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http://cio.repositorioinstitucional.mx/jspui/handle/1002/477| RESEARCH AND PROTOTYPING OF AN OPTICAL FIBRE REFRACTOMETER WITH CUSTOMIZED ELECTRONIC CONTROL | |
| Ronald Moorcroft | |
| RODOLFO MARTINEZ MANUEL | |
| Acceso Abierto | |
| Atribución-NoComercial-SinDerivadas | |
| OPTICAL FIBRE, REFRACTOMETER, COHERENT OPTICAL FREQUENCY DOMAIN REFLECTOMETRY, PROTOTYPE, LASER CURRENT SOURCE | |
| "Refractometers are sensory devices that measure the refractive index of liquids, gasses or solids. The refractive index of a medium indicates how fast an electromagnetic wave propagates through that medium. This measurement can be used to identify a chemical or measure certain characteristics of a substance. Using optical fibre as a sensory device provides many advantages, including, but not limited to, being chemically passive, corrosion resistant, electromagnetically immune, small in size, lightweight and highly sensitive. The refractometer developed in this Masters project utilizes the coherent optical frequency domain reflectometry technique as interrogation method. This technique requires an optical (tunable) source that scans linearly through wavelength in time. A reference cavity with reflectors at the start and end of the cavity will cause a reflection of light. These reflections interfere and produce an interference pattern called a beat signal. The same applies for a sensing cavity – a reflection will occur at the starting interface of the cavity and the interface at the end, being the cleaved tip of the optical fibre. This beat signal produced from the sensing cavity contains data about whatever substance the cleaved tip of the optical fibre comes in contact with. Through various signal processing algorithms, an accurate measurement of the refractive index of the analyte can be obtained. Custom electronics are designed and built to implement this method and to drive the distributed feedback laser diode that is used as the tunable source. An algorithm coded in a microcontroller controls a generated saw-tooth waveform. The produced voltage output from the microcontroller is then provided as input to a current source. This current source drives the laser diode with specific selected power characteristics to create a near linear saw-tooth wavelength emission, while keeping the laser diode within maximum power specifications. This stable spectrum generation results in stable frequencies of the beat signals, and consequently concentrated magnitudes in discrete linear frequency points when FFTs are performed by the coded microcontroller. These peaks in magnitude of frequency are key to the calculation of the refractive index." | |
| 2018-02 | |
| Tesis de maestría | |
| Inglés | |
| Aguascalientes, Ags. | |
| Público en general | |
| Moorcroft, (2018). "Research and Prototyping of an Optical Fibre Refractometer with Customized Electronic Control". Tesis de Maestría en Optomecatrónica. Centro de Investigaciones en Óptica, A.C. Aguascalientes, Ags. 159 pp. | |
| FIBRAS ÓPTICAS | |
| Versión publicada | |
| publishedVersion - Versión publicada | |
| Aparece en las colecciones: | MAESTRIA EN OPTOMECATRÓNICA |
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| Fichero | Descripción | Tamaño | Formato | |
|---|---|---|---|---|
| 17319.pdf | Texto completo/Full text | 4.32 MB | Adobe PDF | Visualizar/Abrir |