| Cobra CP2814-1050 Motor Propeller Data | |||||||||||||||
| Magnets | Motor Wind | Motor Kv | No-Load Current | Motor Resistance | I Max | P Max (6S) | |||||||||
| 14-Pole | 13-Turn Delta | 1050 RPM/Volt | Io = 2.06 Amps @ 15v | Rm = 0.034 Ohms | 48 Amps | 1065 W | |||||||||
| Stator | Outside Diameter | Body Length | Total Shaft Length | Shaft Diameter | Motor Weight | ||||||||||
| 12-Slot | 35.1 mm, 1.38 in. | 36.0 mm, 1.42 in. | 41.5 mm, 1.63 in. | 5.00 mm, 0.197 in. | 120 gm, 4.23 oz | ||||||||||
| Test Data From | Input | 12.0 V | 15.0 V | 18.0V | 21.0V | Measured Kv value | Measured Rm Value | ||||||||
| Sample Motor | Io Value | 1.774 A | 2.058 A | 2.196 A | 2.645 A | 1086 RPM/Volt @ 15V | 0.0340 Ohms | ||||||||
| Prop | Prop | Li-Po | Input | Motor | Watts | Prop | Pitch | Thrust | Thrust | Thrust Eff. | |||||
| Manf. | Size | Cells | Voltage | Amps | Input | RPM | Speed | Grams | Ounces | Grams/W | |||||
| APC | 8x6-E | 3 | 11.1 | 21.73 | 241.2 | 10,800 | 61.4 | 995 | 35.10 | 4.12 | |||||
| APC | 8x8-E | 3 | 11.1 | 29.66 | 329.2 | 10,329 | 78.3 | 936 | 33.02 | 2.84 | |||||
| APC | 9x4.5-E | 3 | 11.1 | 20.09 | 222.9 | 10,906 | 46.5 | 1200 | 42.33 | 5.38 | |||||
| APC | 9x6-E | 3 | 11.1 | 24.29 | 269.6 | 10,648 | 60.5 | 1201 | 42.36 | 4.46 | |||||
| APC | 9x7.5-E | 3 | 11.1 | 36.12 | 401.0 | 9,950 | 70.7 | 1295 | 45.68 | 3.23 | |||||
| APC | 9x9-E | 3 | 11.1 | 41.77 | 463.6 | 9,614 | 81.9 | 1264 | 44.59 | 2.73 | |||||
| APC | 10x5-E | 3 | 11.1 | 28.90 | 320.7 | 10,383 | 49.2 | 1522 | 53.69 | 4.75 | |||||
| APC | 10x6-E | 3 | 11.1 | 32.93 | 365.5 | 10,148 | 57.7 | 1594 | 56.23 | 4.36 | |||||
| APC | 10x7-E | 3 | 11.1 | 37.82 | 419.8 | 9,871 | 65.4 | 1656 | 58.41 | 3.94 | |||||
| APC | 10x8-E | 3 | 11.1 | 41.66 | 462.4 | 9,695 | 73.4 | 1716 | 60.53 | 3.71 | |||||
| APC | 11x5.5-E | 3 | 11.1 | 39.99 | 443.9 | 9,707 | 50.6 | 2069 | 72.98 | 4.66 | |||||
| APC | 11x7-E | 3 | 11.1 | 46.49 | 516.0 | 9,263 | 61.4 | 2112 | 74.50 | 4.09 | |||||
| APC | 11x8-E | 3 | 11.1 | 50.95 | 565.5 | 8,934 | 67.7 | 1914 | 67.51 | 3.38 | |||||
| APC | 12x6-E | 3 | 11.1 | 50.01 | 555.2 | 9,000 | 51.1 | 2425 | 85.54 | 4.37 | |||||
| Prop | Prop | Li-Po | Input | Motor | Watts | Prop | Pitch | Thrust | Thrust | Thrust Eff. | |||||
| Manf. | Size | Cells | Voltage | Amps | Input | RPM | Speed | Grams | Ounces | Grams/W | |||||
| APC | 7x6-E | 4 | 14.8 | 21.01 | 311.0 | 14,727 | 83.7 | 1098 | 38.73 | 3.53 | |||||
| APC | 8x4-E | 4 | 14.8 | 24.07 | 356.2 | 14,508 | 55.0 | 1386 | 48.89 | 3.89 | |||||
| APC | 8x6-E | 4 | 14.8 | 39.61 | 586.3 | 13,428 | 76.3 | 1579 | 55.70 | 2.69 | |||||
| APC | 8x8-E | 4 | 14.8 | 49.16 | 727.5 | 12,781 | 96.8 | 1434 | 50.58 | 1.97 | |||||
| APC | 9x4.5-E | 4 | 14.8 | 34.99 | 517.9 | 13,835 | 59.0 | 2066 | 72.88 | 3.99 | |||||
| APC | 9x6-E | 4 | 14.8 | 41.07 | 607.9 | 13,298 | 75.6 | 1904 | 67.16 | 3.13 | |||||
| APC | 9x7.5-E | 4 | 14.8 | 59.64 | 882.7 | 12,052 | 85.6 | 1930 | 68.08 | 2.19 | |||||
| APC | 10x5-E | 4 | 14.8 | 48.60 | 719.3 | 12,792 | 60.6 | 2349 | 82.86 | 3.27 | |||||
| Prop | Prop | Li-Po | Input | Motor | Watts | Prop | Pitch | Thrust | Thrust | Thrust Eff. | |||||
| Manf. | Size | Cells | Voltage | Amps | Input | RPM | Speed | Grams | Ounces | Grams/W | |||||
| APC | 7x4-E | 5 | 18.5 | 24.11 | 446.0 | 18,361 | 69.5 | 1515 | 53.44 | 3.40 | |||||
| APC | 7x5-E | 5 | 18.5 | 30.97 | 572.9 | 17,890 | 84.7 | 1513 | 53.37 | 2.64 | |||||
| APC | 7x6-E | 5 | 18.5 | 31.84 | 588.9 | 17,795 | 101.1 | 1604 | 56.58 | 2.72 | |||||
| APC | 8x4-E | 5 | 18.5 | 37.35 | 690.9 | 17,418 | 66.0 | 2025 | 71.43 | 2.93 | |||||
| APC | 8x6-E | 5 | 18.5 | 59.39 | 1098.8 | 15,909 | 90.4 | 2194 | 77.39 | 2.00 | |||||
| APC | 9x4.5-E | 5 | 18.5 | 51.93 | 960.6 | 16,278 | 69.4 | 2972 | 104.83 | 3.09 | |||||
| Prop | Prop | Li-Po | Input | Motor | Watts | Prop | Pitch | Thrust | Thrust | Thrust Eff. | |||||
| Manf. | Size | Cells | Voltage | Amps | Input | RPM | Speed | Grams | Ounces | Grams/W | |||||
| APC | 7x4-E | 6 | 22.2 | 35.40 | 785.9 | 21,302 | 80.7 | 2041 | 71.99 | 2.60 | |||||
| APC | 7x5-E | 6 | 22.2 | 43.74 | 970.9 | 20,650 | 97.8 | 2020 | 71.25 | 2.08 | |||||
| APC | 7x6-E | 6 | 22.2 | 45.18 | 1003.0 | 20,531 | 116.7 | 2128 | 75.06 | 2.12 | |||||
| APC | 8x4-E | 6 | 22.2 | 52.43 | 1163.8 | 19,912 | 75.4 | 2656 | 93.69 | 2.28 | |||||
| © 2018 Innov8tive Designs, Inc. | |||||||||||||||
| This chart, and the data contained within it, are the property of Innov8tive Designs, Inc., and may not be reproduced without permission from the author. | |||||||||||||||
| Propeller Chart Color Code Explanation | |||||||||||||||
| The prop is to small to get good performance from the motor. (Less than 50% power) | |||||||||||||||
| The prop is sized right to get good power from the motor. (50 to 80% power) | |||||||||||||||
| The prop can be used, but full throttle should be kept to short bursts. (80 to 100% power) | |||||||||||||||
| The prop is too big for the motor and should not be used. (Over 100% power) | |||||||||||||||
| PLEASE NOTE: | |||||||||||||||
| The Data contained in this Prop Chart is based on actual measurements, taken in a controlled test environment, at an altitude of | |||||||||||||||
| 584 feet above sea level. The test voltages used are based on the standard output of a Li-Po battery under load, which is 3.70 volts | |||||||||||||||
| per cell. If you are using a battery that is larger in capacity than normal, or has a very high C-rating, then your actual voltages will | |||||||||||||||
| be higher than those shown in the chart, and this will result in a higher current and power value for every prop used. You should | |||||||||||||||
| always test your actual power system with a watt meter before flying your model to make sure that you are not exceeding the | |||||||||||||||
| recommended current and power ratings of the motor being used. The prop recommendations in this chart assume that the motor | |||||||||||||||
| receives adequate cooling throughout its operation. If your motor is being used inside a cowl or fuselage, you must ensure that | |||||||||||||||
| the motor receives sufficient airflow, and does not get too hot during operation. It is always best to use a prop size that pulls no | |||||||||||||||
| more than 80% of the motors maximum recommended current value to ensure safe operation under all conditions. | |||||||||||||||