the other hand C6 bleeds off, and wait is restarted.
In protection circuit against input over-voltage, when the alternating supply voltage of input when too high, the input overvoltage signal V2 that gathers at the positive output end of rectification circuit BRIDGE2; by control chip U3A etc.; make triode T3 conducting, the 8 pin current potentials of control chip U1 in the control circuit are dragged down, it is quit work.
In driving and output circuit, the high-frequency impulse ripple that control circuit produces by half-bridge circuit, through main transformer TRF1 output high pressure, and by control, adjusting output current, is stablized power output.The leakage inductance generation resonance of load capacitance and high-tension transformer TRF1, the generation peak-to-peak value is several kilovolts a quasi-sine-wave high pressure, is used to drive the device of producing ozone with corona discharge.