On our website under the section marked "team members" - you will see the names and biographies of those who work in our research facility. The director of our lab is Milos Radovanovic BSc. Mech.Eng.
We will continue to add new photos and updates to this blog posting. Here are a few photos with a description of what our team is working.
The efforts of our team in Serbia are helping to bring AmnioBed to market. Stay tuned for more updates.
Engineering prototype of control unit assembled and first tests were executed. Control unit architecture is off the shelf Siemens PLC connected with I/O system – custom PCB. I/O system will collect all inputs form sensors and distribute it to PLC for processing, after processing data PLC will transmit instructions to I/O system that will distribute instructions to actuators, heaters and other output devices.
This architecture will save 2000-3000 USD in production costs for each unit, while keeping advantages of reliability of PLC architecture.
Engineering prototype of our flagship product called AmnioBed™. The exterior shell has been removed to show what the internal components look like. You will see the basin on top where the premature infant will be placed. There will be a cover over the top but was removed for this photo. There are 13 subsystems within the device. The photo was taken in our clean room (non-sterile) where we are working on completing the work needed to bring this to market.
On our website under the section marked “team members” – you will see the names and biographies of those who work in our research facility. The director of our lab is Milos Radovanovic BSc. Mech.Eng.
We will continue to add new photos and updates to this blog posting. Here are a few photos with a description of what our team is working.
The efforts of our team in Serbia are helping to bring AmnioBed to market. Stay tuned for more updates.
Engineering prototype of control unit assembled and first tests were executed. Control unit architecture is off the shelf Siemens PLC connected with I/O system – custom PCB. I/O system will collect all inputs form sensors and distribute it to PLC for processing, after processing data PLC will transmit instructions to I/O system that will distribute instructions to actuators, heaters and other output devices.
This architecture will save 2000-3000 USD in production costs for each unit, while keeping advantages of reliability of PLC architecture.