基于VHDL的五层电梯控制器研究与仿真

Tanvi Palekar, Rinitha Tesa Jose, Gandhali Nanche, Rashmi P. Joshi
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引用次数: 1

摘要

现代技术的进步要求有效地利用空间。在高层建筑中,连接通常借助传统的楼梯或自动扶梯以及最常用的电梯来实现。在世界范围内,电梯每天都在各种各样的应用中使用。用于办公电梯的基本机构也用于电梯。这项工作展示了一种这样的应用-五层电梯控制器的研究和仿真。现场可编程门阵列(FPGA)由于其可重新编程性、可重用性和更快、更便宜的原型设计而被用于该项目。电梯控制器系统使用有限状态机(FSM)来接收电梯内部的楼层输入和电梯外部的上下呼叫,以确定电梯从当前状态到期望的下一个状态的运动。根据电梯门是打开还是关闭,各个楼层都有不同的状态。利用传感器对电梯进行合理定位,提高电梯的可靠性和安全性。该电梯控制器系统已在Xilinx Zynq - 7000 FPGA上使用VHDL语言成功实现。
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Study and Simulation of Five-Story Elevator Controller Using VHDL
Modern technological advancements call for efficient usage of space. Connectivity is often achieved in high rise buildings with the help of conventional staircases, or escalators and most commonly used - elevators. Elevators are used on a daily basis in a wide variety of applications worldwide. The basic mechanism used in an office elevator is also used in dumbwaiters. This work shows the study and simulation of one such application - a five-story elevator controller. A Field Programmable Gate Array (FPGA) has been used in this project due to its re-programmability, reusability, and faster and less expensive prototyping. The elevator controller system uses a Finite State Machine (FSM) to take floor inputs from inside the elevator and up and down calls from outside the elevator, to determine the movement of elevator from current state to the desired next state. States have been defined floor wise, depending on whether the elevator doors are to be opened or closed. Sensors are used to improve the reliability and safety of the elevator by positioning it appropriately. This elevator controller system has been successfully implemented on Xilinx Zynq - 7000 FPGA using Very High Speed Integrated Circuit Hardware Description Language (VHDL).
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