implyGo is the only portable oxygen concentrator (POC) to offer continuous flow and pulse-dose delivery in a single device weighing only 10 pounds.
Like all POCs, SimplyGo delivers pulse dose oxygen—a burst of oxygen triggered when the user starts to take a breath. But SimplyGo is different from smaller devices because it is also capable of delivering oxygen continuously, similar to stationary concentrators used at home. With oxygen output of up to four times that of some lightweight POCs, SimplyGo can meet the portable needs of nearly all oxygen users including those who are highly active or require continuous flow.
Philips designed its latest portable oxygen concentrator with a long-life compressor, high-impact resistant design and oversized cart wheels in order to be rugged and easy-to-use. SimplyGo was tested and subjected to extreme conditions, including impacts, vibrations and temperatures, to deliver reliable performance day in and day out in real-life conditions experienced by oxygen users.
SimplyGo comes with an attractive, functional carrying case; fold-up mobile cart; intuitive, easy-to-read screen; and detachable accessory bag. A lightweight and compact battery adds to its portability. Extra batteries are available and can fit easily into the zippered pouch on the carrying case or accessories bag for extended use.
Oxygen Concentrations |
86 to 97% at all settings |
Pulse mode bolus size |
1=12 ml, 1.5=18 ml, 2=24 ml, 2.5=30 |
Continuous flow settings |
0.5 LPM, 1 LPM, 1.5 LPM, 2 LPM |
Sound level |
≤ 43 dB at pulse setting 2 |
Size |
11.5 in x 10 in x 6 in |
Weight |
10 lbs (4.5 kg) with battery |
Operating temperature |
41° to 104°F (5° to 40°C) |
Storage temperature |
-4° to 140°F (-20° to 60°C) unit only |
Altitude |
Up to 10,000 ft. (3048 m) |
Filtration |
Internal bacteria filter |
DC power |
Input 12 to 19 VDC 8.0 A max |
AC power |
Input 100 to 240 VAC, 50/60 Hz, 2.0 A |
Power consumption |
150W while charging, |
Alarm types |
Low oxygen purity, No breath, |
Lithium Ion battery |
1.5 lbs (0.7 kg), charge time is |