General information
Course taught by Teleformación 40h to be completed in 8 weeks.
Manuals are provided in PDF format, along with video tutorials, practical exercises, an online platform available 24 hours a day, 7 days a week, with all the resources available on the market (chat, forums, messaging, Skype, etc.), and teachers with accredited professional experience in the design and interpretation of electrical diagrams. At the end of the course, the corresponding diploma will be issued.
| Duration: | 40 hours, ONLINE |
| Start date: | Please visit info@technicalcourses.net |
| Maximum time: | 8 weeks |
| Price: | 200 € |
Description
Aimed at:
Engineers, technical engineers, draughtsmen, industrial technicians in general, naval industry technicians, offshore industry technicians, Merchant Navy engineering officers, naval mechanics, teachers, students, and anyone interested in learning how to interpret electrical diagrams for industrial installations.
Objectives:
The correct interpretation of industrial electrical diagrams is essential training for any technician wishing to work in the industrial sector, including the areas of design, maintenance, and operation of equipment and facilities.
The objective of the course is for students to acquire the knowledge and skills necessary to correctly interpret any electrical diagram commonly found in the industry.
The aim is for students to acquire the skills necessary to deal with practically any electrical diagram, both in terms of power (or force) and control (or manoeuvre), enabling them to interpret the operating sequences of these circuits, create their own, or even detect faults in real installations by identifying problems based on actual plans.
It is a curse eminently practical, with numerous examples of real-life cases that students will work on, ensuring their learning.
Methodology:
The course is taught online through our virtual campus, in a comfortable and flexible environment, eliminating the need for travel and rigid schedules associated with face-to-face training. It also features a range of communication tools that allow students to stay in touch with teachers and fellow students, ensuring effective training with a high level of student engagement.
The assesment of the course will be carried out by theoretical tests and practices also available online. If you pass the course with a minimum grade of five, the corresponding certificate will be issued. diploma acreditativo.
This course is taught by a qualified professional, who has proven professional experience and specialised training in this field.
Promotional video for the Industrial Electrical Diagram Interpretation Course:
Program
TOPIC 1.- DESIGN OF ELECTRICAL DIAGRAMS
1.1.- Electrical Circuit Diagrams
1.2.- Circuit Diagram Design. Circuit Layouts
1.3.- Naming of Connections for Contacts
Appendix Folder Images Electrical Components-Symbols
Practical Exercises Terminal Numbering
Questionnaire Topic 1
TOPIC 2.- ELECTRICAL SYMBOLS
2.1.- Introduction
2.2.- Graphic Symbols. Standardisation of Diagrams
2.3.- Brief Description of the Main Components of an Electrical Installation
2.4.- Referencing in Developed Diagrams
2.4.1.- Referencing of Device Connection Terminals (Reminder)
2.4.2. - Referencing of Terminals in Terminal Blocks
2.4.3.- Representation of the Circuit Diagram in Developed Form
2.4.4.- Classification by Reference Letters
2.4.5.- Execution of Diagrams. General Placement in the Developed Representation
Appendix Electrical Symbols
Practical Exercises Identification of Electrical Components
Questionnaire Topic 2
TOPIC 3.- STUDY OF ELECTRICAL COMPONENTS
3.1.- Conductors
3.1.1.- Composition of Electrical Wiring
3.1.2.- Types of Electrical Cables
3.2.- Push Buttons
3. 3.- Switches
3.4.- Relays
3.5.- Contactors
3.6.- Timer Relays
3.7.- Detectors
3.8.- Signal Lamps
3.9.- Types of Faults in an Electrical Installation
3.9.1. - Overcurrents
3.9.2.- Insulation fault
3.10.-Protective devices
3.10.1. - Fuses
3.10.2- Thermal Relay
3.10.3.- Circuit Breakers And Residual Current Devices
3.11.- Solenoid Valves
3.12. - Specific Relays: Bistable Coil, Remote Switch and Flashing Relay
Appendix: Relay Connection-Disconnection
Appendix: Electrical Panels
Appendix: Electrical Panel Apparatus
Videos:
Introduction to Contactors: Electro-Mechanical Operation
Contactors: Explanation
Coils and Timers Part I
Coils and Timers Part II
Questionnaire Topic 3
TOPIC 4.- SIMULATION OF COMPONENTS-ELECTRICAL DIAGRAMS
4.1.- Manual Control of a Contactor
4.2.- Feedback from Relays and Contactors (Self-maintenance)
4.3.- Contactor Interlocking
4.3.1. - Mechanical Interlocking
4.3.2.- Interlocking by Pushbuttons
4.3.4. - Interlocking by Limit Switch
4.4.- Timing
4.5.- Pressure Switches
4.6.- Special Function Relays
4.6.1.- Bistable Coil and Remote Switch
4.6.2. - Flashing Relay
4.7.- Electric Motor Connection
4.7.1.- Star Connection
4.7.2.- Delta Connection
4.7.3.- Star-Delta Connection
4.7.4. - Starting with Rheostats and Autotransformers
4.8.- Measuring Devices
Appendix: Electric Motor Connections
Videos:
Pulse Contactor Control
Self-holding Contactor Control
Flashing Light Control
Direct Motor Start with Circuit Breaker
Motor Reversal
Star-Delta Start
Refrigeration System Electrical Diagram
Questionnaire Topic 4
TOPIC 5.- PRACTICAL EXERCISES
Practical Exercise No. 1: Component Identification
Practical Exercise No. 2: Direct Current Motor
Practical Exercise No. 3: Steinmetz Connection
Practical Exercise No. 4: Tank Level Control
Practical Exercise No. 5: Timing
Practical Exercise No. 6: Pressure Switches
Practical No. 7: Limit Switches
Practical No. 8: Timed Pumps
Practical No. 9: UPS System Batteries
Practical No. 10: Star-Delta
Practice No. 11: Rheostat Start-up
Practice No. 12: Autotransformer
Practice No. 13: Partwinding
Practice No. 14: MACI Safety Devices
Complete Course Questionnaire
TOPIC 6.- ELECTRICAL INSTALLATION DIAGRAMS (Optional)
Actual Electrical Installation of Evaporator Equipment
Actual Electrical Installation of Air Compressor Equipment
Option to request two electrical installations similar to the above for resolution and interpretation (voluntary).
Teachers
Santiago Rey García
Chief Engineer in the Merchant Navy (professional qualification), Bachelor's Degree in Naval Engineering from the University of La Coruña. He has extensive experience as an engineer and chief engineer on oil tankers, chemical tankers, ro-pax vessels and deep-sea tugs. He is certified as a FRAMO hydraulic systems operator. He has advanced knowledge of computer control systems, supervision systems and data acquisition through Scada systems. He also has years of experience in the operation and maintenance of engine rooms (both steam and diesel), predictive, preventive and corrective maintenance. He currently holds the position of Chief Engineer on deep-sea tugs.
Enrolment information
If you are interested in the course, we would appreciate it if you could pre-register by entering your details in the ‘Pre-registration’ tab, or contact us and we will answer any questions or queries you may have about this course.
Our contact details:
Contact number: +34604859663
• E-mail: info@technicalcourses.net
