Difference between revisions of "Servos"
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| − | Combat robots use servomotors as actuators, positioning devices, and sometimes as drive motors. These servos are the same type used in [https://en.wikipedia.org/wiki/Servo_(radio_control) remote-controlled devices] such as model aircraft flight control surfaces, steering for boats and cars, as well as other hobbies. Most common radio-control receivers have built-in connections for several servos, allowing them to be | + | Combat robots use servomotors as actuators, positioning devices, and sometimes as drive motors. These servos are the same type used in [https://en.wikipedia.org/wiki/Servo_(radio_control) remote-controlled devices] such as model aircraft flight control surfaces, steering for boats and cars, as well as other hobbies. Most common radio-control receivers have built-in connections for several servos, allowing them to be remotely operated by moving the controls on the transmitter with very little setup required. |
These devices take a pulsed electrical signal (usually PWM, or [https://en.wikipedia.org/wiki/Pulse-width_modulation Pulse-width modulation]), and respond by moving a lever, slide, or shaft to a specific position. This motion is usually over a range of rotation such as 90° or 180°. This motion can be used to operate flippers, lifters, self-righting mechanisms, and other features of the bot. | These devices take a pulsed electrical signal (usually PWM, or [https://en.wikipedia.org/wiki/Pulse-width_modulation Pulse-width modulation]), and respond by moving a lever, slide, or shaft to a specific position. This motion is usually over a range of rotation such as 90° or 180°. This motion can be used to operate flippers, lifters, self-righting mechanisms, and other features of the bot. | ||
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*'''Weight:''' A very durable servo with metal gears may be far too heavy for a small bot, but one with plastic gears may break quickly when the bot is struck or dropped. | *'''Weight:''' A very durable servo with metal gears may be far too heavy for a small bot, but one with plastic gears may break quickly when the bot is struck or dropped. | ||
*'''Voltage:''' Many small hobby servos run on a limited range of voltages, often 4.8~6.0 volts. If your servo can't run directly from your bot's battery voltage, the receiver might need a battery eliminator circuit (BEC) module that generates enough power to run both the receiver and the servo(s). | *'''Voltage:''' Many small hobby servos run on a limited range of voltages, often 4.8~6.0 volts. If your servo can't run directly from your bot's battery voltage, the receiver might need a battery eliminator circuit (BEC) module that generates enough power to run both the receiver and the servo(s). | ||
| − | *'''Torque:''' The servo needs to have enough strength to accomplish its task in the bot. | + | *'''Torque:''' Usually stated in kg-cm or ounce-inches. The servo needs to have enough strength to accomplish its task in the bot. |
*'''Cost:''' High quality servos cost more. | *'''Cost:''' High quality servos cost more. | ||
| − | In addition, some servos have a | + | In addition, here are some other factors you should consider. |
| + | *Dimensions and mounting method | ||
| + | *Rotational speed and response time | ||
| + | *Signal required (some servos may have more features with a digital signal) | ||
| + | *Availability (you will want to have spares on hand in case of damage) | ||
| + | *Continuous rotation ability (be careful not to order one of these if you need only a short range of motion) | ||
| + | |||
| + | [https://servodatabase.com/ ServoDatabase.com] lists specifications for thousands of models. | ||
=How to connect and use= | =How to connect and use= | ||
Revision as of 03:59, 25 May 2021
Combat robots use servomotors as actuators, positioning devices, and sometimes as drive motors. These servos are the same type used in remote-controlled devices such as model aircraft flight control surfaces, steering for boats and cars, as well as other hobbies. Most common radio-control receivers have built-in connections for several servos, allowing them to be remotely operated by moving the controls on the transmitter with very little setup required.
These devices take a pulsed electrical signal (usually PWM, or Pulse-width modulation), and respond by moving a lever, slide, or shaft to a specific position. This motion is usually over a range of rotation such as 90° or 180°. This motion can be used to operate flippers, lifters, self-righting mechanisms, and other features of the bot.
How to select a servo
In combat robotics, limiting factors for servos are weight, voltage, torque, and cost. For each servo you plan to use, obtain a specification sheet to find out whether it is suitable for the purpose.
- Weight: A very durable servo with metal gears may be far too heavy for a small bot, but one with plastic gears may break quickly when the bot is struck or dropped.
- Voltage: Many small hobby servos run on a limited range of voltages, often 4.8~6.0 volts. If your servo can't run directly from your bot's battery voltage, the receiver might need a battery eliminator circuit (BEC) module that generates enough power to run both the receiver and the servo(s).
- Torque: Usually stated in kg-cm or ounce-inches. The servo needs to have enough strength to accomplish its task in the bot.
- Cost: High quality servos cost more.
In addition, here are some other factors you should consider.
- Dimensions and mounting method
- Rotational speed and response time
- Signal required (some servos may have more features with a digital signal)
- Availability (you will want to have spares on hand in case of damage)
- Continuous rotation ability (be careful not to order one of these if you need only a short range of motion)
ServoDatabase.com lists specifications for thousands of models.
How to connect and use
Nearly all servos have a common type of 3-wire connector, although the wire colors vary:
- Ground wire – Black (or Brown)
- DC power wire – Red (or Orange)
- Signal wire – White (or Yellow)