<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>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUEHeader for OS4000-T>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>VALUENo outline in silkscreen>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>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>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>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>VALUEthru-hole vertical Female Headerused as an SMD part (placed horizontally, at board's edge)>NAME>VALUEPackage for 4UCONN part #19686<br />
Used on FTDI breakouts>Value>Name>NAME>VALUE>NAME>VALUE>NAME>VALUEBritish Telecom connector, used for Vernier sensors (analog)>NAMEBritish Telecom connector, used for Vernier sensors (digital)>Name>NAME>VALUEWorks with part #579 (https://www.sparkfun.com/products/579). Commonly used on GPS modules EM408, EM406 and GP-635T. Also compatible with cable 9123 (https://www.sparkfun.com/products/9123) and cable 574 (https://www.sparkfun.com/products/574).>Name>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUEJST crimp connector: 1mm pitch, top entry>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME13-pin single row .1" header<b>Header 5</b>
Standard 5-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-08230 with associated crimp pins and housings.<b>Header 6</b><br>
Standard 6-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-08094 with associated crimp pins and housings.<p>
NOTES ON THE VARIANTS LOCK and LOCK_LONGPADS...
This 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.<b>Header 8</b>
Standard 8-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).<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>VALUE<b>SUPPLY SYMBOL</b><b>SUPPLY SYMBOL</b><b>Resistors, Capacitors, Inductors</b><p>
Based on the previous libraries:
<ul>
<li>r.lbr
<li>cap.lbr
<li>cap-fe.lbr
<li>captant.lbr
<li>polcap.lbr
<li>ipc-smd.lbr
</ul>
All SMD packages are defined according to the IPC specifications and CECC<p>
<author>Created by librarian@cadsoft.de</author><p>
<p>
for Electrolyt Capacitors see also :<p>
www.bccomponents.com <p>
www.panasonic.com<p>
www.kemet.com<p>
http://www.secc.co.jp/pdf/os_e/2004/e_os_all.pdf <b>(SANYO)</b>
<p>
for trimmer refence see : <u>www.electrospec-inc.com/cross_references/trimpotcrossref.asp</u><p>
<table border=0 cellspacing=0 cellpadding=0 width="100%" cellpaddding=0>
<tr valign="top">
<! <td width="10"> </td>
<td width="90%">
<b><font color="#0000FF" size="4">TRIM-POT CROSS REFERENCE</font></b>
<P>
<TABLE BORDER=0 CELLSPACING=1 CELLPADDING=2>
<TR>
<TD COLSPAN=8>
<FONT SIZE=3 FACE=ARIAL><B>RECTANGULAR MULTI-TURN</B></FONT>
</TD>
</TR>
<TR>
<TD ALIGN=CENTER>
<B>
<FONT SIZE=3 FACE=ARIAL color="#FF0000">BOURNS</FONT>
</B>
</TD>
<TD ALIGN=CENTER>
<B>
<FONT SIZE=3 FACE=ARIAL color="#FF0000">BI TECH</FONT>
</B>
</TD>
<TD ALIGN=CENTER>
<B>
<FONT SIZE=3 FACE=ARIAL color="#FF0000">DALE-VISHAY</FONT>
</B>
</TD>
<TD ALIGN=CENTER>
<B>
<FONT SIZE=3 FACE=ARIAL color="#FF0000">PHILIPS/MEPCO</FONT>
</B>
</TD>
<TD ALIGN=CENTER>
<B>
<FONT SIZE=3 FACE=ARIAL color="#FF0000">MURATA</FONT>
</B>
</TD>
<TD ALIGN=CENTER>
<B>
<FONT SIZE=3 FACE=ARIAL color="#FF0000">PANASONIC</FONT>
</B>
</TD>
<TD ALIGN=CENTER>
<B>
<FONT SIZE=3 FACE=ARIAL color="#FF0000">SPECTROL</FONT>
</B>
</TD>
<TD ALIGN=CENTER>
<B>
<FONT SIZE=3 FACE=ARIAL color="#FF0000">MILSPEC</FONT>
</B>
</TD><TD> </TD>
</TR>
<TR>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3 >
3005P<BR>
3006P<BR>
3006W<BR>
3006Y<BR>
3009P<BR>
3009W<BR>
3009Y<BR>
3057J<BR>
3057L<BR>
3057P<BR>
3057Y<BR>
3059J<BR>
3059L<BR>
3059P<BR>
3059Y<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
89P<BR>
89W<BR>
89X<BR>
89PH<BR>
76P<BR>
89XH<BR>
78SLT<BR>
78L ALT<BR>
56P ALT<BR>
78P ALT<BR>
T8S<BR>
78L<BR>
56P<BR>
78P<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
T18/784<BR>
783<BR>
781<BR>
-<BR>
-<BR>
-<BR>
2199<BR>
1697/1897<BR>
1680/1880<BR>
2187<BR>
-<BR>
-<BR>
-<BR>
-<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
8035EKP/CT20/RJ-20P<BR>
-<BR>
RJ-20X<BR>
-<BR>
-<BR>
-<BR>
1211L<BR>
8012EKQ ALT<BR>
8012EKR ALT<BR>
1211P<BR>
8012EKJ<BR>
8012EKL<BR>
8012EKQ<BR>
8012EKR<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
2101P<BR>
2101W<BR>
2101Y<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
2102L<BR>
2102S<BR>
2102Y<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
EVMCOG<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
43P<BR>
43W<BR>
43Y<BR>
-<BR>
-<BR>
-<BR>
-<BR>
40L<BR>
40P<BR>
40Y<BR>
70Y-T602<BR>
70L<BR>
70P<BR>
70Y<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
RT/RTR12<BR>
RT/RTR12<BR>
RT/RTR12<BR>
-<BR>
RJ/RJR12<BR>
RJ/RJR12<BR>
RJ/RJR12<BR></FONT>
</TD>
</TR>
<TR>
<TD COLSPAN=8>
</TD>
</TR>
<TR>
<TD COLSPAN=8>
<FONT SIZE=4 FACE=ARIAL><B>SQUARE MULTI-TURN</B></FONT>
</TD>
</TR>
<TR>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>BOURN</B></FONT>
</TD>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>BI TECH</B></FONT>
</TD>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>DALE-VISHAY</B></FONT>
</TD>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>PHILIPS/MEPCO</B></FONT>
</TD>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>MURATA</B></FONT>
</TD>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>PANASONIC</B></FONT>
</TD>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>SPECTROL</B></FONT>
</TD>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>MILSPEC</B></FONT>
</TD>
</TR>
<TR>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
3250L<BR>
3250P<BR>
3250W<BR>
3250X<BR>
3252P<BR>
3252W<BR>
3252X<BR>
3260P<BR>
3260W<BR>
3260X<BR>
3262P<BR>
3262W<BR>
3262X<BR>
3266P<BR>
3266W<BR>
3266X<BR>
3290H<BR>
3290P<BR>
3290W<BR>
3292P<BR>
3292W<BR>
3292X<BR>
3296P<BR>
3296W<BR>
3296X<BR>
3296Y<BR>
3296Z<BR>
3299P<BR>
3299W<BR>
3299X<BR>
3299Y<BR>
3299Z<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
66P ALT<BR>
66W ALT<BR>
66X ALT<BR>
66P ALT<BR>
66W ALT<BR>
66X ALT<BR>
-<BR>
64W ALT<BR>
-<BR>
64P ALT<BR>
64W ALT<BR>
64X ALT<BR>
64P<BR>
64W<BR>
64X<BR>
66X ALT<BR>
66P ALT<BR>
66W ALT<BR>
66P<BR>
66W<BR>
66X<BR>
67P<BR>
67W<BR>
67X<BR>
67Y<BR>
67Z<BR>
68P<BR>
68W<BR>
68X<BR>
67Y ALT<BR>
67Z ALT<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
5050<BR>
5091<BR>
5080<BR>
5087<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
T63YB<BR>
T63XB<BR>
-<BR>
-<BR>
-<BR>
5887<BR>
5891<BR>
5880<BR>
-<BR>
-<BR>
-<BR>
T93Z<BR>
T93YA<BR>
T93XA<BR>
T93YB<BR>
T93XB<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
8026EKP<BR>
8026EKW<BR>
8026EKM<BR>
8026EKP<BR>
8026EKB<BR>
8026EKM<BR>
1309X<BR>
1309P<BR>
1309W<BR>
8024EKP<BR>
8024EKW<BR>
8024EKN<BR>
RJ-9P/CT9P<BR>
RJ-9W<BR>
RJ-9X<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
3103P<BR>
3103Y<BR>
3103Z<BR>
3103P<BR>
3103Y<BR>
3103Z<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
3105P/3106P<BR>
3105W/3106W<BR>
3105X/3106X<BR>
3105Y/3106Y<BR>
3105Z/3105Z<BR>
3102P<BR>
3102W<BR>
3102X<BR>
3102Y<BR>
3102Z<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
EVMCBG<BR>
EVMCCG<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
55-1-X<BR>
55-4-X<BR>
55-3-X<BR>
55-2-X<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
50-2-X<BR>
50-4-X<BR>
50-3-X<BR>
-<BR>
-<BR>
-<BR>
64P<BR>
64W<BR>
64X<BR>
64Y<BR>
64Z<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
RT/RTR22<BR>
RT/RTR22<BR>
RT/RTR22<BR>
RT/RTR22<BR>
RJ/RJR22<BR>
RJ/RJR22<BR>
RJ/RJR22<BR>
RT/RTR26<BR>
RT/RTR26<BR>
RT/RTR26<BR>
RJ/RJR26<BR>
RJ/RJR26<BR>
RJ/RJR26<BR>
RJ/RJR26<BR>
RJ/RJR26<BR>
RJ/RJR26<BR>
RT/RTR24<BR>
RT/RTR24<BR>
RT/RTR24<BR>
RJ/RJR24<BR>
RJ/RJR24<BR>
RJ/RJR24<BR>
RJ/RJR24<BR>
RJ/RJR24<BR>
RJ/RJR24<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR></FONT>
</TD>
</TR>
<TR>
<TD COLSPAN=8>
</TD>
</TR>
<TR>
<TD COLSPAN=8>
<FONT SIZE=4 FACE=ARIAL><B>SINGLE TURN</B></FONT>
</TD>
</TR>
<TR>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>BOURN</B></FONT>
</TD>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>BI TECH</B></FONT>
</TD>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>DALE-VISHAY</B></FONT>
</TD>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>PHILIPS/MEPCO</B></FONT>
</TD>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>MURATA</B></FONT>
</TD>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>PANASONIC</B></FONT>
</TD>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>SPECTROL</B></FONT>
</TD>
<TD ALIGN=CENTER>
<FONT SIZE=3 FACE=ARIAL><B>MILSPEC</B></FONT>
</TD>
</TR>
<TR>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
3323P<BR>
3323S<BR>
3323W<BR>
3329H<BR>
3329P<BR>
3329W<BR>
3339H<BR>
3339P<BR>
3339W<BR>
3352E<BR>
3352H<BR>
3352K<BR>
3352P<BR>
3352T<BR>
3352V<BR>
3352W<BR>
3362H<BR>
3362M<BR>
3362P<BR>
3362R<BR>
3362S<BR>
3362U<BR>
3362W<BR>
3362X<BR>
3386B<BR>
3386C<BR>
3386F<BR>
3386H<BR>
3386K<BR>
3386M<BR>
3386P<BR>
3386S<BR>
3386W<BR>
3386X<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
25P<BR>
25S<BR>
25RX<BR>
82P<BR>
82M<BR>
82PA<BR>
-<BR>
-<BR>
-<BR>
91E<BR>
91X<BR>
91T<BR>
91B<BR>
91A<BR>
91V<BR>
91W<BR>
25W<BR>
25V<BR>
25P<BR>
-<BR>
25S<BR>
25U<BR>
25RX<BR>
25X<BR>
72XW<BR>
72XL<BR>
72PM<BR>
72RX<BR>
-<BR>
72PX<BR>
72P<BR>
72RXW<BR>
72RXL<BR>
72X<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
-<BR>
-<BR>
T7YB<BR>
T7YA<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
TXD<BR>
TYA<BR>
TYP<BR>
-<BR>
TYD<BR>
TX<BR>
-<BR>
150SX<BR>
100SX<BR>
102T<BR>
101S<BR>
190T<BR>
150TX<BR>
101<BR>
-<BR>
-<BR>
101SX<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
ET6P<BR>
ET6S<BR>
ET6X<BR>
RJ-6W/8014EMW<BR>
RJ-6P/8014EMP<BR>
RJ-6X/8014EMX<BR>
TM7W<BR>
TM7P<BR>
TM7X<BR>
-<BR>
8017SMS<BR>
-<BR>
8017SMB<BR>
8017SMA<BR>
-<BR>
-<BR>
CT-6W<BR>
CT-6H<BR>
CT-6P<BR>
CT-6R<BR>
-<BR>
CT-6V<BR>
CT-6X<BR>
-<BR>
-<BR>
8038EKV<BR>
-<BR>
8038EKX<BR>
-<BR>
-<BR>
8038EKP<BR>
8038EKZ<BR>
8038EKW<BR>
-<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
-<BR>
-<BR>
3321H<BR>
3321P<BR>
3321N<BR>
1102H<BR>
1102P<BR>
1102T<BR>
RVA0911V304A<BR>
-<BR>
RVA0911H413A<BR>
RVG0707V100A<BR>
RVA0607V(H)306A<BR>
RVA1214H213A<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
3104B<BR>
3104C<BR>
3104F<BR>
3104H<BR>
-<BR>
3104M<BR>
3104P<BR>
3104S<BR>
3104W<BR>
3104X<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
EVMQ0G<BR>
EVMQIG<BR>
EVMQ3G<BR>
EVMS0G<BR>
EVMQ0G<BR>
EVMG0G<BR>
-<BR>
-<BR>
-<BR>
EVMK4GA00B<BR>
EVM30GA00B<BR>
EVMK0GA00B<BR>
EVM38GA00B<BR>
EVMB6<BR>
EVLQ0<BR>
-<BR>
EVMMSG<BR>
EVMMBG<BR>
EVMMAG<BR>
-<BR>
-<BR>
EVMMCS<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
EVMM1<BR>
-<BR>
-<BR>
EVMM0<BR>
-<BR>
-<BR>
EVMM3<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
-<BR>
-<BR>
62-3-1<BR>
62-1-2<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
67R<BR>
-<BR>
67P<BR>
-<BR>
-<BR>
-<BR>
-<BR>
67X<BR>
63V<BR>
63S<BR>
63M<BR>
-<BR>
-<BR>
63H<BR>
63P<BR>
-<BR>
-<BR>
63X<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
-<BR>
-<BR>
RJ/RJR50<BR>
RJ/RJR50<BR>
RJ/RJR50<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR></FONT>
</TD>
</TR>
</TABLE>
<P> <P>
<TABLE BORDER=0 CELLSPACING=1 CELLPADDING=3>
<TR>
<TD COLSPAN=7>
<FONT color="#0000FF" SIZE=4 FACE=ARIAL><B>SMD TRIM-POT CROSS REFERENCE</B></FONT>
<P>
<FONT SIZE=4 FACE=ARIAL><B>MULTI-TURN</B></FONT>
</TD>
</TR>
<TR>
<TD>
<FONT SIZE=3 FACE=ARIAL><B>BOURNS</B></FONT>
</TD>
<TD>
<FONT SIZE=3 FACE=ARIAL><B>BI TECH</B></FONT>
</TD>
<TD>
<FONT SIZE=3 FACE=ARIAL><B>DALE-VISHAY</B></FONT>
</TD>
<TD>
<FONT SIZE=3 FACE=ARIAL><B>PHILIPS/MEPCO</B></FONT>
</TD>
<TD>
<FONT SIZE=3 FACE=ARIAL><B>PANASONIC</B></FONT>
</TD>
<TD>
<FONT SIZE=3 FACE=ARIAL><B>TOCOS</B></FONT>
</TD>
<TD>
<FONT SIZE=3 FACE=ARIAL><B>AUX/KYOCERA</B></FONT>
</TD>
</TR>
<TR>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
3224G<BR>
3224J<BR>
3224W<BR>
3269P<BR>
3269W<BR>
3269X<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
44G<BR>
44J<BR>
44W<BR>
84P<BR>
84W<BR>
84X<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
-<BR>
-<BR>
ST63Z<BR>
ST63Y<BR>
-<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
-<BR>
-<BR>
ST5P<BR>
ST5W<BR>
ST5X<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR>
-<BR></FONT>
</TD>
</TR>
<TR>
<TD COLSPAN=7>
</TD>
</TR>
<TR>
<TD COLSPAN=7>
<FONT SIZE=4 FACE=ARIAL><B>SINGLE TURN</B></FONT>
</TD>
</TR>
<TR>
<TD>
<FONT SIZE=3 FACE=ARIAL><B>BOURNS</B></FONT>
</TD>
<TD>
<FONT SIZE=3 FACE=ARIAL><B>BI TECH</B></FONT>
</TD>
<TD>
<FONT SIZE=3 FACE=ARIAL><B>DALE-VISHAY</B></FONT>
</TD>
<TD>
<FONT SIZE=3 FACE=ARIAL><B>PHILIPS/MEPCO</B></FONT>
</TD>
<TD>
<FONT SIZE=3 FACE=ARIAL><B>PANASONIC</B></FONT>
</TD>
<TD>
<FONT SIZE=3 FACE=ARIAL><B>TOCOS</B></FONT>
</TD>
<TD>
<FONT SIZE=3 FACE=ARIAL><B>AUX/KYOCERA</B></FONT>
</TD>
</TR>
<TR>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
3314G<BR>
3314J<BR>
3364A/B<BR>
3364C/D<BR>
3364W/X<BR>
3313G<BR>
3313J<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
23B<BR>
23A<BR>
21X<BR>
21W<BR>
-<BR>
22B<BR>
22A<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
ST5YL/ST53YL<BR>
ST5YJ/5T53YJ<BR>
ST-23A<BR>
ST-22B<BR>
ST-22<BR>
-<BR>
-<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
ST-4B<BR>
ST-4A<BR>
-<BR>
-<BR>
-<BR>
ST-3B<BR>
ST-3A<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
EVM-6YS<BR>
EVM-1E<BR>
EVM-1G<BR>
EVM-1D<BR>
-<BR>
-<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
G4B<BR>
G4A<BR>
TR04-3S1<BR>
TRG04-2S1<BR>
-<BR>
-<BR>
-<BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3>
-<BR>
-<BR>
DVR-43A<BR>
CVR-42C<BR>
CVR-42A/C<BR>
-<BR>
-<BR></FONT>
</TD>
</TR>
</TABLE>
<P>
<FONT SIZE=4 FACE=ARIAL><B>ALT = ALTERNATE</B></FONT>
<P>
<P>
</td>
</tr>
</table><b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b><p>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b>>NAME>VALUE<b>CAPACITOR</b><p>
grid 2.5 mm, outline 2.4 x 4.4 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 2.5 mm, outline 2.5 x 5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 2.5 mm, outline 3 x 5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 2.5 mm, outline 4 x 5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 2.5 mm, outline 5 x 5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 2.5 mm, outline 6 x 5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 2.5 mm + 5 mm, outline 2.4 x 7 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 2.5 + 5 mm, outline 2.5 x 7.5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 2.5 + 5 mm, outline 3.5 x 7.5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 2.5 + 5 mm, outline 4.5 x 7.5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 2.5 + 5 mm, outline 5.5 x 7.5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 5 mm, outline 2.4 x 4.4 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 5 mm, outline 2.5 x 7.5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 5 mm, outline 4.5 x 7.5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 5 mm, outline 3 x 7.5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 5 mm, outline 5 x 7.5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 5 mm, outline 5.5 x 7.5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 5 mm, outline 7.5 x 7.5 mm>NAME>VALUE<b>CAPACITOR</b><p>
Horizontal, grid 5 mm, outline 7.5 x 7.5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 7.5 mm, outline 3.2 x 10.3 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 7.5 mm, outline 4.2 x 10.3 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 7.5 mm, outline 5.2 x 10.6 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 10.2 mm, outline 4.3 x 13.3 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 10.2 mm, outline 5.4 x 13.3 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 10.2 mm, outline 6.4 x 13.3 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 10.2 mm + 15.2 mm, outline 6.2 x 18.4 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 15 mm, outline 5.4 x 18.3 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 15 mm, outline 6.4 x 18.3 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 15 mm, outline 7.2 x 18.3 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 15 mm, outline 8.4 x 18.3 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 15 mm, outline 9.1 x 18.2 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 22.5 mm, outline 6.2 x 26.8 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 22.5 mm, outline 7.4 x 26.8 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 22.5 mm, outline 8.7 x 26.8 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 22.5 mm, outline 10.8 x 26.8 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 22.5 mm, outline 11.3 x 26.8 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 27.5 mm, outline 9.3 x 31.6 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 27.5 mm, outline 11.3 x 31.6 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 27.5 mm, outline 13.4 x 31.6 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 27.5 mm, outline 20.5 x 31.6 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 32.5 mm, outline 13.7 x 37.4 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 32.5 mm, outline 16.2 x 37.4 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 32.5 mm, outline 18.2 x 37.4 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 37.5 mm, outline 19.2 x 41.8 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 37.5 mm, outline 20.3 x 41.8 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 5 mm, outline 3.5 x 7.5 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 37.5 mm, outline 15.5 x 41.8 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 7.5 mm, outline 6.3 x 10.6 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 27.5 mm, outline 15.4 x 31.6 mm>NAME>VALUE<b>CAPACITOR</b><p>
grid 27.5 mm, outline 17.3 x 31.6 mm>NAME>VALUE<b>Ceramic Chip Capacitor KEMET 0204 reflow solder</b><p>
Metric Code Size 1005>NAME>VALUE<b>Ceramic Chip Capacitor KEMET 0603 reflow solder</b><p>
Metric Code Size 1608>NAME>VALUE<b>Ceramic Chip Capacitor KEMET 0805 reflow solder</b><p>
Metric Code Size 2012>NAME>VALUE<b>Ceramic Chip Capacitor KEMET 1206 reflow solder</b><p>
Metric Code Size 3216>NAME>VALUE<b>Ceramic Chip Capacitor KEMET 1210 reflow solder</b><p>
Metric Code Size 3225>NAME>VALUE<b>Ceramic Chip Capacitor KEMET 1812 reflow solder</b><p>
Metric Code Size 4532>NAME>VALUE<b>Ceramic Chip Capacitor KEMET 1825 reflow solder</b><p>
Metric Code Size 4564>NAME>VALUE<b>Ceramic Chip Capacitor KEMET 2220 reflow solder</b><p>Metric Code Size 5650>NAME>VALUE<b>Ceramic Chip Capacitor KEMET 2225 reflow solder</b><p>Metric Code Size 5664>NAME>VALUE<b> </b><p>
Source: http://www.vishay.com/docs/10129/hpc0201a.pdf>NAME>VALUESource: http://www.avxcorp.com/docs/catalogs/cx5r.pdf>NAME>VALUE<b>CAPACITOR</b><p>
Source: AVX .. aphvc.pdf>NAME>VALUE<b>CAPACITOR</b><p>
Source: AVX .. aphvc.pdf>NAME>VALUE<b>CAPACITOR</b>>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<b>ELECTROLYTIC CAPACITOR</b><p>
body 5 x 5 mm, rectangle, grid 2.54 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
body 7.6 x 5 mm, rectangle, grid 5.08 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
body 12.7 x 7.6 mm, rectangle, grid 10.16 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
body 12.5 x 12.5 mm, rectangle, grid 10.16 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 4 mm, grid 2.54 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 4 mm, grid 2.54 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 5 mm, grid 2.54 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 6 mm, grid 2.54 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 6 mm, grid 2.54 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 7 mm, grid 2.54 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 7 mm, grid 2.54 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 10 mm, grid 5.08 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 11 mm, grid 5.08 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 11 mm, grid 5.08 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 6 mm, grid 5.08 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 6 mm, grid 5.08 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 7 mm, grid 5.08 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 7 mm, grid 5.08 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 9 mm, grid 5.08 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 9 mm, grid 5.08 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
rectangle, grid 2.54 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
rectangle, grid 5.08 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
rectangle, grid 5.08 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
rectangle, grid 10.16 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
rectangle, grid 10.16 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 4.5 mm, grid 5.08 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 5.0 mm, grid 5.08 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 7.0 mm, grid 5.08 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 6.0 mm, grid 5.08 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 8.0 mm, grid 5.08 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
grid 1.8 mm, diameter 4 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 15.24 mm, diameter 5 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 15.24 mm, diameter 6 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 15.24 mm, diameter 9 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 2.54 mm, diameter 4 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 2.54 mm, diameter 5 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 2.54 mm, diameter 6 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 2.54 mm, diameter 7 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 2.54 mm, diameter 4 mm,>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 2 mm, diameter 4 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 2.032 mm, diameter 5 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 22.86 mm, diameter 10 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 22.86 mm, diameter 6 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 22.86 mm, diameter 9 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 3.5 mm, diameter 10 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 25.4 mm, diameter 10 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 25.4 mm, diameter 9 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 3.5 mm, diameter 8 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 30.48 mm, diameter 10 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 30.48 mm, diameter 12 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 30.48 mm, diameter 16 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 35.56 mm, diameter 12 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 30.48 mm, diameter 14 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 30.48 mm, diameter 16 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 30.48 mm, diameter 18 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 45.72 mm, diameter 16 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 45.72 mm, diameter 18 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 45.72 mm, diameter 21 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 45.72 mm, diameter 22 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 45.72 mm, diameter 25 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 5.08 mm, diameter 10.5 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 5.08 mm, diameter 13 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 5.05 mm, diameter 4 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 5.08 mm, diameter 5 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 5.08 mm, diameter 6 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 5.08 mm, diameter 8.5 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 50 mm, diameter 25 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 50 mm, diameter 30 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 55 mm, diameter 25 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 55 mm, diameter 30 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 5.08 mm, diameter 9 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 7.62 mm, diameter 16 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 7.62 mm, diameter 18 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 10.16 mm, diameter 20 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 10.16 mm, diameter 22.5 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 10.16 mm, diameter 25 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 10.16 mm, diameter 30 mm>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
grid 10.16 mm, diameter 35 mm>NAME>VALUE<b>Aluminum electrolytic capacitors</b> reflow soldering<p>
SMD (Chip) Standard 085 CS<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b> wave soldering<p>
SMD (Chip) Standard 085 CS<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b> reflow soldering<p>
SMD (Chip) Standard 085 CS<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b> wave soldering<p>
SMD (Chip) Standard 085 CS<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b> reflow soldering<p>
SMD (Chip) Long Life 139 CLL<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b> wave soldering<p>
SMD (Chip) Long Life 139 CLL<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b> reflow soldering<p>
SMD (Chip) Long Life 139 CLL<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b> wave soldering<p>
SMD (Chip) Long Life 139 CLL<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors SMD (Chip)</b><p>
Long life base plate, High temperature 140 CLH<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors SMD (Chip)</b><p>
Long life base plate, High temperature 140 CLH<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors SMD (Chip)</b><p>
Long life base plate, High temperature 140 CLH<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors SMD (Chip)</b><p>
Long life base plate, very low impedance 150 CLZ<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors SMD (Chip)</b><p>
Long life base plate, very low impedance 150 CLZ<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors SMD (Chip)</b><p>
Long life base plate, very low impedance 150 CLZ<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b><p>
High Temperature solid electrolytic SMD 175 TMP<p>
http://www.bccomponents.com/>NAME>VALUE<b>Aluminum electrolytic capacitors</b><p>
High Temperature solid electrolytic SMD 175 TMP<p>
http://www.bccomponents.com/>NAME>VALUE<b>Chip Capacitor Type KEMET A / EIA 3216-18 reflow solder</b><p>KEMET S / EIA 3216-12>NAME>VALUE<b>Chip Capacitor Type KEMET A / EIA 3216-18 Wave solder</b><p>
KEMET S / EIA 3216-12>NAME>VALUE<b>Chip Capacitor Type KEMET B / EIA 3528-21 reflow solder</b><p>KEMET T / EIA 3528-12>NAME>VALUE<b>Chip Capacitor Type KEMET B / EIA 3528-21 Wave solder</b><p>
KEMET T / EIA 3528-12>NAME>VALUE<b>Chip Capacitor Type KEMET C / EIA 6032-28 reflow solder</b><p>KEMET U / EIA 6032-15>NAME>VALUE<b>Chip Capacitor Type KEMET C / EIA 6032-28 Wafe solder</b><p>
KEMET U / EIA 6032-15>NAME>VALUE<b>Chip Capacitor Type KEMET D / EIA 7343-21</b><p>KEMET V / EIA 7343-20, KEMET X / EIA 7343-43 reflow solder>NAME>VALUE<b>Chip Capacitor Type KEMET D / EIA 7343-21</b><p>
KEMET V / EIA 7343-20, KEMET X / EIA 7343-43 Wafe solder>NAME>VALUE<b>Chip Capacitor Type KEMET E / EIA 7260-38 reflow solder</b>>NAME>VALUE<b>Chip Capacitor Type KEMET E / EIA 7260-38 Wafe solder</b>>NAME>VALUE<b>Chip Capacitor Type KEMET R/EIA 2012-12 reflow solder</b>>NAME>VALUE<b>Chip Capacitor Type KEMET R/EIA 2012-12 Wafe solder</b>>NAME>VALUE<b>Panasonic Aluminium Electrolytic Capacitor VS-Serie Package A</b>>NAME>VALUE<b>Panasonic Aluminium Electrolytic Capacitor VS-Serie Package B</b>>NAME>VALUE<b>Panasonic Aluminium Electrolytic Capacitor VS-Serie Package C</b>>NAME>VALUE<b>Panasonic Aluminium Electrolytic Capacitor VS-Serie Package D</b>>NAME>VALUE<b>Panasonic Aluminium Electrolytic Capacitor VS-Serie Package E</b>>NAME>VALUE<b>Panasonic Aluminium Electrolytic Capacitor VS-Serie Package F</b>>NAME>VALUE<b>Panasonic Aluminium Electrolytic Capacitor VS-Serie Package G</b>>NAME>VALUE<b>ELECTROLYTIC CAPACITOR</b><p>
diameter 5 mm, grid 2.54 mm>NAME>VALUETT<b>ELECTROLYTIC CAPACITOR</b><p>
grid 2.54 mm, diameter 6 mm>NAME>VALUE<b>Chip Capacitor </b> Polar tantalum capacitors with solid electrolyte<p>
Siemens Matsushita Components B 45 194, B 45 197, B 45 198<br>
Source: www.farnell.com/datasheets/247.pdf>NAME>VALUE<b>Chip Capacitor</b> Polar tantalum capacitors with solid electrolyte<p>
Siemens Matsushita Components B 45 194<br>
Source: www.farnell.com/datasheets/247.pdf>NAME>VALUE<b>Chip Capacitor</b> Polar tantalum capacitors with solid electrolyte<p>
Siemens Matsushita Components B 45 194<br>
Source: www.farnell.com/datasheets/247.pdf>NAME>VALUE<b>Chip Capacitor </b> Polar tantalum capacitors with solid electrolyte<p>
Siemens Matsushita Components B 45 194, B 45 197, B 45 198<br>
Source: www.farnell.com/datasheets/247.pdf>NAME>VALUE<b>Chip Capacitor </b> Polar tantalum capacitors with solid electrolyte<p>
Siemens Matsushita Components B 45 194, B 45 197, B 45 198<br>
Source: www.farnell.com/datasheets/247.pdf>NAME>VALUE<b>Chip Capacitor </b> Polar tantalum capacitors with solid electrolyte<p>
Siemens Matsushita Components B 45 194, B 45 197, B 45 198<br>
Source: www.farnell.com/datasheets/247.pdf>NAME>VALUE<b>Chip Capacitor </b> Polar tantalum capacitors with solid electrolyte<p>
Siemens Matsushita Components B 45 194, B 45 197, B 45 198<br>
Source: www.farnell.com/datasheets/247.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b><p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b> SMD type with conductive polymer electrolyte<p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b> SMD type with conductive polymer electrolyte<p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b> SMD type with conductive polymer electrolyte<p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b> SMD type with conductive polymer electrolyte<p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b> SMD type with conductive polymer electrolyte<p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b> SMD type with conductive polymer electrolyte<p>
Source: e_os_all.pdf>NAME>VALUE<b>SANYO OSCON Capacitor</b> SMD type with conductive polymer electrolyte<p>
Source: e_os_all.pdf>NAME>VALUE<b>ALUMINUM ELECTROLYTIC CAPACITORS</b> UD Series 10 x 10 mm<p>
Source: http://products.nichicon.co.jp/en/pdf/XJA043/e-ud.pdf>NAME>VALUE<b>ALUMINUM ELECTROLYTIC CAPACITORS</b> UD Series 4 x 5.8 mm<p>
Source: http://products.nichicon.co.jp/en/pdf/XJA043/e-ud.pdf>NAME>VALUE<b>ALUMINUM ELECTROLYTIC CAPACITORS</b> UD Series 5 x 5.8 mm<p>
Source: http://products.nichicon.co.jp/en/pdf/XJA043/e-ud.pdf>NAME>VALUE<b>ALUMINUM ELECTROLYTIC CAPACITORS</b> UD Series 6.3 x 5.8 mm<p>
Source: http://products.nichicon.co.jp/en/pdf/XJA043/e-ud.pdf>NAME>VALUE<b>ALUMINUM ELECTROLYTIC CAPACITORS</b> UD Series 6.3 x 7.7 mm<p>
Source: http://products.nichicon.co.jp/en/pdf/XJA043/e-ud.pdf>NAME>VALUE<b>ALUMINUM ELECTROLYTIC CAPACITORS</b> UD Series 8 x 10 mm<p>
Source: http://products.nichicon.co.jp/en/pdf/XJA043/e-ud.pdf>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b><p>>NAME>VALUE<b>RESISTOR</b> wave soldering<p>>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b><p>
wave soldering>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b><p>
wave soldering>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b><p>
wave soldering>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b><p>
wave soldering>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b><p>
wave soldering>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b><p>
wave soldering>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b><p>
wave soldering>NAME>VALUE<b>RESISTOR</b>>NAME>VALUE<b>RESISTOR</b><p>
wave soldering>NAME>VALUE<b>RESISTOR</b><p>
Source: http://download.siliconexpert.com/pdfs/2005/02/24/Semi_Ap/2/VSH/Resistor/dcrcwfre.pdf>NAME>VALUE<b>RESISTOR</b> wave soldering<p>
Source: http://download.siliconexpert.com/pdfs/2005/02/24/Semi_Ap/2/VSH/Resistor/dcrcwfre.pdf>NAME>VALUE<b>RESISTOR</b><p>
MELF 0.10 W>NAME>VALUE<b>RESISTOR</b><p>
MELF 0.25 W>NAME>VALUE<b>RESISTOR</b><p>
MELF 0.12 W>NAME>VALUE<b>RESISTOR</b><p>
MELF 0.10 W>NAME>VALUE<b>RESISTOR</b><p>
MELF 0.25 W>NAME>VALUE<b>RESISTOR</b><p>
MELF 0.25 W>NAME>VALUE<b>RESISTOR</b><p>
MELF 0.12 W>NAME>VALUE<b>RESISTOR</b><p>
MELF 0.25 W>NAME>VALUE<b>RESISTOR</b><p>
type 0204, grid 5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0204, grid 7.5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0204, grid 2.5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0207, grid 10 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0207, grid 12 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0207, grid 15mm>NAME>VALUE<b>RESISTOR</b><p>
type 0207, grid 2.5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0207, grid 5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0207, grid 7.5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0309, grid 10mm>NAME>VALUE<b>RESISTOR</b><p>
type 0309, grid 12.5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0309, grid 2.5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0411, grid 12.5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0411, grid 15 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0411, grid 3.81 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0414, grid 15 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0414, grid 5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0617, grid 17.5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0617, grid 22.5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0617, grid 5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0922, grid 22.5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0613, grid 5 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0613, grid 15 mm>NAME>VALUE<b>RESISTOR</b><p>
type 0817, grid 22.5 mm>NAME>VALUE0817<b>RESISTOR</b><p>
type 0817, grid 6.35 mm>NAME>VALUE0817<b>RESISTOR</b><p>
type V234, grid 12.5 mm>NAME>VALUE<b>RESISTOR</b><p>
type V235, grid 17.78 mm>NAME>VALUE<b>RESISTOR</b><p>
type V526-0, grid 2.5 mm>NAME>VALUE<b>CECC Size RC2211</b> Reflow Soldering<p>
source Beyschlag>NAME>VALUE<b>CECC Size RC2211</b> Wave Soldering<p>
source Beyschlag>NAME>VALUE<b>CECC Size RC3715</b> Reflow Soldering<p>
source Beyschlag>NAME>VALUE<b>CECC Size RC3715</b> Wave Soldering<p>
source Beyschlag>NAME>VALUE<b>CECC Size RC6123</b> Reflow Soldering<p>
source Beyschlag>NAME>VALUE<b>CECC Size RC6123</b> Wave Soldering<p>
source Beyschlag>NAME>VALUE<b>RESISTOR</b><p>
type 0922, grid 7.5 mm>NAME>VALUE0922<b>RESISTOR</b><p>
type RDH, grid 15 mm>NAME>VALUERDH<b>Mini MELF 0102 Axial</b>>NAME>VALUE<b>RESISTOR</b> chip<p>
Source: http://www.vishay.com/docs/20008/dcrcw.pdf>NAME>VALUE<b>Bulk Metal® Foil Technology</b>, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements<p>
MIL SIZE RBR52<br>
Source: VISHAY .. vta56.pdf>NAME>VALUE<b>Bulk Metal® Foil Technology</b>, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements<p>
MIL SIZE RBR53<br>
Source: VISHAY .. vta56.pdf>NAME>VALUE<b>Bulk Metal® Foil Technology</b>, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements<p>
MIL SIZE RBR54<br>
Source: VISHAY .. vta56.pdf>NAME>VALUE<b>Bulk Metal® Foil Technology</b>, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements<p>
MIL SIZE RBR55<br>
Source: VISHAY .. vta56.pdf>NAME>VALUE<b>Bulk Metal® Foil Technology</b>, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements<p>
MIL SIZE RBR56<br>
Source: VISHAY .. vta56.pdf>NAME>VALUE<b>Bulk Metal® Foil Technology</b>, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements<p>
MIL SIZE RNC55<br>
Source: VISHAY .. vta56.pdf>NAME>VALUE<b>Bulk Metal® Foil Technology</b>, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements<p>
MIL SIZE RNC60<br>
Source: VISHAY .. vta56.pdf>NAME>VALUE<b>Package 4527</b><p>
Source: http://www.vishay.com/docs/31059/wsrhigh.pdf>NAME>VALUE<b>Wirewound Resistors, Precision Power</b><p>
Source: VISHAY wscwsn.pdf>NAME>VALUE<b>Wirewound Resistors, Precision Power</b><p>
Source: VISHAY wscwsn.pdf>NAME>VALUE<b>Wirewound Resistors, Precision Power</b><p>
Source: VISHAY wscwsn.pdf>NAME>VALUE<b>Wirewound Resistors, Precision Power</b><p>
Source: VISHAY wscwsn.pdf>NAME>VALUE<b>Wirewound Resistors, Precision Power</b><p>
Source: VISHAY wscwsn.pdf>NAME>VALUE<b>Wirewound Resistors, Precision Power</b><p>
Source: VISHAY wscwsn.pdf>NAME>VALUE<b>CRCW1218 Thick Film, Rectangular Chip Resistors</b><p>
Source: http://www.vishay.com .. dcrcw.pdf>NAME>VALUE<b>Chip Monolithic Ceramic Capacitors</b> Medium Voltage High Capacitance for General Use<p>
Source: http://www.murata.com .. GRM43DR72E224KW01.pdf>NAME>VALUE<b>PRL1632 are realized as 1W for 3.2 × 1.6mm(1206)</b><p>
Source: http://www.mouser.com/ds/2/392/products_18-2245.pdf>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME+>VALUE>NAME>VALUE<B>CAPACITOR</B>, European symbol<B>POLARIZED CAPACITOR</B>, European symbol<B>RESISTOR</B>, European symbol<h3>SparkFun Electronics' preferred foot prints</h3>
In this library you'll find discrete LEDs for illumination or indication, but no displays.<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.<B>LED</B><p>
5 mm, round>NAME>VALUE<B>LED</B><p>
3 mm, round>NAME>VALUE>NAME>VALUE>NAME>VALUELS>NAME>VALUE<h3>LED 3MM - No Silk</h3>
3 mm, round>NAME>VALUE<h3>LED5MM-KIT</h3>
5MM Through-hole LED<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<b>LEDs</b>
Standard schematic elements and footprints for 5mm, 3mm, 1206, and 0603 sized LEDs. 5mm - Spark Fun Electronics SKU : COM-00529 (and others)<b>Diodes</b><p>
Based on the following sources:
<ul>
<li>Motorola : www.onsemi.com
<li>Fairchild : www.fairchildsemi.com
<li>Philips : www.semiconductors.com
<li>Vishay : www.vishay.de
</ul>
<author>Created by librarian@cadsoft.de</author><B>DIODE</B><p>
diameter 2 mm, horizontal, grid 10.16 mm>NAME>VALUE<B>DIODE</B><p>
diameter 2 mm, horizontal, grid 7.62 mm>NAME>VALUE>NAME>VALUESpiceOrder 1SpiceOrder 2<B>DIODE</B><p>
high speed (Philips)<b>IC Packages an Sockets</b><p>
<author>Created by librarian@cadsoft.de</author><b>Dual In Line Package</b> 0.6 inch>NAME>VALUE<b>Dual In Line Package Small</b>>NAME>VALUE<b>Dual In Line Package</b>>NAME>VALUE>NAME>VALUE<b>Dual In Line</b><h3>SparkFun Electronics' preferred foot prints</h3>
In this library you'll find anything that moves- switches, relays, buttons, potentiometers. Also, anything that goes on a board but isn't electrical in nature- screws, standoffs, etc.<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.<b>OMRON SWITCH</b>>NAME>NAME>ValueSparkFun SKU# COM-08229>NAME>VALUE>NAME>NAME>NAME>Value>NAME<h3>4.6 x 2.8mm Tactile Switch</h3>
<p><a href="http://www.digikey.com/product-detail/en/KMR231NG%20LFS/CKN10246CT-ND/2176497">Example</a></p>>Name>Value>NAME>VALUEVarious NO switches- pushbuttons, reed, etc<b>Crystals and Crystal Resonators</b><p>
<author>Created by librarian@cadsoft.de</author><b>Crystal Filter</b><p>
Source: www.ilsiamerica.com .. C1 IXF Series.pdf>NAME>VALUE<b>Crystal Filter</b><p>
Source: www.ilsiamerica.com .. C1 IXF Series.pdf>NAME>VALUE>NAME>VALUE123<b>Monolithic Crystal Filters</b><p>
Source: www.vanlong.comTO POWER MODULE+5V0VVbattButtonPowerRx ModeBrakes0V0VPWM LPWM RDIR1 LDIR1 RDIR2 RDIR2 LTO PROGRAMMING UNITTO JOYSTICK UNITTO PPM 3-CHANNEL
RECEIVER
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