Electrical Engineering, as structured within the Cuban educational framework, is a dynamic and comprehensive program designed to equip students with the theoretical knowledge and practical skills necessary to excel in the diverse field of electrical engineering. This program lays a solid foundation in the principles and applications of electricity, electronics, and electromagnetism, preparing graduates for a range of careers that shape and power the modern world.

The Cuban Electrical Engineering program emphasizes a robust curriculum that covers key areas such as circuit theory, control systems, signal processing, telecommunications, power generation and distribution, and renewable energy technologies. This broad-based approach ensures that students not only understand the core concepts of electrical engineering but are also prepared to apply this knowledge in innovative ways to solve complex problems.

A distinctive feature of the Cuban program is its integration of theoretical study with hands-on practical experience. Laboratories, workshops, and internships with leading engineering firms and research institutions are integral components of the educational process. This practical exposure is crucial for developing the technical skills and real-world understanding necessary for the successful application of electrical engineering principles.

Moreover, the program is designed to reflect the specific needs and challenges of the Cuban context, focusing on sustainable development and the efficient use of energy resources. Students are encouraged to engage in projects and research that contribute to the advancement of the national energy sector, including the exploration of renewable energy sources and the improvement of energy efficiency across industries.

Graduates of the Cuban Electrical Engineering program are well-prepared to embark on careers as innovative engineers, capable of contributing to the development of the electrical infrastructure in Cuba and beyond. They are expected to possess a strong ethical foundation, a commitment to sustainable practices, and the ability to adapt to the rapidly evolving technological landscape. Through a combination of rigorous academic training and practical experience, the program aims to produce electrical engineers who are not only technically proficient but also capable of leading efforts towards innovative and sustainable solutions in the field of electrical engineering.


Electrical Engineering


4 years

Non-Spanish speaking students

The program’s duration is 5 years. Total cost of the program, including the 1st year of preparatory and Spanish language program.  The Spanish preparatory program includes the following:

  • Accommodation in CubaHeal students’ residence for the 1st year of Spanish Pre-med
  • Transportation from and to school


Career Preparatory/ Spanish language PRICE (USD) 1st year PRICE (USD) 2nd year PRICE (USD) 3rd year PRICE (USD) 4th year Total program cost
Electrical Engineering $14,140.00 $5,500.00 $6,325.00 $7,705.00 $8,280.00 $41,950.00 USD


Spanish speaking Student:

The program’s duration is 4.5 years. For Spanish speaking visitors interested in this program, kindly visit our sister company by clicking on the image below: https://chmt-la.com/XXXXXXXXX

La duración del programa es de 4,5 años. Para los visitantes de habla hispana interesados en este programa, visite nuestra empresa hermana haciendo clic en la imagen a continuación: https://chmt-la.com/XXXXXXXX

Important Notices:

  1. All non-Spanish speaking students are required to enroll in a 1-year pre-med program intended to deepen students’ knowledge of the Spanish language related to Biomedical Sciences and also to train the students in the development of the teaching process.
  2. Upon submitting your application, it will be recorded in a database and is only valid for the academic year in which it was requested. Otherwise, if you do not attend in that period, you must make a new formal request.

The above prices include the following:

  • Enrollment
  • Right of attendance to all practical and theoretical teaching activities
  • Right to all the exams including the final state examination.
  • Marks certification.
  • Title duly legalized by the University of Medical Sciences where the student has attended studies at the end of the program.
  • Use of library services during the studies.
  • Access to sport and cultural areas of the University of Medical Sciences
  • Participation in its various manifestations and scientific advisory for research works.

The above prices do not include the following:

  • Accommodation for year 1st – 4th year of the engineering program
  • Meals
  • Learning materials
  • National or international transportation
  • Telephone services and/or internet services
  • Books
  • Printing
  • Immigration procedures in Cuba
  • Change of migratory status
  • Identity document for year 1st – 4th year of engineering
  • Translations and legalization at the Ministry of Foreign Affairs or embassies
  • Health insurance or medical care
  • Paperwork and transfer of the deceased in case of death.


  • Objective of work

In the Republic of Cuba, the electrical engineer embodies a professional of expansive expertise, integral to nearly all the country’s economic sectors, albeit with a pronounced emphasis on the electrical industry. The core mission of an electrical engineer involves the comprehensive management and optimization of technical resources—encompassing equipment, installations, and systems—critical for the efficient production, storage, transmission, distribution, and utilization of electrical energy.

This professional’s role is pivotal in ensuring the seamless operation and sustainability of the nation’s electrical infrastructure. By focusing on the entire lifecycle of electrical energy, from its genesis in power plants to its final consumption in homes and industries, electrical engineers in Cuba are at the forefront of efforts to enhance energy efficiency, reliability, and accessibility. Their work spans a broad spectrum, including the design and implementation of cutting-edge technologies in renewable energy sources, the upgrading of existing power systems to reduce losses and improve performance, and the development of smart grid technologies that promise a more flexible and resilient electrical network.

Given the critical importance of electricity in the modern world, the work of electrical engineers in Cuba is not just technical but also profoundly impacts the economic development and environmental sustainability of the country. They are tasked with the challenge of balancing the growing energy demands with the imperative to conserve natural resources and minimize environmental impact, thereby ensuring a sustainable energy future for Cuba.

In fulfilling their work objectives, Cuban electrical engineers employ a blend of theoretical knowledge, practical skills, and innovative thinking. They collaborate closely with other professionals across various sectors to implement solutions that meet the country’s unique needs, demonstrating a commitment to excellence, sustainability, and the well-being of the Cuban people.


  • Mode of Action:

The role of an electrical engineer is delineated by a set of comprehensive capabilities that fundamentally encompass two key areas of activity: project design and system operation. These core competencies are essential to the multifaceted nature of electrical engineering and reflect the profession’s breadth and depth in tackling complex challenges within the field.

  • Project Design (Projection): Electrical engineers are instrumental in the conceptualization and design of electrical systems and components. This involves creating detailed plans for the development of new electrical equipment, systems for power generation and distribution, and electronic devices. The design process requires a deep understanding of electrical theories, the application of innovative technologies, and adherence to safety and regulatory standards. Engineers must also consider factors such as cost, reliability, and environmental impact, ensuring that designs are efficient, sustainable, and aligned with the needs of users and communities.
  • System Operation (Exploitation): Beyond the drawing board, electrical engineers play a crucial role in the operation and maintenance of electrical systems. This encompasses overseeing the installation of electrical equipment, monitoring system performance, and conducting regular maintenance to ensure reliability and safety. Engineers are also tasked with diagnosing and resolving issues that arise, employing troubleshooting techniques to minimize downtime and maintain operational efficiency. The operation phase may involve the optimization of energy usage, integration of renewable energy sources, and updating of systems to improve performance and sustainability.


  • Areas of Action

Electrical engineers play a pivotal role in shaping the modern world, with their expertise spanning several critical sectors. Their areas of action are diverse, reflecting the importance of electrical engineering in driving innovation, ensuring energy sustainability, and supporting industrial and service infrastructures. The following are key sectors where electrical engineers make significant contributions:

  1. Power Generation Plants (Conventional and Renewable): Electrical engineers are integral to the design, operation, and maintenance of power generation facilities. This includes traditional coal, natural gas, and nuclear power plants, as well as renewable energy sources such as solar, wind, hydroelectric, and geothermal power. Engineers in this sector focus on optimizing energy production, enhancing the efficiency of power plants, and integrating renewable resources into the energy mix to ensure a sustainable and reliable energy supply.
  2. Electrical Networks and Systems (Including Substations and Protection Mechanisms): This area encompasses the vast infrastructure required to transmit and distribute electricity from power plants to end-users. Electrical engineers design and maintain electrical networks across various voltage levels, ensuring the safe and efficient delivery of electricity. This includes the development and upkeep of substations, which regulate power flow, and the implementation of protection systems to safeguard against overloads, faults, and other electrical hazards. Engineers work to modernize the grid, incorporating smart technologies to improve network resilience and adaptability.
  3. Industrial and Service Electromechanical Systems: Electrical engineers also specialize in developing and maintaining electromechanical systems within industrial and service settings. This covers a broad range of applications, from manufacturing machinery and HVAC systems to lighting and power systems in commercial buildings. Engineers in this sector focus on enhancing system performance, ensuring energy efficiency, and integrating automation technologies to streamline operations and reduce energy consumption.


Electrical engineers employ a combination of technical knowledge, creative problem-solving, and strategic planning to address the challenges within these areas. Their work not only supports the backbone of today’s energy and industrial infrastructures but also paves the way for future advancements in electrical engineering and technology. Through their efforts in power generation, electrical networks, and electromechanical systems, electrical engineers contribute to the development of a more sustainable, efficient, and technologically advanced society.


  • Fields of Action

Electrical Engineers play a crucial role in the development, maintenance, and innovation of systems that underpin both the economy and the daily lives of people. Their expertise spans several key fields of action, each vital to ensuring the efficient, sustainable, and safe distribution and use of electrical energy. These fields include:

  1. Power Plants: Electrical Engineers are instrumental in the operation and maintenance of power plants, which are the cornerstone of energy production. Their work encompasses both conventional power plants, such as coal, natural gas, and nuclear facilities, as well as renewable energy sources like wind, solar, hydroelectric, and biomass plants. They focus on optimizing the efficiency of energy production, enhancing the integration of renewable energy sources, and ensuring environmental compliance.
  2. Electric Networks: This field involves the extensive infrastructure that transmits and distributes electricity from power plants to end-users. Electrical Engineers design, maintain, and upgrade electric networks, including high-voltage transmission lines and local distribution systems. They ensure these networks are resilient, efficient, and capable of meeting the evolving demands of society, incorporating advanced technologies such as smart grids to improve reliability and support the dynamic distribution of renewable energy.
  3. Energy Supply in Industrial and Residential Installations: Electrical Engineers ensure the reliable and safe supply of energy to both industrial facilities and residential areas. They design and implement systems for the efficient distribution and use of electricity, including the integration of energy management systems to optimize consumption and reduce costs. Their expertise supports the electrification of buildings, adherence to safety standards, and the development of sustainable energy solutions.
  4. Electric Drive Systems in Industrial Mechanisms, Services, and Transport: This area focuses on the application of electric drive technologies in various sectors, including manufacturing, services, and transportation. Electrical Engineers develop and implement systems that convert electrical energy into mechanical energy, powering everything from industrial machinery to electric vehicles and public transport systems. They work on enhancing the efficiency, control, and reliability of these systems, driving forward innovations in electromobility and automation.



Prior and upon the student’s arrival to the Republic of Cuba, CubaHeal Inc will be responsible for coordinating and concluding the following logistical issues:

Prior to the student’s arrival:

  1. Ensure adequate accommodation in or near the school.
  2. Keep constant line of communication with the university’s administration to confirm seat reservation.
  3. Arranging for airport pickup

Upon the Student’s Arrival:

  1. Airport pickup
  2. An orientation session to familiarize the student with:
  • CubaHeal team.
  • local transportation.
  • Other aspects relating to and city’s facilities as well as relevant immigration and legal laws that must be adhered to in the Republic of Cuba.
  1. Establishment of bank
  2. Stand as a permanent point of reference for the student should a need arises.
  3. Stand as a permanent point of reference to the student’s relatives overseas should the need arises.

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