An Open Source Ventilator Powered by Raspberry Pi and Arduino Goes Into Testing in Colombia - Hackster.io
![Arduino on Twitter: ".@MIT is also designing an open source, Arduino-based ventilator to help meet the urgent demand for equipment: https://t.co/uvBQ1a1KOU https://t.co/fIeg8VK7vt" / Twitter Arduino on Twitter: ".@MIT is also designing an open source, Arduino-based ventilator to help meet the urgent demand for equipment: https://t.co/uvBQ1a1KOU https://t.co/fIeg8VK7vt" / Twitter](https://pbs.twimg.com/media/ETy60thWkAAnr7q.jpg:large)
Arduino on Twitter: ".@MIT is also designing an open source, Arduino-based ventilator to help meet the urgent demand for equipment: https://t.co/uvBQ1a1KOU https://t.co/fIeg8VK7vt" / Twitter
![Arduino on Twitter: "Researchers have designed an open source, Arduino-based ventilator that can be easily reproduced in developing countries: https://t.co/kBRqGVu4BW https://t.co/9UYIV9VxU4" / Twitter Arduino on Twitter: "Researchers have designed an open source, Arduino-based ventilator that can be easily reproduced in developing countries: https://t.co/kBRqGVu4BW https://t.co/9UYIV9VxU4" / Twitter](https://pbs.twimg.com/media/EWIfVPbWoAEocnt.jpg)
Arduino on Twitter: "Researchers have designed an open source, Arduino-based ventilator that can be easily reproduced in developing countries: https://t.co/kBRqGVu4BW https://t.co/9UYIV9VxU4" / Twitter
![Increasing ventilator surge capacity in COVID 19 pandemic: design, manufacture and in vitro–in vivo testing in anaesthetized healthy pigs of a rapid prototyped mechanical ventilator | BMC Research Notes | Full Text Increasing ventilator surge capacity in COVID 19 pandemic: design, manufacture and in vitro–in vivo testing in anaesthetized healthy pigs of a rapid prototyped mechanical ventilator | BMC Research Notes | Full Text](https://media.springernature.com/lw685/springer-static/image/art%3A10.1186%2Fs13104-020-05259-z/MediaObjects/13104_2020_5259_Fig2_HTML.jpg)
Increasing ventilator surge capacity in COVID 19 pandemic: design, manufacture and in vitro–in vivo testing in anaesthetized healthy pigs of a rapid prototyped mechanical ventilator | BMC Research Notes | Full Text
![Arduino on Twitter: "Continuing our open-source ventilator series, this week @lahoramaker's César Garcia explores the Arduino Mega-controlled Apollo Ventilator: https://t.co/MJxCWJbnHv https://t.co/rTPhqHFEDS" / Twitter Arduino on Twitter: "Continuing our open-source ventilator series, this week @lahoramaker's César Garcia explores the Arduino Mega-controlled Apollo Ventilator: https://t.co/MJxCWJbnHv https://t.co/rTPhqHFEDS" / Twitter](https://pbs.twimg.com/media/EZlrj8MWoAAFMW-.jpg:large)
Arduino on Twitter: "Continuing our open-source ventilator series, this week @lahoramaker's César Garcia explores the Arduino Mega-controlled Apollo Ventilator: https://t.co/MJxCWJbnHv https://t.co/rTPhqHFEDS" / Twitter
![Increasing ventilator surge capacity in COVID 19 pandemic: design, manufacture and in vitro–in vivo testing in anaesthetized healthy pigs of a rapid prototyped mechanical ventilator | BMC Research Notes | Full Text Increasing ventilator surge capacity in COVID 19 pandemic: design, manufacture and in vitro–in vivo testing in anaesthetized healthy pigs of a rapid prototyped mechanical ventilator | BMC Research Notes | Full Text](https://media.springernature.com/lw685/springer-static/image/art%3A10.1186%2Fs13104-020-05259-z/MediaObjects/13104_2020_5259_Fig1_HTML.jpg)
Increasing ventilator surge capacity in COVID 19 pandemic: design, manufacture and in vitro–in vivo testing in anaesthetized healthy pigs of a rapid prototyped mechanical ventilator | BMC Research Notes | Full Text
![Actuators | Free Full-Text | Low-Cost, Open-Source Mechanical Ventilator with Pulmonary Monitoring for COVID-19 Patients Actuators | Free Full-Text | Low-Cost, Open-Source Mechanical Ventilator with Pulmonary Monitoring for COVID-19 Patients](https://www.mdpi.com/actuators/actuators-09-00084/article_deploy/html/images/actuators-09-00084-g004.png)