At New York Academy, we invite you to energize your future in one of the most essential industries of the modern world. Our Electrical Technology program prepares you with world-class electrical competencies and a comprehensive technological perspective, blending advanced theoretical knowledge with intensive practical experience in cutting-edge electrical systems through our revolutionary hybrid modality.
Connect with the Future of Energy and Technology
The electrical revolution is here: smart systems, renewable energy, industrial automation, advanced home automation, and smart grids have transformed traditional electricity into a high-tech 21st-century specialization. This program strategically positions you in a constantly growing job market with limitless opportunities in:
- Renewable Energy: Solar, wind, hydroelectric systems, energy storage, and smart microgrids
- Industrial Automation: PLCs, robotics, SCADA systems, Industry 4.0, and automated process control
- Residential Installations: Smart homes, home automation, security systems, and energy efficiency
- Commercial Installations: Corporate buildings, shopping centers, hospitals, and high-demand systems
- Electrical Infrastructure: Substations, transmission lines, electrical distribution, and network maintenance
- Electric Vehicles: Charging stations, electric propulsion systems, and EV technology
- Electrical Entrepreneurship: Electrical services companies, specialized installations, and energy consulting
- International Market: Global projects, international certifications, and cutting-edge technology
Technical Excellence and Energy Innovation
Join a pioneering educational community that integrates international technical rigor, cutting-edge electrical technologies, and innovative learning methodologies. At New Vision Career Technology, you will not only develop technical mastery in electrical systems but also advanced diagnostic skills, electrical safety expertise, and technological leadership, preparing you to lead the electrical industry with innovative vision, technical precision, and operational excellence.
Your High-Voltage Electrical Career Starts Today
Become part of the new generation of professional electricians who will lead the transformation toward smart, sustainable, and highly efficient electrical systems. With our hybrid approach, you will access specialized electrical labs, precision measuring equipment, high-voltage simulators, and a global network of opportunities to energize your career toward professional success and international technical excellence.
Transform your technical affinity into a high-energy career!
New York Academy - Where Electrical Innovation Meets Its Future
To train specialized electrical technicians with advanced technical competencies, a comprehensive technological vision, and a commitment to excellence, capable of designing, installing, maintaining, and leading highly complex electrical projects in modern systems. Graduates will apply cutting-edge technologies, international safety standards, and energy sustainability principles in residential, commercial, and industrial installations, contributing to the development of national and international electrical infrastructure with technological innovation and professional responsibility.
Core Technical Competencies
To develop comprehensive mastery of the electrical and scientific fundamentals governing modern electrical technology, enabling students to:
- Master applied mathematics for electricity, circuit analysis, and complex electrical calculations
- Apply fundamental principles of electricity, magnetism, and electromagnetism in practical systems
- Implement OSHA and NFPA 70E electrical safety protocols, including lockout/tagout and risk prevention procedures
- Operate specialized measurement equipment: multimeters, oscilloscopes, power analyzers, and diagnostic tools
- Perform accurate technical analysis of direct and alternating current circuits using scientific methods
Specialization in Electric Machines and Power Systems
To train versatile professionals in handling transformers, electric motors, and power systems, developing the ability to:
- Install, maintain, and troubleshoot power and distribution transformers using advanced techniques
- Work with AC and DC motors, including starting, speed control, and protection systems
- Implement motor control systems with contactors, relays, and specialized control centers
- Configure and program variable frequency drives for industrial applications and energy efficiency
- Design grounding systems, lightning protection, and earth resistance measurement systems
Integrated Electrical Installations and Electrical Code
To provide training in residential, commercial, and industrial electrical installations in accordance with international standards, enabling technicians to:
- Carry out complete residential installations: panels, branch circuits, GFCI, AFCI, and emergency systems
- Implement commercial installations: lighting systems, industrial motors, and special loads
- Develop high-voltage industrial installations: industrial plants, power systems, and distribution networks
- Interpret and apply the National Electrical Code (NEC), including updates and practical applications
- Conduct electrical inspections, quality control, and supervision of complex electrical projects
Industrial Automation and Advanced Technologies
To integrate knowledge of automation, industrial control, and emerging technologies, preparing technicians capable of:
- Program programmable logic controllers (PLCs) using ladder logic and HMI systems
- Implement SCADA systems for supervision, data acquisition, and industrial process control
- Work with industrial sensors, instrumentation, and closed-loop control systems
- Integrate industrial robotic systems with basic programming and robotic safety protocols
- Apply Industry 4.0, industrial IoT, and cybersecurity concepts in control systems
Renewable Energies and Energy Sustainability
To develop competencies in clean technologies and sustainable energy systems to:
- Design and install photovoltaic systems: solar panels, inverters, batteries, and grid connection
- Implement wind energy systems: wind turbines, turbine control, and specialized maintenance
- Configure energy storage systems: lithium batteries, UPS, and energy management systems
- Develop smart microgrids and demand-side energy management systems
- Conduct energy audits, obtain green certifications, and implement energy efficiency strategies
Emerging Technologies and Smart Systems
To train specialists in cutting-edge technologies and future electrical systems:
- Implement home automation and smart building systems using KNX and BMS protocols
- Install electric vehicle infrastructure: charging stations and propulsion systems
- Work with high-voltage systems: substations, protections, and specialized circuit breakers
- Analyze and correct power quality issues: harmonics, power factor, and distortion
- Integrate smart grids with advanced meters and communication systems
Project Management and Technical Leadership
To develop managerial and technical leadership skills for comprehensive electrical project management:
- Plan and supervise electrical projects: budgeting, bidding, and quality control
- Implement predictive maintenance using thermography, vibration analysis, and advanced techniques
- Develop entrepreneurial skills for electrical businesses and specialized services
- Carry out comprehensive capstone projects with technical documentation and professional presentation
- Lead technical teams through effective communication and multidisciplinary coordination
Professional Skills and International Certifications
To develop cross-disciplinary competencies that enhance overall technical growth:
- Master electrical technical English for international communication and specialized manuals
- Obtain professional certifications: NECA, IES, OSHA 30-Hour, NFPA 70E, and NABCEP
- Apply industrial cybersecurity principles and protection of electrical networks
- Develop skills in technical research and continuous technological updates
- Implement sustainability practices, environmental responsibility, and energy efficiency
Professional Impact and Career Development
Upon completion of the program, graduates will be prepared to significantly contribute to the development of the national and international electrical industry, leading electrical infrastructure projects that drive economic growth and technological innovation. They will be positioned as specialized technicians in electric companies, industrial plants, renewable energy projects, and technological ventures, with the ability to transform the energy matrix toward smarter, more sustainable, and efficient systems that will define the future of electricity and global energy technologies.
3,640 academic hours distributed across theoretical instruction, laboratory practice, and real-world installation experience. Each course is designed with an optimal duration between 90 and 120 hours to ensure conceptual depth and practical mastery required by the international electrical industry.
FIRST ACADEMIC YEAR
First Quarter - Electrical and Scientific Foundations (450 hours)
- A100-AME-100 Applied Mathematics for Electrical Systems - 110 hours - Delivery Mode: Remote
Algebra, trigonometry, complex numbers, vector calculus, circuit analysis, unit conversions
View more → - A100-ELE-200 Fundamentals of Electricity - 120 hours - Delivery Mode: Hybrid
Ohm's Law, Kirchhoff's Laws, AC/DC current, power, energy, magnetism, electromagnetism
View more → - A100-ELS-300 Electrical Safety - 110 hours - Delivery Mode: On-Campus
OSHA standards, NFPA 70E, electrical PPE, lockout procedures, first aid, risk prevention
View more → - A100-ETH-400 Tools and Measurement Equipment - 110 hours - Delivery Mode: On-Campus
Multimeters, oscilloscopes, power analyzers, megohmmeters, clamp meters, calibration
View more →
Second Quarter - Circuits and Basic Systems (460 hours)
- B100-DCT-500 Direct Current Circuits - 115 hours - Delivery Mode: Hybrid
Nodal analysis, mesh analysis, network theorems, voltage dividers, series/parallel resistances
View more → - B100-ACT-600 Alternating Current Circuits - 120 hours - Delivery Mode: Hybrid
Phasors, impedance, reactance, resonance, power factor, AC power analysis
View more → - B100-TRA-700 Transformers - 115 hours - Delivery Mode: On-Campus
Principles, types, connections, power transformers, distribution transformers, testing, maintenance
View more → - B100-MAC-800 Basic Electrical Machines - 110 hours - Delivery Mode: On-Campus
DC motors, generators, operating principles, characteristics, starting methods, basic control
View more →
Third Quarter - Motors and Controls (450 hours)
- C200-MOT-900 Alternating Current Motors - 120 hours - Delivery Mode: On-Campus
Synchronous motors, induction motors, single-phase, three-phase, starting methods, speed control
View more → - C200-MCO-1000 Motor Control Systems - 115 hours - Delivery Mode: On-Campus
Starters, contactors, relays, timers, protection devices, motor control centers
View more → - C200-VFD-1100 Variable Frequency Drives - 105 hours - Delivery Mode: Hybrid
PWM principles, configuration, programming, industrial applications, energy efficiency
View more → - C200-PWR-1200 Basic Power Systems - 110 hours - Delivery Mode: Hybrid
Generation, transmission, distribution, substations, basic protection, power quality
View more →
Fourth Quarter - Electrical Installations (470 hours)
- D300-RES-1300 Residential Installations - 120 hours - Delivery Mode: On-Campus
Residential electrical code, panels, branch circuits, GFCI, AFCI, grounding systems
View more → - D300-COM-1400 Commercial Installations - 120 hours - Delivery Mode: On-Campus
Commercial systems, lighting, motors, special loads, emergency systems, NEC code
View more → - D300-IND-1500 Industrial Installations - 115 hours - Delivery Mode: On-Campus
Industrial plants, high voltage, power systems, industrial distribution, maintenance
View more → - D300-GRO-1600 Grounding Systems - 115 hours - Delivery Mode: On-Campus
Grounding theory, grounding systems, lightning protection, resistance measurement
View more →
SECOND ACADEMIC YEAR
Fifth Quarter - Automation and Control (480 hours)
- E400-PLC-1700 Programmable Logic Controllers - 120 hours - Delivery Mode: Hybrid
PLC hardware, ladder programming, functions, HMI systems, industrial communications, troubleshooting
View more → - E400-SCA-1800 SCADA Systems - 115 hours - Delivery Mode: Hybrid
Supervision, data acquisition, interfaces, industrial networks, cybersecurity
View more → - E400-SEN-1900 Sensors and Instrumentation - 120 hours - Delivery Mode: On-Campus
Industrial sensors, transducers, signal conditioning, calibration, closed-loop systems
View more → - E400-ROB-2000 Industrial Robotics - 125 hours - Delivery Mode: On-Campus
Robotic systems, basic programming, electrical integration, robotic safety
View more →
Sixth Quarter - Renewable Energy (460 hours)
- F500-SOL-2100 Photovoltaic Systems - 120 hours - Delivery Mode: Hybrid
Solar panels, inverters, batteries, system design, installation, maintenance
View more → - F500-WIN-2200 Wind Energy Systems - 110 hours - Delivery Mode: Hybrid
Wind turbines, control systems, grid connection, maintenance, small-scale systems
View more → - F500-ENS-2300 Energy Storage Systems - 115 hours - Delivery Mode: On-Campus
Lithium batteries, UPS systems, microgrids, energy management, efficiency
View more → - F500-SMG-2400 Smart Grid Technology - 115 hours - Delivery Mode: Hybrid
Smart meters, communications, demand management, renewable integration
View more →
Seventh Quarter - Advanced Technologies (490 hours)
- G600-HOM-2500 Home Automation and Intelligent Buildings - 120 hours - Delivery Mode: Hybrid
KNX systems, BMS systems, intelligent lighting, HVAC control, integrated security
View more → - G600-ELV-2600 Electric Vehicles - 125 hours - Delivery Mode: On-Campus
Charging stations, propulsion systems, EV batteries, charging infrastructure
View more → - G600-HVS-2700 High Voltage Systems - 120 hours - Delivery Mode: On-Campus
Substations, protection systems, circuit breakers, disconnectors, preventive maintenance
View more → - G600-POQ-2800 Power Quality - 125 hours - Delivery Mode: Hybrid
Harmonics, distortion, power factor, filters, quality analysis, correction methods
View more →
Eighth Quarter - Management and Capstone Project (470 hours)
- H700-EMP-2900 Electrical Project Management - 120 hours - Delivery Mode: Hybrid
Planning, budgeting, bidding, supervision, quality control, safety management
View more → - H700-MAI-3000 Predictive Maintenance - 115 hours - Delivery Mode: On-Campus
Thermography, vibration analysis, dielectric oils, condition-based maintenance
View more → - H700-ENT-3100 Electrical Entrepreneurship - 110 hours - Delivery Mode: Remote
Electrical service business, licensing, insurance, marketing, business management
View more → - H700-CAP-3200 Electrical Capstone Project - 125 hours - Delivery Mode: On-Campus
Design and implementation of complete electrical system, comprehensive technical documentation
View more →
Cross-Curricular Courses (Developed throughout the program)
- I700-NEC-3300 National Electrical Code - 80 distributed hours
NEC standards, code interpretation, updates, practical applications, inspections
View more → - I700-TEC-3400 Technical English for Electrical Systems - 60 distributed hours
Specialized terminology, technical manuals, international communication, certifications
View more → - I700-ENV-3500 Energy Efficiency and Sustainability - 70 distributed hours
Energy audits, green certifications, consumption reduction, clean technologies
View more → - I700-CYB-3600 Industrial Cybersecurity - 60 distributed hours
Control system security, industrial network protection, vulnerability assessment
View more →
Intensive Practical Experience
- J700-LAB-3700 Specialized Electrical Laboratories - 260 distributed hours
Hands-on practice with cutting-edge industrial equipment, high-voltage simulators
View more → - J700-FIE-3800 Field Experience - 220 hours - Quarters 7-8
Real-world experience in electrical companies, industrial plants, installation projects
View more → - J700-CER-3900 Certification Preparation - 100 distributed hours
NECA, IES, intensive preparation for professional licenses and certifications
View more →
Academic Summary
Total duration: 24 months (8 quarters)
Total academic hours: 4,210 hours
Theoretical hours: 1,895 hours (45%)
Practical hours: 2,315 hours (55%)
Remote delivery: 18% of program
On-campus delivery: 60% of program
Hybrid delivery: 22% of program
Academic Load Distribution by Quarter
- Quarter 1: 450 hours (solid foundations)
- Quarter 2: 460 hours (intensive circuits)
- Quarter 3: 450 hours (motors and controls)
- Quarter 4: 470 hours (installations)
- Quarter 5: 480 hours (automation)
- Quarter 6: 460 hours (renewable energy)
- Quarter 7: 490 hours (maximum load - advanced technologies)
- Quarter 8: 470 hours (management and project)
Available Additional Certifications
Throughout the program, students will be able to obtain internationally recognized industry certifications, including NECA (National Electrical Contractors Association), IES (Illuminating Engineering Society), OSHA 30-Hour Construction, NFPA 70E Electrical Safety, PLC Programming Certification, NABCEP Solar PV Installation Professional, Certified Energy Manager (CEM), and manufacturer-specific certifications from companies like Siemens, Allen-Bradley, and Schneider Electric, significantly enhancing their employability and professional recognition globally.
New York Academy seeks candidates with a technical vocation, a genuine passion for electrical technology, and a commitment to professional excellence. The ideal applicant demonstrates technical affinity, curiosity about modern electrical systems, teamwork under pressure, analytical and problem-solving skills, physical aptitude for intensive technical work, and a vision for professional growth in the dynamic fields of electricity, renewable energy, industrial automation, and technological entrepreneurship.
Academic Requirements
To ensure the academic and professional success of our students, the following prior education requirements are established:
- High school diploma or equivalent recognized certification
- Solid knowledge of mathematics (algebra, geometry, trigonometry, and basic calculus)
- Basic understanding of physics (electricity, magnetism, and basic mechanics)
- Strong reading comprehension and effective technical communication skills
- Ability to interpret electrical diagrams, technical schematics, and safety procedures
Required Documentation
Applicants must submit the following official documents to complete their admission process:
- Completed and signed admission application form
- Official high school diploma or equivalent certification
- Academic transcript with detailed grades
- Valid identification document (national ID or passport)
- Medical certificate confirming physical fitness for intensive electrical work
- Two recent passport-sized photographs
- Motivation letter expressing passion for electrical technology and technical development
International Documentation
For international students, additional documentation is required, duly legalized or apostilled:
- Academic certificates translated by a certified translator
- Official recognition or validation of studies by local educational authorities
- Certificate of Spanish language proficiency (minimum B2 level)
- Student visa or corresponding immigration documentation
- Valid international health insurance for the duration of the program
Admission Evaluation
The selection process includes multiple components to comprehensively evaluate each applicant:
- Basic knowledge test in applied mathematics for electricity and conversions
- Technical aptitude test and electrical problem-solving skills assessment
- Personal interview with specialized instructors in electrical technology
- Practical evaluation of manual skills, tool handling, and technical coordination
- Vocational orientation and motivation test for professional electrical technology
Technical Requirements for Hybrid Modality
Given our hybrid educational approach, students must have the following minimum technological resources:
- Computer or laptop with an updated operating system
- Stable broadband internet connection (minimum 10 Mbps)
- High-definition webcam for virtual technical demonstrations
- Basic office software and electrical design applications
- Basic workspace for technical practices and electrical projects
Financial Requirements
To ensure commitment and sustainability throughout the training process, the following conditions apply:
- Payment of initial tuition fee or approved financing plan
- Proof of financial solvency or credit guarantor
- Student insurance covering practical activities in electrical laboratories
- Budget for professional electrical toolkits and basic measuring instruments
- Resources for materials, electrical lab expenses, and technical practices
Safety and Protection Requirements
Given the technical and intensive nature of electrical work, additional safety requirements are established:
- Specific medical certificate including physical, visual, and endurance evaluation
- Declaration of absence of medical conditions that may restrict work with electrical systems
- Mandatory commitment to use personal protective equipment (PPE) for electrical work
- Participation in OSHA electrical safety and risk management training
- Accident insurance covering electrical activities and use of specialized equipment
Application Process
The admission process follows a structured schedule to ensure fair and timely evaluation of all candidates:
- Document submission: 30 days before the start of the academic term
- Academic and technical evaluations: 15 days before classes begin
- Personal interviews: 10 days before the academic term begins
- Notification of results: 5 days before classes start
- Enrollment confirmation: Within 48 hours before the academic start date
Institutional Commitment
New York Academy is committed to providing equitable access to world-class electrical education, offering merit-based scholarships, socio-economic assistance, and flexible financing plans for students demonstrating exceptional technical talent and genuine commitment to their professional development in the fields of electricity, renewable energy, industrial automation, and emerging technological entrepreneurship.