S. Korkua, S. Chandhaket, Kamon Thinsurat, Kittipong Maneenopparat
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引用次数: 3
摘要
微波干燥系统具有清洁、高能效的特点,在各种食品保鲜和生物制品加工中得到广泛应用。主要优点是干燥过程的加速,与传统的热风干燥系统相比,这是相当有限的。然而,微波干燥过程中的压力和温度会不断升高,这可能会导致不良的副作用,如降解和物理损伤。为了消除上述问题,提高控制系统的灵活性,本文提出了一种用于微波干燥系统的多级相控转换器的设计。多级功率控制的目的是跟踪微波干燥过程中不同功率水平下不同干燥周期阶段的干燥特性。这种控制方法是根据预先设定的功率分布,控制可控硅的触发事件在适当的相角上。通过改变脉冲宽度,可以控制磁控管的平均输出功率。本文重点讨论了系统的硬件设计和元器件选型。详细介绍了基于Arduino Mega 2560单片机的系统流程图和控制算法。对所提出的多级相控变换器的实验结果进行了研究和讨论。
Development and evaluation of multi-stage phase-controlled converter for magnetron driver
As clean and high energy efficient, the microwave drying system has gained popularity for a wide variety of food preservation and processing of bio-commodities. The main advantage is the acceleration of the drying process which is quite limited comparing to conventional hot air drying system. However, during microwave drying process, pressure and temperature will increase continuously and this might cause undesired side effects such as degradation and physical damages. In order to eliminate the mentioned problems and enhance higher performance of control system flexibility, in this paper, a design of multi-stage phase-controlled converter for microwave drying system is proposed. The objective of this multi-stage power control is to track the drying characteristics under microwave drying process at different power level depending on the stage of drying cycle period. This control approach is achieved by controlling the triggering events at appropriate phase angle of TRIAC based on predefined power profiles. By varying the pulse width, the average power output of the magnetron can be controlled. As the focus of this paper, the hardware design and component selections are discussed. The system flowchart and control algorithm based on microcontroller Arduino Mega 2560 are also presented in details. Experimental results of the proposed multi-stage phased-control converter are investigated and discussed.
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