Development of a Digital Orthogonal Lock-in Amplifier and Its Application in Methane Detection

LIU Hui-fang; LI Bin; HE Qi-xin; DANG Jing-min; YU Hong-yan; ZHENG Chuan-tao; WANG Yi-ding; PAN Jiao-qing

doi:10.3788/gzxb20164504.0423004

[1] QIAO Xue-guang, WANG Jia, JIA Zhen-an, et al. Experiment research for optical fiber methane gas sensor［J］. Journal of Optoelectronics Laser, 2009, 20(7): 851-854.

[2] YE Wei-lin, ZHENG Chuan-tao, YU Xin, et al. Design and performances of a mid-infrared CH4 detection device with novel three-channel-based LS-FTF self-adaptive denoising structure［J］. Sensors and Actuators B: Chemical, 2011, 155(1): 37-45.

[3] ZHENG Chuan-tao, YE Wei-lin, LI Guo-lin, et al. Performance enhancement of mid-infrared CH4, detection sensor by optimizing an asymmetric ellipsoid gas-cell and reducing voltage-fluctuation: Theory, design and experiment［J］. Sensors and Actuators B: Chemical, 2011, 160(1): 389-398.

[4] ZHANG Jing-chao, GUAN Li-jun, XIAO Chang-jiang, et al. Research on two optical path CH4 sensorbased on harmonic detection［J］. Journal of Optoelectronics Laser, 2007, 18(12): 1442-1444.

[5] CAO Tian-shu. Lock-in amplifier of second harmonic in the TDLAS gas detection［D］. Changchun: Jilin University, 2013: 1-60.

[6] YE Wei-lin, ZHENG Chuan-tao, WANG Yi-ding. Experimental research on wavelet denoising in infrared humidity detection based on TDLAS technique［J］. Journal of Optoelectronics Laser, 2013, 24(1): 104-111.

[7] TU Xing-hua, LIU Wen-qing, ZHANG Yu-jun, et al. 1.58 μm band of CO and CO2 second harmonic detection with tunable diode laser absorption spectroscopy study［J］. Spectroscopy and Spectral Analysis, 2006, 26(7): 1190-1194.

[8] ZHAI Bing, HE Qi-xin, HUANG Jian-qiang, et al. Design and realization of harmonic signal orthogonal lock-in amplifier used in infrared gas detection［J］. Acta Photonica Sinica, 2014, 34(11): 1125001.

[9] LI Bin, HE Qi-xin, FU Yang,et al. Development of near infrared distributed feedback laser temperature control system for CO detection［J］. Acta Optica Sinica, 2014, 34(s2): s214002.

[10] ANDREA D M, GIUSEPPE F, ARNALDO D A, et al. A fully-analog lock-in amplifier with automatic phase alignment for accurate measurements of ppb gas concentrations［J］. IEEE Sensors Journal, 2012, 12(5): 1377-1383.

[11] LIANG Lei, CONG Meng-long, YU Hai, et al. A DSP lock-in amplifier based on Simulink［C］. 2nd International Conference on Information Science and Engineering, ICISE2010, 2010: 6379-6382.

[12] YU Xin, GAO Zong-li, SONG Nan, et al. Design and experiment of pocket infrared gas detecter［J］. Acta Photonica Sinica, 2014, 43(1): 0104001.

[13] WANG Ren-bao, FENG Hong-yan. Laser absorption spectrometer methane detection system based on digital signal processor［J］. Journal of Optoelectronics Laser, 2010, 21(1): 38-41.

[14] LI Gang, ZHANG Li-jun, LIN Ling. Design of a new digital lock-in amplifier and its optimization algorithm［J］. Journal of Tianjin University, 2008, 41(4): 429-432.

[15] LI Gang, ZHOU Mei, HE Feng, et al. An optimization algorithm based on computation structure of correlation in digital lock-in detection［J］. Journal of Electronics & Information Technology, 2012, 34(3): 744-748.

[16] DONG Lei, MA Wei-guang, YIN Wang-bao, et al. Experimental study on harmonic detection of methane by use of a digital lock-in amplifier［J］. Spectroscopy and Spectral Analysis, 2005, 25(3): 473-476.

[17] WU Hong-peng, DONG Lei, ZHENG Hua-dan, et al. Enhanced near-infrared QEPAS sensor for sub-ppm level H2S detection by means of a fiber amplified 1582 nm DFB laser［J］. Sensors and Actuators B: Chemical, 2015, 221: 666-672.

CLP Journals