Modeling of control devices for sensor wireless ZigBee networks

Authors

  • Григорій Іванович Барило Lviv Polytechnic National University S. Bandery street 12, Lviv, Ukraine, Ukraine
  • Ігор Ігорович Гельжинський Lviv Polytechnic National University S. Bandery street 12, Lviv, Ukraine, Ukraine
  • Ростислав Іванович Грицик Lviv Polytechnic National University S. Bandery street 12, Lviv, Ukraine, Ukraine
  • Христина Богданівна Іванюк Lviv Polytechnic National University S. Bandery street 12, Lviv, Ukraine, Ukraine
  • Наталія Іванівна Кус Lviv Polytechnic National University S. Bandery street 12, Lviv, Ukraine, Ukraine

DOI:

https://doi.org/10.15587/1729-4061.2012.6034

Keywords:

wireless network, ZigBee standard, microcontroller, modeling

Abstract

The article concerns the peculiarities of the design of the control devices of the wireless sensor networks based on the IEEE 802.15.4 standard, which are widely used in the control systems of technological processes and monitoring of various objects. The networks of such systems are based on the standardized radio modules of ZigBee technology with the integrated microprocessor software. To optimize the design process of such devices it is reasonable to use the appropriate software debugging tools.

A method of the debugging of the control devices built on microcontrollers SS25hh (Texas Instrument) using Proteus software environment was suggested. In this environment, a working model of the device was designed. The device can operate in a mode of a router or a final device and transfer the information from primary sensors. A modeling of the measurement process of the analog and digital input signals, coming from sensory transducers, was carried out. An algorithm for setting the controller for the operation of the environmental monitoring system was presented. The debugging procedure of the internal software of the microcontroller was shown to provide the basic modes of the processes of transfer and information exchange.

A possibility of designing of the printed circuit boards with a built-in antenna for the radio path as part of the environmental monitoring system was presented

Author Biographies

Григорій Іванович Барило, Lviv Polytechnic National University S. Bandery street 12, Lviv, Ukraine

Ph.D., lecturer, senior teacher

Department of Electronic Devices

Ігор Ігорович Гельжинський, Lviv Polytechnic National University S. Bandery street 12, Lviv, Ukraine

Ph.D., lecturer,

Department of Life Safety

Ростислав Іванович Грицик, Lviv Polytechnic National University S. Bandery street 12, Lviv, Ukraine

Technical Director

Христина Богданівна Іванюк, Lviv Polytechnic National University S. Bandery street 12, Lviv, Ukraine

Postgraduate of Department of Electronic Devices

Наталія Іванівна Кус, Lviv Polytechnic National University S. Bandery street 12, Lviv, Ukraine

Postgraduate of Department of Electronic Devices

References

  1. Варгаузин, В. Радиосети для сбора даннях от сенсоров, мониторинга и управления на основе стандарта IEEE 802.15.4 [Текст] / Варгаузин В. // ТелеМультиМедиа. - 2005. - №6. – С.23-27
  2. Незнамов, Ю. Перспективы использования беспроводных ZigBee-интерфейсов в электроприводе [Текст] / Незнамов Ю., Козаченко В.// Электронные компоненты.- 2008. - №11.- С. 17-24.
  3. ZigBee Alliance. ZigBee Specification [Електронний ресурс]. – Режим доступу: http://www.zigbee.org
  4. Килочек, Д. Проектирование на программируемых системах на кристалле PSoC [Текст] / Килочек Д. // Компоненты и технологии. - 2006. - №4. – С.78-88.
  5. Максимов, А. Моделирование устройств на микроконтроллерах с помощью программы ISIS из пакета PROTEUS VSM [Текст] / Максимов А. //Радио.–2005.–№4, 5, 6.-С.30-32
  6. Павел Ильин СС2530 – новый ZigBee трансивер для широкого спектра приминений/ Павел Ильин, Олег Пушкарев // Компоненты и технологи. – 2009. - №10. – С.98-100.

Published

2012-12-26

How to Cite

Барило, Г. І., Гельжинський, І. І., Грицик, Р. І., Іванюк, Х. Б., & Кус, Н. І. (2012). Modeling of control devices for sensor wireless ZigBee networks. Eastern-European Journal of Enterprise Technologies, 6(12(60), 53–56. https://doi.org/10.15587/1729-4061.2012.6034

Issue

Section

Sensory semiconductor devices