Difference between revisions of "Hardware List"

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* [[Raspberry Pi]]
 
* [[Raspberry Pi]]
 
* [[BBC micro:bit]] using Scratch for teaching kids
 
* [[BBC micro:bit]] using Scratch for teaching kids
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* [[RP2040 MCU Board with 1.28inch Round LCD]]
  
 
== Actuators ==
 
== Actuators ==
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* [[SG90 Servo]] Micro Servo Motor, 3x in the [[LMUBox]]
 
* [[SG90 Servo]] Micro Servo Motor, 3x in the [[LMUBox]]
 
* [[Stepper Motor and ULN2003]] 28BYJ-48 ULN2003 5V Stepper Motor + ULN2003 Driver Board; 2x in the [[LMUBox]]
 
* [[Stepper Motor and ULN2003]] 28BYJ-48 ULN2003 5V Stepper Motor + ULN2003 Driver Board; 2x in the [[LMUBox]]
* [[IRF520 Module]] Power MOSFET switching module ('electronic relay')
+
* Power MOSFET switching module ([[electronic relay]], [[motor drive]]), e.g., [[IRF520 Module]], [[L298N]] dual module,
* Display, [[128 x 32 OLED Display]]
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* [[OLED LCD Display]], e.g., [[128 x 32 OLED Display]]
 
* ...
 
* ...
 
* [[Raspberry Pi]]
 
* [[Raspberry Pi]]

Latest revision as of 09:39, 6 July 2024

Sketching with hardware requires some hardware components. To create a functional prototype, we typically need a microcontroller, sensors, actuators, and components to link the parts together.

Only a small set of parts is required to get started and follow the course. You can do many of the exercises and tutorials with only a microcontroller (e.g., ESP32, ESP8266), a few LEDs, and some resistors. We recommend getting started, and once you like building things, then get a hardware kit.

In the following list, we marked the components in the LMU hardware box with LMUBox.

Microcontroller and Main Boards[edit]

Actuators[edit]

Sensors (and physical controllers)[edit]

Components[edit]

Tools and Connectors[edit]

Wearables / Smart Watches[edit]