Power 60 Brushless Outrunner Instructions
Thank you for purchasing the E-flite Power 60 Brushless Outrunner motor. The Power 60 is designed to deliver clean and quiet power for 60-size
sport and scale airplanes, 46-size 3D airplanes, or models requiring up to 1200 watts of power. It’s an especially good match for Hangar 9® .60-size
warbirds like the Corsair 60 (HAN2575), P-47D Thunderbolt 60 (HAN2975), P-40 Warhawk 60 (HAN2850), P-51 Mustang 60 (HAN2375), P-51 Miss
America 60 (HAN2775) and .46-size 3D planes such as the Hangar 9 Funtana 40 (HAN1975) or Seagull Harrier 46 (SEA3025).
Power 60 Brushless Outrunner Features:
• Equivalent to a 60-size glow engine for 6- to 10-pound (2.7 - 4.5Kg) airplanes
• Ideal for 46-size 3D airplanes up to 7-pounds (3.2 Kg)
• Ideal for models requiring up to 1200 watts of power
• High torque, direct drive alternative to inrunner brushless motors
• Includes mount, prop adapters, and mounting hardware
• Quiet, lightweight operation
• External rotor design, 6mm shaft can easily be reversed for alternative motor installations
• High quality construction with ball bearings and hardened steel shaft
• Slotted 14-pole outrunner design
Power 60 Specifications
Diameter: 50mm (2 in)
Case Length: 62mm (2.4 in)
Weight: 380g (13 oz)
Shaft Diameter: 6mm (.24 in)
EFLM4060A
Kv: 400 (rpms per volt)
Io: 2.7A @ 10V (no load current)
Ri: .06 ohms (resistance)
Continuous Current: 55A*
Max Burst Current: 65A*
Watts: up to 1700
Cells: 16-24 Ni-MH/Ni-Cd or 5-7S Li-Po
Recommended Props: 14x8 to 16x10
Brushless ESC: 80-Amp (EFLA1080B)
* Maximum Operating Temperature: 220 degrees Fahrenheit
* Adequate cooling is required for all motor operation at maximum current levels.
* Maximum Burst Current duration is 30 seconds. Adequate time between maximum burst intervals is required.
Note: The 3.5mm Gold Bullet Connectors included on this motor are rated for current up to 60A. Please see our accessory parts listed below for
4mm connector option if you are running more current than we recommend.
Determine a Model’s Power Requirements:
1. Power can be measured in watts. For example: 1 horsepower = 746 watts
2. You determine watts by multiplying ‘volts’ times ‘amps’. Example: 10 volts x 10 amps = 100 watts
Volts x Amps = Watts
3. You can determine the power requirements of a model based on the ‘Input Watts Per Pound’ guidelines found below, using the flying weight of
the model (with battery):
• 50-70 watts per pound; Minimum level of power for decent performance, good for lightly loaded slow flyer and park flyer models
• 70-90 watts per pound; Trainer and slow flying scale models
• 90-110 watts per pound; Sport aerobatic and fast flying scale models
• 110-130 watts per pound; Advanced aerobatic and high-speed models
• 130-150 watts per pound; Lightly loaded 3D models and ducted fans
• 150-200+ watts per pound; Unlimited performance 3D models
NOTE: These guidelines were developed based upon the typical parameters of our E-flite motors. These guidelines may vary depending on other
motors and factors such as efficiency and prop size.
4. Determine the Input Watts per Pound required to achieve the desired level of performance:
Model: Hangar 9 P-51 Miss America
Estimated Flying Weight w/Battery: 9.0 lbs
Desired Level of Performance: 90-110 (100 average) watts per pound; Fast flying scale model
9.0 lbs x 100 watts per pound = 900 Input Watts of total power (minimum)
required to achieve the desired performance
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:
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