hackpoint/plugin/fritzing/fritzing-parts/obsolete/Adafruit_HUZZAH_ESP8266_Breakout_c78691c8aa42e23bb46af61759de99b8_1.fzp

<?xml version='1.0' encoding='UTF-8'?>
<module fritzingVersion="0.7.12b.02.13.6882" referenceFile="ADI_AD8210.AnalogDevices_AD8210YRZ.fzp" moduleId="Adafruit_HUZZAH_ESP8266_Breakout_c78691c8aa42e23bb46af61759de99b8_1">
 <version replacedby="huzzah_esp8266">4</version>
 <date>Mo Jul 6 2015</date>
 <author>pkurtans</author>
 <description>&lt;!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0//EN" "http://www.w3.org/TR/REC-html40/strict.dtd">
&lt;html>&lt;head>&lt;meta name="qrichtext" content="1" />&lt;style type="text/css">
p, li { white-space: pre-wrap; }
&lt;/style>&lt;/head>&lt;body style=" font-family:'MS Shell Dlg 2'; font-size:8.25pt; font-weight:400; font-style:normal;">
&lt;p style=" margin-top:12px; margin-bottom:12px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">The HUZZAH ESP8266 breakout is what we designed to make working with this chip super easy and a lot of fun. We took a certified module with an onboard antenna, and plenty of pins, and soldered it onto our designed breakout PCBs. We added in:&lt;/p>
&lt;ul style="margin-top: 0px; margin-bottom: 0px; margin-left: 0px; margin-right: 0px; -qt-list-indent: 1;">&lt;li style=" margin-top:12px; margin-bottom:0px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">Reset button,&lt;/li>
&lt;li style=" margin-top:0px; margin-bottom:0px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">User button that can also put the chip into bootloading mode,&lt;/li>
&lt;li style=" margin-top:0px; margin-bottom:0px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">Red LED you can blink&lt;/li>
&lt;li style=" margin-top:0px; margin-bottom:0px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">Level shifting on the UART and reset pin&lt;/li>
&lt;li style=" margin-top:0px; margin-bottom:0px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">3.3V out, 500mA regulator (you'll want to assume the ESP8266 can draw up to 250mA so budget accordingly)&lt;/li>
&lt;li style=" margin-top:0px; margin-bottom:12px; margin-left:0px; margin-right:0px; -qt-block-indent:0; text-indent:0px;">Two diode-protected power inputs (one for a USB cable, another for a battery) &lt;/li>&lt;/ul>&lt;/body>&lt;/html></description>
 <title>Adafruit HUZZAH ESP8266 Breakout</title>
 <url>https://learn.adafruit.com/adafruit-huzzah-esp8266-breakout/overview</url>
 <spice>
  <line>X{instanceTitle} {net connector1} {net connector2} {net connector3} {net connector4} {net connector5} {net connector6} {net connector7} {net connector8} AD8210</line>
 </spice>
 <tags>
  <tag>ESP-12</tag>
  <tag>Breakout</tag>
 </tags>
 <properties>
  <property name="variant">A</property>
  <property name="family">//obsolete//Breakout  Boards</property>
  <property name="layer"></property>
  <property name="part number">2471</property>
 </properties>
 <label>Adafruit HUZZAH ESP8266 Breakout</label>
 <views>
  <breadboardView>
   <layers image="breadboard/Adafruit_HUZZAH_ESP8266_Breakout_95c6846f13ba6c7193ffaf3a29c165c3_5_breadboard.svg">
    <layer layerId="breadboard"/>
   </layers>
  </breadboardView>
  <schematicView>
   <layers image="schematic/Adafruit_HUZZAH_ESP8266_Breakout_95c6846f13ba6c7193ffaf3a29c165c3_5_schematic.svg">
    <layer layerId="schematic"/>
   </layers>
  </schematicView>
  <pcbView>
   <layers image="pcb/Adafruit_HUZZAH_ESP8266_Breakout_95c6846f13ba6c7193ffaf3a29c165c3_5_pcb.svg">
    <layer layerId="copper1"/>
    <layer layerId="silkscreen"/>
    <layer layerId="copper0"/>
   </layers>
  </pcbView>
  <iconView>
   <layers image="icon/Adafruit_HUZZAH_ESP8266_Breakout_95c6846f13ba6c7193ffaf3a29c165c3_5_icon.svg">
    <layer layerId="icon"/>
   </layers>
  </iconView>
 </views>
 <connectors>
  <connector type="male" id="connector1" name="GND">
   <description>GND</description>
   <views>
    <breadboardView>
     <p svgId="connector1pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector1pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector1pin" layer="copper0"/>
     <p svgId="connector1pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector2" name="VBat">
   <description>Power input 3.4--16V</description>
   <views>
    <breadboardView>
     <p svgId="connector2pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector2pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector2pin" layer="copper0"/>
     <p svgId="connector2pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector3" name="V+">
   <description>Power input 3.4--16V</description>
   <views>
    <breadboardView>
     <p svgId="connector3pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector3pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector3pin" layer="copper0"/>
     <p svgId="connector3pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector4" name="#13">
   <description>GPIO 13</description>
   <views>
    <breadboardView>
     <p svgId="connector4pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector4pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector4pin" layer="copper0"/>
     <p svgId="connector4pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector5" name="#12">
   <description>GPIO 12</description>
   <views>
    <breadboardView>
     <p svgId="connector5pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector5pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector5pin" layer="copper0"/>
     <p svgId="connector5pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector6" name="#14">
   <description>GPIO 14</description>
   <views>
    <breadboardView>
     <p svgId="connector6pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector6pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector6pin" layer="copper0"/>
     <p svgId="connector6pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector7" name="#16">
   <description>GPIO 16</description>
   <views>
    <breadboardView>
     <p svgId="connector7pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector7pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector7pin" layer="copper0"/>
     <p svgId="connector7pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector8" name="EN">
   <description>This is the enable pin for the ESP8266, pulled high by default. When pulled down to ground momentarily it will reset the ESP8266 system.</description>
   <views>
    <breadboardView>
     <p svgId="connector8pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector8pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector8pin" layer="copper0"/>
     <p svgId="connector8pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector9" name="A">
   <description>Analog input pin, max 1.8V</description>
   <views>
    <breadboardView>
     <p svgId="connector9pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector9pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector9pin" layer="copper0"/>
     <p svgId="connector9pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector10" name="RST">
   <description>this is the reset pin for the ESP8266, pulled high by default. When pulled down to ground momentarily it will reset the ESP8266 system</description>
   <views>
    <breadboardView>
     <p svgId="connector10pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector10pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector10pin" layer="copper0"/>
     <p svgId="connector10pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector11" name="TX">
   <description>The TX pin is the output from the module and is 3.3V logic</description>
   <views>
    <breadboardView>
     <p svgId="connector11pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector11pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector11pin" layer="copper0"/>
     <p svgId="connector11pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector12" name="RX">
   <description>The RX pin is the input into the module and is 5V compliant</description>
   <views>
    <breadboardView>
     <p svgId="connector12pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector12pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector12pin" layer="copper0"/>
     <p svgId="connector12pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector13" name="#5">
   <description>GPIO 5</description>
   <views>
    <breadboardView>
     <p svgId="connector13pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector13pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector13pin" layer="copper0"/>
     <p svgId="connector13pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector14" name="#4">
   <description>GPIO 4</description>
   <views>
    <breadboardView>
     <p svgId="connector14pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector14pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector14pin" layer="copper0"/>
     <p svgId="connector14pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector15" name="#0">
   <description>GPIO 0</description>
   <views>
    <breadboardView>
     <p svgId="connector15pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector15pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector15pin" layer="copper0"/>
     <p svgId="connector15pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector16" name="#2">
   <description>GPIO 2</description>
   <views>
    <breadboardView>
     <p svgId="connector16pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector16pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector16pin" layer="copper0"/>
     <p svgId="connector16pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector17" name="#15">
   <description>GPIO 15</description>
   <views>
    <breadboardView>
     <p svgId="connector17pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector17pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector17pin" layer="copper0"/>
     <p svgId="connector17pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector18" name="3V">
   <description>3.3V output from the regulator</description>
   <views>
    <breadboardView>
     <p svgId="connector18pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector18pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector18pin" layer="copper0"/>
     <p svgId="connector18pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector19" name="LDO">
   <description>Enable pin for the regulator. By default its pulled high, when connected to ground it will turn off the 3.3V regulator.</description>
   <views>
    <breadboardView>
     <p svgId="connector19pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector19pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector19pin" layer="copper0"/>
     <p svgId="connector19pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="male" id="connector20" name="GND">
   <description>GND</description>
   <views>
    <breadboardView>
     <p svgId="connector20pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector20pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector20pin" layer="copper0"/>
     <p svgId="connector20pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="pad" id="connector21" name="GND">
   <description>GND</description>
   <views>
    <breadboardView>
     <p svgId="connector21pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector21pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector21pin" layer="copper0"/>
     <p svgId="connector21pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="pad" id="connector22" name="V+">
   <description>Power input 3.4--16V</description>
   <views>
    <breadboardView>
     <p svgId="connector22pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector22pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector22pin" layer="copper0"/>
     <p svgId="connector22pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="pad" id="connector23" name="RX">
   <description>The RX pin is the input into the module and is 5V compliant</description>
   <views>
    <breadboardView>
     <p svgId="connector23pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector23pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector23pin" layer="copper0"/>
     <p svgId="connector23pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
  <connector type="pad" id="connector24" name="TX">
   <description>The TX pin is the output from the module and is 3.3V logic</description>
   <views>
    <breadboardView>
     <p svgId="connector24pin" layer="breadboard"/>
    </breadboardView>
    <schematicView>
     <p svgId="connector24pin" layer="schematic"/>
    </schematicView>
    <pcbView>
     <p svgId="connector24pin" layer="copper0"/>
     <p svgId="connector24pin" layer="copper1"/>
    </pcbView>
   </views>
  </connector>
 </connectors>
 <buses>
  <bus id="internal1">
   <nodeMember connectorId="connector1"/>
   <nodeMember connectorId="connector21"/>
   <nodeMember connectorId="connector20"/>
  </bus>
  <bus id="internal2">
   <nodeMember connectorId="connector23"/>
   <nodeMember connectorId="connector12"/>
  </bus>
  <bus id="internal3">
   <nodeMember connectorId="connector24"/>
   <nodeMember connectorId="connector11"/>
  </bus>
 </buses>
</module>