Recently, the Asia Consumer Electronics Show was grandly opened in Shanghai. In the 14 categories of product exhibitions, wearable devices as a hot spot can be said to be eye-catching and infinite. And the company's innovative technology and latest research results shared by Dr. Heerlein, Director of Infrared Component Product Marketing, Industrial and Distribution Division, OSRAM Opto Semiconductors, further promoted the imagination of wearable devices, attracting numerous fans to look forward to their bright future. Wait.
At the expert seminar on the topic "The Revolution of Wearable Devices Technology", Dr. Heerlein introduced the application and development trend of optical sensors in wearable devices and mobile phones, and believed that wearable devices will improve people's quality of life in all aspects. When asked about the technology that could change the future of wearable devices, Dr. Heerlein responded that optical sensors will bring more possibilities to wearable devices.
Dr. Heerlein believes that optical sensors are suitable for measurement of pulse rate and oxygen saturation, which allows optical sensors to be widely used in wearable gadgets and suitable mobile applications that track health. This will bring more possibilities to the application prospects of wearable devices, mobile phones and other consumer electronics. Perhaps, in the near future, mobile phones embedded with optical sensors will report to you the status of each of your blood vessels, and you may have the opportunity to become a "medical doctor" to pre-diagnose your physical health.
Optical sensors, while providing a promising vision for wearable devices and mobile phones, are equally indispensable. In the on-site expert discussion session, Dr. Heerlein, an engineer, further introduced the requirements for optical components in future mobile phones and wearable devices, providing a reference for wearable manufacturers.
Dr. Heerlein said that a narrow-spectrum, high-efficiency LED can achieve almost 100% light utilization and a stable wavelength, making it an excellent original for measuring pulse rate and oxygen saturation. Integrated sensors such as the SFH7050 and SFH7051 produced by OSRAM are extremely compact solutions. This multi-chip sensor consists of three LEDs and a photodiode designed to measure pulse rate and oxygen saturation for wearable products and smartphones. In short, these components will greatly improve the accuracy and stability of the measurement.
(The integrated SFH7050 sensor is designed for PPG and pulse oximetry applications in wearable products and smartphones. It has three LED emitters and one photodiode in a compact package.)
Undoubtedly, advances in technology have brought more possibilities to wearable devices, and the geek spirit of fans has made this emerging industry more and more purple. Dr. Heerlein believes that although the development of wearable devices will encounter some technical challenges at this stage, optical sensors will greatly ensure the stability and accuracy of measurement, making wearables expected to usher in the next breakthrough. By then, people will get more benefits in medical and sports life with wearable devices.
At the expert seminar on the topic "The Revolution of Wearable Devices Technology", Dr. Heerlein introduced the application and development trend of optical sensors in wearable devices and mobile phones, and believed that wearable devices will improve people's quality of life in all aspects. When asked about the technology that could change the future of wearable devices, Dr. Heerlein responded that optical sensors will bring more possibilities to wearable devices.
Dr. Heerlein believes that optical sensors are suitable for measurement of pulse rate and oxygen saturation, which allows optical sensors to be widely used in wearable gadgets and suitable mobile applications that track health. This will bring more possibilities to the application prospects of wearable devices, mobile phones and other consumer electronics. Perhaps, in the near future, mobile phones embedded with optical sensors will report to you the status of each of your blood vessels, and you may have the opportunity to become a "medical doctor" to pre-diagnose your physical health.
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Optical sensors, while providing a promising vision for wearable devices and mobile phones, are equally indispensable. In the on-site expert discussion session, Dr. Heerlein, an engineer, further introduced the requirements for optical components in future mobile phones and wearable devices, providing a reference for wearable manufacturers.
Dr. Heerlein said that a narrow-spectrum, high-efficiency LED can achieve almost 100% light utilization and a stable wavelength, making it an excellent original for measuring pulse rate and oxygen saturation. Integrated sensors such as the SFH7050 and SFH7051 produced by OSRAM are extremely compact solutions. This multi-chip sensor consists of three LEDs and a photodiode designed to measure pulse rate and oxygen saturation for wearable products and smartphones. In short, these components will greatly improve the accuracy and stability of the measurement.
(The integrated SFH7050 sensor is designed for PPG and pulse oximetry applications in wearable products and smartphones. It has three LED emitters and one photodiode in a compact package.)
Undoubtedly, advances in technology have brought more possibilities to wearable devices, and the geek spirit of fans has made this emerging industry more and more purple. Dr. Heerlein believes that although the development of wearable devices will encounter some technical challenges at this stage, optical sensors will greatly ensure the stability and accuracy of measurement, making wearables expected to usher in the next breakthrough. By then, people will get more benefits in medical and sports life with wearable devices.
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