International Higher National Diploma In Biomedical Engineering (Level 5)
Upskill, reskill or pursue a passion with relevant courses across every subject, whether you’re a beginner or already an expert.
Duration
24 Months
Pedagogy
Blended
Tuition Fee
ÂŁ 550 ÂŁ 1,000
International Higher National Diploma In Biomedical Engineering (Level 5)
This programme provides in-depth knowledge of electrical and biomedical engineering principles, covering circuit design, nanotechnology, medical instrumentation, and human physiology. It emphasizes mathematical applications, signal processing, and CAD modeling to develop industry-ready skills. Students will explore the latest advancements in healthcare technology and engineering solutions. The program blends theoretical concepts with practical applications, ensuring a well-rounded education. Graduates will be equipped to contribute to biomedical innovations and technological advancements.
After the successful completion of the Programme, you will earn a UK 120 credit hours Certification awarded by MSBM partners.Accreditation
All MSBM courses are accredited by the relevant partners and awarding bodies. Please refer to MSBM accreditation in about us for more details.University Progression
University Top-upOn completion of this course, students have the opportunity to complete a Master degree programme from our partner University. The top-up programme can be studied online or on campus. The top-up comprises the final 60 credits which consist of either a dissertation or a dissertation and one module.
(The course tuition fee listed above does NOT include the top-up fee)
University Progression
Click here to see University routes and fee information for progression.
Entry requirement
For entry into Level 5 International Higher National Diploma in Biomedical Engineering, learners must possess:
* Relevant/Local Board of Examination Result in your Country, which must include at least 5 'C' Grades in English and 4 other subjects.
* Level 3 and 4 Certificate.
* Mock Examination Results can also be accepted for initial Conditional Admission, pending the release of the Board of Examination Results. (This is assessed on a case by case basis).
* Learner must be 18 years and older at the start of the Course.
OR
Mature Learners (21 years and older) with work experience in supervisory, leadership, or management roles. (This is assessed on a case by case basis).
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What you'll learn
Module 1
ASSIGNMENT & STUDY GUIDELINES
This comprehensive module combines various learning approaches including interactive content, practical exercises, and engaging resources. You'll find carefully curated materials designed to enhance your understanding and skills through a mix of theoretical concepts and hands-on practice. Each component has been structured to ensure an effective and engaging learning experience.
Module 2
Further Electrical, Electronic, And Digital Principles
This module explores advanced electrical and digital circuit concepts, focusing on electronic components, signal processing, and system applications.
Module 3
Anatomy And Human Physiology
– Covers the structure and function of human body systems, emphasizing physiological processes and their relevance to healthcare and biomedical applications.
Module 4
Nano-Materials And Their Technology
Nano-Materials and Their Technology – Examines the properties, synthesis, and applications of nanomaterials in engineering, medicine, and advanced technology fields.
Module 5
Medical Instrumentation
Medical Instrumentation – Introduces the principles, design, and application of biomedical instruments used for diagnosis, monitoring, and treatment.
Module 6
Engineering Design
Engineering Design – Focuses on the principles of problem-solving, creativity, and systematic design methodologies in engineering projects.
Module 7
Further Mathematics
Further Mathematics – Covers advanced mathematical techniques essential for engineering, including calculus, differential equations, and linear algebra.
Module 8
Introduction To Biomedical Engineering
Introduction to Biomedical Engineering – Provides an overview of biomedical engineering principles, including medical device development and healthcare innovations.
Module 9
Introductory Biology
Introductory Biology – Introduces fundamental biological concepts, including cell structure, genetics, and physiological processes.
Module 10
Introductory Chemistry
Introductory Chemistry – Covers basic chemical principles, reactions, and their applications in biological and engineering contexts.
Module 11
General Physics I
General Physics I – Explores classical mechanics, thermodynamics, and wave motion, forming the foundation for engineering applications.
Module 12
Applied Mechanics
Applied Mechanics – Examines the principles of forces, motion, and mechanical systems, essential for engineering problem-solving.
Module 13
Human Anatomy
Human Anatomy – Provides a detailed study of human body structures and their functions, crucial for biomedical applications.
Module 14
Biochemistry
Biochemistry – Covers the chemical processes in living organisms, emphasizing biomolecules, metabolism, and enzyme functions.
Module 15
General Physics II
General Physics II – Focuses on electromagnetism, optics, and modern physics concepts relevant to engineering and biomedical sciences.
Module 16
Electrical Machines And Drives I
Electrical Machines and Drives I – Introduces the operation, control, and applications of electrical machines and drive systems in engineering.
Module 17
Signals And Systems
Signals and Systems – Covers signal processing, system modeling, and analysis techniques essential for electrical and biomedical applications.
Module 18
Computer-Aided Drafting
Computer-Aided Drafting – Develops skills in using CAD software for designing engineering components and technical drawings.
Module 19
Introductory Biology 2
Introductory Biology – Introduces fundamental biological concepts, including cell structure, genetics, and physiological processes.
Module 20
Introduction To Biomedical Engineering 2
Introduction to Biomedical Engineering – Provides an overview of biomedical engineering principles, including medical device development and healthcare innovations.
Module 21
Introductory Chemistry 2
Introductory Chemistry – Covers basic chemical principles, reactions, and their applications in biological and engineering contexts.
Testimonial
Discover the success stories of learners like yourself
Where learning goes beyond acquiring new skills to also deliver an enjoyable experience.
Stella H.
The course content was exactly what I needed. The structured learning approach and practical examples helped me develop new skills that I use every day.
Richard K.
An excellent learning experience from start to finish. The course material was well-organized and the concepts were presented in a clear, engaging way.
Nancy L.
What stood out was how practical and relevant the content was. I've been able to apply what I learned immediately, making a real difference in my work.
