ABSTRACT
RESUMEN En este proyecto se diseñó y construyó un prototipo con potencial aplicación a un sistema de fototerapia para ictericia neonatal utilizando por primera vez LEDs de 10 W de alta potencia. Se describe la metodología aplicada para el diseño de los diferentes circuitos electrónicos que se utilizaron para la alimentación de la corriente de excitación de los LEDs, se describe el método de control de corriente mediante el uso de la modulación por ancho de pulsos, Pulse Width Modulation (PWM, por sus siglas en inglés), generados por el circuito integrado 555. Se diseñó la placa de circuito impreso mediante la ayuda del simulador Orcad Layout. Se utilizaron dos LEDs de alta potencia de 10 W para el propósito de conservar la intensidad requerida para el tratamiento, minimizando el espacio utilizado por la cantidad de LEDs utilizados en los equipos convencionales. Entre las limitaciones que se presentaron en esta investigación fue el uso de la plataforma Arduino, ya que se tienen varias oportunidades de mejora para darle el mejor uso al microcontrolador, y de esta manera digitalizar el sistema de una forma más completa, reduciendo la circuitería de control. El prototipo presentado cumple con los requerimientos necesarios para un sistema de fototerapia.
ABSTRACT This project consisted in the design and construction of a prototype with potential application to a phototherapy system for neonatal jaundice using for the first-time high power 10 W LEDs. The methodology for the design of different electronic circuits which were used for feeding the drive current of the LEDs, the current control method described using pulse width modulation (PWM) generated by the known 555 integrated circuit is described. The printed circuit board was designed with the help of the Orcad Layout simulator. Two high-power 10 W LEDs were used for maintaining the intensity required for the treatment, minimizing the space used by the number of LEDs used in the conventional equipment. Among the limitations presented in this research was the use of the Arduino platform, due to several improve that can be used to improve and increase the use of this microcontroller, and in this way to digitize the system, reducing the circuitry of control. The prototype presented meets the requirements for a phototherapy system according to the different references used.
ABSTRACT
This research work objective was to optimize the micropropagation of potato cultivars through the use of new light sources in the growth rooms. Treatments consisted of three potato cultivars (Asterix, Catucha and Macaca), and five light sources (blue, green and red LEDs; Growlux and white fluorescent lamps). The explants consisted of nodal segments containing one bud, isolated from plantlets grown in vitro. The experimental design was completely randomized arranged in a 3x5 factorial, with eight replications. Each experimental unity consisted of a flask with five explants. Three 28-day consecutive subcultures were carried out in MS semi-solid medium, in growth-room under controlled conditions (temperature = 25+2 ºC; photoperiod = 16 hours; light intensity = 20 µmol m-2 s-1). At the end of each subculture, the bud number per plantlet, plantlet length and internode length were evaluated. After the third subculture, the concentrations of carotenoids and a- and b-chlorophylls were also determined. Different micropropagation efficiencies were found among potato cultivars grown in vitro conditions: 'Macaca' was the most and 'Catucha' the least responsive cultivar. The growth room light sources differently affected the potato plantlet development: red and green LEDs were the most and least recommended for plantlet development, based on the results of bud number per plantlet, plantlet length, and leaflet concentrations of a- and b-chlorophylls and carotenoids.
Este trabalho objetivou otimizar a micropropagação de cultivares de batata por meio do uso de novas fontes de luz no ambiente de cultivo. As cultivares avaliadas foram Asterix, Catucha e Macaca e as fontes de luz foram LEDs azuis, LEDs verdes, LEDs vermelhos, lâmpadas Growlux e lâmpadas fluorescentes brancas. Como explantes foram utilizados segmentos nodais contendo uma gema, isolados de brotações estabelecidas in vitro. O delineamento experimental foi inteiramente ao acaso em um fatorial 3 x 5 (cultivar x fonte de luz), com oito repetições por tratamento. Cada unidade experimental foi composta por um frasco contendo cinco explantes. O experimento compreendeu três subcultivos consecutivos de 28 dias em meio semi-sólido MS a 25+2 ºC, 16 horas de fotoperíodo e intensidade luminosa de 20 µmol m-2 s-1. Ao final de cada subcultivo foram avaliados o número de gemas produzidas por explante, o comprimento das brotações e o comprimento dos entrenós. Ao final do terceiro subcultivo, determinaram-se, ainda, as concentrações de carotenoides e de clorofilas a e b. Verificou-se efeito da cultivar na eficiência do processo de propagação de batata, sendo a 'Macaca' a mais e a 'Catucha' a menos responsiva in vitro. A fonte de luz do ambiente de cultivo afetou o desenvolvimento dos explantes de batata. Os LEDs vermelhos e os verdes foram, respectivamente, os mais e os menos indicados tanto para o desenvolvimento vegetativo quanto para a formação de clorofilas a e b e de carotenoides.
Subject(s)
Solanum tuberosum , Carotenoids , LightABSTRACT
PURPOSE: To explore the effects of stimulus duration, stimulus intensity, and background luminance on the amplitude and waveform of the ON- and OFF- responses of photopic ERG and to provide standard parameters of ON- and OFF- responses for normal Korean populations. METHODS: Twenty normal subjects (20 eyes) were enrolled to record photopic ON-and OFF-responses using a contact lens electrode with built-in LEDs and an LED-driver. The influence of stimulus duration on wave amplitudes was studied at flash durations that varied from 5 to 200 ms. The influence of stimulus intensity was studied with 0.4, 0.7, 1.1, 1.4, 1.7, 1.9, 2.0, and 2.1 log cd/m2. In addition, the influence of background luminance was studied with 20, 30, 40, and 50 cd/m2. RESULTS: Among 20 normal subjects, the d-waves in 16 subjects were isolated from b-waves with more than 50 ms of stimulus duration. The d-wave was observed for a 30-ms stimulus duration in 3 subjects and for a 100-ms duration in 1 subject. The amplitudes of the b-and d-waves increased as stimulus intensity was increased. The amplitudes of b-and d-waves decreased as background luminance was increased. CONCLUSIONS: Our results suggest that the clinical use of ON-and OFF-response recording can be obtained with stimulus parameters from 100 to 150 ms in duration and a 1.7-2.1 log cd/m2 intensity under 30-40 cd/m2 background luminance.