>VALUE
Generated from <b>poe.sch</b><p>
by exp-lbrs.ulp
>NAME
>VALUE
>NAME
>VALUE
<b>Frames for Sheet and Layout</b>
Date:
>LAST_DATE_TIME
Sheet:
>SHEET
REV:
TITLE:
Document Number:
>DRAWING_NAME
<b>FRAME</b> C Size , 17 x 22 INCH, Landscape<p>
<h3>SparkFun Aesthetics</h3>
This library contiains non-functional items such as logos, build/ordering notes, frame blocks, etc.
<br>
<br>
We've spent an enormous amount of time creating and checking these footprints and parts, but it is <b> the end user's responsibility</b> to ensure correctness and suitablity for a given componet or application.
<br>
<br>If you enjoy using this library, please buy one of our products at <a href=" www.sparkfun.com">SparkFun.com</a>.
<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.
<h3>Fiducial - Circle, 1mm</h3>
<p>Point-of-reference for pick-and-place machines and other optical instruments.</p>
<p>Devices using:
<ul><li>FIDUCIAL</li></ul></p>
<h3>Fiducial - Circle, 0.25in</h3>
<p>Point-of-reference for pick-and-place machines and other optical instruments.</p>
<p>Devices using:
<ul><li>FIDUCIAL</li></ul></p>
Fiducial - Circle, 1mm
Point-of-reference for pick-and-place machines and other optical instruments.
Devices using:
FIDUCIAL
Fiducial - Circle, 0.25in
Point-of-reference for pick-and-place machines and other optical instruments.
Devices using:
FIDUCIAL
<h3>Fiducial</h3>
<p>Point-of-reference for pick-and-place machines and other optical instruments.</p>
<p>Devices using:
<ul><li>FIDUCIAL</li></ul></p>
<h3>Fiducial Alignment Points</h3>
<p>Point-of-reference for pick-and-place machines and other optical instruments.</p>
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
<b>RESISTOR</b><p>
chip
>NAME
>VALUE
>NAME
>VALUE
>Name
>Value
1/2W Resistor, 0.5" wide<p>
Yageo CFR series <a href="http://www.yageo.com/pdf/yageo/Leaded-R_CFR_2008.pdf">http://www.yageo.com/pdf/yageo/Leaded-R_CFR_2008.pdf</a>
>Name
>Value
1/4W Resistor, 0.4" wide<p>
Yageo CFR series <a href="http://www.yageo.com/pdf/yageo/Leaded-R_CFR_2008.pdf">http://www.yageo.com/pdf/yageo/Leaded-R_CFR_2008.pdf</a>
>Name
>Value
1/6W Thru-hole Resistor - *UNPROVEN*
>NAME
>VALUE
1W Resistor, 0.6" wide<p>
Yageo CFR series <a href="http://www.yageo.com/pdf/yageo/Leaded-R_CFR_2008.pdf">http://www.yageo.com/pdf/yageo/Leaded-R_CFR_2008.pdf</a>
>Name
>Value
2W Resistor, 0.8" wide<p>
Yageo CFR series <a href="http://www.yageo.com/pdf/yageo/Leaded-R_CFR_2008.pdf">http://www.yageo.com/pdf/yageo/Leaded-R_CFR_2008.pdf</a>
>Name
>Value
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
CTZ3 Series land pattern for variable capacitor - CTZ3E-50C-W1-PF
>NAME
>VALUE
>Name
>Value
>Name
>Value
>Name
>Value
>Name
>Value
>NAME
>VALUE
>Name
>Value
>NAME
>VALUE
>VALUE
>NAME
>VALUE
<b>Resistor</b>
Basic schematic elements and footprints for 0603, 1206, and PTH resistors.
<b>SUPPLY SYMBOL</b>
<b>Capacitor</b>
Standard 0603 ceramic capacitor, and 0.1" leaded capacitor.
<ESD Suppressors / TVS Diodes DIODE ESD 5VWM 65W 0402/SOD-923F</b><p>
<author>Created by SamacSys</author>
<b>CPDQT5V0HE-HF-2</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>ESD Suppressors / TVS Diodes DIODE ESD 5VWM 65W 0402/SOD-923F</b><p>
Source: <a href="https://www.comchiptech.com/admin/files/product/CPDQT5V0HE-HF RevA.PDF"> Datasheet </a>
<h3>SparkFun Capacitors</h3>
This library contains capacitors.
<br>
<br>
We've spent an enormous amount of time creating and checking these footprints and parts, but it is <b> the end user's responsibility</b> to ensure correctness and suitablity for a given componet or application.
<br>
<br>If you enjoy using this library, please buy one of our products at <a href=" www.sparkfun.com">SparkFun.com</a>.
<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.
<p><b>Generic 2012 (0805) package</b></p>
<p>0.2mm courtyard excess rounded to nearest 0.05mm.</p>
>NAME
>VALUE
<p><b>Generic 3225 (1210) package</b></p>
<p>0.2mm courtyard excess rounded to nearest 0.05mm.</p>
>NAME
>VALUE
Generic 2012 (0805) package
0.2mm courtyard excess rounded to nearest 0.05mm.
Generic 3225 (1210) package
0.2mm courtyard excess rounded to nearest 0.05mm.
>NAME
>VALUE
<h3>22µF ceramic capacitors</h3>
<p>A capacitor is a passive two-terminal electrical component used to store electrical energy temporarily in an electric field.</p>
<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>Chip RESISTOR 0402 EIA (1005 Metric)</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 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 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
>VALUE
0817
<b>RESISTOR</b><p>
type 0817, grid 6.35 mm
>NAME
>VALUE
0817
<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>Mini MELF 0102 Axial</b>
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0922, grid 7.5 mm
>NAME
>VALUE
0922
<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 RDH, grid 15 mm
>NAME
>VALUE
RDH
<b>RESISTOR</b><p>
type 0204, grid 2.5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0309, grid 2.5 mm
>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 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>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>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
>NAME
>VALUE
<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
>VALUE
Source: 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
Chip RESISTOR 0402 EIA (1005 Metric)
RESISTOR
RESISTOR
RESISTOR wave soldering
RESISTOR
RESISTOR
wave soldering
RESISTOR
RESISTOR
wave soldering
RESISTOR
RESISTOR
wave soldering
RESISTOR
RESISTOR
wave soldering
RESISTOR
RESISTOR
wave soldering
RESISTOR
RESISTOR
wave soldering
RESISTOR
RESISTOR
wave soldering
RESISTOR
RESISTOR
wave soldering
RESISTOR
Source: http://download.siliconexpert.com/pdfs/2005/02/24/Semi_Ap/2/VSH/Resistor/dcrcwfre.pdf
RESISTOR wave soldering
Source: http://download.siliconexpert.com/pdfs/2005/02/24/Semi_Ap/2/VSH/Resistor/dcrcwfre.pdf
RESISTOR
MELF 0.10 W
RESISTOR
MELF 0.25 W
RESISTOR
MELF 0.12 W
RESISTOR
MELF 0.10 W
RESISTOR
MELF 0.25 W
RESISTOR
MELF 0.25 W
RESISTOR
MELF 0.12 W
RESISTOR
MELF 0.25 W
RESISTOR
type 0204, grid 5 mm
RESISTOR
type 0204, grid 7.5 mm
RESISTOR
type 0207, grid 10 mm
RESISTOR
type 0207, grid 12 mm
RESISTOR
type 0207, grid 15mm
RESISTOR
type 0207, grid 2.5 mm
RESISTOR
type 0207, grid 5 mm
RESISTOR
type 0207, grid 7.5 mm
RESISTOR
type 0309, grid 10mm
RESISTOR
type 0309, grid 12.5 mm
RESISTOR
type 0411, grid 12.5 mm
RESISTOR
type 0411, grid 15 mm
RESISTOR
type 0411, grid 3.81 mm
RESISTOR
type 0414, grid 15 mm
RESISTOR
type 0414, grid 5 mm
RESISTOR
type 0617, grid 17.5 mm
RESISTOR
type 0617, grid 22.5 mm
RESISTOR
type 0617, grid 5 mm
RESISTOR
type 0922, grid 22.5 mm
RESISTOR
type 0613, grid 5 mm
RESISTOR
type 0613, grid 15 mm
RESISTOR
type 0817, grid 22.5 mm
RESISTOR
type 0817, grid 6.35 mm
RESISTOR
type V234, grid 12.5 mm
RESISTOR
type V235, grid 17.78 mm
RESISTOR
type V526-0, grid 2.5 mm
Mini MELF 0102 Axial
RESISTOR
type 0922, grid 7.5 mm
CECC Size RC2211 Reflow Soldering
source Beyschlag
CECC Size RC2211 Wave Soldering
source Beyschlag
CECC Size RC3715 Reflow Soldering
source Beyschlag
CECC Size RC3715 Wave Soldering
source Beyschlag
CECC Size RC6123 Reflow Soldering
source Beyschlag
CECC Size RC6123 Wave Soldering
source Beyschlag
RESISTOR
type RDH, grid 15 mm
RESISTOR
type 0204, grid 2.5 mm
RESISTOR
type 0309, grid 2.5 mm
RESISTOR chip
Source: http://www.vishay.com/docs/20008/dcrcw.pdf
Bulk Metal® Foil Technology, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements
MIL SIZE RNC55
Source: VISHAY .. vta56.pdf
Bulk Metal® Foil Technology, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements
MIL SIZE RNC60
Source: VISHAY .. vta56.pdf
Bulk Metal® Foil Technology, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements
MIL SIZE RBR52
Source: VISHAY .. vta56.pdf
Bulk Metal® Foil Technology, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements
MIL SIZE RBR53
Source: VISHAY .. vta56.pdf
Bulk Metal® Foil Technology, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements
MIL SIZE RBR54
Source: VISHAY .. vta56.pdf
Bulk Metal® Foil Technology, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements
MIL SIZE RBR55
Source: VISHAY .. vta56.pdf
Bulk Metal® Foil Technology, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements
MIL SIZE RBR56
Source: VISHAY .. vta56.pdf
Package 4527
Source: http://www.vishay.com/docs/31059/wsrhigh.pdf
Wirewound Resistors, Precision Power
Source: VISHAY wscwsn.pdf
Wirewound Resistors, Precision Power
Source: VISHAY wscwsn.pdf
Wirewound Resistors, Precision Power
Source: VISHAY wscwsn.pdf
Wirewound Resistors, Precision Power
Source: VISHAY wscwsn.pdf
Wirewound Resistors, Precision Power
Source: VISHAY wscwsn.pdf
Wirewound Resistors, Precision Power
Source: VISHAY wscwsn.pdf
CRCW1218 Thick Film, Rectangular Chip Resistors
Source: http://www.vishay.com .. dcrcw.pdf
Chip Monolithic Ceramic Capacitors Medium Voltage High Capacitance for General Use
Source: http://www.murata.com .. GRM43DR72E224KW01.pdf
Chip, 0.40 X 0.20 X 0.16 mm body
<p>Chip package with body size 0.40 X 0.20 X 0.16 mm</p>
Chip, 1.00 X 0.50 X 0.60 mm body
<p>Chip package with body size 1.00 X 0.50 X 0.60 mm</p>
CAPACITOR
CAPACITOR
CAPACITOR
CAPACITOR
CAPACITOR
CAPACITOR
CAPACITOR
CAPACITOR
CAPACITOR
CAPACITOR
CAPACITOR
CAPACITOR
CAPACITOR
CAPACITOR
CAPACITOR
grid 2.5 mm, outline 2.4 x 4.4 mm
CAPACITOR
grid 2.5 mm, outline 2.5 x 5 mm
CAPACITOR
grid 2.5 mm, outline 3 x 5 mm
CAPACITOR
grid 2.5 mm, outline 4 x 5 mm
CAPACITOR
grid 2.5 mm, outline 5 x 5 mm
CAPACITOR
grid 2.5 mm, outline 6 x 5 mm
CAPACITOR
grid 2.5 mm + 5 mm, outline 2.4 x 7 mm
CAPACITOR
grid 2.5 + 5 mm, outline 2.5 x 7.5 mm
CAPACITOR
grid 2.5 + 5 mm, outline 3.5 x 7.5 mm
CAPACITOR
grid 2.5 + 5 mm, outline 4.5 x 7.5 mm
CAPACITOR
grid 2.5 + 5 mm, outline 5.5 x 7.5 mm
CAPACITOR
grid 5 mm, outline 2.4 x 4.4 mm
CAPACITOR
grid 5 mm, outline 2.5 x 7.5 mm
CAPACITOR
grid 5 mm, outline 4.5 x 7.5 mm
CAPACITOR
grid 5 mm, outline 3 x 7.5 mm
CAPACITOR
grid 5 mm, outline 5 x 7.5 mm
CAPACITOR
grid 5 mm, outline 5.5 x 7.5 mm
CAPACITOR
grid 5 mm, outline 7.5 x 7.5 mm
CAPACITOR
Horizontal, grid 5 mm, outline 7.5 x 7.5 mm
CAPACITOR
grid 7.5 mm, outline 3.2 x 10.3 mm
CAPACITOR
grid 7.5 mm, outline 4.2 x 10.3 mm
CAPACITOR
grid 7.5 mm, outline 5.2 x 10.6 mm
CAPACITOR
grid 10.2 mm, outline 4.3 x 13.3 mm
CAPACITOR
grid 10.2 mm, outline 5.4 x 13.3 mm
CAPACITOR
grid 10.2 mm, outline 6.4 x 13.3 mm
CAPACITOR
grid 10.2 mm + 15.2 mm, outline 6.2 x 18.4 mm
CAPACITOR
grid 15 mm, outline 5.4 x 18.3 mm
CAPACITOR
grid 15 mm, outline 6.4 x 18.3 mm
CAPACITOR
grid 15 mm, outline 7.2 x 18.3 mm
CAPACITOR
grid 15 mm, outline 8.4 x 18.3 mm
CAPACITOR
grid 15 mm, outline 9.1 x 18.2 mm
CAPACITOR
grid 22.5 mm, outline 6.2 x 26.8 mm
CAPACITOR
grid 22.5 mm, outline 7.4 x 26.8 mm
CAPACITOR
grid 22.5 mm, outline 8.7 x 26.8 mm
CAPACITOR
grid 22.5 mm, outline 10.8 x 26.8 mm
CAPACITOR
grid 22.5 mm, outline 11.3 x 26.8 mm
CAPACITOR
grid 27.5 mm, outline 9.3 x 31.6 mm
CAPACITOR
grid 27.5 mm, outline 11.3 x 31.6 mm
CAPACITOR
grid 27.5 mm, outline 13.4 x 31.6 mm
CAPACITOR
grid 27.5 mm, outline 20.5 x 31.6 mm
CAPACITOR
grid 32.5 mm, outline 13.7 x 37.4 mm
CAPACITOR
grid 32.5 mm, outline 16.2 x 37.4 mm
CAPACITOR
grid 32.5 mm, outline 18.2 x 37.4 mm
CAPACITOR
grid 37.5 mm, outline 19.2 x 41.8 mm
CAPACITOR
grid 37.5 mm, outline 20.3 x 41.8 mm
CAPACITOR
grid 5 mm, outline 3.5 x 7.5 mm
CAPACITOR
grid 37.5 mm, outline 15.5 x 41.8 mm
CAPACITOR
grid 7.5 mm, outline 6.3 x 10.6 mm
CAPACITOR
grid 27.5 mm, outline 15.4 x 31.6 mm
CAPACITOR
grid 27.5 mm, outline 17.3 x 31.6 mm
Ceramic Chip Capacitor KEMET 0204 reflow solder
Metric Code Size 1005
Ceramic Chip Capacitor KEMET 0603 reflow solder
Metric Code Size 1608
Ceramic Chip Capacitor KEMET 0805 reflow solder
Metric Code Size 2012
Ceramic Chip Capacitor KEMET 1206 reflow solder
Metric Code Size 3216
Ceramic Chip Capacitor KEMET 1210 reflow solder
Metric Code Size 3225
Ceramic Chip Capacitor KEMET 1812 reflow solder
Metric Code Size 4532
Ceramic Chip Capacitor KEMET 1825 reflow solder
Metric Code Size 4564
Ceramic Chip Capacitor KEMET 2220 reflow solderMetric Code Size 5650
Ceramic Chip Capacitor KEMET 2225 reflow solderMetric Code Size 5664
Source: http://www.vishay.com/docs/10129/hpc0201a.pdf
Source: http://www.avxcorp.com/docs/catalogs/cx5r.pdf
CAPACITOR
Source: AVX .. aphvc.pdf
CAPACITOR
Source: AVX .. aphvc.pdf
CAPACITOR
>NAME
>VALUE
>NAME
>VALUE
<B>RESISTOR</B>, American symbol
<B>CAPACITOR</B>, European symbol
>VALUE
<b>SUPPLY SYMBOL</b>
<6-uA Quiescent Current, 1.8-A Switch Current Boost Converter</b><p>
<author>Created by SamacSys</author>
<b>DBV (R-PDSO-G5)</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>6-uA Quiescent Current, 1.8-A Switch Current Boost Converter</b><p>
Source: <a href="http://www.ti.com/lit/gpn/tps61322"> Datasheet </a>
>VALUE
>NAME
>NAME
>VALUE
INDUCTOR, METAL CORE <a href="https://pricing.snapeda.com/parts/MAKK2016T2R2M/Taiyo%20Yuden/view-part?ref=eda">Check availability</a>
<h3>SparkFun Power Symbols</h3>
This library contains power, ground, and voltage-supply symbols.
<br>
<br>
We've spent an enormous amount of time creating and checking these footprints and parts, but it is <b> the end user's responsibility</b> to ensure correctness and suitablity for a given componet or application.
<br>
<br>If you enjoy using this library, please buy one of our products at <a href=" www.sparkfun.com">SparkFun.com</a>.
<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.
<h3>Battery Voltage Supply</h3>
>VALUE
<h3>Battery Voltage Supply</h3>
<p>Generic symbol for the battery input to a system.</p>
<PCB terminal block, nominal current: 6 A, rated voltage (III/2): 160 V, nominal cross section: 0.5 mm?, Number of potentials: 8, Number of rows: 1, Number of positions per row: 8, product range: PTSM 0,5/..-H-SMD, pitch: 2.5 mm, connection method: Push-in spring connection, mounting: SMD soldering, conductor/PCB connection direction: 0 ?, color: black, Pin layout: Linear pad geometry, type of packaging: packed in cardboard</b><p>
<author>Created by SamacSys</author>
<b>1771088</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>PCB terminal block, nominal current: 6 A, rated voltage (III/2): 160 V, nominal cross section: 0.5 mm?, Number of potentials: 8, Number of rows: 1, Number of positions per row: 8, product range: PTSM 0,5/..-H-SMD, pitch: 2.5 mm, connection method: Push-in spring connection, mounting: SMD soldering, conductor/PCB connection direction: 0 ?, color: black, Pin layout: Linear pad geometry, type of packaging: packed in cardboard</b><p>
Source: <a href="http://www.phoenixcontact.net/product/1771088"> Datasheet </a>
<Diodes - General Purpose, Power, Switching GP Si Rectifier SMB,2A,40V</b><p>
<author>Created by SamacSys</author>
<b>DO-214AC</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>Diodes - General Purpose, Power, Switching GP Si Rectifier SMB,2A,40V</b><p>
Source: <a href="https://ms.componentsearchengine.com/Datasheets/1/FM240A.pdf"> Datasheet </a>
<DiodesZetex 74LVC1G17SE-7, Buffer, Push-Pull, Non-Inverting, 1.65 5.5 V, 5-Pin SOT-353</b><p>
<author>Created by SamacSys</author>
<b>SOT353-</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>DiodesZetex 74LVC1G17SE-7, Buffer, Push-Pull, Non-Inverting, 1.65 5.5 V, 5-Pin SOT-353</b><p>
Source: <a href="https://componentsearchengine.com/Datasheets/2/74LVC1G17SE-7.pdf"> Datasheet </a>
<Switching Voltage Regulators DCDC Conv HV Buck TSOT26(STD) T&R 3K</b><p>
<author>Created by SamacSys</author>
<b>TSOT26 AP62300</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>Switching Voltage Regulators DCDC Conv HV Buck TSOT26(STD) T&R 3K</b><p>
Source: <a href="https://www.diodes.com/assets/Datasheets/AP64060.pdf"> Datasheet </a>
<Fixed Inductors 4018 10uH 180mOhms +/-20%Tol 1200mA</b><p>
<author>Created by SamacSys</author>
<b>(NR series S type)</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>Fixed Inductors 4018 10uH 180mOhms +/-20%Tol 1200mA</b><p>
Source: <a href="https://datasheet.datasheetarchive.com/originals/distributors/Datasheets-DGA11/2190952.pdf"> Datasheet </a>
<ESD Suppressors / TVS Diodes TVS</b><p>
<author>Created by SamacSys</author>
<b>SMAJ40CAe3/TR13-2</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>ESD Suppressors / TVS Diodes TVS</b><p>
Source: <a href="https://www.arrow.com/en/products/smaj40cae3tr13/microchip-technology?region=nac"> Datasheet </a>
<Zener Diode 5.1V 5% 500mW SOD123 Diodes Inc MMSZ5231B-7-F Zener Diode, 5.1V 5% 0.5 W SMT 2-Pin SOD-123</b><p>
<author>Created by SamacSys</author>
<b>SOD123-ren1</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>Zener Diode 5.1V 5% 500mW SOD123 Diodes Inc MMSZ5231B-7-F Zener Diode, 5.1V 5% 0.5 W SMT 2-Pin SOD-123</b><p>
Source: <a href="https://www.diodes.com/assets/Datasheets/ds18010.pdf"> Datasheet </a>
<h3>SparkFun Jumpers</h3>
In this library you'll find jumpers, or other semipermanent means of changing current paths. The least permanent form is the solder jumper. These can be changed by adding, removing, or moving solder. In cases that are less likely to be changed we have jumpers that are connected with traces. These can be cut with a razor, or reconnected with solder. Reference designator JP.
<br>
<br>
We've spent an enormous amount of time creating and checking these footprints and parts, but it is <b> the end user's responsibility</b> to ensure correctness and suitablity for a given componet or application.
<br>
<br>If you enjoy using this library, please buy one of our products at <a href=" www.sparkfun.com">SparkFun.com</a>.
<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
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
<h3>Normally closed solder jumper</h3>
<p>This jumper has an aperture in the stencil to allow solder paste to bridge the split in the wire so it's normally closed (NC). Wick off the solder to open the connection. Reapply solder to reclose the connection.</p>
<h3>Normally closed solder jumper (1 of 2 connections)</h3>
<p>This jumper has an aperture in the stencil to allow solder paste to bridge one of the two connections. One connection is normally closed (NC), while the other is normally open (NO). Wick off the solder to open the connection. Reapply solder to reclose the connection. Apply solder to the other side instead to change the current path.</p>
<h3>Normally open jumper</h3>
<p>This jumper has two pads in close proximity to each other. Apply solder to close the connection.</p>
<p>Round pads are easier to solder for beginners, but are a lot larger.</p>
<p>SparkFun Product that uses the round pads:
<ul><li><a href="https://www.sparkfun.com/products/12781">SparkFun EL Sequencer</a></li>
</ul></p>
<74LVC1G07 - Buffer with open-drain output@en-us</b><p>
<author>Created by SamacSys</author>
<b>TSSOP5</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>74LVC1G07 - Buffer with open-drain output@en-us</b><p>
Source: <a href="https://assets.nexperia.com/documents/data-sheet/74LVC1G07.pdf"> Datasheet </a>
<1-Channel industry standard low voltage operational amplifier</b><p>
<author>Created by SamacSys</author>
<b>DCK (R-PDSO-G5)</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>1-Channel industry standard low voltage operational amplifier</b><p>
Source: <a href="http://www.ti.com/lit/gpn/LM321LV"> Datasheet </a>
<ON Semiconductor MM3Z3V6T1G Zener Diode, 3.6V 5% 200 mW SMT 2-Pin SOD-323</b><p>
<author>Created by SamacSys</author>
<b>SOD-323 - case 477-02 - issue H</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>ON Semiconductor MM3Z3V6T1G Zener Diode, 3.6V 5% 200 mW SMT 2-Pin SOD-323</b><p>
Source: <a href="http://www.onsemi.com/pub/Collateral/MM3Z2V4T1-D.PDF"> Datasheet </a>
<Motor / Motion / Ignition Controllers & Drivers 37-V, 3.5-A brushed DC motor driver with integrated current sensing and current sense output 16-VQFN -40 to 125</b><p>
<author>Created by SamacSys</author>
<b>RGT001</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>Motor / Motion / Ignition Controllers & Drivers 37-V, 3.5-A brushed DC motor driver with integrated current sensing and current sense output 16-VQFN -40 to 125</b><p>
Source: <a href="http://www.ti.com/lit/gpn/drv8876"> Datasheet </a>
<MOSFET 60V P-CH TRENCHMOS SOT1220</b><p>
<author>Created by SamacSys</author>
<b>BUK6D120-60PX-1</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>MOSFET 60V P-CH TRENCHMOS SOT1220</b><p>
Source: <a href="https://componentsearchengine.com/Datasheets/2/BUK6D120-60PX.pdf"> Datasheet </a>
<Aluminum Electrolytic Capacitors - SMD 100uF 50V 20%</b><p>
<author>Created by SamacSys</author>
<b>EMZR500ARA101MF80G-1</b><br>
>NAME
>VALUE
>NAME
>VALUE
<b>Aluminum Electrolytic Capacitors - SMD 100uF 50V 20%</b><p>
Source: <a href="https://datasheet.datasheetarchive.com/originals/distributors/DKDS-39/4980.pdf"> Datasheet </a>
Copyright (c) 2013-2023 OpenMV <openmv@openmv.io>
This work is licensed under the Creative Commons Attribution-ShareAlike 3.0 License.
To view a copy of this license, visit http://creativecommons.org/licenses/by-sa/3.0/
FSYNC Input and Output
Mechanical
Shield Headers
* Buck output voltage is about 5.65V to be
5V after the diode forward voltage drop.
6V to 36V Buck
3.3V to 5V Boost
* 3.3V is used to create the 5V rail so it
can be turned off in low pwoer mode.
* The input buffer is powered by 3.3V so
that it can accept 3.3V inputs.
H-Bridge Drivers
Terminal
ADC Input
* The opamp is powered by 5V so that it
can pass 0-3.3V signals (0-5V on input).
* The shunt resistor when connected allows
the ADC circuit to read 4-20mA sensors.
* The front end scales a 0-5V signal down
to 0-3.3V. Reverse/Over-Voltage is clamped.
* The input buffer is open drain
so that SYNCIN is OR'ed with
multiple shields attached.
* PMODE States:
---Low--- (Speed/Direction Mode)
P8 = PWM
P8=0% -> Out3,Out4=L,L (motor break)
P8=1%-100% (below)
P12 = Direction
P12=L -> Out3,Out4=L,H (motor reverse)
P12=H -> Out3,Out4=H,L (motor forward)
---High--- (H-Bridge Mode - Can be PWMed)
P12,P8=L,L -> Out3,Out4=Hi-Z,Hi-Z (motor coast)
P12,P8=L,H -> Out3,Out4=H,L (motor forward)
P12,P8=H,L -> Out3,Out4=L,H (motor reverse)
P12,P8=H,H -> Out3,Out4=L,L (motor break)
---Float--- (Independent Mode - Can be PWMed)
P8=L -> Out3=L
P8=H -> Out3=H
P12=L -> Out4=L
P12=H -> Out4=H
---
The current is limited to 3A total for the chip.
* PMODE States:
---Low--- (Speed/Direction Mode)
P7 = PWM
P7=0% -> Out1,Out2=L,L (motor break)
P7=1%-100% (below)
P0 = Direction
P0=L -> Out1,Out2=L,H (motor reverse)
P0=H -> Out1,Out2=H,L (motor forward)
---High--- (H-Bridge Mode - Can be PWMed)
P0,P8=L,L -> Out1,Out2=Hi-Z,Hi-Z (motor coast)
P0,P8=L,H -> Out1,Out2=H,L (motor forward)
P0,P8=H,L -> Out1,Out2=L,H (motor reverse)
P0,P8=H,H -> Out1,Out2=L,L (motor break)
---Float--- (Independent Mode - Can be PWMed)
P7=L -> Out1=L
P7=H -> Out1=H
P0=L -> Out2=L
P0=H -> Out2=H
---
The current is limited to 3A total for the chip.
Since Version 6.2.2 text objects can contain more than one line,
which will not be processed correctly with this version.
Since Version 8.2, EAGLE supports online libraries. The ids
of those online libraries will not be understood (or retained)
with this version.
Since Version 8.3, EAGLE supports URNs for individual library
assets (packages, symbols, and devices). The URNs of those assets
will not be understood (or retained) with this version.
Since Version 8.3, EAGLE supports the association of 3D packages
with devices in libraries, schematics, and board files. Those 3D
packages will not be understood (or retained) with this version.
Since Version 8.4, EAGLE supports properties for SPICE simulation.
Probes in schematics and SPICE mapping objects found in parts and library devices
will not be understood with this version. Update EAGLE to the latest version
for full support of SPICE simulation.