CN201570776U - Pulse drive circuit of semiconductor laser - Google Patents

Pulse drive circuit of semiconductor laser Download PDF

Info

Publication number
CN201570776U
CN201570776U CN2009202018771U CN200920201877U CN201570776U CN 201570776 U CN201570776 U CN 201570776U CN 2009202018771 U CN2009202018771 U CN 2009202018771U CN 200920201877 U CN200920201877 U CN 200920201877U CN 201570776 U CN201570776 U CN 201570776U
Authority
CN
China
Prior art keywords
resistance
links
triode
semiconductor laser
circuit
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
CN2009202018771U
Other languages
Chinese (zh)
Inventor
杨如祥
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
NINGBO ZHENDONG PHOTO-ELECTRIC Co Ltd
Original Assignee
NINGBO ZHENDONG PHOTO-ELECTRIC Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by NINGBO ZHENDONG PHOTO-ELECTRIC Co Ltd filed Critical NINGBO ZHENDONG PHOTO-ELECTRIC Co Ltd
Priority to CN2009202018771U priority Critical patent/CN201570776U/en
Application granted granted Critical
Publication of CN201570776U publication Critical patent/CN201570776U/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Abstract

The utility model relates to a pulse drive circuit of semiconductor laser which is used for producing a pulse current needed for triggering a semiconductor laser. The pulse drive circuit of semiconductor laser includes a semiconductor laser trigger circuit, and a pulse current source circuit; the input end of the pulse current source circuit is connected with an externally connected trigger pulse and the output end of the pulse current source circuit is connected with the grid electrode of a field-effect tube to control the opening and conduction of the field-effect tube according to the inputted trigger pulse; the pulse current source circuit is characterized by including a differentiating circuit and a source circuit. Compared with the prior art, a fourth audion and a sixth audion in the source circuit of the pulse drive circuit of semiconductor laser are under a conducted state and the field-effect tube is under a cutoff state when the externally connected trigger pulse does not have a trigger signal; once the externally connected trigger pulse has a trigger signal, the differentiating circuit immediately overlaps the trigger signal on the source circuit and drives the field-effect tube to be conducted to lead the charges accumulated on a reservoir capacitance to discharge rapidly, thereby generating a pulse current needed by the semiconductor laser.

Description

A kind of pulse driving circuit for semiconductor laser
Technical field
The utility model relates to a kind of pulse driving circuit for semiconductor laser.
Background technology
Along with the development and the extensive use of optical fiber sensing technology, people require more and more higher to the design objective of the semiconductor laser device driving circuit of narrow pulse high-current.The design principle of traditional pulse driving circuit for semiconductor laser is to utilize synchronizing signal to trigger the high power transistor break-make to trigger frequency with the control light pulse, and the output optical pulse width of the size control semiconductor laser by selecting different storage capacitors, generally all there is the shortcoming that the reaction time is slow, pulse duration is big, drive current is little in the sort circuit design.
The utility model content
Technical problem to be solved in the utility model is to provide the pulse driving circuit for semiconductor laser that a kind of reaction time is fast, pulse duration is narrow, drive current is big at above-mentioned prior art.
The utility model solves the problems of the technologies described above the technical scheme that is adopted: this pulse driving circuit for semiconductor laser, and be used for producing and trigger the luminous needed pulse current of semiconductor laser, comprise
The semiconductor laser circuits for triggering, these semiconductor laser circuits for triggering comprise storage capacitor, protective resistance, field effect transistor, first end of the drain electrode of field effect transistor and storage capacitor, first end of storage capacitor also links to each other with first end of protective resistance, second end of protective resistance links to each other with first constant-current charging power, the source ground of field effect transistor; Second end of storage capacitor links to each other with the negative pole of semiconductor laser, the plus earth of semiconductor laser;
The pulse current source circuit, input links to each other with external trigger impulse, and output links to each other with the grid of field effect transistor, controls the unlatching and the conducting of field effect transistor according to the trigger impulse of input;
It is characterized in that: described pulse current source circuit comprises
Filter circuit, its input links to each other with second constant-current charging power, is used for the high-frequency noise of filtering second constant-current charging power;
Differential circuit, its input links to each other with external trigger impulse, is used for external trigger impulse is changed the pulse that claims that width is fixing;
The circuit source circuit, comprise second triode, the 3rd triode, the 4th triode, the 5th triode, the 6th triode, first resistance, second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, the 6th resistance, first electric capacity, wherein first end of first resistance, second resistance, first electric capacity all links to each other with the output of filter circuit, second end of first resistance, first electric capacity all links to each other with the emitter of second triode, the collector electrode of second triode links to each other with first end of the 3rd resistance, the second end ground connection of the 3rd resistance; The base stage of second triode links to each other with the base stage of the 5th triode, first end of second resistance links to each other with the output of filter circuit, second end of second resistance links to each other with the emitter of the 5th triode, the collector electrode of the 5th triode links to each other with first end of the 4th resistance, second end of the 4th resistance links to each other with the collector electrode of the 3rd triode, the grounded emitter of the 3rd triode, the base stage of the 3rd triode links to each other with the output of differential circuit; First end of the 5th resistance links to each other with the base stage of second triode, the second end ground connection of the 5th resistance; The base stage of the 4th triode, the 6th triode all links to each other with the collector electrode of second triode, the collector electrode of the 4th triode, the 6th triode all links to each other with the output of filter circuit, the emitter of the 4th triode, the 6th triode links to each other the second end ground connection of the 6th resistance after linking to each other with first end of the 6th resistance; Output as the circuit source circuit after the emitter of the 4th triode, the 6th triode links to each other links to each other with the grid of described field effect transistor.
Described filter circuit comprises the 6th electric capacity, second electric capacity, the 8th electric capacity, inductance, wherein first end of the 6th electric capacity links to each other with second constant-current charging power, the second end ground connection of the 6th electric capacity, first end of inductance also links to each other with second constant-current charging power, second end of inductance links to each other with first end of second electric capacity, the second end ground connection of second electric capacity; First end of the 8th electric capacity links to each other with second end of inductance, the second end ground connection of the 8th electric capacity, and second end of inductance is the output of this filter circuit.
Described differential circuit comprises the 7th resistance, the 8th resistance, the 9th resistance, the 7th electric capacity, wherein first end of the 8th resistance, the 9th resistance all links to each other with external trigger impulse, second end of the 8th resistance links to each other with first end of the 7th electric capacity, the 7th electric capacity second end links to each other with first end of the 7th resistance, the equal ground connection of second end of second end of the 7th resistance, the 9th resistance; The 7th electric capacity second end is the output of differential circuit.
Described semiconductor laser circuits for triggering also comprise first diode, second diode, the tenth resistance, the 11 resistance, wherein the positive pole of first diode links to each other with second end of storage capacitor, the negative pole of first diode links to each other with first end of the tenth resistance, the second end ground connection of the tenth resistance; The negative pole of second diode links to each other with first end of protective resistance, and the positive pole of second diode links to each other with first end of the 11 resistance, the second end ground connection of the 11 resistance.
Compared with prior art, advantage of the present utility model is:
1, do not have under the triggering signal situation at external trigger impulse, the 4th triode, the 6th triode are in conducting state in the circuit source circuit, field effect transistor is in cut-off state, and in case external trigger impulse has triggering signal, differential circuit is immediately the triggering signal circuit source circuit that is added to, and drive the field effect transistor conducting, the electric charge that accumulates on the storage capacitor is discharged rapidly, thereby produce the needed pulse current of semiconductor laser;
2, utilize the circuit source circuit to drive the field effect transistor conducting in the utility model, utilize the 4th triode parallel with one another, the 6th triode, mainly play the effect that increases drive current;
3, under the situation that the 3rd triode turn-offs in the circuit source circuit of the present utility model, provide electric current to make the 4th triode, the 6th triode be in complete conducting state, and provide a voltage to field effect transistor, and guarantee the conducting voltage of this voltage less than the effect pipe; This method makes the 4th triode, the 6th triode be in optimum Working all the time, saved the start-up time of the 4th triode, the 6th triode, make the linearity distortion minimum of external trigger impulse (in the startup moment of triode and other IC, also do not enter normal operating conditions, waveform will inevitably distortion);
Description of drawings
Fig. 1 is the schematic diagram of pulse driving circuit for semiconductor laser among the utility model embodiment.
Embodiment
Embodiment describes in further detail the utility model below in conjunction with accompanying drawing.
Pulse driving circuit for semiconductor laser as shown in Figure 1 comprise semiconductor laser circuits for triggering 1 and pulse current source circuit, and the pulse current source circuit comprises filter circuit 21, differential circuit 22, circuit source circuit 23.
Wherein semiconductor laser circuits for triggering 1 comprise storage capacitor C9, protective resistance R14, field effect transistor Q1, the first diode D1, the second diode D2, the tenth resistance R the 10, the 11 resistance R 11; first end of the drain electrode of field effect transistor Q1 and storage capacitor C9; first end of storage capacitor C9 also links to each other with first end of protective resistance R14, second end of protective resistance R14 and the first constant-current charging power VCC 1Link to each other the first constant-current charging power VCC in the present embodiment 1For+100V, be used for to storage capacitor C9 charging energy storage; The source ground of field effect transistor Q1; Second end of storage capacitor C9 links to each other the plus earth of semiconductor laser LD with the negative pole of semiconductor laser LD; The positive pole of the first diode D1 links to each other with second end of storage capacitor C9, and the negative pole of the first diode D1 links to each other with first end of the tenth resistance R 10, the second end ground connection of the tenth resistance R 10; The negative pole of the second diode D2 links to each other with first end of protective resistance R14, and the positive pole of the second diode D2 links to each other with first end of the 11 resistance R 11, the second end ground connection of the 11 resistance R 11.
Filter circuit 21 comprises the 6th capacitor C 6, second capacitor C 2, the 8th capacitor C 8, inductance L 2, wherein first end of the 6th capacitor C 6 and the second constant-current charging power VCC 2Link to each other, the second end ground connection of the 6th capacitor C 6, first end of inductance L 2 also with the second constant-current charging power VCC 2Link to each other, second end of inductance L 2 links to each other with first end of second capacitor C 2, the second end ground connection of second capacitor C 2; First end of the 8th capacitor C 8 links to each other with second end of inductance L 2, the second end ground connection of the 8th capacitor C 8, and second end of inductance L 2 is the output of this filter circuit.The second constant-current charging power VCC in the present embodiment 2Being+25V, is the power supply of the triode in the circuit source circuit 23, high-frequency noise that can also filtering+25V power supply.
Differential circuit 22 comprises the 7th resistance R 7, the 8th resistance R 8, the 9th resistance R 9, the 7th capacitor C 7, wherein first end of the 8th resistance R 8, the 9th resistance R 9 all links to each other with external trigger impulse TRIG, second end of the 8th resistance R 8 links to each other with first end of the 7th capacitor C 7, the 7th capacitor C 7 second ends link to each other with first end of the 7th resistance R 7, the equal ground connection of second end of second end of the 7th resistance R 7, the 9th resistance R 9; The 7th capacitor C 7 second ends are the output of differential circuit.Trigger impulse TRIG external in the present embodiment can be the square-wave pulse of 10KHZ, and this differential circuit can change the trigger impulse TRIG of wider width into burst pulse that width is fixed as 15ns; But the interference of the 7th resistance R 7, the 7 filtering spikes of the 7th capacitor C simultaneously.
Circuit source circuit 23 comprises the second triode Q2, the 3rd triode Q3, the 4th triode Q4, the 5th triode Q5, the 6th triode Q6, first resistance R 1, second resistance R 2, the 3rd resistance R 3, the 4th resistance R 4, the 5th resistance R 5, the 6th resistance R 6, first capacitor C 1, first resistance R 1 wherein, second resistance R 2, first end of first capacitor C 1 all links to each other with the output of filter circuit, first resistance R 1, second end of first capacitor C 1 all links to each other with the emitter of the second triode Q2, the collector electrode of the second triode Q2 links to each other with first end of the 3rd resistance R 3, the second end ground connection of the 3rd resistance R 3; The base stage of the second triode Q2 links to each other with the base stage of the 5th triode Q5, first end of second resistance R 2 links to each other with the output of filter circuit, second end of second resistance R 2 links to each other with the emitter of the 5th triode Q5, the collector electrode of the 5th triode Q5 links to each other with first end of the 4th resistance R 4, second end of the 4th resistance R 4 links to each other with the collector electrode of the 3rd triode Q3, the grounded emitter of the 3rd triode Q3, the base stage of the 3rd triode Q3 links to each other with the output of differential circuit; First end of the 5th resistance R 5 links to each other with the base stage of the second triode Q2, the second end ground connection of the 5th resistance R 5; The base stage of the 4th triode Q4, the 6th triode Q6 all links to each other with the collector electrode of the second triode Q2, the collector electrode of the 4th triode Q4, the 6th triode Q6 all links to each other with the output of filter circuit, the emitter of the 4th triode Q4, the 6th triode Q6 links to each other the second end ground connection of the 6th resistance R 6 after linking to each other with first end of the 6th resistance R 6; Output as the circuit source circuit after the emitter of the 4th triode Q4, the 6th triode Q6 links to each other links to each other with the grid of described field effect transistor Q1.In the present embodiment, the second triode Q2 and the 5th triode Q5 are the positive-negative-positive triode of same size.
There is not under the situation of triggering signal the first constant-current charging power VCC at external trigger impulse TRIG 1Give storage capacitor C9 charging through protective resistance R14.At this moment, the 3rd triode Q3 is in cut-off state (the G point ends, and is equivalent to disconnect).Cause second diode Q2 and the 5th diode Q5 are the triode of same size, and the base stage of two triodes is continuous, and therefore, A point voltage VA equals B point voltage VB in the accompanying drawing 1.Because of base current less, so I 2=I 3D point voltage VD can make the 4th triode Q4, the 6th triode Q6 be in conducting state, because of the 4th triode Q4, the 6th triode Q6 are emitter follower circuit, then at this moment is added to field effect transistor Q1 two ends V GSVoltage can be less than its conducting, so at this moment field effect transistor Q1 can conducting; This method makes Q4, Q6 be in optimum Working all the time, saved the start-up time of Q4, Q6, make the linearity distortion minimum (, also do not enter normal operating conditions, waveform will inevitably distortion) of trigger impulse (waveform) in the startup moment of triode and other IC.
When external trigger impulse TRIG has trigger impulse, what arrive the 3rd triode Q3 base stage is a pulse signal that pulse duration is 15ns, this pulse signal makes the Q3 conducting when high level, the electric current that increases I3 is to enough making the level of E point voltage VE be higher than the conducting voltage of field effect transistor Q1, thereby conducting Q1 immediately, the electric charge that accumulates on the storage capacitor C9 is discharged rapidly, thereby produce the needed pulse current of semiconductor laser.

Claims (4)

1. a pulse driving circuit for semiconductor laser is used for producing and triggers the luminous needed pulse current of semiconductor laser (LD), comprises
The semiconductor laser circuits for triggering; these semiconductor laser circuits for triggering comprise storage capacitor (C9), protective resistance (R14), field effect transistor (Q1); first end of the drain electrode of field effect transistor (Q1) and storage capacitor (C9); first end of storage capacitor (C9) also links to each other with first end of protective resistance (R14), second end of protective resistance (R14) and the first constant-current charging power (VCC 1) link to each other the source ground of field effect transistor (Q1); Second end of storage capacitor (C9) links to each other with the negative pole of semiconductor laser (LD), the plus earth of semiconductor laser (LD);
The pulse current source circuit, input links to each other with external trigger impulse, and output links to each other with the grid of field effect transistor (Q1), controls the unlatching and the conducting of field effect transistor (Q1) according to the trigger impulse of input;
It is characterized in that: described pulse current source circuit comprises
Filter circuit, its input and the second constant-current charging power (VCC 2) link to each other, be used for the filtering second constant-current charging power (VCC 2) high-frequency noise;
Differential circuit, its input links to each other with external trigger impulse, is used for external trigger impulse is changed the pulse that claims that width is fixing;
The circuit source circuit, comprise second triode (Q2), the 3rd triode (Q3), the 4th triode (Q4), the 5th triode (Q5), the 6th triode (Q6), first resistance (R1), second resistance (R2), the 3rd resistance (R3), the 4th resistance (R4), the 5th resistance (R5), the 6th resistance (R6), first electric capacity (C1), first resistance (R1) wherein, second resistance (R2), first end of first electric capacity (C1) all links to each other with the output of filter circuit, first resistance (R1), second end of first electric capacity (C1) all links to each other with the emitter of second triode (Q2), the collector electrode of second triode (Q2) links to each other with first end of the 3rd resistance (R3), the second end ground connection of the 3rd resistance (R3); The base stage of second triode (Q2) links to each other with the base stage of the 5th triode (Q5), first end of second resistance (R2) links to each other with the output of filter circuit, second end of second resistance (R2) links to each other with the emitter of the 5th triode (Q5), the collector electrode of the 5th triode (Q5) links to each other with first end of the 4th resistance (R4), second end of the 4th resistance (R4) links to each other with the collector electrode of the 3rd triode (Q3), the grounded emitter of the 3rd triode (Q3), the base stage of the 3rd triode (Q3) links to each other with the output of differential circuit; First end of the 5th resistance (R5) links to each other with the base stage of second triode (Q2), the second end ground connection of the 5th resistance (R5); The base stage of the 4th triode (Q4), the 6th triode (Q6) all links to each other with the collector electrode of second triode (Q2), the collector electrode of the 4th triode (Q4), the 6th triode (Q6) all links to each other with the output of filter circuit, the emitter of the 4th triode (Q4), the 6th triode (Q6) links to each other the second end ground connection of the 6th resistance (R6) after linking to each other with first end of the 6th resistance (R6); Output as the circuit source circuit after the emitter of the 4th triode (Q4), the 6th triode (Q6) links to each other links to each other with the grid of described field effect transistor (Q1).
2. pulse driving circuit for semiconductor laser according to claim 1, it is characterized in that: described filter circuit comprises the 6th electric capacity (C6), second electric capacity (C2), the 8th electric capacity (C8), inductance (L2), wherein first end of the 6th electric capacity (C6) and the second constant-current charging power (VCC 2) link to each other, the second end ground connection of the 6th electric capacity (C6), first end of inductance (L2) also with the second constant-current charging power (VCC 2) link to each other, second end of inductance (L2) links to each other with first end of second electric capacity (C2), the second end ground connection of second electric capacity (C2); First end of the 8th electric capacity (C8) links to each other with second end of inductance (L2), the second end ground connection of the 8th electric capacity (C8), and second end of inductance (L2) is the output of this filter circuit.
3. pulse driving circuit for semiconductor laser according to claim 1, it is characterized in that: described differential circuit comprises the 7th resistance (R7), the 8th resistance (R8), the 9th resistance (R9), the 7th electric capacity (C7), wherein first end of the 8th resistance (R8), the 9th resistance (R9) all links to each other with external trigger impulse, second end of the 8th resistance (R8) links to each other with first end of the 7th electric capacity (C7), the 7th electric capacity (C7) second end links to each other with first end of the 7th resistance (R7), the equal ground connection of second end of second end of the 7th resistance (R7), the 9th resistance (R9); The 7th electric capacity (C7) second end is the output of differential circuit.
4. pulse driving circuit for semiconductor laser according to claim 1, it is characterized in that: described semiconductor laser circuits for triggering also comprise first diode (D1), second diode (D2), the tenth resistance (R10), the 11 resistance (R11), wherein the positive pole of first diode (D1) links to each other with second end of storage capacitor (C9), the negative pole of first diode (D1) links to each other with first end of the tenth resistance (R10), the second end ground connection of the tenth resistance (R10); The negative pole of second diode (D2) links to each other with first end of protective resistance (R14), and the positive pole of second diode (D2) links to each other with first end of the 11 resistance (R11), the second end ground connection of the 11 resistance (R11).
CN2009202018771U 2009-12-03 2009-12-03 Pulse drive circuit of semiconductor laser Expired - Lifetime CN201570776U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2009202018771U CN201570776U (en) 2009-12-03 2009-12-03 Pulse drive circuit of semiconductor laser

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2009202018771U CN201570776U (en) 2009-12-03 2009-12-03 Pulse drive circuit of semiconductor laser

Publications (1)

Publication Number Publication Date
CN201570776U true CN201570776U (en) 2010-09-01

Family

ID=42663075

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2009202018771U Expired - Lifetime CN201570776U (en) 2009-12-03 2009-12-03 Pulse drive circuit of semiconductor laser

Country Status (1)

Country Link
CN (1) CN201570776U (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103647213A (en) * 2013-11-12 2014-03-19 福建中科光汇激光科技有限公司 Efficient and rapid laser-pumping driving power supply and rapidly started laser device
CN103825191A (en) * 2014-03-21 2014-05-28 中国计量学院 Narrow-pulse width high-peak value power pulse type semiconductor laser drive circuit
CN105261931B (en) * 2015-11-11 2018-08-10 中国科学院半导体研究所 Two-way pulse laser driving chip

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103647213A (en) * 2013-11-12 2014-03-19 福建中科光汇激光科技有限公司 Efficient and rapid laser-pumping driving power supply and rapidly started laser device
CN103647213B (en) * 2013-11-12 2016-04-27 福建中科光汇激光科技有限公司 Efficient fast laser pumping driving power and the laser started fast
CN103825191A (en) * 2014-03-21 2014-05-28 中国计量学院 Narrow-pulse width high-peak value power pulse type semiconductor laser drive circuit
CN105261931B (en) * 2015-11-11 2018-08-10 中国科学院半导体研究所 Two-way pulse laser driving chip

Similar Documents

Publication Publication Date Title
CN101764352B (en) Pulse driving circuit for semiconductor laser
CN101895281B (en) Novel MOS tube drive circuit for switch power supply
CN106026334B (en) Super capacitor three stage charging system circuit and its method for super capacitor fast charging
CN102570296B (en) Drive circuit of laser diode
CN103633876B (en) Isolated controlling bipolarity high-frequency and high-voltage impulse power supply circuit
CN201570776U (en) Pulse drive circuit of semiconductor laser
CN102769454A (en) Noise interference-proof high-side gate drive circuit
CN103929169A (en) Sensor output level isolation and conversion circuit, level isolation and conversion circuit and device
CN102508014B (en) Power line carrier communication zero-crossing detection system and method thereof
CN202617091U (en) High-voltage side-grid drive circuit capable of resisting common-mode noise interference
CN205212813U (en) A pulse output circuit for electric -magnetic flow meter
CN103117051A (en) Liquid crystal drive circuit for intelligent power grid
CN202121561U (en) Novel MOS transistor drive circuit for switching power supply
CN205405139U (en) A hardware circuit for long -range renewal of electric automobile single chip microcomputer program
CN203522680U (en) Time-delay circuit
CN202524627U (en) Electronic energy-saving lamp ballast circuit
CN202455582U (en) Signal generating circuit of nuclear marker light
CN202696946U (en) Afterglow eliminating circuit
CN105519270B (en) A kind of pulse width signal amplifying circuit
CN206805993U (en) The recording instrument without paper shown with backlight drive
CN203691282U (en) Duty-ratio adjustable, period-fixed, and isolation-control bipolarity high-frequency high-voltage pulse power supply circuit
CN203378104U (en) Light modulation circuit
CN203289700U (en) Novel drive power supply with light-emitting diode
CN202679708U (en) LED (light emitting diode) driving circuit
CN206806556U (en) The timing charging dateline that electric car uses

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Granted publication date: 20100901

Effective date of abandoning: 20091203