E-flite mini edge 3d arf (efl2225), Amps volts watts input watts/pound rpm – E-flite Park 480 BL Motor Combo User Manual

5. Determine a suitable motor based on the model’s power requirements. The tips below can help you determine the power capabilities of a particular motor and
if it can provide the power your model requires for the desired level of performance:

•

Most manufacturers will rate their motors for a range of cell counts, continuous current and maximum burst current.

•

In most cases, the input power a motor is capable of handling can be determined by:

Average Voltage (depending on cell count) x Continuous Current = Continuous Input Watts

Average Voltage (depending on cell count) x Max Burst Current = Burst Input Watts

HINT: The typical average voltage under load of a Ni-Cd/Ni-MH cell is 1.0 volt. The typical average voltage under load of a Li-Po cell is 3.3 volts. This means
the typical average voltage under load of a 10 cell Ni-MH pack is approximately 10 volts and a 3 cell Li-Po pack is approximately 9.9 volts. Due to variations in
the performance of a given battery, the average voltage under load may be higher or lower. These however are good starting points for initial calculations.

Model: E-flite Mini Edge 3D
Estimated Flying Weight w/Battery: 1.6 lbs
Input Watts Per Pound Required for Desired Performance: 150 (minimum)

Motor: Park 480 Brushless Outrunner, 1020Kv
Max Continuous Current: 22A*
Max Burst Current: 28A*
Max Cells (Li-Po): 3

3 Cells, Continuous Power Capability: 9.9 Volts (3 x 3.3) x 22 Amps = 218 Watts
3 Cells, Max Burst Power Capability: 9.9 Volts (3 x 3.3) x 28 Amps = 277 Watts

Per this example, the Park 480 Brushless Outrunner, 1020 Kv motor (when using a 3S Li-Po pack) can handle up to 277 watts of input power, readily capable of
powering the Mini Edge 3D with the desired level of performance (requiring 150 watts minimum). You must however be sure that the battery chosen for power
can adequately supply the current requirements of the system for the required performance.

Battery Choices:

There are many Li-Po battery brands on the market with several choices for consumers. We recommend either E-flite or Thunder Power batteries and list some
possible choices for the Park 480 Brushless Outrunner motor, all depending on the airplane application. NOTE: Battery technology is constantly changing and
improvement are made often. Some part numbers below may change as improved versions are introduced.

EFLB1021 7.4V 1800mAh 2-Cell LIPO,16GA

THP19002S 1900mAh 2 cell 7.4V LIPO,16GA

EFLB1025 11.1V 1800mAh 3-Cell LIPO,16GA

THP19003S 1900mAh 3-Cell 11.1V LIPO,16GA

EFLB1031 7.4V 2100mAh 2-Cell LIPO,16GA

THP20002SPL 2000mAh 2-Cell 7.4V LIPO,16GA

EFLB1035 11.1V 2100mAh 3-Cell LIPO,16GA

THP20003SPL 2000mAh 3-Cell 11.1V LIPO,16GA

THP21002SPL

2100mAh

2-Cell

7.4V

LIPO,16GA

THP21003SPL

2100mAh

3-Cell

11.1V

LIPO,16GA

Note: If using larger propeller sizes with 3S Li-Po, due to high power output and current demands of this motor, we recommend the use of packs capable of
delivering a minimum of 30A continuous current. Good examples of these packs would be the Thunder Power PRO LITE 2100 mAh 3S packs (THP21003SPL).
We do not recommend the use of packs that cannot deliver at least 30A continuous current like the Thunder Power Generation II 2100 mAh 3S packs
(THP21003S) unless using smaller diameter and lower pitch propellers.

Examples of Airplane Setups:

Please see our web site for the most up-to-date information and airplane setup examples.

NOTE: All data measured at full throttle. Actual performance may vary depending on battery and flight conditions.

E-flite Mini Edge 3D ARF (EFL2225)

Option 1:
Motor: Park 480 Brushless Outrunner, 1020Kv
ESC: E-flite 40A Brushless ESC (EFLA312A)
Prop: APC 12 x 6E (APC12060E)
Battery: Thunder Power PRO LITE 2100mAh 3S (THP21003SPL)
Flying Weight w/Battery: 26 oz (1.6 lbs)

Amps

Volts

Watts

Input Watts/Pound

RPM

26.2

10.4

272

167

7320

Expect extreme awesome power and performance with good speed and strong vertical performance and pull out from hover. Using a 12x6 prop will provide
better thrust with slightly less speed than if you used an 11x7 propeller. This motor is more suitable for higher output batteries such as the Thunder Power PRO
LITE packs. Average duration is approximately 8-12 minutes depending on throttle management.

Option 2:
Motor: Park 480 Brushless Outrunner, 1020Kv
ESC: E-flite 40A Brushless ESC (EFLA312A)
Prop: APC 11 x 7E (APC11070E)
Battery: Thunder Power PRO LITE 2100mAh 3S (THP21003SPL)
Flying Weight w/Battery: 26 oz (1.6 lbs)

Amps

Volts

Watts

Input Watts/Pound

RPM

26.1

10.4

271

169

7380