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- <?xml version='1.0' encoding='UTF-8'?>
- <module fritzingVersion='0.5.2b.02.18.4756' moduleId='LilyPad Coincell-Battery-v17'>
- <date>2013-05-25</date>
- <author>f.althaus</author>
- <author>SparkFun</author>
- <description> If you're looking for a simple way to add a battery to your LilyPad project, the LilyPad Coin Cell Battery Holder might do the trick. It's a simple board which holds a 20mm coin cell battery (such as a CR2032) and gives you 4 connection points (two positive and two negative) for sewing into your project.
- Note: The LilyPad Coin Cell Battery Holder is a design conceived by Felicia Williams of Boulder, Colorado. Also, a portion of this sale is given back to Dr. Leah Buechley for continued development and education of e-textiles. </description>
- <title>LilyPad Coin Cell Battery Holder</title>
- <url>http://www.sparkfun.com/products/10730</url>
- <tags>
- <tag>Lilypad</tag>
- <tag>Coin</tag>
- <tag>Cell</tag>
- <tag>Battery</tag>
- </tags>
- <properties>
- <property name='family'>microcontroller board (lilypad)</property>
- <property name='type'>Power Connector</property>
- <property name='Connector'>20mm Coin Cell Holder</property>
- </properties>
- <views>
- <breadboardView>
- <layers image='breadboard/LilyPad Coincell-Battery-v17_breadboard.svg'>
- <layer layerId='breadboardbreadboard'/>
- </layers>
- </breadboardView>
- <schematicView>
- <layers image='schematic/LilyPad Coincell-Battery-v17_schematic.svg'>
- <layer layerId='schematic'/>
- </layers>
- </schematicView>
- <pcbView>
- <layers image='pcb/LilyPad Coincell-Battery-v17_pcb.svg'>
- <layer layerId='copper1'/>
- <layer layerId='silkscreen'/>
- <layer layerId='copper0'/>
- </layers>
- </pcbView>
- <iconView>
- <layers image='breadboard/LilyPad Coincell-Battery-v17_breadboard.svg'>
- <layer layerId='icon'/>
- </layers>
- </iconView>
- </views>
- <connectors>
- <connector id='connector5' type='female' name='-'>
- <description>-</description><views>
- <breadboardView>
- <p layer='breadboardbreadboard' svgId='connector5pin'/></breadboardView>
- <schematicView>
- <p layer='schematic' svgId='connector5pin' terminalId='connector5terminal'/></schematicView>
- <pcbView>
- <p layer='copper0' svgId='connector5pad'/><p layer='copper1' svgId='connector5pad'/></pcbView>
- </views>
- </connector>
- <connector id='connector6' type='female' name='+'>
- <description>+</description><views>
- <breadboardView>
- <p layer='breadboardbreadboard' svgId='connector6pin'/></breadboardView>
- <schematicView>
- <p layer='schematic' svgId='connector6pin' terminalId='connector6terminal'/></schematicView>
- <pcbView>
- <p layer='copper0' svgId='connector6pad'/><p layer='copper1' svgId='connector6pad'/></pcbView>
- </views>
- </connector>
- <connector id='connector7' type='female' name='-'>
- <description>-</description><views>
- <breadboardView>
- <p layer='breadboardbreadboard' svgId='connector7pin'/></breadboardView>
- <schematicView>
- <p layer='schematic' svgId='connector7pin' terminalId='connector7terminal'/></schematicView>
- <pcbView>
- <p layer='copper0' svgId='connector7pad'/><p layer='copper1' svgId='connector7pad'/></pcbView>
- </views>
- </connector>
- <connector id='connector8' type='female' name='+'>
- <description>+</description><views>
- <breadboardView>
- <p layer='breadboardbreadboard' svgId='connector8pin'/></breadboardView>
- <schematicView>
- <p layer='schematic' svgId='connector8pin' terminalId='connector8terminal'/></schematicView>
- <pcbView>
- <p layer='copper0' svgId='connector8pad'/><p layer='copper1' svgId='connector8pad'/></pcbView>
- </views>
- </connector>
- </connectors>
- <buses>
- <bus id='-'>
- <nodeMember connectorId='connector5'/>
- <nodeMember connectorId='connector7'/>
- </bus>
- <bus id='+'>
- <nodeMember connectorId='connector6'/>
- <nodeMember connectorId='connector8'/>
- </bus>
- </buses>
- </module>
|
