"设计基于单片机控制的超声波传感器节能系统"

本系统设计论文介绍了一种基于单片机控制的超声波传感器系统，用于节能控制燃油灶的研究。由于化石能源的有限性和日益增长的能源消耗量，人类面临能源枯竭的危险。为了减少能源的浪费，本研究主要针对在餐饮业中大量使用的燃油炒菜炉灶，设计了一个能够自动实现节能控制的系统。研究内容涵盖了基于超声波的单片机节能控制电路，该电路由单片机发出40KHZ的脉冲信号经功放驱动超声波探头，接收回波信号后通过一系列处理形成中断信号来实现测距。通过测得的距离值判断是否执行节能操作，从而实现节能控制的目的。本论文有助于饭店厨房燃油灶的节能改造，提高能源利用效率。通过该系统的应用，不仅可以减少能源的浪费，还能满足燃油灶在厨房烹饪中的实际需求，为节能技术在实际应用中的推广提供了有力的支持。 This paper presents a system design based on single-chip microcontroller controlled ultrasonic sensor system for energy-saving control of fuel stoves. Due to the finite nature of fossil fuels and the increasing energy consumption, mankind is facing the danger of energy exhaustion. In order to reduce energy waste, this study mainly focuses on the design of a system that can automatically achieve energy-saving control for fuel cooking stoves widely used in the catering industry. The research covers the design of a single-chip microcontroller-based energy-saving control circuit using ultrasonic technology. The circuit emits a 40KHZ pulse signal through a power amplifier to drive the ultrasonic probe, and receives the echo signal to form an interrupt signal through a series of processing for distance measurement. The measured distance value is used to determine whether to execute energy-saving operations, thereby achieving the purpose of energy-saving control. This paper is helpful for the energy-saving transformation of fuel stoves in restaurant kitchens, improving energy utilization efficiency. Through the application of this system, not only can energy waste be reduced, but also the practical needs of fuel stoves in kitchen cooking can be met, providing strong support for the promotion of energy-saving technology in practical applications.