Course - detail

LEB5030 - Instrumentation and Automation for Agricultural Systems


Credit hours

In-class work
per week
Practice
per week
Credits
Duration
Total
4
2
8
15 weeks
120 hours

Instructor
Rafael Vieira de Sousa
Rubens André Tabile

Objective
The aim of this course is to enable the student to understand and develop instrumentation and
automation systems applied to agricultural systems. For this, basic concepts of electrical and
electronics are presented and discussed. These will serve as support to understand the classical
components and processes as measure instruments and data acquisition, sensors, actuators and data
processing as, their respective software and how it apply in agro-industrial systems. In addition,
through practices with sensors and data acquisition hardware, the aim is to strengthen the concepts
discussed and enable the student to handle modern hardware and software tools for automation and
instrumentation.

Content
Fundamentals of electricity and electronics: electrical variables in direct and alternating current;
Types of sensors and signals: communication standards, circuits, temperature, linear displacement, inductive position, capacitive position, magnetic position, radial displacement, pressure and flow sensors.
Signal acquisition and signal conditioning: physical systems, sensors, signal conditioning, multiplexer boards, digital analog converter, data storage and processing.
Practice hardware: measurement instruments, simple circuit assembly with oscilloscope, multimeter and data acquisition boards (Hardware USB6008 - National Instruments).
Applied electronic instrumentation: fundamentals of instrumentation and measurement processes; static and dynamic characteristics of measuring instruments; sensors and acquisition of analog and digital signals;
Practice software: software for signal acquisition, visualization and processing (Software Labview - National Instruments).
Automation fundamentals: Continuous dynamic systems and Discrete event systems: history and conceptualization of automation levels and the main automation elements; principles of continuous process automation and discrete systems automation; types of control loops and types of controllers; programmable logic controller (PLC);
Pneumatic and Hydraulic Automation: fundamentals of hydraulic, electrohydraulic, pneumatic and electropneumatic systems; computer simulation of these systems (Software Fluidsim - FESTO). Introduction to PLCs software (Software Codesys - Altus).
Instrumentation and automation of agricultural machines: instrumentation and automation elements application; fundamentals of data communication; automation and telemetry networks and protocols; embedded systems and embedded networks (ISO11783); agricultural management information technologies concepts for systems integration.

Bibliography
ALEXANDRE, C. Automação Industrial – controle do movimento e processos contínuos. 2 ed. São Paulo: Érica, 2008.
BALBINOT, A; BRUSAMARELLO, V.J. Instrumentação e Fundamentos de Medidas. 2 ed. Rio de Janeiro: LTC, 2010. V. 1.
BALBINOT, A; BRUSAMARELLO, V.J. Instrumentação e Fundamentos de Medidas. 2 ed. Rio de Janeiro: LTC, 2011. V. 2.
BOLTON, W. Mecatrônica - uma abordagem multidisciplinar. 4 ed. Porto. Alegre: Bookman, 2010.
BOYLESTAD, R.L. Introdução à Análise de Circuitos. 10 ed. São Paulo: Pearson Prentice Hall, 2004.
FIGLIOLA, R.S.; BEASLEY, D.E. Teoria e projeto para medições mecânicas. 4 ed. Rio de Janeiro : LTC, 2007.
GUSSOW, M. Eletricidade Básica. 2 ed. São Paulo: Pearson Makron Books, 1997.
ROSÁRIO, J. M. Princípios de mecatrônica. 1 ed. São Paulo: Pearson Education, 2005