CN101132116A - Laser driver with independent power setting and loop circuit switch-over tracking ability - Google Patents
Laser driver with independent power setting and loop circuit switch-over tracking ability Download PDFInfo
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- CN101132116A CN101132116A CNA2007101315348A CN200710131534A CN101132116A CN 101132116 A CN101132116 A CN 101132116A CN A2007101315348 A CNA2007101315348 A CN A2007101315348A CN 200710131534 A CN200710131534 A CN 200710131534A CN 101132116 A CN101132116 A CN 101132116A
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Abstract
This inventive semiconductor laser driver circuit can be used in high performance optical communication, with which the subscribers can independently regulate luminous power of the laser to send-out '1' and '0'. By using the invention, the change of the working characters of the laser device following the temperature changing can be avoided, so improving the reliability of communication. This inventive circuit is composed of: a semiconductor laser subgroup (1) comprising a LD and a PD used for testing backward light; a loop amplifying driving circuit (2), the reversed input end of amplifier (F1) of which circuit connecting the positive pole of PD, the output end of F1 connecting the grid of a transistor (M1), the out put end of M1 connecting the negative pole of the LD; the diplex end of F1 connecting the point between the first resistance (R1) and a current selection circuit (3) and a selecting switch (K1); the center of K1 connecting the output end of a comparer (4).
Description
Technical field
The present invention relates to a kind of semiconductor laser drive circuit structure, be applied in the high-performance optical communications.Luminous power when the user can independently adjust laser transmission " 1 " and " 0 ", in wide temperature range, adopt the present invention can overcome the laser driver operating characteristic and obtain stable optical pulse waveform, thereby the communication of high reliability is provided with variation of temperature.
Background technology
In recent years, along with the continuous reduction of main opto-electronic device cost, the range of application of optical transmission constantly expands to industrial monitoring, electric power monitoring system etc. to reliability and the demanding application scenario of antijamming capability.Laser driver is one of part the most key in the optical fiber telecommunications system, is to realize that voltage signal converts the Key Circuit of laser drive current signal to.
It comprises that a semiconductor laser diode LD and one are used for LD is carried out the photodiode PD that light dorsad detects with the structure of laser driver in modal optical communication, PD is through after the reverse biased, flow through the electric current of PD anode and the intensity relation in direct ratio that LD sends laser, just can obtain LD change of luminous intensity situation by the variation that monitors this electric current.When operate as normal, flow through the electric current of LD and LD and send relation between the laser intensity, LD is a temperature sensor as can be seen, in communication, in order to guarantee can both produce the light pulse of amplitude stabilization under different temperatures, the electric current that drive circuit produces must be followed the tracks of the variation that LD threshold current and the P-I slope of curve reduce with the rising of temperature simultaneously.
Traditional laser driver circuit basic circuit structure mainly is made up of three parts: modulation circuit (Modulator), automatic power control circuitry (APC) and automatic temperature-adjusting control circuit (ATC).Wherein the major function of modulator is that digital electric signal (differential signal or the single-ended signal) process of input is amplified the drive current of back generation to LD, and the size of drive current can be provided with usually as required; The light dorsad that the automated power control section receives from PD detects electric current, and will compare with temperature-resistant predefined electric current with one behind its filtering radio-frequency component, produce control signal thus, this signal controlling flows through the direct current of LD, hold detected size of current to change PD, the pass-band performance of this feedback control loop is a low-pass characteristic, bandwidth is very low, the flip-flop that can guarantee to flow through the electric current of PD varies with temperature and keeps stable, so just can guarantee stablizing of LD transmission average light power; The ATC circuit can the monitoring environment variation of temperature, and along with variation of temperature is adjusted the size of chip output modulated current, thereby guarantee the stable of output optical pulse amplitude.
For the signal of telecommunication of input, if its " 0 ", " 1 " skewness have the very low low-frequency component of frequency,, will cause the fluctuation of LD average optical transmit power if it has dropped in the APC loop bandwidth, influence operate as normal.So for the reliable transmission of signal, the luminous power of output must be stablized, therefore traditional laser driver requires input signal is carried out optical link coding (as 4B5B, 8B10B sign indicating number etc.) earlier, make ' 0 ' and ' 1 ' signal evenly distribute, keep dc balance, thereby guarantee stable average light power.
Along with RS232, RS485 and CAN etc. are more and more by the demand that optical fiber interconnects, need to adopt the interface protocol change-over circuit this moment, realize that by protocol conversion circuitry the signal of telecommunication of low speed, burst arrives continuously, the conversion of the drive signal of DC stabilization, improved the complexity of system like this, make troubles for the networking of commercial Application, and improved cost and the power consumption when using.
Summary of the invention
Technical problem: the present invention adopts average power control, needs special temperature-compensation circuit and require in advance input signal to be carried out the shortcoming of optical link coding and a kind of laser driver with independent power setting and loop circuit switch-over tracking ability of designing at laser driver circuit, it does not need the foregoing circuit structure, can simplified system use complexity, and have higher temperature stability.
Technical scheme: semiconductor laser drive circuit of the present invention comprises semiconductor laser elements, loop amplification driving circuit, current selecting circuit, the input comparator that has measuring ability backlight; Wherein semiconductor laser elements comprises a laser diode and is used for the photodiode of light detection dorsad, the positive pole of the reverse input end of amplifier and photodiode joins in the loop amplification driving circuit, the grid of the output termination driving transistors of amplifier, the negative pole of the output termination laser diode of driving transistors, between first resistance and the selector switch, the mid point of selector switch connects the output of input comparator in the current selecting circuit of input termination in the same way of amplifier.Between the positive pole of photodiode and ground, be parallel with join second resistance and electric capacity.
The present invention is different with the conventional laser drive circuit, it is not based on the average light power stability principle, the user can independently be provided with ' 1 ' and ' 0 ' luminous power by off chip resistor, need not the optical link coding to realize the DC stabilization of drive signal, need not APC and ATC, reduced system complexity, and the power and the extinction ratio of output light signal has higher temperature stability.Digital signal and a thresholding of input compare, and what judge input is " 1 " or " 0 ", then judged result is exported to loop tracks source current selecting circuit.Bandgap voltage reference source in the sheet is not temperature variant reference voltage, this voltage can obtain keeping two constant current values with temperature divided by the exterior arrangement circuit, this electric current just becomes after according to fixing scaled mirror when being desirably in laser and sending out " 1 " and " 0 ", the current value of photodiode PD end detection.Because there is fixing proportionate relationship in the laser intensity that the detection electric current of photodiode PD and laser diode LD send during operate as normal, an optical power value of expectation when so also just having set " 1 " and " 0 ".
When being input as logic level for " 1 ", control loop is with the electric current set dwindling or amplifies afterwards and Ipd compares by fixed proportion, if the two unequal control signal Vctl that just adjusts, the size that flows through the laser diode LD electric current by the driving stage adjustment of this signal control circuit is adjusted the transmission luminous intensity of laser diode LD, also just changed simultaneously the size of Ipd, the electric current of Ipd and setting is equated as far as possible, only have the residual error of loop.
When being input as logic level for " 0 ", control loop with the electric current set by fixed proportion dwindling or amplify afterwards and Ipd compares doubly, if the two unequal control signal Vctl that just adjusts, the size that flows through laser diode LD electric current I mod by the driving stage adjustment of this signal control circuit is adjusted the transmission luminous intensity of laser diode LD, also just changed simultaneously the size of Ipd, the electric current of Ipd and setting is equated as far as possible, only have the residual error of loop.
Beneficial effect: the light dorsad that flows through PD that expectation obtained when semiconductor laser device driving circuit of the present invention selected laser diode to send " 1 " and " 0 " according to the input digital logic signal level detects electric current, thus " 1 " that obtains expecting and " 0 " luminous power.Relevant with this circuit structure comprises at least: the semiconductor laser elements (LD+PD) that 1) has measuring ability backlight; The resistance of detection current target value backlight when 2) setting different supplied with digital signal level.3) provide the circuit of drive current, detection means backlight and error amplifying circuit to constitute feedback control loop jointly to laser.When input when " 1 ", the loop error testing circuit is compared the target current of Ipd when sending out " 1 ", produces control signal adjustment laser drive current, makes actual detection electric current backlight and desired value fully approaching.When supplied with digital signal was " 0 ", the loop error testing circuit compared the target current of detection electric current backlight and setting, produced control signal, adjusted laser drive current and made actual detection electric current backlight and desired value fully approaching.The sort circuit structure is carried out fast closed-loop to " 0 " power of light pulse and " 1 " power and is independently controlled, and changes the tracking target of loop according to the switching of incoming signal level, and the output light signal of high stability can be provided in very wide temperature range.
Description of drawings
Fig. 1 is circuit theory diagrams of the present invention.
Embodiment
Semiconductor laser drive circuit of the present invention comprises semiconductor laser elements 1, loop amplification driving circuit 2, current selecting circuit 3, the input comparator 4 that has measuring ability backlight; Wherein semiconductor laser elements 1 comprises a laser diode LD and is used for the photodiode PD of light detection dorsad, the positive pole of the reverse input end of amplifier F1 and photodiode PD joins in the loop amplification driving circuit 2, the grid of the output termination driving transistors M1 of amplifier F1, the negative pole of the output termination laser diode LD of driving transistors M1, between first resistance R 1 and the selector switch K, the mid point of selector switch K connects the output of input comparator 4 in the current selecting circuit of input termination in the same way 3 of amplifier F1.Between the positive pole of photodiode PD and ground, be parallel with second resistance R 2 and the capacitor C of joining
PD
Input logic signal is judged, is obtained logic level ' 1 ' or ' 0 ' after the shaping by high-speed comparator.Logical signal after the shaping is selected to ' 1 ' electric current set by off chip resistor with by ' 0 ' electric current that off chip resistor is set according to logic level.The circuit of finishing this function is a current selecting circuit.Selecteed ' 1 ' or ' 0 ' electric current flows through first resistance R 1 and produces voltage, and this voltage compares with the voltage that is detected electric current process R2 generation by photodiode PD and amplifies, oxide-semiconductor control transistors M1 output current, and LD is luminous for the driving laser diode.During stable state, the electric current that flows through first resistance R 1 and second resistance R 2 is almost equal, and promptly the electric current that becomes fixed relationship with the laser diode LD luminous power that obtains of photodiode PD is transfused to ' 1 ' or ' 0 ' electric current that logical signal is selected no better than.Because the Photoelectric Detection efficient approximately constant between laser diode LD and the photodiode PD, thus the luminous power of laser diode LD input logic ' 1 ' or in ' 0 ' cycle maintenance constant.Circuit shown in Figure 5 is by closed circuit automatic stabilisation laser diode LD Output optical power, and loop bandwidth is mainly by the parasitic capacitance of photodiode PD and the loop stability capacitor C that adds
PDDecision.
According to the foregoing circuit operation principle, cause when variation of laser diode LD value electric current and slope efficiency change because variations in temperature or laser diode LD are aging, satisfying under the constant prerequisite of laser diode LD-photodiode PD Photoelectric Detection efficient, circuit is by the automatic tracking capability of loop, all the time no matter can keep the stable of LD Output optical power, be ' 1 ' or ' 0 ' power.If ignore the LD variation of output light signal edge time, then the extinction ratio of laser diode LD output light signal also can keep very high stability.
Claims (2)
1. a semiconductor laser drive circuit is characterized in that this circuit comprises semiconductor laser elements (1), loop amplification driving circuit (2), current selecting circuit (3), the input comparator (4) that has measuring ability backlight; Wherein semiconductor laser elements (1) comprises a laser diode (LD) and is used for the photodiode (PD) of light detection dorsad, the reverse input end of amplifier (F1) and the positive pole of photodiode (PD) join in the loop amplification driving circuit (2), the grid of the output termination driving transistors (M1) of amplifier (F1), the negative pole of the output termination laser diode (LD) of driving transistors (M1), between first resistance (R1) and the selector switch (K), the mid point of selector switch (K) connects the output of input comparator (4) in the current selecting circuit of input termination in the same way (3) of amplifier (F1).
2. semiconductor laser drive circuit according to claim 1 is characterized in that being parallel with join second resistance (R2) and electric capacity (C between the positive pole of photodiode (PD) and ground
PD).
Priority Applications (1)
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CNB2007101315348A CN100505445C (en) | 2007-09-04 | 2007-09-04 | Laser driver with independent power setting and loop circuit switch-over tracking ability |
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CNB2007101315348A CN100505445C (en) | 2007-09-04 | 2007-09-04 | Laser driver with independent power setting and loop circuit switch-over tracking ability |
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CN101132116A true CN101132116A (en) | 2008-02-27 |
CN100505445C CN100505445C (en) | 2009-06-24 |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102306904A (en) * | 2011-08-04 | 2012-01-04 | 南昌航空大学 | High-precision semiconductor laser system based on feedforward decoupling control |
CN102468603A (en) * | 2011-11-29 | 2012-05-23 | 厦门优迅高速芯片有限公司 | Laser driving circuit stabilizing extinction ratio |
CN108886234A (en) * | 2016-03-29 | 2018-11-23 | 三菱电机株式会社 | The determination method of laser light source module, light supply apparatus and malfunctioning laser diode |
CN110233673A (en) * | 2019-06-17 | 2019-09-13 | 青岛海信宽带多媒体技术有限公司 | Optical module |
CN112152897A (en) * | 2020-09-14 | 2020-12-29 | 珠海格力电器股份有限公司 | Communication chip circuit, communication method, storage medium, and electronic device |
-
2007
- 2007-09-04 CN CNB2007101315348A patent/CN100505445C/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102306904A (en) * | 2011-08-04 | 2012-01-04 | 南昌航空大学 | High-precision semiconductor laser system based on feedforward decoupling control |
CN102468603A (en) * | 2011-11-29 | 2012-05-23 | 厦门优迅高速芯片有限公司 | Laser driving circuit stabilizing extinction ratio |
CN102468603B (en) * | 2011-11-29 | 2013-07-03 | 厦门优迅高速芯片有限公司 | Laser driving circuit stabilizing extinction ratio |
CN108886234A (en) * | 2016-03-29 | 2018-11-23 | 三菱电机株式会社 | The determination method of laser light source module, light supply apparatus and malfunctioning laser diode |
CN110233673A (en) * | 2019-06-17 | 2019-09-13 | 青岛海信宽带多媒体技术有限公司 | Optical module |
CN110233673B (en) * | 2019-06-17 | 2021-02-09 | 青岛海信宽带多媒体技术有限公司 | Optical module |
CN112152897A (en) * | 2020-09-14 | 2020-12-29 | 珠海格力电器股份有限公司 | Communication chip circuit, communication method, storage medium, and electronic device |
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Publication number | Publication date |
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CN100505445C (en) | 2009-06-24 |
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