An Application of Wireless Standards for Remote Monitoring of Electric Drive Systems (original) (raw)

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Remote Wireless Monitoring of an Electric Drive System

International Journal of Science and Advanced Technology, Vol. 2, No. 9, pp. 42-45, 2012

An application of wireless standards for remote monitoring of a DC electric drive is discussed in this paper. An appropriate wireless system has been developed and described. The structure presented allows measurement of all necessary parameters namely power converter voltage, armature current, angular speed, motor torque, temperature and vibrations. It uses ZigBee standard for remote data transmission combined with Internet connectivity for assessment of the Global network-collected information. Detailed experimental study confirms the good performance of this wireless monitoring system. The research carried out as well as the results obtained can be used in design and set up of such types of remote wireless systems.

IJERT-Design and Implementation of Embedded Remote Monitoring System for Electric Drive

International Journal of Engineering Research and Technology (IJERT), 2015

https://www.ijert.org/design-and-implementation-of-embedded-remote-monitoring-system-for-electric-drive https://www.ijert.org/research/design-and-implementation-of-embedded-remote-monitoring-system-for-electric-drive-IJERTV4IS020902.pdf Electric drive plays a vital role in industry and there is a strong demand for their safe and reliable operation. Wireless sensor network for industrial electric machine condition monitoring can significantly reduce the cost of maintenance and the risk of unexpected failures by allowing the early detection of potentially catastrophic faults and obtain higher accuracy in diagnostic for health condition of motor, efficient and data monitoring, collecting the data. A wireless data measurement, monitor and collection for electric machine health monitoring system are based on wireless sensor network. In this project this system has been described and developed. The important characteristic of ZigBee network such as low cost, high flexibility and low power hence select ZigBee as wireless standard and make them ideal for such wireless application. Various sensors have capability to monitor environmental as well as physiological conditions. Wireless sensor network for condition monitoring measurements taken while a machine is operating, to determine if a fault exists by observing various parameters and applied different conditions to detect the faults.

Wireless sensor network for performance monitoring of electrical machine

This paper proposes a novel industrial wireless sensor network for industrial machine condition monitoring. To avoid unexpected equipment failures and obtain higher accuracy in diagnostic and prognostic for the health condition of a motor, efficient and comprehensive data collecting, monitoring, and control play an important role to improve the system more reliable and effective. A novel wireless data collection for health monitoring system of electric machine based on wireless sensor network is proposed and developed in this paper. The unique characteristics of ZigBee networks such as low power, low cost, and high flexibility make them ideal for this application. The proposed system consists of wireless sensor nodes which are organized into a monitoring network by ZigBee protocols. A base station and wireless nodes have been developed to form a prototype system. Various sensors have the capability to monitor physiological as well as environmental conditions. Therefore proposed system provides a flexible solution that makes our living spaces more intelligent.

Design and Implementation of ZigBee based Vibration Monitoring and Analysis for Electrical Machines

— This paper presents a method to monitor and analyze the vibration of induction machine due to the rotor imbalance. A novel health monitoring system of electric machine based on wireless sensor network (ZigBee™) is developed in this paper. The communication protocol and software design for both wireless sensor network node and base station are also presented in detail. Moreover, the positioning scheme in ZigBee wireless network is also investigated. Based on the receiving strength signal indicator (RSSI), we can determine the distance of the sensed node by applying the distance-based positioning method. Experimental results of the proposed severity detection technique under different levels of rotor imbalance conditions are discussed and show the feasibility of this method for on-line vibrating monitoring system.

In-field operation monitoring of induction motors using wireless modules running on harvested power

IECON 2011 - 37th Annual Conference of the IEEE Industrial Electronics Society, 2011

Modern industries require high efficiency and availability motor driver systems. Proper and cost-effective motor maintenance require carefully programed repair and replacing strategies. Motor operation monitoring can add a valuable contribute to the implementation of successful cost-effective maintenance services. Monitoring systems are nevertheless expensive and require maintenance resources for themselves. Flexible, low cost, easy to install and low maintenance monitoring tools can provide a valuable impact on motor maintenance systems. The recent studies on wireless sensor networks prove that they can constitute one such system thus allowing low cost monitoring strategies. Wireless sensor networks whoever are not maintenance free and present a strong dependence off battery resources. Battery changing is in fact the main obstacle to wireless sensor networks widespread use.

Remote Monitoring and Controlling Of Dc Motor Using Zigbee

Wireless based industrial automation is very important in our day-today life. The approach to Zigbee Based Wireless Network for Industrial Applications has been standardized nowadays.This project will control the speed of dc motor and its direction.The system will be wireless.The zigbee will be used for wireless communication. Zigbee is a wireless device and it is used to transmit or receive data simultaneously and also for safe and economic data communication in industrial fields where the wired communication is either more costly or impossible due to physical conditions.The project involves the design of remotely starting ,stopping, increamenting, decreamenting , rotating clockwise and anticlockwise.

ONLINE DYNAMIC TORQUE AND EFFICIENCY MONITORING IN INDUCTION MOTOR USING ZIGBEE

Induction motors are used worldwide as the “workhorse” in industrial applications. The main reason for the usage of induction motor is its reliability and simplicity of operation. Thus it is essential to monitor the performance of the motor without changing its operation. This paper, introduces a system developed for online dynamic torque and efficiency monitoring in three phase induction motor using wireless module ZigBee. When we analyze torque and efficiency in induction motor the basic need is to acquire voltage, current and speed from the motor. These parameters are acquired using microcontroller PIC16F877 and transmitted through ZigBee to the receiver station where calculation of torque and efficiency is performed locally in Visual Basic. All calculated parameters are then displayed on PC by using Graphical User Interface (GUI). Keywords- Three phase induction motor, Torque, Efficiency, ZigBee, PIC microcontroller, Proteus.

A REVIEW ON IOT-BASED WIRELESS DRIVE MOTOR MONITORING

In this examination, an industrial facility acceptance engine (IM) was observed with remote TCP/IP convention so as to identify and anticipate deviations from typical working parameters before the event of engine disappointment. Along these lines, the creation procedure isn't obstructed and the required support or supplanting can be performed with the least conceivable disturbance. In this investigation, the engine cycle, the current drawn by the engine and the engine voltage were perused by the Hall-impact current sensor and the required power utilization was determined. With this point, the structured engineering read the acknowledged parameters of the engine and detailed them to the focal administration programming. The focal administration programming working continuously was then ready to collect these parameters and structure prescient upkeep models.

Wireless Electrical Motor Parameter Monitoring System for Three Phase Induction Motor

IJIREEICE, 2017

In the current era automation has become a basic need for the industries. Induction Machines are the nerves of many industries. Hence Industrial automation is a demand for their reliable and safe operation This paper proposes a wireless control and monitoring system for an induction motor based on serial communication protocol for safe and economic data communication in industrial fields where the wired communication is expensive or not possible due to physical conditions. A transducers and sensors monitors the parameters of induction motor and transmit the data through serial communication. A microcontroller based system is collects and stores data through computer interface developed with serial communication.