Product Details: Tidal Volume 0-2000ml Brand Philips Model Name/Number EV300 Respiratory Rate 0-90 BPM Inspiratory/Expiratory (I:E) Ratio 9.9:1 to 1:9.9 Trilogy EV 300 Philips Trilogy Ventilator provides both invasive mechanical ventilation (IMV) and non-invasive ventilation (NIV) and a range of monitoring capabilities for patients at or above 2.5 kg. Therefore, patients can be treated with a single device throughout their hospital stay, regardless of changing conditions. Trilogy EV300 offers comprehensive, advanced NIV auto-titrating therapy modes include AVAPS-AE, and IMV is available with single- and dual-limb circuits. A complete connected solution Trilogy EV300 communicates: Transmits and translates data from the device to the hospital EPR via patient monitoring or middleware systems. Key features include: Surveillance: The ability to remotely view ventilator settings, performance, and alarms from locations such as central monitoring stations. Event review: The ability to look at changes in a patientâ??s condition and response to various therapies, alarms and other pertinent events. Health Level 7 (HL7) interface: Used to export ventilator data to the patient chart and pull in patient demographics for patient identification. Simplified workflow Trilogy EV300 ventilators feature an easy-to-use 8-inch touchscreen and intuitive menu navigation. On-screen help and alarm guidance aid user proficiency making it easy for clinicians to feel confident. Ultimate Portability Trilogy EV300 has a 15-hour battery life* with an internal and detachable battery. Additionally, the hot swappable detachable battery provides uninterrupted power. Easy to service Trilogy EV300 only requires preventative maintenance once every year, and can be serviced and repaired onsite by biomedical engineers or Philips trained field engineers, reducing the device downtime and lifetime running costs. Enhancing patient comfort Designed to make breathing more comfortable, the Digital Auto-Trak setting provides an enhanced triggering response for patients with minimal respiratory effort while lessening the need for manual adjustments.
