Specifications

72
Continuous Power Rating
Peak Efficiency (%)
Pure Sine Wave
USB Port
Low Battery Protection
Overload Protection
Soft Start
Short Circuit Protection
Temperature Protection
Price ($)
Wagan 2016-6
700
90
X
X
X
X
X
60.15
Xantrex PROWatt 600
600
90
X
X
X
X
X
X
X
143.11
Vector VEC043B
750
90
X
X
X
X
X
64.99
Sunforce 11240
1000
n/a
X
X
X
X
X
X
189.00
Cobra CPI 880
800
88
X
X
X
X
X
43.21
Black & Decker
VEC049DCB
1000
87
X
X
X
X
X
129.99
Black & Decker PI750AB
750
n/a
X
X
X
X
X
59.06
Whistler Pro-800W
800
90
X
X
X
X
X
X
52.71
Pyle PINV2
600
90
X
X
X
35.00
Pyle PINV3
800
90
X
X
X
44.99
Power Bright PW900
900
90
X
X
X
X
64.44
PowerDrive RPPD1000
1000
87
X
X
X
X
X
79.50
Figure 58 - Commercially available power inverter comparison chart
In the end it was decided that Wagan 2016-6 would be used. As it turns out, the peak
efficiency of this modified sine wave inverter (90%) was just as high as the pure sine
wave inverters in our power and price range. It also boasts a dual USB output, low
battery protection, overload protection, short circuit protection, and temperature
protection. We plan to use one USB outlet to power the external outlet of the enclosure,
and the other USB outlet to power the microcontroller if possible. A brief schematic of
this inverter applied to this system can be viewed below. As you can see, it has two AC
power outputs to go to the AC receptacle and two USB power outputs to be connected
as stated above. The figure below shows a schematic diagram of how the power
inverter will be wired to the battery, the 120VAC outlets, and the USB outlet.