Medical device electronics and power supply components form an integral part of medical devices.
They are crucial to the performance of diverse functions and can range from something as simple as a switch to sophisticated implantable sensors.
The increasing and rising demand for electronic medical implantable devices, wearable medical devices, and robotics technology has increased the demand for advanced electronic components for critical applications.
Electronic components such as capacitors, connectors, feedthroughs, resistors, flex circuits, integrated circuits and semiconductors are some of the critical components needed for medical devices.
Industry leading suppliers of medical device electronics and power supply equipment
The medical electronics market is highly fragmented and contains many component suppliers.
Our team at Medical Device Network has researched and listed some of the leading suppliers of electronics and power supply equipment and components.
This information is based on this research, as well as our team’s deep intel, industry insights and decades-long experience in the medical device sector.
Within this list, we have included some of the current leading medical electronics design and development service providers.
Many of these providers are focused on system miniaturisation, low-power electronics and technologies such as high-density packaging (HDP).
Our rigorously researched and professionally written download document contains a wealth if valuable information.
This content is of particular interest and worth to medical device executives, sales representatives, manufacturers and distributors.
Thanks to our wide scope of research, this content is also useful to medical electronics component and power suppliers, engineers and technicians, and other individuals involved in operations in the medical device industry.
This download also contains some highly detailed information on the suppliers and their product offerings, as well as contact details for procurement teams.
Selecting the best optimal medical power supply equipment
Medical devices are highly dependent on the design of medical power supply for effective power and communications in implantable or external medical devices, as well as safe and reliable operation.
Medical power supplies must comply with the IEC 60601 standard, which requires at least two means of protection.
To design and manufacture safe medical equipment, certain standards need to be carefully determined.
Examples of this include meeting the creepage, clearance and leakage current criteria for designing an AC/DC power supply for medical devices, providing suitable insulation and following electromagnetic inference (EMI) criteria.
FAQs
Why is power supply design critical for medical devices?
Power supply design is essential for ensuring the reliability, safety, and performance of both implantable and external medical devices.
Properly designed power systems meet the strict safety standards, such as IEC 60601, and include multiple layers of protection to prevent electrical hazards and device malfunctions.
What standards must medical power supplies comply with?
Medical power supplies must adhere to the IEC 60601 standard, which specifies two means of protection to ensure patient and operator safety.
This includes managing leakage current, creepage distances, and clearance to minimise electrical risks.
How does miniaturisation impact medical power supply design?
Miniaturisation enables the development of smaller, lighter medical devices that improve patient comfort, especially for wearable or implantable systems.
Advanced technologies like high-density packaging (HDP) help reduce the size of power components without compromising efficiency.
What role do capacitors and resistors play in medical devices?
Capacitors store and regulate electrical energy, while resistors control the current flow, ensuring devices operate smoothly.
These components are critical in maintaining the precision required for accurate diagnostic and therapeutic outcomes.
How do manufacturers ensure the reliability of medical power supplies?
Manufacturers use rigorous testing, including stress and environmental testing, to validate the performance of medical power supplies.
This ensures they can withstand various operating conditions while maintaining consistent performance.