Overview
Even though Arduino Education kits are jam-packed with everything you need, we know that mislaying parts in the excitement of getting hands-on in a classroom can sometimes happen.
In the Arduino Replacements Pack, you’ll find all the common electronics parts two students may need to complete their projects.
This pack has replacement parts for the Arduino Starter Kit Classroom Pack, Arduino Student Kit, Arduino Education Starter Kit, Arduino CTC 101 and ARDUINO CTC GO! - CORE MODULE.
The pack contains a total of 183 replacement parts, including a breadboard, jump wires, LEDs, resistors, transistors, sensors, and more. (It doesn’t include motors, as you’ll find they’re not lost as often! But if you do need a new motor, board, or USB cable, you can find them all in our online store.)
Note that for larger products such as CTC GO!, you may need more than one pack of replacement parts.
Tech specs
The Arduino Replacement Pack includes:
- 1 Breadboard Assembly
- 10 Jumper Wires
- 5 Red LEDs
- 5 Green LEDs
- 5 Yellow LEDs
- 10 220Ω Resistors
- 5 680Ω Resistors
- 5 560Ω Resistors
- 5 470Ω Resistors
- 5 1.2 KΩ Resistors
- 5 10 KΩ Resistors
- 5 1 KΩ Resistors
- 5 4.7 KΩ Resistors
- 5 10 MΩ Resistors
- 5 1 MΩ Resistors
- 2 100 uF capacitor
- 2 Phototransistors
- 2 Piezos
- 5 Push Buttons
- 5 Potentiometers
- 5 Knobs for potentiometer
- 1 Battery Wire 9V - open lead
- 1 Zener diode
- 1 Temperature sensor
- 1 Optocoupler
- 1 Mosfet transistors
- 1 Tilt sensor
- 1 Steel ball 12 mm diameter
Resources for Safety and Products
Manufacturer Information
The production information includes the address and related details of the product manufacturer.
Arduino S.r.l.
Via Andrea Appiani, 25
Monza, MB, IT, 20900
https://www.arduino.cc/
Responsible Person in the EU
An EU-based economic operator who ensures the product's compliance with the required regulations.
Arduino S.r.l.
Via Andrea Appiani, 25
Monza, MB, IT, 20900
Phone: +39 0113157477
Email: support@arduino.cc
Get Inspired
If you’re interested in embedded machine learning (TinyML) on the Arduino Nano 33 BLE Sense, you’ll have found a ton of on-board sensors — digital microphone, accelerometer, gyro, magnetometer, light, proximity, temperature, humidity and color — but realized that for vision you need to attach an external camera. In this article, we will show you how to get image data from a low-cost VGA camera module. We’ll be using the Arduino_OVD767x library to make the software side of things simpler. Hardware setup To get started, you will need: Arduino Nano 33 BLE Sense with headersOV7670 CMOS VGA Camera Module 16x female to female jumper wiresA microUSB cable to connect to your Arduino You can of course get a board without headers and solder instead, if that's your preference. The one downside to this setup is that (in module form) there are a lot of jumpers to connect. It’s not hard but you need to take care to connect the right cables at either end. You can use tape to secure the wires once things are done, lest one comes loose. You need to connect the wires as follows: Software setup First, install the Arduino IDE or register for Arduino Create tools. Once you install and open your environment, the camera library is available in the library manager. Install the Arduino IDE or register for Arduino CreateTools > Manage Libraries and search for the OV767 libraryPress the Install button Now, we will use the example sketch to test the cables are connected correctly: Examples > Arduino_OV767X > CameraCaptureRawBytesUncomment (remove the //) from line 48 to display a test pattern Compile and upload to your board Your Arduino is now outputting raw image binary over serial. To view this as an image we’ve included a special application to view the image output from the camera using Processing. Processing is a simple programming environment that was created by graduate students at MIT Media Lab to make
