Dynamic wavelength identification method and device with fast temperature tuning of laser diode

A technology of laser diodes and wavelengths, applied in devices for controlling laser output parameters, measuring devices, measuring optics, etc., can solve problems such as inability to meet, and achieve the effects of reducing system costs, knowing dynamic wavelengths, and simple structure

Inactive Publication Date: 2012-07-25
TIANJIN UNIV
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Problems solved by technology

[0018] In short, the current tuning technology of diode lasers has major deficiencies in terms of tuning range, tuning time, and complexity of technical solutions, which cannot meet the needs of applications.

Method used

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  • Dynamic wavelength identification method and device with fast temperature tuning of laser diode
  • Dynamic wavelength identification method and device with fast temperature tuning of laser diode
  • Dynamic wavelength identification method and device with fast temperature tuning of laser diode

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Embodiment Construction

[0056] Specific implementation examples

[0057] The present invention is further described as follows by accompanying drawing and specific embodiment now:

[0058] Such as figure 1 As shown, the present invention is a device for rapid temperature tuning of laser diodes. The laser diode 3 in the laser diode assembly 1 is connected to the LD current driver 5. The function of the 5 is to provide the laser diode with an injection current higher than its threshold current. To make it emit light, the required current modulation can also be performed through 5 pairs of laser diodes; the NTC thermistor 4 is connected to the preamplifier 6, the preamplifier 6 is connected to the AD converter 7, and the voltage across the NTC thermistor 4 After the signal is amplified by the preamplifier 6, it is converted into a digital signal by the AD converter 7 and sent to the computer 9, and then processed according to the wavelength identification method proposed by the present invention to obt...

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PUM

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Abstract

The invention relates to a dynamic wavelength identification method and a device with fast temperature tuning of a laser diode, the periodic current is imposed on a thermoelectric refrigerator in the laser diode component for realizing the fast scanning of the temperature of a laser; the real-time resistance value is obtained by sensing the voltage values at two ends of an NTC thermosensitive resistor in the laser diode component, the resistance value is converted to the real-time temperature value of the thermosensitive resistor, the temperature compensation value is figured out through the temperature change rate on the thermosensitive resistor, and then the pre-estimated temperature of a laser cavity is obtained; and a known tuning transfer function of the laser diode is utilized to obtain the real-time output wavelength of the laser according to the format lambda (t) is equal to F lambda (i(t), T(t)). The on-line identification with open-loop drive and advanced algorithm is adopted for simplifying the hardware structure of a system and reducing the cost of the system. The method and the device can greatly improve the temperature tuning rate, and give out the dynamic wavelengthduring the temperature fast tuning process in an on-line manner, and the test inspection proves that the identification precision of the wavelength can achieve the pm order and be not affected by thefluctuations of the environmental temperature.

Description

technical field [0001] The present invention relates to a dynamic wavelength identification method and device for fast temperature tuning of laser diodes; especially a method for fast temperature tuning of laser diodes, which can obtain a wide range of tuning spectra, and can be applied to laser tuning absorption spectroscopy technology to measure gas and optical communications and other fields. Background technique [0002] Tunable lasers can continuously change the output wavelength within a certain range, and have a wide range of applications in spectroscopy, photochemistry, medicine, biology, integrated optics, pollution monitoring, semiconductor material processing, information processing and communication. [0003] Currently, there are four typical methods for diode laser tuning: current tuning, temperature tuning, external resonator technology, and tunable laser arrays. [0004] Current tuning technology achieves wavelength tuning by changing the injection current of...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01S5/06G01J9/00
Inventor 杜振辉李金义
Owner TIANJIN UNIV
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