CN203968103U - The light-operated commutating pulse expanded circuit of two isolation - Google Patents

Abstract

The light-operated commutating pulse expanded circuit of a kind of two isolation, comprises edge sense circuit, and pulse expansion circuit, can modulate spike train circuit, electro-optical conversion circuit, optical transmission circuit, photoelectric switching circuit, power amplification circuit, electromagnetic isolation circuit.Edge sense circuit detects the pulse-triggered edge of not isolation and sends signal to pulse expansion circuit, pulsewidth expanded circuit amplifies pulsewidth to be transferred to can modulate spike train, and be sent to electro-optical conversion circuit, be sent to photoelectric switching circuit by optical transmission circuit, drive electromagnetic isolation circuit through power amplification circuit.The utility model adopts photoelectricity, the two isolated form of electromagnetism, has improved isolation Level, has avoided fault extension; Transmit by light that to have effectively reduced the system that electromagnetic interference causes unstable; By pulse expansion, make circuit not be only applicable to double rectifier bridge topological structure in parallel, and be applicable to the topological structure of double rectifier bridge series connection, range of application is wider.

Description

The light-operated commutating pulse expanded circuit of two isolation

Technical field

The utility model relates to three-phase controllable silicon rectifier bridge circuits for triggering technical field, is specifically related to the light-operated commutating pulse expanded circuit of a kind of two isolation.

Background technology

Light-operated commutating pulse expanded circuit is for three-phase controllable silicon rectifying circuit.Existing three-phase controllable silicon commutating pulse circuit has form: adopt the direct pulse transformer of non-isolation directly to drive, and this mode whole control circuit in the time of system failure high pressure of easily contacting, thus damaging whole control loop, extension causes damage.On the other hand, compared with easily causing interference under strong electromagnetic interference environment, cause that system is unstable, and narrower trigger impulse can only be applicable to double rectifier bridge topological circuit in parallel.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of two isolation light-operated rectification expanded circuit, can strengthen isolating power, reduces and disturbs, and prevents system failure extension.

Technical problem to be solved in the utility model realizes by the following technical solutions:

The light-operated commutating pulse expanded circuit of a kind of two isolation, comprise edge sense circuit, pulse expansion circuit, can modulate spike train circuit, electro-optical conversion circuit, optical transmission circuit, photoelectric switching circuit, power amplification circuit and electromagnetic isolation circuit, described edge sense circuit detects the pulse-triggered edge of not isolation and sends signal to pulse expansion circuit, described pulsewidth expanded circuit amplifies pulsewidth to be transferred to can modulate spike train circuit, and be sent to electro-optical conversion circuit, described electro-optical conversion circuit passes the signal to photoelectric switching circuit by optical transmission circuit, drive electromagnetic isolation circuit through power amplification circuit again, electromagnetic isolation drives rectification thyristor rectifier bridge.

Described edge sense circuit comprises a trigger U2A, the 4th pin of described trigger U2A is connected with the 25 resistance R 25, on the 1st pin of described trigger U2A and the 2nd pin, be connected with the 4th capacitor C 4, one end second connect+15V of resistance R 2 power supply of described the 4th capacitor C 4; Trigger U2A employing can heavily trigger ground monostable flipflop CD4538 and detect in real time pulse signal edge, resistance R 25 is the pull-up resistors that design for adapting to open the circuit interface exported with Louing, detect after edge signal, capacitor C 4 and resistance R 2 are converted to edge signal the narrow pulse signal of 95us and are sent to next stage pulse expansion circuit;

Described pulse expansion circuit comprises the first time-base integrated circuit U1, on circuit after the 7th pin and the 6th pin parallel connection of described the first time-base integrated circuit U1, be parallel with the first capacitor C 1 and the 3rd resistance R 3, the 5th pin of described the first time-base integrated circuit U1 is connected with the 3rd capacitor C 3, between the 1st pin of described the first time-base integrated circuit U1 and the 8th pin, be parallel with the tenth capacitor C 10, the first time-base integrated circuit U1 adopts NE555, after receiving signal, utilize the second resistance R 2 and the first capacitor C 1 to expand pulse, its pulse expansion formula is: T=1.1 × R2 × C1, expand to 5.17ms,

The described spike train circuit of modulating comprises the second time-base integrated circuit U2, on circuit after the 6th pin and the 7th pin parallel connection of described the second time-base integrated circuit U2, be in series with the first diode D1 and the first resistance R 1, on the 2nd pin of described the second time-base integrated circuit U2, be connected with the second diode D2, one end of described the second diode D2 is connected with the 4th resistance R 4, the other end is connected with the second capacitor C 2, between the 1st pin of described the second time-base integrated circuit U2 and octal, be parallel with the 7th capacitor C 7, one end of described the 7th capacitor C 7 the 8th capacitor C 8 is connected to the 5th pin of the second time-base integrated circuit U2, on 4 pin of described the second time-base integrated circuit U2, be connected with the 6th resistance R 6, can modulate spike train circuit receives and widens that send after pulse can modulating pulse, its frequency computation part formula is: f=1 ÷ 0.7 ÷ C ÷ (R1+R4), frequency f=5KHz as calculated, duty ratio computing formula: D=T1 × R4 ÷ (R1+R4), wherein T1=1 ÷ 5000=200us, positive pulse width is 38.7us, can modulating pulse be conducive to the triggering of different model controllable silicon, effectively prevent the heating of power device,

Described electro-optical conversion circuit comprises driver U3, on the 2nd pin of described driver U3, be connected with the 8th resistance R 8, the 4th pin of described driver U3 is connected to the 2nd pin of the first electrical to optical converter F1, the 1st pin of described the first electrical to optical converter F1 is connected with the 5th resistance R 5, the 5th pin of described driver U3 is connected to the 2nd pin of the second electrical to optical converter F2, the 1st pin of described the second electrical to optical converter F2 is connected with the 13 resistance R 13, the 7th pin of described driver U3 is connected with the 9th resistance R 9, the 8th pin of described driver U3 is connected with the 5th capacitor C 5, electrical to optical converter adopts HFBR1528, in conjunction with DS3631N driver U1, resistance R 5 in driver U1, R13 is for driving resistance, DS3631N is driving element, resistance R 8, R9 is logical drive resistance, receive can modulating pulse after switching signal immediately, be transferred to next stage photoelectric switching circuit by optical transmission circuit,

Described photoelectric switching circuit comprises the first optical-electrical converter F3, on the 2nd pin of described the first optical-electrical converter F3, be connected with the 9th capacitor C 9, on the 1st pin of described the first optical-electrical converter F3, be connected with the 26 resistance R 26, optical-electrical converter F3 adopts HFBR2528 optical-electrical converter, R26 is level conversion resistance, convert 5V level signal to 15V level signal, and pass the signal to power amplification circuit;

Described power amplification circuit comprises the first triode Q1, the 3rd triode Q3, the 5th triode Q5 and the 7th triode Q7, described the first triode Q1 and the 5th triode Q5 are connected in parallel on the 2nd pin of the 7th triode Q7, the 2nd pin of described the first triode Q1 is connected with the 3rd triode Q3 through the 1 14 resistance R 24 after being connected with the 2nd pin of the 5th triode Q5, triode Q7 drives high-power FET Q3 in conjunction with the push-pull amplifier of Q1 and Q5 composition through resistance R 24, the signal power gathering of photoelectric switching circuit is amplified and drive electromagnetic isolation circuit;

Described electromagnetic isolation circuit comprises a pulse transformer T1, between the 1st pin of described pulse transformer T1 and the 3rd pin, be in series with the 3rd resistance R 3 and the 5th diode D5,8 pin of described pulse transformer T1 are connected to the 1st pin of switching mode power supply transformer TB1 through K switch 1, the 5th pin of described pulse transformer T1 is connected to the 4th pin of switching mode power supply transformer TB1 through the 6th diode D6 and ammeter G1, between the 8th pin of pulse transformer T1 and the 5th pin, be parallel with the 4th diode D4, the 5th resistance R the 5 and the 11 capacitor C 11; Pulse transformer T1 uses high-isolating high-power pulse transformer KCB2810G-F10; R3 capable of regulating controllable silicon drive current; diode D5 is reverse fly-wheel diode; while preventing that pulse from stopping, reverse potential is back in system, and D4, D6 form pulse shaper, adopts fast recovery diode FR103; resistance R 5 and capacitor C 11 form the protection of controllable silicon gate pole; in this circuit, driving pulse peak value reaches 1.5A, and current-rising-rate is 1.2A/uS, secondary drive rectification thyristor rectifier bridge.

By sort circuit isolation method; isolation voltage can reach 220KV; even if electromagnetic isolation circuit is damaged by fault the extension that also can not cause damage, play the object of the whole control system of protection, the pulsewidth after expansion is applicable to doube bridge rectification topological sum doube bridge in parallel rectification series topology.

The beneficial effects of the utility model are: the utility model adopts photoelectricity, the two isolated form of electromagnetism, has improved isolation Level, has avoided fault extension; Transmit by light that to have effectively reduced the system that electromagnetic interference causes unstable; By pulse expansion, make circuit not be only applicable to double rectifier bridge topological structure in parallel, and be applicable to the topological structure of double rectifier bridge series connection, range of application is wider.

Brief description of the drawings

Fig. 1 is circuit diagram of the present utility model;

Fig. 2 is edge sense circuit of the present utility model;

Fig. 3 is pulsed light widening circuit of the present utility model;

Fig. 4 is the spike train circuit of modulating of the present utility model;

Fig. 5 is electro-optical conversion circuit of the present utility model;

Fig. 6 is photoelectric switching circuit of the present utility model;

Fig. 7 is power amplification circuit of the present utility model;

Fig. 8 is electromagnetic isolation circuit of the present utility model.

Embodiment

For technological means, creation characteristic that the utility model is realized, reach object and effect is easy to understand, below in conjunction with concrete diagram, further set forth the utility model.

As shown in Figure 1, the light-operated commutating pulse expanded circuit of a kind of two isolation, comprise edge sense circuit 1, pulse expansion circuit 2, can modulate spike train circuit 3, electro-optical conversion circuit 4, optical transmission circuit 5, photoelectric switching circuit 6, power amplification circuit 7 and electromagnetic isolation circuit 8, edge sense circuit 1 detects the pulse-triggered edge of not isolation and sends signal to pulse expansion circuit 2, pulsewidth expanded circuit 2 amplifies pulsewidth to be transferred to can modulate spike train circuit 3, and be sent to electro-optical conversion circuit 4, electro-optical conversion circuit 4 passes the signal to photoelectric switching circuit 6 by optical transmission circuit 5, drive electromagnetic isolation circuit 8 through power amplification circuit 7 again, electromagnetic isolation circuit 8 drives rectification thyristor rectifier bridge 9.

As shown in Figure 2, edge sense circuit 1 comprises a trigger U2A, and the 4th pin of trigger U2A is connected with the 25 resistance R 25, is connected with one end second connect+15V of resistance R 2 power supply of the 4th capacitor C 4, the four capacitor C 4 on the 1st pin of trigger U2A and the 2nd pin; Trigger U2A employing can heavily trigger ground monostable flipflop CD4538 and detect in real time pulse signal edge, resistance R 25 is the pull-up resistors that design for adapting to open the circuit interface exported with Louing, detect after edge signal, capacitor C 4 and resistance R 2 are converted to edge signal the narrow pulse signal of 95us and are sent to next stage pulse expansion circuit;

As shown in Figure 3, pulse expansion circuit 2 comprises the first time-base integrated circuit U1, on circuit after the 7th pin and the 6th pin parallel connection of the first time-base integrated circuit U1, be parallel with the first capacitor C 1 and the 3rd resistance R 3, the 5th pin of the first time-base integrated circuit U1 is connected with the 3rd capacitor C 3, between the 1st pin of the first time-base integrated circuit U1 and the 8th pin, be parallel with the tenth capacitor C 10, the first time-base integrated circuit U1 adopts NE555, after receiving signal, utilize the second resistance R 2 and the first capacitor C 1 to expand pulse, its pulse expansion formula is: T=1.1 × R2 × C1, expand to 5.17ms,

As shown in Figure 4, can modulate spike train circuit 3 and comprise the second time-base integrated circuit U2, on circuit after the 6th pin and the 7th pin parallel connection of the second time-base integrated circuit U2, be in series with the first diode D1 and the first resistance R 1, on the 2nd pin of the second time-base integrated circuit U2, be connected with the second diode D2, one end of described the second diode D2 is connected with the 4th resistance R 4, the other end is connected with the second capacitor C 2, between the 1st pin of the second time-base integrated circuit U2 and octal, be parallel with the 7th capacitor C 7, one end of the 7th capacitor C 7 the 8th capacitor C 8 is connected to the 5th pin of the second time-base integrated circuit U2, on 4 pin of the second time-base integrated circuit U2, be connected with the 6th resistance R 6, can modulate spike train circuit receives and widens that send after pulse can modulating pulse, its frequency computation part formula is: f=1 ÷ 0.7 ÷ C ÷ (R1+R4), frequency f=5KHz as calculated, duty ratio computing formula: D=T1 × R4 ÷ (R1+R4), wherein T1=1 ÷ 5000=200us, positive pulse width is 38.7us, can modulating pulse be conducive to the triggering of different model controllable silicon, effectively prevent the heating of power device,

As shown in Figure 5, electro-optical conversion circuit 4 comprises driver U3, on the 2nd pin of driver U3, be connected with the 8th resistance R 8, the 4th pin of driver U3 is connected to the 2nd pin of the first electrical to optical converter F1, the 1st pin of the first electrical to optical converter F1 is connected with the 5th resistance R 5, the 5th pin of driver U3 is connected to the 2nd pin of the second electrical to optical converter F2, the 1st pin of the second electrical to optical converter F2 is connected with the 13 resistance R 13, the 7th pin of driver U3 is connected with the 9th resistance R 9, the 8th pin of driver U3 is connected with the 5th capacitor C 5, electrical to optical converter adopts HFBR1528, in conjunction with DS3631N driver U1, resistance R 5 in driver U1, R13 is for driving resistance, DS3631N is driving element, resistance R 8, R9 is logical drive resistance, receive can modulating pulse after switching signal immediately, be transferred to next stage photoelectric switching circuit by optical transmission circuit,

As shown in Figure 6, photoelectric switching circuit 7 comprises the first optical-electrical converter F3, on the 2nd pin of the first optical-electrical converter F3, be connected with the 9th capacitor C 9, on the 1st pin of the first optical-electrical converter F3, be connected with the 26 resistance R 26, optical-electrical converter F3 adopts HFBR2528 optical-electrical converter, R26 is level conversion resistance, converts 5V level signal to 15V level signal, and passes the signal to power amplification circuit;

As shown in Figure 7, power amplification circuit 7 comprises the first triode Q1, the 3rd triode Q3, the 5th triode Q5 and the 7th triode Q7, the first triode Q1 and the 5th triode Q5 are connected in parallel on the 2nd pin of the 7th triode Q7, the 2nd pin of the first triode Q1 is connected with the 3rd triode Q3 through the 1 14 resistance R 24 after being connected with the 2nd pin of the 5th triode Q5, triode Q7 drives high-power FET Q3 in conjunction with the push-pull amplifier of Q1 and Q5 composition through resistance R 24, the signal power gathering of photoelectric switching circuit is amplified and drive electromagnetic isolation circuit;

As shown in Figure 8, electromagnetic isolation circuit 8 comprises a pulse transformer T1, between the 1st pin of pulse transformer T1 and the 3rd pin, be in series with the 3rd resistance R 3 and the 5th diode D5,8 pin of pulse transformer T1 are connected to the 1st pin of switching mode power supply transformer TB1 through K switch 1, the 5th pin of pulse transformer T1 is connected to the 4th pin of switching mode power supply transformer TB1 through the 6th diode D6 and ammeter G1, between the 8th pin of pulse transformer T1 and the 5th pin, be parallel with the 4th diode D4, the 5th resistance R the 5 and the 11 capacitor C 11; Pulse transformer T1 uses high-isolating high-power pulse transformer KCB2810G-F10; R3 capable of regulating controllable silicon drive current; diode D5 is reverse fly-wheel diode; while preventing that pulse from stopping, reverse potential is back in system, and D4, D6 form pulse shaper, adopts fast recovery diode FR103; resistance R 5 and capacitor C 11 form the protection of controllable silicon gate pole; in this circuit, driving pulse peak value reaches 1.5A, and current-rising-rate is 1.2A/uS, secondary drive rectification thyristor rectifier bridge 9.

By sort circuit isolation method; isolation voltage can reach 220KV; even if electromagnetic isolation circuit is damaged by fault the extension that also can not cause damage, play the object of the whole control system of protection, the pulsewidth after expansion is applicable to doube bridge rectification topological sum doube bridge in parallel rectification series topology.

More than show and described general principle of the present utility model and principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; that in above-described embodiment and specification, describes just illustrates principle of the present utility model; do not departing under the prerequisite of the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (1)

1. the light-operated commutating pulse expanded circuit of two isolation, it is characterized in that: comprise edge sense circuit, pulse expansion circuit, can modulate spike train circuit, electro-optical conversion circuit, optical transmission circuit, photoelectric switching circuit, power amplification circuit and electromagnetic isolation circuit, described edge sense circuit detects the pulse-triggered edge of not isolation and sends signal to pulse expansion circuit, described pulsewidth expanded circuit amplifies pulsewidth to be transferred to can modulate spike train circuit, and be sent to electro-optical conversion circuit, described electro-optical conversion circuit passes the signal to photoelectric switching circuit by optical transmission circuit, drive electromagnetic isolation circuit through power amplification circuit again, electromagnetic isolation drives rectification thyristor rectifier bridge,

Described edge sense circuit comprises a trigger (U2A), the 4th pin of described trigger (U2A) is connected with the 25 resistance (R25), on the 1st pin of described trigger (U2A) and the 2nd pin, be connected with the 4th electric capacity (C4), connect+15V of one end the second resistance (R2) power supply of described the 4th electric capacity (C4); Trigger (U2A) employing can heavily trigger ground monostable flipflop CD4538 and detect in real time pulse signal edge, the 25 resistance (R25) is the pull-up resistor designing for adapting to open the circuit interface exported with Louing, detect after edge signal, the 4th electric capacity (C4) and the second resistance (R2) are converted to edge signal the narrow pulse signal of 95us and are sent to next stage pulse expansion circuit;

Described pulse expansion circuit comprises the first time-base integrated circuit (U1), on circuit after the 7th pin and the 6th pin parallel connection of described the first time-base integrated circuit (U1), be parallel with the first electric capacity (C1) and the 3rd resistance (R3), the 5th pin of described the first time-base integrated circuit (U1) is connected with the 3rd electric capacity (C3), between the 1st pin of described the first time-base integrated circuit (U1) and the 8th pin, be parallel with the tenth electric capacity (C10), the first time-base integrated circuit (U1) utilizes the second resistance (R2) and the first electric capacity (C1) expansion pulse after receiving signal, expand to 5.17ms,

The described spike train circuit of modulating comprises the second time-base integrated circuit (U2), on circuit after the 6th pin and the 7th pin parallel connection of described the second time-base integrated circuit (U2), be in series with the first diode (D1) and the first resistance (R1), on the 2nd pin of described the second time-base integrated circuit (U2), be connected with the second diode (D2), one end of described the second diode (D2) is connected with the 4th resistance (R4), the other end is connected with the second electric capacity (C2), between the 1st pin of described the second time-base integrated circuit (U2) and octal, be parallel with the 7th electric capacity (C7), one end the 8th electric capacity (C8) of described the 7th electric capacity (C7) is connected to the 5th pin of the second time-base integrated circuit (U2), on 4 pin of described the second time-base integrated circuit (U2), be connected with the 6th resistance (R6), can modulate spike train circuit receives and widens that send after pulse can modulating pulse,

Described electro-optical conversion circuit comprises driver (U3), on the 2nd pin of described driver (U3), be connected with the 8th resistance (R8), the 4th pin of described driver (U3) is connected to the 2nd pin of the first electrical to optical converter (F1), the 1st pin of described the first electrical to optical converter (F1) is connected with the 5th resistance (R5), the 5th pin of described driver (U3) is connected to the 2nd pin of the second electrical to optical converter (F2), the 1st pin of described the second electrical to optical converter (F2) is connected with the 13 resistance (R13), the 7th pin of described driver (U3) is connected with the 9th resistance (R9), the 8th pin of described driver (U3) is connected with the 5th electric capacity (C5), receive can modulating pulse after switching signal immediately, be transferred to next stage photoelectric switching circuit by optical transmission circuit,

Described photoelectric switching circuit comprises the first optical-electrical converter (F3), on the 2nd pin of described the first optical-electrical converter (F3), be connected with the 9th electric capacity (C9), on the 1st pin of described the first optical-electrical converter (F3), be connected with the 26 resistance (R26), optical-electrical converter (F3) adopts HFBR2528 optical-electrical converter, the 26 resistance (R26) is level conversion resistance, convert 5V level signal to 15V level signal, and pass the signal to power amplification circuit;

Described power amplification circuit comprises the first triode Q1, the 3rd triode Q3, the 5th triode Q5 and the 7th triode Q7, described the first triode Q1 and the 5th triode Q5 are connected in parallel on the 2nd pin of the 7th triode Q7, the 2nd pin of described the first triode Q1 is connected with the 3rd triode Q3 through the 1 14 resistance R 24 after being connected with the 2nd pin of the 5th triode Q5, triode Q7 drives high-power FET Q3 in conjunction with the push-pull amplifier of Q1 and Q5 composition through resistance R 24, the signal power gathering of photoelectric switching circuit is amplified and drive electromagnetic isolation circuit;

Described electromagnetic isolation circuit comprises a pulse transformer (T1), between the 1st pin of described pulse transformer (T1) and the 3rd pin, be in series with the 3rd resistance (R3) and the 5th diode (D5), 8 pin of described pulse transformer (T1) are connected to the 1st pin of switching mode power supply transformer (TB1) through switch (K1), the 5th pin of described pulse transformer (T1) is connected to the 4th pin of switching mode power supply transformer (TB1) through the 6th diode (D6) and ammeter (G1), between the 8th pin of pulse transformer (T1) and the 5th pin, be parallel with the 4th diode (D4), the 5th resistance (R5) and the 11 electric capacity (C11), pulse transformer (T1) uses high-isolating high-power pulse transformer KCB2810G-F10, the 3rd resistance (R3) capable of regulating controllable silicon drive current, the 5th diode (D5) is reverse fly-wheel diode, while preventing that pulse from stopping, reverse potential is back in system, the 4th diode (D4), the 6th diode (D6) forms pulse shaper, the 5th resistance (R5) and the protection of the 11 electric capacity (C11) composition controllable silicon gate pole, in this circuit, driving pulse peak value reaches 1.5A, current-rising-rate is 1.2A/us, secondary drive rectification thyristor rectifier bridge.