drone motors are electric motors that provide the necessary thrust to propel a drone through the air. These motors play a crucial role in the flight dynamics and overall performance of the drone. the number of motors on a drone depends on its design, with common configurations being quadcopters , hexacopters, octocopters and so on.
most consumer and professional drones use brushless electric motors. brushless motors are preferred because they are more efficient, have longer lifespans, and require less maintenance compared to brushed motors. the absence of brushes also reduces friction and heat. the number of motors on a drone depends on its configuration. quadcopters, for example, have four motors, while hexacopters have six, and octocopters have eight. the arrangement of these motors contributes to the drone's stability and maneuverability.
a drone motor is typically specified by its dimensions, often given as the motor's stator diameter and height. the kilovolts per revolution rating is another important specification and indicates the motor's speed. higher kilovolts per revolution ratings generally result in faster-spinning motors. motor size and kilovolts per revolution rating are selected based on the drone's size, weight, and intended use.
drone motors generate thrust by spinning propellers. the amount of thrust produced depends on factors such as the motor's power, the size and pitch of the propellers, and the efficiency of the motor. drone motors must provide sufficient thrust to lift the drone off the ground and maintain stable flight.
drone motors are powered by electric energy from a drone's battery. the voltage and current supplied to the motors influence their performance. It's crucial to match the motors with the appropriate battery voltage and current specifications.
drone motors are connected to electronic speed controllers, which regulate the speed of the motors by adjusting the electrical pulses sent to them. electronic speed controllers play a critical role in controlling the drone's stability and responsiveness. efficient drone motors contribute to longer flight times and improved overall performance. heat dissipation is an important consideration, and some motors may come with cooling mechanisms or be designed to operate at lower temperatures.
item No | prop | throttle, | volts | amps | watts | spread | thrust, | efficiency | temperature |
(V) | (A) | (W) | (RPM) | (g) | (gw) | (℃) | |||
3115 900KV, | HQ9050-3R, | 50%, | 25, | 10.5, | 266, | 9053, | 1257, | 4.71, | 70℃ |
3115 900KV, | HQ9050-3R, | 60%, | 25, | 16.5, | 418, | 10924, | 1749, | 4.17, | 70℃ |
3115 900KV, | HQ9050-3R, | 70% | ,25, | 25.6, | 650, | 12445, | 2240, | 3.46, | 70℃ |
3115 900KV | HQ9050-3R, | 80%, | 25, | 36.2, | 930, | 13190, | 2790, | 3, | 70℃ |
3115 900KV, | HQ9050-3R, | 90%, | 25, | 48.6, | 1230, | 14495, | 3300, | 2.6, | 70℃ |
3115 900KV, | HQ9050-3R | ,100%, | 25, | 57.9, | 1458, | 15180, | 3690, | 2.5, | 70℃ |
3115 900KV | HQ1050-3R | 50% | 25 | 11.4 | 300 | 8758 | 1420 | 4.8 | 93℃ |
3115 900KV | HQ1050-3R | 60% | 25 | 18 | 460 | 10065 | 1920 | 4.15 | 93℃ |
3115 900KV | HQ1050-3R | 70% | 25 | 28 | 710 | 11452 | 2500 | 3.5 | 93℃ |
3115 900KV | HQ1050-3R | 80% | 25 | 39 | 988 | 12666 | 3060 | 3.1 | 93℃ |
3115 900KV | HQ1050-3R | 90% | 25 | 53.8 | 1380 | 13721 | 3670 | 2.7 | 93℃ |
3115 900KV | HQ1050-3R | 100% | 25 | 62.7 | 1600 | 14613 | 4080 | 2.4 | 93℃ |
DJ® brushless FPV drone motors,drone motors,quadcopter brushless motors,hexacopter brushless motors, UAV motors, multi-rotor motors, fixed wing brushless motors |
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for drones carrying additional equipment or payloads, the motor's thrust capabilities must be sufficient to lift the added weight. when selecting drone motors, it's essential to consider the specific requirements of the drone, including its size, weight, intended use, and the type of flying conditions it will encounter. matching motors with the appropriate propellers and other components is crucial for achieving optimal performance and flight characteristics.
accelerator | pulling force(g) | voltage (V) | current (A) | speed | power(W) | force efficiency (G/W) | motor temperature(C) | propeller | model |
50% | 642.34 | 24.14 | 7.47 | 18862 | 180.43 | 3.56 | 94 | T5146 | KV1950 |
55% | 749.88 | 24.11 | 9.48 | 20210 | 1228.63 | 3.28 | 94 | T5146 | KV1950 |
60% | 866.36 | 24.07 | 11.37 | 21604 | 280.90 | 3.08 | 94 | T5146 | KV1950 |
65% | 990.68 | 24.02 | 14.38 | 23089 | 345.47 | 2.87 | 94 | T5146 | KV1950 |
70% | 1100.91 | 23.97 | 17.31 | 242.96 | 415.01 | 2.65 | 94 | T5146 | KV1950 |
75% | 1181.98 | 23.92 | 19.87 | 25349 | 475.31 | 2.49 | 94 | T5146 | KV1950 |
80% | 1584.96 | 23.88 | 22.97 | 26221 | 548.34 | 2.34 | 94 | T5146 | KV1950 |
85% | 1380.92 | 23.82 | 26.09 | 27150 | 621.47 | 2.22 | 94 | T5146 | KV1950 |
90% | 1476.19 | 23.77 | 29.32 | 27950 | 696.89 | 2.12 | 94 | T5146 | KV1950 |
95% | 1511.67 | 23.71 | 32.56 | 28781 | 771.87 | 1.96 | 94 | T5146 | KV1950 |
100% | 1767.92 | 23.57 | 40.48 | 31359 | 954.28 | 1.85 | 94 | T5146 | KV1950 |
DJ® drone technologies of FPV drone brushless motors, drone propeller, quadcopter brushless motors, hexacopter propeller |
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frame | propellers | motors | motor KV | Lipo battery | |||||
---|---|---|---|---|---|---|---|---|---|
120mm~mini | 3 inch | 1104 ~ 1105 | 4000KV | 80~800mAh 1s/2s | |||||
150mm~160mm | 3-4 inch | 1306~1407 | 3000KV+ | 600-900mAh 2s/3s | |||||
180mm | 4 inch | 1806~2204 | 2600KV+ | 1000~1300mAh 3s/4s | |||||
210mm | 5 inch | 2204~2206 | 2300KV~2700KV | 1000-1300mAh 3s/4s | |||||
250mm | 6 inch | 2204~2208 | 2000KV~2300KV | 1300-1800mAh 3s/4s | |||||
330mm~350mm | 7, 8 inch | 2208~212 | 1500KV~1600KV | 2200-3200mah 3s/4s | |||||
450mm~500mm | 9,10,11 inch | 2212 – 2216 | 800KV~1000KV | 3300mAh 4s or more | |||||
combination of FPV drone frame, FPV drone propeller blades, FPV drone propellers, FPV drone motors, FPV drone Lipo battery, |