Note to Users:

Enthusiastic about engaging in LilyPad? Or even it is Arduino that tickles your fancy? Both? Well, whatever it really is, the ProtoSnap LilyPad developing Board is a great device to focus on!

LilyPad ProtoSnap Developing Board

The ProtoSnap show is really a brand new option to prototype assembling your shed with out a breadboard. All things are wired together about the same bo…

LilyPad Lab Pack

The ProtoSnap LilyPad Development Board is really a good method to introduce and explore e-textiles. This LabPack includes everything y…

The ProtoSnap LilyPad Development Board features a conglomerate of a number of the most popular LilyPad panels. During the center with this mish-mash is our LilyPad Arduino Simple Board — a tiny, LilyPad type of the Arduino development that is popular platform. Utilizing the included FTDI Basic Breakout, you are able to program this board to work well with a entire mess of inputs and outputs:

Each one of these are generally wired as much as the LilyPad Arduino Simple. Then, as soon as you feel comfortable programming the Arduino to speak with all those panels, each piece can be broken by you down separately and implement them into the task nevertheless you see fit. But.

Needed Materials

To reprogram and charge the board, you’ll want to connect a mini-B USB cable. Make sure that it’s maybe maybe maybe not labeled ‘Power Only’ since these sort of cables will maybe not send the development information required by the LilyPad Arduino Simple Board. You can get one from SparkFun if you don’t have one:

SparkFun USB Mini-B Cable – 6 Base

This will be a USB 2.0 kind A to Mini-B 5-pin cable. You realize, the mini-B connector that always includes USB Hubs, Cameras, MP3…

Recommended Reading

If you aren’t knowledgeable about the next ideas, we advice looking at these tutorials before continuing.

What exactly is an Arduino?

Installing Arduino IDE

Arranging a Wearable Electronics Project

Hardware Overview and Features

The LilyPad Development Board features twelve LilyPad elements attached to a LilyPad Arduino Simple microcontroller by conductive pathways called traces. A majority of these traces are concealed, but for guide, each component in the ProtoSnap includes a nearby label printed in white silkscreen with all the amount of the LilyPad Arduino Simple sew tab it really is attached to.

If you have utilized an Arduino before, you are most likely acquainted with its pins — both electronic and analog. An Arduino has 14 electronic pins, and six or eight analog pins, most of which may be used to interface along with other elements; by way of example, those surrounding the Arduino in the ProtoSnap LilyPad developing Board.

It is important to understand which pin regarding the Arduino is linked with which component. If you ever desire a reminder of just exactly exactly what pin links as to the, whatever you really should do is look down.

A few of the sew track of the LilyPad Arduino Simple have actually unique functionality:

    An ‘A’ in the front for the quantity denotes a tab that will be an analog input. These sew tabs can read sensors that production a varying voltage like the light sensor constructed into the LilyPad Arduino Simple.

Talking about the image that is annotated of this LilyPad developing Board, a ‘

‘ icon as you’re watching quantity shows that tab supports PWM ( Pulse Width Modulation) production. These tabs can output an “analog” sign which you can use to alter the brightness on LEDs, etc.

Note: The “A” in the front of analog sew tab figures in your rule is optional. But, usually do not through the “

” expression for PWM outputs. It really go to tids website is just provided making it possible for you to definitely always check which pins can create PWM (analog) production and it is maybe perhaps perhaps not found in development.

But, should your eyes are not around reading that tiny text, listed here is a listing of the elements which can be attached to the LilyPad Arduino Simple:

Minds up! Whenever likely to snap the LilyPad elements aside for a project, only a few the components should be able to link as a result of design regarding the LilyPad Arduino Simple’s sew tabs. Particular elements are attached to the LilyPad Arduino Simple via little traces rather than the petals. The dining dining table above indicates which pins are currently attached to the sew tabs. Remember to prepare the task appropriately. You will must also redefine the pins in rule whenever reconnecting the elements towards the sew tabs.

For instance, if you choose to snap the components off and make use of the light sensor as opposed to a white LED, you need to reconnect the light sensor to a different analog pin (like A2-A5). By replacing the text of 1 associated with the elements, the sensor should be able to be managed because of the LilyPad Arduino Simple once again. Changing the LED on A3, will demand the rule to be modified when it comes to LilyPad light sensor on A3.

LilyPad Tri-Color LED

Inside an RGB LED are three smaller LEDs – a red, green, and blue. Each one of these LEDs is linked to a sew tab on the Tri-Color LED, plus they are all linked through a typical anode (good) pin. This configuration means that to light up the LED you need to ground the individual red, green, and blue LEDs instead of sending them power unlike other RGB LEDs.