Medical device technology, such as embedded medical devices, consists of hardware and software customised for specific functions in medical devices.
These technologies allow patients’ health to be monitored and managed frequently each day.
For example, sensors extract data on aspects of a patient’s health, such as their heart rate, and send the data to physicians wirelessly for analysis.
Examples of applications of embedded systems in the medical field include imaging systems such as magnetic resonance imaging (MRI) and computed tomography (CT), defibrillators, blood pressure monitoring devices, digital flow sensors, foetal heart monitoring machines, and wearable devices.
Leading embedded technology suppliers for medical devices
Our Medical Device Network team has researched and listed some of the leading embedded technology suppliers.
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This information is based on our team’s intel, insights, and many years of experience in the sector.
Our list also features some of the leading specialists in customised embedded boards and industrial platforms, semiconductor solutions for medical applications, printed circuit boards for the medical market.
Within the professionally compiled download document there is a wealth of valuable industry insights.
This content is of particular interest and use to medical device executives, medical device manufacturers, distributors, electrical engineers, firmware engineers, software engineers, system architects, test technicians, test operators, research and development engineers, research scientists, and sales managers.
Thanks to our wide-ranging scope of research and team acumen, we have also included information of value to a range of other individuals involved in medical embedded technology operations.
Our download also contains detailed information on the services providers and their products, as well as contact details, to inform your purchasing decision.
Medical-grade embedded technologies
Embedded systems generally incorporate an operating system and a processor to allow them to react in real-time with limited resources, especially in highly critical situations.
These systems include microprocessors, digital signal processors (DSP) or converter microcontrollers, memory for data storage, sensors, actuators, and other interfaces.
Medical grade embedded technologies are constantly being updated to reduce their size, increase their processing power, and incorporate programmed automatic technologies to provide improved treatments and medications for patients.
Embeddinged medical systems with the Internet of Things (IoT)
Medical systems with embedded Internet of Things (IoT) capabilities can help address shortages of doctors in remote locations.
These systems’ operating system interfaces and high-speed processors can expedite diagnosis and treatment times for patients.
Embedded IoT medical devices can be connected to various hardware items and store patients’ data on the cloud to be analysed and used by clinicians, whenever necessary.
FAQs
What is embedded technology in medical devices?
Embedded technology integrates software and hardware components into medical devices to perform specific functions like monitoring, diagnostics, and treatment.
These systems include processors, sensors, and actuators that ensure devices operate efficiently in real-time.
How does embedded technology improve patient care?
Embedded systems provide real-time health monitoring, automating diagnostic processes and enabling data to be transmitted wirelessly to healthcare professionals, improving treatment response times.
What are key applications of embedded systems in healthcare?
Applications include wearable devices, MRI machines, defibrillators, and blood pressure monitors, which enhance diagnostic accuracy and treatment efficiency.
What role does IoT play in embedded medical systems?
IoT-enabled embedded devices can collect, transmit, and analyse patient data remotely, offering continuous monitoring and reducing the need for hospital visits.
How are embedded systems designed to meet medical standards?
These systems must comply with regulations like IEC 60601 for safety and performance, ensuring reliability in critical medical environments.