E-flite Power 110 User Manual

Power 110 Brushless Outrunner Instructions

Thank you for purchasing the E-flite Power 110 Brushless Outrunner Motor. The Power 110 is designed to deliver clean and quiet power equivalent to or surpassing the power of a 110-size 2stroke glow engine for sport and scale airplanes weighing 9- to 15-pounds (4- to 6.8-Kg), 3D airplanes up to 11-pounds (5-Kg), or models requiring up to 2000 watts of power. It will provide excellent 3D performance for the Hangar 9 FuntanaX 100 ARF, ShowTime 4D 90 ARF and other similar class models. The Power 110 also provides great power and performance for the Ultra Stick Lite 120 ARF.

Power 110 Brushless Outrunner Features:

• Equivalent to or surpassing the power of a 1.10 size 2-sroke glow engine for 9-15 lbs (4-6.8 Kg) airplanes

• Ideal for 3D airplanes up to 11 lbs (5 Kg)

• Ideal for models requiring up to 2000 watts of power

• High torque, direct drive alternative to inrunner brushless motors

• External rotor design for better cooling

• Includes mount and mounting hardware

• High quality construction with ball bearings and hardened 8mm steel shaft

• Includes two 12mm prop shaft adapters tapped out for 10-32 threads

Power 110 Specifications

Diameter: 63mm (2.50 in) Case Length: 54mm (2.10 in) Weight: 490g (17.5 oz) Shaft Diameter: 8mm (.30 in) (Includes two 12mm prop shaft adapters)

EFLM4110A

Kv: 295 (rpms per volt) Io: 1.20A @ 10V (no load current) Ri: .03 ohms (resistance) Continuous Current: 55A* Max Burst Current: 65A* Watts: up to 2000 Cells: 24-32 NiMh/NiCd or 8S-9S LiPo Recommended Props: 17x8 – 19x10 Brushless ESC: 85A High Voltage

* Maximum Operating Temperature: 220 degrees Fahrenheit * Adequate cooling is required for all motor operation at maximum current levels. * Maximum Burst Current duration is 15 seconds. Adequate time between maximum burst intervals is required for proper cooling and to avoid overheating the motor. * Maximum Burst Current rating is for 3D and limited motor run flights. Lack of proper throttle management may result in damage to the motor since excessive use of burst current may overheat the motor.

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

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):

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: 100-size 3D ARF

Estimated Flying Weight w/Battery: 10.3 lbs Desired Level of Performance: 150-200+ watts per pound; Unlimited performance 3D and aerobatics

10.6 lbs x 150 watts per pound = 1,545 Input Watts of total power (minimum)

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:

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: 100-size FuntanaX 3D ARF (converted to electric) Estimated Flying Weight w/Battery: 10.3 lbs Total Input Watts Required for Desired Performance: 1,545 (minimum)

Motor: Power 110 Max Continuous Current: 55A* Max Burst Current: 65A* Cells (Li-Po): 9

9 Cells, Max Burst Power Capability: 29.7 Volts (9 x 3.3) x 65 Amps = 1,930 Watts

Per this example, the Power 110 motor (when using a 9S Li-Po pack) can handle up to 1,930 watts of input power, readily capable of powering the 100-Size FuntanaX 3D model with the desired level of performance (requiring 1,545 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.

Volts x Amps = Watts

• 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 and aerobatic models

required to achieve the desired 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

9 Cells, Continuous Power Capability: 29.7 Volts (9 x 3.3) x 55 Amps = 1,633 Watts

Battery Choices:

We recommend Thunder Power Li-Po batteries for the best performance and lowest weight. Some examples of the packs we recommend for use with the Power 110 motor can be found below:

THP38503SX 3850mAh 3S 11.1V Li-Po (x3; for use in series as 9S) THP38504SX 3850mAh 4S 14.8V Li-Po (x2; for use in series as 8S) THP42003S2PPL 4200mAh 3S2P 11.1V Li-Po (x3; for use in series as 9S2P) THP42004S2PPL 4200mAh 4S2P 14.8V Li-Po, (x2; for use in series as 8S2P) THP46003SX 4600mAh 3S 11.1V Li-Po (x3; for use in series as 9S) THP46004SX 4600mAh 4S 14.8V Li-Po (x2; for use in series as 8S) THP50003SX 5000mAh 3S 11.1V Li-Po (x3; for use in series as 9S) THP50004SX 5000mAh 4S 14.8V Li-Po (x2; for use in series as 8S)

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.

Hangar 9 Funtana 100 ARF (converted to electric)

Option 1:

Motor: Power 110 ESC: Castle Creations Phoenix HV-85 (CSEPHX85HV) Prop: APC 19x8E (APC19080E) Battery: Thunder Power PRO LITE 6000mAh 8S3P 29.6V (Suggested substitute: 2 – THP50004SX packs run in series) Flying Weight w/Battery: 10.6 lbs

Amps Volts Watts Input Watts/Pound RPM

63 26.7 1682 159 6800 Expect good speed and thrust ideal for sport flying and 3D aerobatics. Average duration is approximately 12-15 minutes depending on throttle management. Note: Our testing was conducted using 6000mAh PRO LITE Series packs. However, we recommend substituting 5000mAh eXtreme Series packs for increased power, similar durations and

lower battery pack temperatures for added cycle life.

Option 2:

Motor: Power 110 ESC: Castle Creations Phoenix HV-85 (CSEPHX85HV) Prop: APC 17x8E (APC17080E) Battery: Thunder Power PRO LITE 4200mAh 9S2P 33.3V (3 – THP42003S2PPL packs run in series) Flying Weight w/Battery: 10.3 lbs

Amps Volts Watts Input Watts/Pound RPM

60 33 1980 192 7800 Expect good speed and incredible thrust ideal for aggressive 3D aerobatics. Average duration is approximately 6-9 minutes depending on throttle management. Note: The Castle Creations speed control was set to high/advanced timing as recommended in their instructions. The software has been updated for optimum performance at this level of

power, so be sure you download the newest version from the Castle Creations web site by using the CASTLE LINK USB PROGRAMMER ADAPTER (CSEPHXL).

Accessories:

See our web site at compare the different motors we offer.

EFLA110 Power Meter (measures power in amps, volts, watts, and capacity) EFLA249 BL Connector Set, Gold, 4mm (3) EFLM41101 Shaft: Power 110 EFLM41102 X-Mount with Hardware: Power 110/160 EFLM41103 Prop Adapters: Power 110/160 HAN4245 EP Motor Mount with Hardware EVO3307 Standoff Gas Engine Mount, 38MM EVO3308 Standoff Gas Engine Mount, 45MM EVO3309 Standoff Gas Engine Mount, 50MM EVO3310 Standoff Gas Engine Mount, 20MM EVO3311 Standoff Gas Engine Mount, 7MM CSEPHX85HV Phoenix HV-85 High Voltage ESC CSEPHX110HV Phoenix HV-110 High Voltage ESC CYLESC80 Pilot Pro 80A HV Brushless ESC

Electronic Speed Controls:

There are many brushless electronic speed controls available in the market. We have conducted our testing using Jeti Advance 90 Plus, Cyclon Pilot Pro 80A HV, and the Castle Phoenix HV85 and HV-110 ESCs. The timing setting of the speed control is important for obtaining proper and maximum performance. In the past, some consumers have reported motor performance issues relating to timing at higher power levels when using the Castle Phoenix HV-85 and HV-110 speed controls. Castle Creations has updated their software to correct these issues. To ensure you have the most up-to-date software, we recommend that you update your ESC by downloading the software from their web site using the Castle Link USB Programmer Adapter (CSEPHXL).

Propellers:

Our testing was conducted using APC electric propellers. At these power levels, you may also experiment with using regular gas/glow props in the equivalent sizes listed in our specifications. Other options are available as well and will affect motor power output and RPMs.

Installation of Prop Adapters:

This motor includes two 12mm prop adapters tapped to accept 10-32 spinner mounting screws in order to allow quick and easy mounting of most spinners. There are two different prop shaft adapters. The adapter with four holes is intended for installation on the rotating portion of the case. Use this adapter when you are installing the fixed portion of the motor on the outside of a firewall or mount.

1. Use the included 4-40 x 3/8” screws to attach the prop adapter to the rotating portion of the case.

2. It is important that you then slide the included securing collar onto the motor shaft exiting the fixed portion of the motor. Slide the collar up to the retaining ring and tighten the

The adapter with two setscrews is intended for installation on the motor shaft exiting the fixed portion of the case. Use this side when you are installing the fixed portion of your motor on the inside of a firewall or mount.

1. Slide the prop adapter onto the motor shaft exiting the fixed portion of the case.

2. Use two setscrews to secure the prop adapter to the motor shaft, making sure that one of the setscrews lines up with the flat spot of the motor shaft.

Note: Use blue thread lock to secure screws. Operating Instructions:

1. This brushless motor requires the use of a sensorless brushless speed control. Failure to use the correct speed control may result in damage to the motor and/or speed control.

2. When mounting the motor, be sure the correct length of screws are used so damage to the inside of the motor will not occur. We suggest you use the mounting hardware included

3. You may connect the three motor wires directly to the controller with solder or use connectors such as 4mm gold plated brushless connectors (EFLA249), which will also need to

www.E-fliteRC.com or www.horizonhobby.com for our complete line of brushless motors. We have posted a specification comparison sheet on our web site so you can

setscrews, making sure that one of the setscrews lines up with the flat spot on the motor shaft. Do not remove the retaining ring. This is a preventative measure to ensure that the shaft is secured in case the retaining ring unclips during use.

with your motor. The use of long screws will damage the motor. be soldered properly to your wires. The three motor wires can be connected in any order to the three output wires or output port on a sensorless brushless speed control. Be sure

to use heat shrink tubing to properly insulate the wires so the wires will not short. Shorting may damage the motor and speed control.

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