Building a world with Medical Equality

Regardless of race, gender, religion, wealth or poverty, everyone in every corner of the world deserves fair and good medical care.

Due to the belief of Medical Equality, Taiwan Biophotonic Corporation (tBPC) is committed to provide total solutions of non-invasive physiological signal monitoring technology. We envision ourselves as pioneers of AI-based Preventive Medicine.
tBPC has three major technologies for precision medicine:

Biophotonic Technology

Biophotonic technology for physiological signal monitoring in wearable devices has the advantages of non-invasive, high sensitivity, and multi-parametric capabilities.

Optical-Electromechanical Integration Design

Features of excellent optical-electromechanical integration designs enable products with high efficiency, accuracy, and low power consumption, as well as lower cost and better user experience.

Medical Algorithm

Accurate and precision medical algorithms are applied for monitoring, diagnosis, treatment planning and prediction, to provide better medical and healthcare quality.

We Provide Total Solutions for Non-Invasive Physiological Signal Monitoring

Intellectual Property Strategies for Innovative Technologies

tBPC has a number of invention patents, which can provide innovative and practical solutions in the field of non-invasive medical care, giving its products comprehensive market potential and competitive edge.
The patent portfolio is mainly in the following technical fields:

Non-invasive blood pressure measurement technology.
Non-contact blood glucose measurement technology.
Reflective Photoplethysmography signal detection technology.

Product

oCare Pro 100
oCare Wrist Pulse Oximeter

Patented reflective physiological sensing modules.
Optimized optomechanics refined with biophotonic simulation analysis.
Proprietary algorithms.
Medical device certification FDA 510(K) K183556.
Medical device certification MOHW-MD-No. 005860.

Reflective Physiological Sensor

The reflective physiological sensors developed by tBPC, which are designed with micro-lenses and micro-structures of DOE, optimizing light output efficiency and intensity. This innovative design allows wearable devices to accurately capture physiological signals beneath the skin.

Reflective Physiological Sensing Module

Easy integration into mobile or wearable smart devices.
Measurement on physiological parameters at multiple body sites.
Digital output of multiple parameters, including pulse rate (PR), blood oxygen saturation (SpO2) and perfusion index values (PI).
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Blog

  • Wearable medical devices have the advantages of easy operation, long-term use, non-invasiveness, and real-time monitoring, among others. With the growing concept of preventive medicine and personal health care, more and more people are starting to use wearable medical devices to

  • One third of a person's life is spent on sleep. However, according to the latest survey conducted by the Taiwan Society of Sleep Medicine, more than 10% of Taiwan's population, about 2.3 million people, suffers from sleep apnea (OSA). However,

For more information, please feel free to contact us.

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