Difference between revisions of "Stompy"

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[[File:Stompy.jpg|right|300px|thumb|Stompy standing up]]
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{{infobox robot
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| name = Stompy
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| organization = [[K-Scale Labs]]
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| cost = USD 10,000
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}}
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Stompy is an open-source humanoid robot developed by [[K-Scale Labs]]. Here are some relevant links:
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* [[Stompy To-Do List]]
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* [[Stompy Build Guide]]
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* [[Gripper History]]
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= Hardware =
 
= Hardware =
  
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* Stepper motors
 
* Stepper motors
 
* Linear actuators
 
* Linear actuators
 
Many humanoid robots use Quasi-direct drive pancake motors based off the MIT Cheetah open-source actuators. These actuators and developed, manufactured, and sold by MyActuator.
 
 
The K-Scale Labs robot consists of:
 
* 10x MyActuator RMD-X4-H
 
* 6x MyActuator RMD-X6
 
* 9x MyActuator RMD-X8
 
* 4x MyActuator RMX-X-10
 
  
 
== Cameras ==
 
== Cameras ==
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== Wiring and Connectors ==
 
== Wiring and Connectors ==
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Proper wiring and connectors ensure reliable communication and power supply throughout the robot's components.
 
Proper wiring and connectors ensure reliable communication and power supply throughout the robot's components.
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* Types of wires (gauge, shielding)
 
* Types of wires (gauge, shielding)
 
* Connectors (pin types, waterproofing)
 
* Connectors (pin types, waterproofing)
 
* Cable management solutions
 
* Cable management solutions
  
[[Category:Robotics]]
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=== Conventions ===
[[Category:Hardware Components]]
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The images below show our pin convention for the CAN bus when using various connectors.
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<gallery>
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Kscale db9 can bus convention.jpg
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Kscale phoenix can bus convention.jpg
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</gallery>
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= Simulation =
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For the latest simulation artifacts, see [https://kscale.dev/ the website].
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= Artwork =
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Here's some art of Stompy!
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<gallery>
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Stompy 1.png
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Stompy 2.png
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Stompy 3.png
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Stompy 4.png
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KawaiiStompySticker2.png
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</gallery>
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[[Category:Robots]]
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[[Category:Open Source]]
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[[Category:K-Scale]]

Latest revision as of 21:42, 22 July 2024

Stompy standing up
Stompy
NameStompy
OrganizationK-Scale Labs
CostUSD 10,000

Stompy is an open-source humanoid robot developed by K-Scale Labs. Here are some relevant links:

Hardware[edit]

This page is dedicated to detailing the hardware selections for humanoid robots, including various components such as actuators, cameras, compute units, PCBs and modules, batteries, displays, microphones, speakers, as well as wiring and connectors.

Actuators[edit]

Actuators are the components that allow the robot to move and interact with its environment. They convert energy into mechanical motion. Common types used in humanoid robots include:

  • Servo motors
  • Stepper motors
  • Linear actuators

Cameras[edit]

Cameras are essential for visual processing, allowing the robot to perceive its surroundings. Important considerations include:

  • Resolution and frame rate
  • Field of view
  • Depth sensing capabilities (3D cameras)

Compute[edit]

The compute section handles the processing requirements of the robot. This includes:

  • Microprocessors and microcontrollers
  • Single-board computers like Raspberry Pi or Nvidia Jetson
  • Dedicated AI accelerators for machine learning tasks

PCB and Modules[edit]

Printed Circuit Boards (PCBs) and the modules on them are the backbone of the robot's electronic system.

  • Main control board
  • Power management modules
  • Sensor interfaces
  • Communication modules (Wi-Fi, Bluetooth)

Batteries[edit]

Batteries provide the necessary power to all robotic systems and are crucial for mobile autonomy. Selection factors include:

  • Battery type (Li-Ion, NiMH, Lead-Acid)
  • Capacity (measured in mAh or Ah)
  • Voltage and energy density
  • Safety features and durability

Displays[edit]

Displays are used in robots for displaying information such as system status, data, and interactive elements. Key features include:

  • Size variations ranging from small to large panels
  • Touchscreen capabilities
  • High resolution displays

Microphones[edit]

Microphones enable the robot to receive and process audio inputs, crucial for voice commands and auditory data. Factors to consider are:

  • Sensitivity and noise cancellation
  • Directionality (omnidirectional vs. unidirectional)
  • Integration with voice recognition software

Speakers[edit]

Speakers allow the robot to communicate audibly with its environment, essential for interaction and alerts. Considerations include:

  • Power output and sound quality
  • Size and mounting options
  • Compatibility with audio processing hardware

Wiring and Connectors[edit]

Proper wiring and connectors ensure reliable communication and power supply throughout the robot's components.

  • Types of wires (gauge, shielding)
  • Connectors (pin types, waterproofing)
  • Cable management solutions

Conventions[edit]

The images below show our pin convention for the CAN bus when using various connectors.

Simulation[edit]

For the latest simulation artifacts, see the website.

Artwork[edit]

Here's some art of Stompy!