<b>Linear Technology Devices</b><p>
http://www.linear.com<p>
<author>Created by librarian@cadsoft.de</author><br>
<author>Modified by szczepan@stud.fh-hannover.de</author>>Name>Value>NAME>VALUELow Loss PowerPath Controller<h1>Jicamarca Library</h1>
<p>
<i>Creado por Jorge Ortiz, 2013.09.13</i>
<h2>Descripción</h2>
<p> Esta librería de Eagle 5.9 incluye los diferentes dispositivos que se usan en todos los proyectos en Jicamarca, a excepción de los que estan incluídos por defecto en las librerias de instalación de Eagle.
<p> Uso: </p>
<p>Para añadir nuevos dispositivos, se puede abrir la librería en eagle y añadir los dispositivos, símbolo y/o paquetes correspondiente manualmente</p>
<p>Para añadir nuevos dispositivos desde otras librerías</p>
<ol>
<li>Bajarse la libraría correspondiente de Internet y abrirla en Eagle Control Panel</li>
<li>File > Export > Script (Creará un script con todas las partes de la librería)</li>
<li>Script > lbrdump.ulp > [Script Exportado en paso anterior] (Creará un script por cada parte)</li>
<li>Añadir la librería, el export, y las partes a SVN</li>
<li>Copiar solo las partes necesarias al directorio jocamarca_library/all_parts</li>
<li>Nota que algunos devices incluyen sus propios símbolos y multiples paquetes, añadir esos también aun si no se usan.</li>
<li>Desde Eagle Control Panal, abror la librería jicamarca.lbr</li>
<li>Hacer Run > Script > [Paquetes por importar]</li>
<li>Hacer Run > Script > [Símbolos por importar]</li>
<li>Hacer Run > Script > [Devices por importar]</li>
<li>Comprobar que los nuevos dispositivos estan en la librería</li>
<li>Hacer Rename al device para ponerle un prefix adecuado (IC_, CONN_, RES_, etc..) y guardar los cambios</li>
<li>Hacer un commit en SVN a la nueva versión actualizada de la librería</li>
</ol>
<p>
Scripts originales e instrucciones bajados de <a href="http://dangerousprototypes.com/docs/Dangerous_Prototypes_Cadsoft_Eagle_parts_library#Library_helper_scripts">Dangerous Prototypes</a>.<b>RESISTOR</b> chip<p>
Source: http://www.vishay.com/docs/20008/dcrcw.pdf>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b><p>>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>Package 4527</b><p>
Source: http://www.vishay.com/docs/31059/wsrhigh.pdf>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b><p>
Source: http://download.siliconexpert.com/pdfs/2005/02/24/Semi_Ap/2/VSH/Resistor/dcrcwfre.pdf>NAME>VALUESource: http://www.avxcorp.com/docs/catalogs/cx5r.pdf>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE>NAME>VALUE>NAME>VALUE<b>CAPACITOR</b><p>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE<b>TANTALUM CAPACITOR</b>>NAME>VALUE<b>TANTALUM CAPACITOR</b>>NAME>VALUE<b>TANTALUM CAPACITOR</b>>NAME>VALUE<b>TANTALUM CAPACITOR</b>>NAME>VALUE>NAME>VALUE>NAME>VALUE<b>Small Outline IC</b>>NAME>VALUE>NAME>VALUE+->NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME+>VALUE>NAME>VALUESPX3940AM3-L>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUETPS54622>NAME>VALUE>NAME>VALUE312>NAME>VALUETPS54618RTERLTC3625>NAME>VALUESGD<B>RESISTOR</B>, SMD, American symbol<B>POLARIZED CAPACITOR</B>, Tantalum, European symbol<B>CAPACITOR</B>, European symbol<B>INDUCTOR</B>, American symbol<b>Supply Symbols</b><p>
GND, VCC, 0V, +5V, -5V, etc.<p>
Please keep in mind, that these devices are necessary for the
automatic wiring of the supply signals.<p>
The pin name defined in the symbol is identical to the net which is to be wired automatically.<p>
In this library the device names are the same as the pin names of the symbols, therefore the correct signal names appear next to the supply symbols in the schematic.<p>
<author>Created by librarian@cadsoft.de</author>>VALUE<b>SUPPLY SYMBOL</b><b>Frames for Sheet and Layout</b>Date:>LAST_DATE_TIMESheet:>SHEETREV:TITLE:Document Number:>DRAWING_NAME<b>FRAME</b> B Size , 11 x 17 INCH, Landscape<p><b>AMP Connectors</b><p>
RJ45 Jack connectors<br>
Based on the previous libraris:
<ul>
<li>amp.lbr
<li>amp-j.lbr
<li>amp-mta.lbr
<li>amp-nlok.lbr
<li>amp-sim.lbr
<li>amp-micro-match.lbr
</ul>
Sources :
<ul>
<li>Catalog 82066 Revised 11-95
<li>Product Guide 296785 Rev. 8-99
<li>Product Guide CD-ROM 1999
<li>www.amp.com
</ul>
<author>Created by librarian@cadsoft.de</author><b>AMP MTA connector</b>>NAME>VALUE>NAME>VALUE1<b>AMP connector</b><h3>SparkFun Electronics' preferred foot prints</h3>
In this library you'll find connectors and sockets- basically anything that can be plugged into or onto.<br><br>
We've spent an enormous amount of time creating and checking these footprints and parts, but it is the end user's responsibility to ensure correctness and suitablity for a given componet or application. If you enjoy using this library, please buy one of our products at www.sparkfun.com.
<br><br>
<b>Licensing:</b> Creative Commons ShareAlike 4.0 International - https://creativecommons.org/licenses/by-sa/4.0/
<br><br>
You are welcome to use this library for commercial purposes. For attribution, we ask that when you begin to sell your device using our footprint, you email us with a link to the product being sold. We want bragging rights that we helped (in a very small part) to create your 8th world wonder. We would like the opportunity to feature your device on our homepage.>NAME>VALUE>NAME>VALUE2mm SMD side-entry connector. tDocu layer indicates the actual physical plastic housing. +/- indicate SparkFun standard batteries and wiring.>Name>Value+->Name>Value>NAME>VALUE>NAME>VALUEThis footprint was designed to help hold the alignment of a through-hole component (i.e. 6-pin header) while soldering it into place.
You may notice that each hole has been shifted either up or down by 0.005 of an inch from it's more standard position (which is a perfectly straight line).
This slight alteration caused the pins (the squares in the middle) to touch the edges of the holes. Because they are alternating, it causes a "brace"
to hold the component in place. 0.005 has proven to be the perfect amount of "off-center" position when using our standard breakaway headers.
Although looks a little odd when you look at the bare footprint, once you have a header in there, the alteration is very hard to notice. Also,
if you push a header all the way into place, it is covered up entirely on the bottom side. This idea of altering the position of holes to aid alignment
will be further integrated into the Sparkfun Library for other footprints. It can help hold any component with 3 or more connection pins.>NAME>VALUE>NAME>VALUE>NAME>VALUE>Name>Value+->NAME>VALUE>Name>Value+-<H3>JST-2-PTH-KIT</h3>
2-Pin JST, through-hole connector<br>
<br>
<b>Warning:</b> This is the KIT version of this package. This package has a smaller diameter top stop mask, which doesn't cover the diameter of the pad. This means only the bottom side of the pads' copper will be exposed. You'll only be able to solder to the bottom side.>Name>Value+->Name>Value+->NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUEThis footprint was designed to help hold the alignment of a through-hole component (i.e. 6-pin header) while soldering it into place.
You may notice that each hole has been shifted either up or down by 0.005 of an inch from it's more standard position (which is a perfectly straight line).
This slight alteration caused the pins (the squares in the middle) to touch the edges of the holes. Because they are alternating, it causes a "brace"
to hold the component in place. 0.005 has proven to be the perfect amount of "off-center" position when using our standard breakaway headers.
Although looks a little odd when you look at the bare footprint, once you have a header in there, the alteration is very hard to notice. Also,
if you push a header all the way into place, it is covered up entirely on the bottom side. This idea of altering the position of holes to aid alignment
will be further integrated into the Sparkfun Library for other footprints. It can help hold any component with 3 or more connection pins.>NAME>VALUE>NAME>VALUE>NAME>VALUE>Name>Value+-SS>NAME>VALUE>NAME>VALUE>NAME>VALUE>Name>Value+-YB>VALUE>NAME>NAME>VALUEMOSIRESETSCKMISO+5GND>VALUE>NAMEStandard 2-pin 0.1" header. Use with <br>
- straight break away headers ( PRT-00116)<br>
- right angle break away headers (PRT-00553)<br>
- swiss pins (PRT-00743)<br>
- machine pins (PRT-00117)<br>
- female headers (PRT-00115)<br><br>
Molex polarized connector foot print use with: PRT-08233 with associated crimp pins and housings.<br><br>
2.54_SCREWTERM for use with PRT-10571.<br><br>
3.5mm Screw Terminal footprints for PRT-08084<br><br>
5mm Screw Terminal footprints for use with PRT-08433<b>AVR ISP 6 Pin</b>
This is the reduced ISP connector for AVR programming. Common on Arduino. This footprint will take up less PCB space and can be used with a 10-pin to 6-pin adapter such as SKU: BOB-08508
<b>**Special note about "TEST_POINT" package.</b> The stop mask is on the top side, so if you want your programming test points to be on the bottom of your board, make sure to place this package on the bottom side of the board. This also ensure that the orientation to program from the bottom side will be correct.<b>Header 4</b>
Standard 4-pin 0.1" header. Use with straight break away headers (SKU : PRT-00116), right angle break away headers (PRT-00553), swiss pins (PRT-00743), machine pins (PRT-00117), and female headers (PRT-00115). Molex polarized connector foot print use with SKU : PRT-08231 with associated crimp pins and housings. 1MM SMD Version SKU: PRT-10208<b>Small Outline Package</b>>VALUE>NAME>NAME>VALUE<b>DS2438 Smart Battery Monitor SOIC-8</b><br>
The DS2438 Smart Battery Monitor provides several functions that are desirable to carry in a battery
pack: a means of tagging a battery pack with a unique serial number, a direct-to-digital temperature
sensor which eliminates the need for thermistors in the battery pack, an A/D converter which measures
the battery voltage and current, an integrated current accumulator which keeps a running total of all
current going into and out of the battery, an elapsed time meter, and 40 bytes of nonvolatile EEPROM
memory for storage of important parameters such as battery chemistry, battery capacity, charging
methodology and assembly date. Information is sent to/from the DS2438 over a 1-Wire interface, so that
only one wire (and ground) needs to be connected from a central microprocessor to a DS2438. This
means that battery packs need only have three output connectors: battery power, ground, and the 1-Wire
interface.
Because each DS2438 contains a unique silicon serial number, multiple DS2438s can exist on the same
1-Wire bus. This allows multiple battery packs to be charged or used in the system simultaneously.
Applications for the smart battery monitor include portable computers, cellular telephones, and handheld
instrumentation battery packs in which it is critical to monitor real-time battery performance. Used in
conjunction with a microcontroller in the host system, the DS2438 provides a complete smart battery
pack solution that is fully chemistry-independent. The customization for a particular battery chemistry
and capacity is realized in the code programmed into the microcontroller and DS2438 EEPROM, and
only a software revision is necessary should a designer wish to change battery pack chemistry<h3>ATMEL ATtiny 25 / 45 /48</h3>
<p><br /><b><u>Supplied Packages:</u></b><br />
<b>P</b> = PDIP 08 30mil<br />
<b>S</b> = SOIC 08 EIAJ 208mil<br />
<b>SS</b> = SOIC 08 JEDEC 150mil<br />
<b>X</b>> = TSSOP 08 4.4mm</p>
<p><u><b>Revisions / Changelog</b></u><br />
• 5.0.0 [EAGLE 5]<br />
</p>
<hr />
<author>
<p><u>Author:</u><br />
Dipl.-Ing. FH Rainer Bayer<br />
HHN Hochschule Heilbronn (Heilbronn University), <i>rainer.bayer@hs-heilbronn.de</i><br />
Ingenieurbüro ing-rb, <i>mail@ing-rb.de</i></p></author><b>DIL08 300mil</b>>NAME>VALUE<B>Small Outline Medium Plastic Gull Wing</B><p>
208-mil body>NAME>VALUE>NAME>VALUE<h3>ATMEL ATtiny 85</h3>
<p><br /><b><u>Packages:</u></b><br />
<b>P</b> = PDIP 08 30mil<br />
<b>S</b> = SOIC 08 EIAJ 208mil</p>
<p><b><u>Technologies</u></b><br />
Note: for complete ordering code (temp. range, finish, tape&reel etc.) see www.atmel.com<br />
• Supply Voltage:
<b>V</b> = (1.8…5.5)V | <b>[blank]</b> = (2.7…5.5)V<br />
• Speed:
<b>10</b> = 10 MHz | <b>20</b> = 20 MHz
</pre></p>
<hr />
<author>
<p><u>Author:</u><br />
Dipl.-Ing. FH Rainer Bayer<br />
HHN Hochschule Heilbronn (Heilbronn University), <i>rainer.bayer@hs-heilbronn.de</i><br />
Ingenieurbüro ing-rb, <i>mail@ing-rb.de</i></p></author>3.5-5.4v
1.24A3.3v
2A9-15v
0.08A12v
0.05A9-15v
0.63A5.4v
1.7ASupercapacitor charger +
source switchingExternal Power, Voltage Regulator & SuperCapacitor
Charger 10V to 13.5V external battery, regulated
3.3V,5V (LDO), 12V (aux)JRO-SAIG-PowerEngine-1.01.012V low power switching regulator. It
can be hardwired disable5.4V - 1.7A switching regulator
3.3V - 2A switching regulator5V LDO regulatorBattery charge level monitor with SPI outputPower Output
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