Difference between revisions of "Motors"

 
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A motor is an electromechanical device that generates rotational energy when an electric voltage is applied to it.
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A motor is an electromechanical device that converts electrical energy to mechanical energy.
  
== Motor Gearing ==
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==Motor Gearing==
An electric DC motor spins very fast, often in the range of 4000-6000 RPM and has very little torque. This isn't very useful for a robot. Most robots move at relatively slow speeds and need high torque. Luckily, we can use a gearbox to slow the motor down and generate more torque. The more the motor is geared down, the more torque it will have. We use brushed DC <sdr category id=7>gear motors</sdr category> meaning that they come with a gearbox already attached. We categorize the motors first by their size and then we specify the further by their speed.
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[[File:TD-044-078 ig42 motor encoders.jpg|thumb|250x250px|<sdr item id=1036>IG42 Gear Motor with Encoders</sdr item>]]
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An electric DC motor spins very fast, often in the range of 4000-6000 RPM and has very little torque. This isn't very useful for a robot. As an example, if the motor output speed were 4000 RPM and it was turning a 10" tire, the robot would go 119 mph. In reality though, the motor would likely not have enough torque to turn the wheel.
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Luckily, we can use a gearbox to slow the motor down and generate more torque. The more the motor is geared down, the more torque it will have. There are many different types of motors out there but, for the most part, we use brushed DC <sdr category id=7>gear motors</sdr category>. They come with a gearbox already attached so that it has enough torque and runs at a more appropriate speed for a robot. We categorize the motors first by their size and then we specify the further by their speed.
  
 
Your car uses a transmission and starts in 1st gear (most reduced) so you have the low-end torque to start moving. Then, as you speed up, you change gears to get more speed. Most robots, however, cannot change gears. The maximum speed and torque are fixed. You have to find the right balance so you have enough torque to get started from zero speed, but then enough top-end speed. If you gear it down too much you will have plenty of power, but never get any speed. If it's not geared enough it will probably be plenty fast but it will have trouble accelerating, driving up hills, and turning. You need to find a balance where it works well for both. The big electric motors will help because they will muscle through it if you don't have it geared just right, but if it works too hard you will be drawing a ton of current and burning up your batteries!
 
Your car uses a transmission and starts in 1st gear (most reduced) so you have the low-end torque to start moving. Then, as you speed up, you change gears to get more speed. Most robots, however, cannot change gears. The maximum speed and torque are fixed. You have to find the right balance so you have enough torque to get started from zero speed, but then enough top-end speed. If you gear it down too much you will have plenty of power, but never get any speed. If it's not geared enough it will probably be plenty fast but it will have trouble accelerating, driving up hills, and turning. You need to find a balance where it works well for both. The big electric motors will help because they will muscle through it if you don't have it geared just right, but if it works too hard you will be drawing a ton of current and burning up your batteries!
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*<sdr category id=60> Servos</sdr category> - Very small robots < 5 lbs
 
*<sdr category id=60> Servos</sdr category> - Very small robots < 5 lbs
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*<sdr category id=123> Micro Metal Gear Motors</sdr category> - Very small robots < 5 lbs
 
*<sdr category id=76> 32mm Gear Motors</sdr category> - Small to medium robots 5-35 lbs
 
*<sdr category id=76> 32mm Gear Motors</sdr category> - Small to medium robots 5-35 lbs
 
*<sdr category id=77> 42mm Gear Motors</sdr category> - Small to medium-large robots 5-50 lbs
 
*<sdr category id=77> 42mm Gear Motors</sdr category> - Small to medium-large robots 5-50 lbs
 
*<sdr category id=78> 52mm Gear Motors</sdr category> - Medium to large robots 25-150 lbs
 
*<sdr category id=78> 52mm Gear Motors</sdr category> - Medium to large robots 25-150 lbs
 
*<sdr category id=84> 90mm Gear Motors</sdr category> - Large robots up to 250 lbs
 
*<sdr category id=84> 90mm Gear Motors</sdr category> - Large robots up to 250 lbs
*<sdr category id=123> Micro Metal Gear Motors</sdr category> - Very small robots < 5 lbs
 
 
*<sdr category id=131> Wheelchair Motors</sdr category> - Large robots up to 250 lbs
 
*<sdr category id=131> Wheelchair Motors</sdr category> - Large robots up to 250 lbs
  

Latest revision as of 19:59, 19 April 2021

A motor is an electromechanical device that converts electrical energy to mechanical energy.

Motor Gearing

An electric DC motor spins very fast, often in the range of 4000-6000 RPM and has very little torque. This isn't very useful for a robot. As an example, if the motor output speed were 4000 RPM and it was turning a 10" tire, the robot would go 119 mph. In reality though, the motor would likely not have enough torque to turn the wheel.

Luckily, we can use a gearbox to slow the motor down and generate more torque. The more the motor is geared down, the more torque it will have. There are many different types of motors out there but, for the most part, we use brushed DC gear motors. They come with a gearbox already attached so that it has enough torque and runs at a more appropriate speed for a robot. We categorize the motors first by their size and then we specify the further by their speed.

Your car uses a transmission and starts in 1st gear (most reduced) so you have the low-end torque to start moving. Then, as you speed up, you change gears to get more speed. Most robots, however, cannot change gears. The maximum speed and torque are fixed. You have to find the right balance so you have enough torque to get started from zero speed, but then enough top-end speed. If you gear it down too much you will have plenty of power, but never get any speed. If it's not geared enough it will probably be plenty fast but it will have trouble accelerating, driving up hills, and turning. You need to find a balance where it works well for both. The big electric motors will help because they will muscle through it if you don't have it geared just right, but if it works too hard you will be drawing a ton of current and burning up your batteries!

Available Motors