We offer a wide range of equipment mainly aimed at the industrial sector. From simple sensors such as load cells to sophisticated equipment for process monitoring, precision resistance measurement, etc Monitoring of pressing processes, riveting, crimp, etc. Digital indicators panel or desktop format for easy and quick visualization of variables such as force, torque or displacement. Measurement of electrical resistance for conducting cables, windings, motors, etc.VIDEO ON THE TOPIC: Process Control and Instrumentation
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- Industrial Instrumentation Technology-150404
- Industrial Instrumentation and Control: An Introduction to the Basic Principles
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- Providing clients with reliable and professional calibration and testing services.
- Industrial Instrumentation
- Industrial Instrumentation Technology
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- Industrial Instrumentation jobs
- Understanding about Industrial Instrumentation in Real Time Applications
Industrial Instrumentation Technology-150404
Industrial Instrumentation and Process Control Technicians apply, install, repair, calibrate and tune those measurement and control instruments that are used in industrial manufacturing processes. Students will learn to program computerized control, programmable logic controllers, and microprocessor instrumentation and install and maintain all of the field instruments that these computerized controllers rely on.
These job skills are essential for employment in instrumentation. The Industrial Instrumentation and Process Control Technician program stresses practical, hands-on experience to complement theory.
This program will appeal to learners who are interested in working with mechanical and electronic equipment. Half of the students' time is spent performing hands-on activities using the same equipment that is found in industry. The result is a very job-ready graduate, who can step into a position in one of many related fields, or transition into an apprenticeship at an advanced level with an industry sponsor.
Practical learning activities are housed in the world-class Spartan Controls Centre for Energy Education and Research. Applicants must meet all entrance requirements prior to applying to this program and will be accepted on a first qualified basis as long as space remains. Learn more about how to apply. Applicants who have acquired knowledge and skills outside of programs recognized by BCIT including ETCC graduates , may be exempt from particular courses in the program.
Prior learning recognition will be evaluated on a case-by-case basis by faculty members in the program area. There is a non-refundable fee charged in advance for assessment. The fee is usually between half and full tuition, depending on the complexity of the assessment process. For further information, please see Prior Learning Assessment Recognition. All correspondence regarding your application will be posted to your online myCommunication account at my. We'll send you an e-mail when a new message is posted.
It's important to watch for these e-mails or regularly check your account online. You can expect to receive communication concerning the status of your application within four weeks.
Please see the Fees, Payments and Refunds section of the website for information on full-time tuition fees. Financial assistance may be available for this program. For more information, please contact Student Financial Aid and Awards. Courses The Industrial Instrumentation and Process Control Technician program contains a blend of classroom lectures and practical laboratory sessions using the latest technology.
Troubleshooting exercises guide you through real-world examples and teach you how to solve problems. Students learn through hands-on work experience. Class hours — or —, Monday to Friday. Students will learn basic electrical theory and applied mathematics for instrumentation. Mathematical topics will include logarithms, exponents, algebra, trigonometry, rectangular and polar coordinates. Problems will be focused on various aspects of instrumentation.
This course teaches students the proper use of instrumentation hand tools and instrumentation calibrators. Topics include an overview of control instrumentation, air supply systems including conditioning instrument air, and tube and pipe fittings. Students will also examine the different types of regulators used including: pressure regulators, pilot operated regulators, differential pressure regulators and flow regulators.
Students will be exposed to AC transformer theory including peak, average and RMS voltage and current. Labs will include transformers, capacitors and inductors. Transistor theory and labs will include RC coupled amplifiers, common emitter, common collector and common base problems. Topics will include oscilloscope operation and applications.
Troubleshooting will include OpAmp circuits and power supply circuits. This course covers the principles of pressure measurement including: units and conversions, pressure elements, pressure switches and pressure gauges.
Pneumatic instruments will also be examined such as: basic pneumatic instrument components, force balance instruments, motion balance instruments, pressure transmitters and pressure recorders. Students will also learn the following electronic instruments: electronic transmitters, smart transmitters digital, pneumatic to current transducers, and current to pneumatic transducers.
Prerequisite: Successful completion of term 1 courses. In this course, students will investigate flow measurement: displacement flow meters, flow switches, rotameters, turbines, pitot tubes, orifice plates and flow nozzles, connecting piping, pipe and tube fittings, sensing line fabrication, flumes and weirs, inferential flow calculations, magnetic flow meters and others. Flow instruments reviewed are pneumatic transmitters, electronic transmitters, smart flow transmitters digital.
Density measurement will be examined in this course including: buoyancy, nuclear, refractometers, head type and boiling point rise. Further topics include level measurement, level switches float, conductivity, etc , gauge glasses, head level measurement, bubble pipes, displacement level detectors, nuclear level, capacitance level and ultrasonic. Control valves and positioners will be examined in this course, including: valve bodies, diaphragm actuators, piston actuators, sliding stem valves, rotary acting valves and valve sizing.
Students will learn basic hydraulic theory, the symbols associated with hydraulic documentation and hydraulic applications for instrumentation. Topics will include hydraulic pumps, motors, servos, valves, solenoids, filters and accumulators. Students will build various circuits from hydraulic schematics. This course examines temperature units and conversion. Topics covered also include principles of temperature measurement such as: thermometers and bi-metallic, filled thermal systems, temperature switches, RTD's includes thermistors , thermocouples and non-contract temperature measurements.
Students will be introduced to the various temperature instruments such as: pneumatic transmitters, electronic transmitters, smart transmitters digital , temperature recorders and current to current transducers. Prerequisite: Successful completion of term 2 courses. This course will prepare students to be able to design and interpret conventional relay logic.
They will also learn how to configure, program and troubleshoot Programmable Logic Controllers PLCs for motor control. Prrequisite: Successful completion of term 2 courses. Students will learn the fundamentals of signal conditioning and scaling, the fundamentals of control modes and controller modes and the alignment and maintenance of pneumatic controllers.
As part of course work, students will program microprocessor controllers and wire them for a given application. This course looks at a variety of process control and control systems.
The following control strategies are also covered: duplex control, auto selector, gap action, relation, cascade, ratio and feed forward. Loop tuning techniques and hands-on experience with live processes are included. Students will be trained in the fundamentals and calibration of transmitters used for analytical measurement such as pH, conductivity, ORP and dissolved oxygen. Students will gain experience tuning DCS control systems using advanced control strategies to operate a chemical process to control variables such as pH and electrolytic conductivity.
Prerequisite: Successful completion of term 3 courses. In this course students will learn the theory and application of different types of flip flop circuits.
This course investigates the different types of DCS and microprocessor controllers such as generic computer control systems. Students will learn the fundamentals of industrial boiler control, including burner management safety. Students will gain experience tuning up a real industrial boiler control system with state of the art controls to achieve optimum performance from the boiler.
Students will gain hands-on experience with a Foundation Fieldbus control system applied to a wide variety of control loops on a running boiler. The accurate measurement of viscosity and consistency is integral to the efficient operation of many industrial processes. In this course, students will learn about different types of viscosity and consistency measurements.
Students will calibrate consistency transmitters in the pulp blending lab. Do you want to know if they transfer to courses here at BCIT? To advance to the next level, students must successfully pass all courses in the previous level.
This information is used for the purposes of tracking successful completions in order to grant credit towards apprenticeship where applicable, and communicating with trainees to promote continuation in an apprenticeship program. Graduates will receive credits of technical training upon successful completion of the program.
Graduates of the Industrial Instrumentation and Process Control Technician program will be well positioned to gain employment as technicians in the instrumentation and control field across diverse industries such as oil and gas, pulp and paper, mining, food processing, and ship building, among others. The BCIT student outcomes reports present summary findings from the annual survey of former students administered by BC Stats one to two years after graduation.
These reports combine the last three years of available results for the BCIT Outcomes Surveys of graduates and for Degree graduates. The reports are organized into three-page summaries containing information on graduates' labour market experiences and opinions regarding their education. More detailed information can be accessed at the BC Student Outcomes website. To view these results, you may need to have the Adobe Acrobat Reader installed in your Web browser.
Please ensure you have reviewed the detailed information on this site, using the navigation to the right, before submitting the form below. As well, if you meet any of the following criteria, please follow the links for more information, instead of sending the form: you are an international student you are looking for financial aid you have already applied and want to check your application status.
I have read the information above and still have a question I need answered. School of Energy. An Exciting Career Awaits You! The Program The Industrial Instrumentation and Process Control Technician program stresses practical, hands-on experience to complement theory.
Program Entry. Application processing Applications are accepted throughout the year. Entrance requirements Applicants must meet all entrance requirements prior to applying to this program and will be accepted on a first qualified basis as long as space remains. Apply to program To submit your application: Include proof of meeting all entrance requirements.
Convert all transcripts and supporting documents to PDF files. Have a credit card ready to pay the application fee. Apply Now Learn more about how to apply. Scheduled intakes September each year. Tuition fees Please see the Fees, Payments and Refunds section of the website for information on full-time tuition fees. Financial assistance Financial assistance may be available for this program.
An introduction to symbols, documentation and terminology used in the instrumentation field.
Industrial Instrumentation and Control: An Introduction to the Basic Principles
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FLEXIM is a global company that provides process instrumentation solutions for all branches of industry. Its efforts are focused on non-intrusive flow measurement and inline process analysis. Flow meters and flow controllers by Brooks are a proven solution for flow measurement and flow control challenges. With over 60 years of experience, Brooks provides Coriolis mass flow, thermal mass flow, variable area flow meter, vacuum capacitance manometers, pressure control pressure controllers, pressure gauges, pressure transmitters, pressure sensors and more , and level measurement technologies to improve your critical processes. Fluid Components International solves flow and level measurement applications for industrial process and plant applications using patented thermal dispersion flow measurement technologies.
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Industrial Instrumentation and Process Control Technicians apply, install, repair, calibrate and tune those measurement and control instruments that are used in industrial manufacturing processes. Students will learn to program computerized control, programmable logic controllers, and microprocessor instrumentation and install and maintain all of the field instruments that these computerized controllers rely on. These job skills are essential for employment in instrumentation. The Industrial Instrumentation and Process Control Technician program stresses practical, hands-on experience to complement theory. This program will appeal to learners who are interested in working with mechanical and electronic equipment.
This course is designed for persons who have previously worked in the technical national craft area or for those who want to pursue a career in mechanical and electronic mechatronics engineering and need to develop their knowledge and skills. The course combines the fundamental principles of mechanical engineering technology with knowledge of electrical and electronic circuits to design, develop, test and manufacture electrical and computer-controlled mechanical systems. Applicants must hold a national craft qualification or equivalent qualification in a related area.
Providing clients with reliable and professional calibration and testing services.
For all real time process related operations in industries, the entire system has to be controlled properly for achieving more economical, efficient, and reliable operations. Hence, some devices are used for measuring the physical quantities such as temperature, pressure and so on , which are called as instruments. Industrial automation and industrial instrumentation are required to control various operations in industries.
In this article, we will discuss the basic concepts and principles that govern the operation of industrial plants. Concepts associated with measurements of flow, level, temperature and pressure, electronics and pneumatics instrumentation, control loops, PID control, and others will be addressed. Someone once asked a colleague what his occupation was. He replied without hesitation, "I am an instrumentation and control engineer. I'm in trouble," thought the engineer.
Industrial Instrumentation Technology
Instrumentation is a collective term for measuring instruments that are used for indicating, measuring and recording physical quantities such as flow, temperature, level, distance, angle, or pressure. The term has its origins in the art and science of scientific instrument-making. Instrumentation can refer to devices as simple as direct-reading thermometers , or as complex as multi-sensor components of industrial control systems. Today, instruments can be found in laboratories, refineries, factories and vehicles, as well as in everyday household use e.
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Industrial Instrumentation jobs
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Understanding about Industrial Instrumentation in Real Time Applications
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