Introduction summary of how to Pick an RC Brushless Motor, ESC, LiPo
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This is a very simplistic introduction to what is known as a very challenging task. These are the basic steps that take place to select your motor, ESC and battery.
Selecting the Brushless motor, ESC, and LiPo can be made simpler by following these steps.
1. Understand the RC Application you wish to power by researching the required power levels to achieve a desired performance.
2. Select a matching battery voltage that will power your application.
3. Match a motor KV to your application by working out the total amount of RPM.
4. Select the Size of motor by understanding the amount of power output in watts your system requires in order to operate your application.
5. Select the battery capacity and C rating to match the amount of current that will be pulled by the motor.
6. Size your ESC to match the continuous current rating + overhead that will keep your system safe.
7. Load your power system and measure the amount of power drawn. If you are drawing more power than what your system can handle, reduce load. If you are drawing less power, you may increase the load. Increasing load can be done in 2 ways, either increasing the pitch of the propeller or the diameter. On a car, increasing load can be done by changing the overall gear ratio.
This is how we are able to select a reliable power system. Give it a try. If you are ever unsure, check out the forums and ask for help.
#BrushlessPower #BrushlessMotor #RCexplained #LiPoBattery #BrushlessESC #ESC
Видео Introduction summary of how to Pick an RC Brushless Motor, ESC, LiPo канала RCexplained
This is a very simplistic introduction to what is known as a very challenging task. These are the basic steps that take place to select your motor, ESC and battery.
Selecting the Brushless motor, ESC, and LiPo can be made simpler by following these steps.
1. Understand the RC Application you wish to power by researching the required power levels to achieve a desired performance.
2. Select a matching battery voltage that will power your application.
3. Match a motor KV to your application by working out the total amount of RPM.
4. Select the Size of motor by understanding the amount of power output in watts your system requires in order to operate your application.
5. Select the battery capacity and C rating to match the amount of current that will be pulled by the motor.
6. Size your ESC to match the continuous current rating + overhead that will keep your system safe.
7. Load your power system and measure the amount of power drawn. If you are drawing more power than what your system can handle, reduce load. If you are drawing less power, you may increase the load. Increasing load can be done in 2 ways, either increasing the pitch of the propeller or the diameter. On a car, increasing load can be done by changing the overall gear ratio.
This is how we are able to select a reliable power system. Give it a try. If you are ever unsure, check out the forums and ask for help.
#BrushlessPower #BrushlessMotor #RCexplained #LiPoBattery #BrushlessESC #ESC
Видео Introduction summary of how to Pick an RC Brushless Motor, ESC, LiPo канала RCexplained
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