<b>Arduino Uno</b>
<p>
Make a shield with ease, this package has all the named pins as well as the two mounting drill holes and an outline of the USB and DC power connector. The outline is on the DIMENSION layer, so if your board house uses it they will cut the outline to match.RST3v5vGndVinAnalog In012345ARefgnd131211109876543210Digital I/ODigital I/ORST3v5vGndVinAnalog In012345ARefgnd131211109876543210Digital I/ODigital I/ORST3v5vGndVinAnalog In012345ARefgnd131211109876543210Digital I/ODigital I/ORST3v5vGndVinAnalog In012345ARefgnd131211109876543210Digital I/ODigital I/OARDUINODuemilanoveDiecimilaUNO R1/R2<b>Arduino Diecimila/Duemilanove</b>
<p>
Make a shield with ease, this package has all the named pins as well as the two mounting drill holes and an outline of the USB and DC power connector. The outline is on the DIMENSION layer, so if your board house uses it they will cut the outline to match.
<p>
http://www.ladyada.net/library/pcb/eaglelibrary.html>NAME>VALUE>NAME>VALUESPI<b>TRINAMIC Energy Efficient Microstep Driver for up to 1.7A with coolStep™</b><p>
Information given in this library is believed to be accurate and reliable. However no warranty is given for its correctness.<p>
<a href="http://www.trinamic.com/tmc/media/Downloads/integrated_circuits/TMC262/TMC260_TMC261_TMC262_datasheet.pdf">Datasheet for TMC260/261/262</a>
<h2>Description</h2><h3>Energy Efficient Microstep Driver for up to 1.7A with coolStep™</h3><p>The TMC260 is the first energy efficient high precision microstepping driver IC for bipolar stepper motors with integrated power MOSFETs. The unique high resolution sensorless load detection stallGuard2™ is used to for the world™s first integrated load dependent current control feature called coolStep™. The ability to read out the load and detect an overload makes the TMC260 an optimum choice for drives where a high reliability is desired at a low cost. The new patented spreadCycle PWM mixed decay chopper scheme ensures best zero crossing performance as well as high speed operation. The TMC260 can be driven with Step & Direction signals as well as by serial SPI™ interface. Using the microPlyer allows to operate the motor with highest 256 ™Step smoothness reducing the input frequency to 16 ™Steps. A full set of protection and diagnostic features makes this device very rugged. It directly drives stepper motors with up to 1.7A. This way it reaches highest energy efficiency and allows driving of a high motor current without cooling measures even at high environment temperatures.</p><h2>Specifications</h2><h3>Main characteristics </h3><ul><li>2-phase bipolar stepper motor driver </li><li><strong>stallGuard2™</strong> sensorless load detection </li><li><strong>coolStep™</strong> load dependent current control </li><li>save up to 80% energy </li><li><strong>spreadCycle</strong> hysteresis PWM chopper </li><li>best current zero crossing performance </li><li>best sine wave form </li><li>256 ™Steps/fullstep (51200 pos/rev.) with a standard 200 step motor </li><li><strong>microPlyer </strong>16-to-256 ™Step multiplyer </li><li>full protection and diagnostics </li><li>lowest power dissipation </li><li>programmable slope control for low EME </li><li>standby and shutdown mode stall / load detection output </li><li>Low power consumption via low RDS-ON power stage </li></ul><h3>Interface </h3><ul><li>Step & Direction </li><li>easy-to-use SPI™ (20bit) </li></ul><h3>Electrical Data </h3><ul><li>up to 1.7A coil current (peak) </li><li>9V to 40V motor supply </li><li>3.3V or 5V operation for digital part </li></ul><h3>Package </h3><ul><li>TQFP44 10x10 mm² package </li><li>RoHS compliant </li></ul>>NAME>VALUE>NAME>NAME>VALUE>NAME>VALUE>NAME>VALUEThis footprint was designed to help hold the alignment of a through-hole component (i.e. 6-pin header) while soldering it into place.
You may notice that each hole has been shifted either up or down by 0.005 of an inch from it's more standard position (which is a perfectly straight line).
This slight alteration caused the pins (the squares in the middle) to touch the edges of the holes. Because they are alternating, it causes a "brace"
to hold the component in place. 0.005 has proven to be the perfect amount of "off-center" position when using our standard breakaway headers.
Although looks a little odd when you look at the bare footprint, once you have a header in there, the alteration is very hard to notice. Also,
if you push a header all the way into place, it is covered up entirely on the bottom side. This idea of altering the position of holes to aid alignment
will be further integrated into the Sparkfun Library for other footprints. It can help hold any component with 3 or more connection pins.>NAME>VALUE>NAME>VALUE>NAME>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>VALUE>NAME>VALUE>NAME>VALUEThis footprint was designed to help hold the alignment of a through-hole component (i.e. 6-pin header) while soldering it into place.
You may notice that each hole has been shifted either up or down by 0.005 of an inch from it's more standard position (which is a perfectly straight line).
This slight alteration caused the pins (the squares in the middle) to touch the edges of the holes. Because they are alternating, it causes a "brace"
to hold the component in place. 0.005 has proven to be the perfect amount of "off-center" position when using our standard breakaway headers.
Although looks a little odd when you look at the bare footprint, once you have a header in there, the alteration is very hard to notice. Also,
if you push a header all the way into place, it is covered up entirely on the bottom side. This idea of altering the position of holes to aid alignment
will be further integrated into the Sparkfun Library for other footprints. It can help hold any component with 3 or more connection pins.>NAME>VALUE>NAME>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<b>OMRON SWITCH</b>>NAMESmall solder jumper with big paste layer so it will short during reflow.>NAME>VALUESolder jumper, small, shorted with trace. No paste layer. Trace is cuttable.>NAME>VALUE>NAME>VALUESmall solder jumper with no paste layer so it will open after reflow.>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>Name>Value+-SS>NAME>VALUE>NAME>VALUE>NAME>VALUE2mm SMD side-entry connector. tDocu layer indicates the actual physical plastic housing. +/- indicate SparkFun standard batteries and wiring.>Name>Value+->Name>Value>NAME>VALUE>NAME>VALUEThis footprint was designed to help hold the alignment of a through-hole component (i.e. 6-pin header) while soldering it into place.
You may notice that each hole has been shifted either up or down by 0.005 of an inch from it's more standard position (which is a perfectly straight line).
This slight alteration caused the pins (the squares in the middle) to touch the edges of the holes. Because they are alternating, it causes a "brace"
to hold the component in place. 0.005 has proven to be the perfect amount of "off-center" position when using our standard breakaway headers.
Although looks a little odd when you look at the bare footprint, once you have a header in there, the alteration is very hard to notice. Also,
if you push a header all the way into place, it is covered up entirely on the bottom side. This idea of altering the position of holes to aid alignment
will be further integrated into the Sparkfun Library for other footprints. It can help hold any component with 3 or more connection pins.>NAME>VALUE>NAME>VALUE>NAME>VALUE>Name>Value+->NAME>VALUE>NAME>VALUE>Value>Name>NAME>VALUE>NAME>VALUE>NAME>VALUE>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 *UNPROVEN*>Value>Name>NAME>VALUE>NAME>VALUE>NAME>VALUE>Name>Value+-S>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>Value>Name>VALUE>NAME>VALUE>NAME>VALUE>VALUE>VALUE>NAME>NAME>VALUE>VALUE>NAME>VALUE>NAME>VALUE>NAME>VALUE>NAME<b>SUPPLY SYMBOL</b><b>SUPPLY SYMBOL</b><b>Solder Jumper</b>
Standard SMD solder jumper. Used to automate production. Two varients : Normally Open and Normally Closed are the same, but have different paste layers. NC will have a large amount of paste and should jumper during reflow.<b>Header 4</b>
Standard 4-pin 0.1" header. Use with straight break away headers (SKU : PRT-00116), right angle break away headers (PRT-00553), swiss pins (PRT-00743), machine pins (PRT-00117), and female headers (PRT-00115). Molex polarized connector foot print use with SKU : PRT-08231 with associated crimp pins and housings.<b>Header 2</b>
Standard 2-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-08233 with associated crimp pins and housings.<b>Header 1</b>
Standard 1-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>Power Jack</b>
This is the standard 5.5mm barrel jack for power. The PTH is the most common, proven, reliable, footprint. All others are experimental. The Slot footprint only works if the mill layer is transmitted to the PCB fab house so be warned. Spark Fun Electronics SKU : PRT-00119. Mating wall wart : TOL-00298 (and others)<b>Header 6</b>
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.
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 3</b>
Standard 3-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-08232 with associated crimp pins and housings.<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>Momentary Switch</b>
Button commonly used for reset or general input. Spark Fun Electronics SKU : COM-00097<b>CHICAGO MINIATURE LAMP, INC.</b><p>
7022X Series SMT LEDs 1206 Package Size>NAME>VALUE<B>LED</B><p>
5 mm, square, Siemens>NAME>VALUE<B>LED</B><p>
2 x 5 mm, rectangle>NAME>VALUE<B>LED</B><p>
3 mm, round>NAME>VALUE<B>LED</B><p>
5 mm, round>NAME>VALUE<B>LED</B><p>
1 mm, round, Siemens>NAME>VALUE<B>LED BLOCK</B><p>
1 LED, Siemens>NAME>VALUE<b>LED HOLDER</b><p>
Siemens>NAME>VALUE<b>LED HOLDER</b><p>
Siemens>NAME>VALUE<b>LED HOLDER</b><p>
SiemensA+K->NAME>VALUE<b>LED HOLDER</b><p>
Siemens>NAME>VALUE+-<B>IR LED</B><p>
infrared emitting diode, Infineon
TO-18, lead spacing 2.54 mm, cathode marking<p>
Inifineon>NAME>VALUE<B>IR LED</B><p>
infrared emitting diode, Infineon
TO-18, lead spacing 2.54 mm, cathode marking<p>
Inifineon>NAME>VALUE<B>LED</B><p>
rectangle, 5.7 x 3.2 mm>NAME>VALUE<B>IR LED</B><p>
IR transmitter Siemens>NAME>VALUE<b>TOPLED® High-optical Power LED (HOP)</b><p>
Source: http://www.osram.convergy.de/ ... ls_t675.pdf>NAME>VALUEAC<b>BLUE LINETM Hyper Mini TOPLED® Hyper-Bright LED</b><p>
Source: http://www.osram.convergy.de/ ... LB M676.pdfAC>NAME>VALUE<b>Super SIDELED® High-Current LED</b><p>
LG A672, LP A672 <br>
Source: http://www.osram.convergy.de/ ... LG_LP_A672.pdf (2004.05.13)CA>NAME>VALUE<b>SmartLEDTM Hyper-Bright LED</b><p>
Source: http://www.osram.convergy.de/ ... LA_LO_LS_LY L896.pdf>NAME>VALUE<b>Hyper TOPLED® RG Hyper-Bright LED</b><p>
Source: http://www.osram.convergy.de/ ... LA_LO_LS_LY T776.pdf>NAME>VALUEAC<b>Hyper Micro SIDELED®</b><p>
Source: http://www.osram.convergy.de/ ... LA_LO_LS_LY Y876.pdf>NAME>VALUE<b>Power TOPLED®</b><p>
Source: http://www.osram.convergy.de/ ... LA_LO_LA_LY E67B.pdf>NAME>VALUECACC<b>Hyper CHIPLED Hyper-Bright LED</b><p>
LB Q993<br>
Source: http://www.osram.convergy.de/ ... Lb_q993.pdf>NAME>VALUE<b>Hyper CHIPLED Hyper-Bright LED</b><p>
LB R99A<br>
Source: http://www.osram.convergy.de/ ... lb_r99a.pdf>NAME>VALUE<b>Mini TOPLED Santana®</b><p>
Source: http://www.osram.convergy.de/ ... LG M470.pdf>NAME>VALUE<b>CHIPLED</b><p>
Source: http://www.osram.convergy.de/ ... LG_R971.pdf>NAME>VALUE<b>CHIPLED</b><p>
Source: http://www.osram.convergy.de/ ... LG_LY N971.pdf>NAME>VALUE<b>CHIPLED</b><p>
Source: http://www.osram.convergy.de/ ... LG_LY Q971.pdf>NAME>VALUE<b>CHIPLED-0603</b><p>
Recommended Solder Pad useable for SmartLEDTM and Chipled - Package 0603<br>
Package able to withstand TTW-soldering heat<br>
Package suitable for TTW-soldering<br>
Source: http://www.osram.convergy.de/ ... LO_LS_LY L89K.pdf>NAME>VALUE<b>SmartLED TTW</b><p>
Recommended Solder Pad useable for SmartLEDTM and Chipled - Package 0603<br>
Package able to withstand TTW-soldering heat<br>
Package suitable for TTW-soldering<br>
Source: http://www.osram.convergy.de/ ... LO_LS_LY L89K.pdf>NAME>VALUE<b>Lumileds Lighting. LUXEON®</b> with cool pad<p>
Source: K2.pdf>NAME>VALUE<b>Lumileds Lighting. LUXEON®</b> without cool pad<p>
Source: K2.pdf>NAME>VALUE<B>LED</B><p>
10 mm, round>NAME>VALUE<b>SURFACE MOUNT LED LAMP</b> 3.5x2.8mm<p>
Source: http://www.kingbright.com/manager/upload/pdf/KA-3528ASYC(Ver1189474662.1)>NAME>VALUE>NAME>VALUE<b>LED</b><p>
<u>OSRAM</u>:<br>
- <u>CHIPLED</u><br>
LG R971, LG N971, LY N971, LG Q971, LY Q971, LO R971, LY R971
LH N974, LH R974<br>
LS Q976, LO Q976, LY Q976<br>
LO Q996<br>
- <u>Hyper CHIPLED</u><br>
LW Q18S<br>
LB Q993, LB Q99A, LB R99A<br>
- <u>SideLED</u><br>
LS A670, LO A670, LY A670, LG A670, LP A670<br>
LB A673, LV A673, LT A673, LW A673<br>
LH A674<br>
LY A675<br>
LS A676, LA A676, LO A676, LY A676, LW A676<br>
LS A679, LY A679, LG A679<br>
- <u>Hyper Micro SIDELED®</u><br>
LS Y876, LA Y876, LO Y876, LY Y876<br>
LT Y87S<br>
- <u>SmartLED</u><br>
LW L88C, LW L88S<br>
LB L89C, LB L89S, LG L890<br>
LS L89K, LO L89K, LY L89K<br>
LS L896, LA L896, LO L896, LY L896<br>
- <u>TOPLED</u><br>
LS T670, LO T670, LY T670, LG T670, LP T670<br>
LSG T670, LSP T670, LSY T670, LOP T670, LYG T670<br>
LG T671, LOG T671, LSG T671<br>
LB T673, LV T673, LT T673, LW T673<br>
LH T674<br>
LS T676, LA T676, LO T676, LY T676, LB T676, LH T676, LSB T676, LW T676<br>
LB T67C, LV T67C, LT T67C, LS T67K, LO T67K, LY T67K, LW E67C<br>
LS E67B, LA E67B, LO E67B, LY E67B, LB E67C, LV E67C, LT E67C<br>
LW T67C<br>
LS T679, LY T679, LG T679<br>
LS T770, LO T770, LY T770, LG T770, LP T770<br>
LB T773, LV T773, LT T773, LW T773<br>
LH T774<br>
LS E675, LA E675, LY E675, LS T675<br>
LS T776, LA T776, LO T776, LY T776, LB T776<br>
LHGB T686<br>
LT T68C, LB T68C<br>
- <u>Hyper Mini TOPLED®</u><br>
LB M676<br>
- <u>Mini TOPLED Santana®</u><br>
LG M470<br>
LS M47K, LO M47K, LY M47K
<p>
Source: http://www.osram.convergy.de<p>
<u>LUXEON:</u><br>
- <u>LUMILED®</u><br>
LXK2-PW12-R00, LXK2-PW12-S00, LXK2-PW14-U00, LXK2-PW14-V00<br>
LXK2-PM12-R00, LXK2-PM12-S00, LXK2-PM14-U00<br>
LXK2-PE12-Q00, LXK2-PE12-R00, LXK2-PE12-S00, LXK2-PE14-T00, LXK2-PE14-U00<br>
LXK2-PB12-K00, LXK2-PB12-L00, LXK2-PB12-M00, LXK2-PB14-N00, LXK2-PB14-P00, LXK2-PB14-Q00<br>
LXK2-PR12-L00, LXK2-PR12-M00, LXK2-PR14-Q00, LXK2-PR14-R00<br>
LXK2-PD12-Q00, LXK2-PD12-R00, LXK2-PD12-S00<br>
LXK2-PH12-R00, LXK2-PH12-S00<br>
LXK2-PL12-P00, LXK2-PL12-Q00, LXK2-PL12-R00
<p>
Source: www.luxeon.com<p>
<u>KINGBRIGHT:</U><p>
KA-3528ASYC<br>
Source: www.kingbright.com<b>POLCAP RADIAL</b><p>
1.0 mm lead spacing, 3 mm diameter, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b><p>
2.0 mm lead spacing, 5 mm diameter, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b><p>
2.5 mm lead spacing, 6 mm diameter, grid 0.0125 inch>NAME>VALUE<b>POLCAP RADIAL</b><p>
2.5 mm lead spacing, 6.5 mm diameter, grid 0.0125 inch>NAME>VALUE<b>POLCAP RADIAL</b><p>
3.5 mm lead spacing, 10 mm diameter, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b><p>
3.5 mm lead spacing, 8 mm diameter, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b><p>
5.0 mm lead spacing, 10 mm diameter, grid 0.0125 inch>NAME>VALUE<b>POLCAP RADIAL</b><p>
5.0 mm lead spacing, 12 mm diameter, grid 0.0125 inch>NAME>VALUE<b>POLCAP RADIAL</b><p>
7.5 mm lead spacing, 16 mm diameter, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b><p>
7.5 mm lead spacing, 18 mm diameter, grid 0.0125 inch>VALUE>NAME<b>POLCAP AXIAL</b><p>
10 mm lead spacing, 10 mm body, grid 0.0125 inch>NAME>VALUE<b>POLCAP AXIAL</b><p>
25 mm lead spacing, 10 mm body, grid 0.0125 inch>NAME>VALUE<b>POLCAP AXIAL</b><p>
25 mm lead spacing, 12 mm body, grid 0.0125 inch>NAME>VALUE<b>POLCAP AXIAL</b><p>
31 mm lead spacing, 12 mm body, grid 0.0125 inch>NAME>VALUE<b>POLCAP AXIAL</b><p>
25 mm lead spacing, 16 mm body, grid 0.0125 inch>NAME>VALUE<b>POLCAP AXIAL</b><p>
31 mm lead spacing, 16 mm body, grid 0.0125 inch>NAME>VALUE<b>POLCAP AXIAL</b><p>
40 mm lead spacing, 18 mm body, grid 0.0125 inch>NAME>VALUE<b>POLCAP AXIAL</b><p>
40 mm lead spacing, 22 mm body, grid 0.0125 inch>NAME>VALUE<b>POLCAP AXIAL</b><p>
50 mm lead spacing, 22 mm body, grid 0.0125 inch>NAME>VALUE<b>POLCAP AXIAL</b><p>
7 mm lead spacing, 3.5 mm body, grid 0.0125 inch>NAME>VALUE<b>POLCAP AXIAL</b><p>
10 mm lead spacing, 4.5 mm body, grid 0.0125 inch>NAME>VALUE<b>POLCAP AXIAL</b><p>
10 mm lead spacing, 6.3 mm body, grid 0.0125 inch>NAME>VALUE<b>POLCAP AXIAL</b><p>
16 mm lead spacing, 8 mm body, grid 0.0125 inch>NAME>VALUE<b>POLCAP AXIAL</b><p>
20 mm lead spacing, 8 mm body, grid 0.0125 inch>NAME>VALUE<b>POLCAP SNAP-IN RADIAL</b> - Panasonic<p>
TS Snap-In Series 10 mm lead spacing, 20 mm diameter, grid 0.0125 inch>VALUE>NAME<b>POLCAP SNAP-IN RADIAL</b> - Panasonic<p>
TS Snap-In Series 10 mm lead spacing, 22 mm diameter, grid 0.0125 inch>VALUE>NAME<b>POLCAP SNAP-IN RADIAL</b> - Panasonic<p>
TS Snap-In Series 10 mm lead spacing, 25 mm diameter, grid 0.0125 inch>VALUE>NAME<b>POLCAP SNAP-IN RADIAL</b> - Panasonic<p>
TS Snap-In Series 10 mm lead spacing, 30 mm diameter, grid 0.0125 inch>VALUE>NAME<b>POLCAP SNAP-IN RADIAL</b> - Panasonic<p>
TS Snap-In Series 10 mm lead spacing, 35 mm diameter, grid 0.0125 inch>VALUE>NAME<b>POLCAP SNAP-IN RADIAL</b> - Panasonic<p>
TS Snap-In Series 10 mm lead spacing, 40 mm diameter, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b><p>
5.0 mm lead spacing, 12.5 mm diameter, grid 0.0125 inch>NAME>VALUE<b>SMD TANTALUM</b> - Panasonic Size D<p>
EIA Code 7343, Size D, 7.3 mm x 4.3 mm, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal<p>
1.5 mm lead spacing, 4 mm diameter, 11 mm length, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal<p>
1.5 mm lead spacing, 4 mm diameter, 7 mm length, grid 0.00625 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal<p>
2.0 mm lead spacing, 5 mm diameter, 11 mm length, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal<p>
2.0 mm lead spacing, 5 mm diameter, 15 mm length, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal<p>
2.5 mm lead spacing, 6 mm diameter, 11 mm length, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal<p>
2.5 mm lead spacing, 6 mm diameter, 15 mm length, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal<p>
5.0 mm lead spacing, 10 mm diameter, 12 mm length, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal<p>
5.0 mm lead spacing, 10 mm diameter, 20 mm length, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal Rotated<p>
5.0 mm lead spacing, 10 mm diameter, 12 mm length, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal Rotated<p>
1.5 mm lead spacing, 4 mm diameter, 11 mm length, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal Rotated<p>
1.5 mm lead spacing, 4 mm diameter, 7 mm length, grid 0.00625 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal Rotated<p>
2.0 mm lead spacing, 5 mm diameter, 11 mm length, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal Rotated<p>
2.0 mm lead spacing, 5 mm diameter, 15 mm length, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal Rotated<p>
2.5 mm lead spacing, 6 mm diameter, 11 mm length, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal Rotated<p>
2.5 mm lead spacing, 6 mm diameter, 15 mm length, grid 0.0125 inch>VALUE>NAME<b>POLCAP SCREW MOUNT</b><p>
AA-Series Computer Grade, 12.7 mm lead spacing, 35 mm diameter, grid 0.0125 inch>VALUE>NAMEAA-Series<b>POLCAP SCREW MOUNT</b><p>
AA-Series Computer Grade, 22.7 mm lead spacing, 51 mm diameter, grid 0.0125 inch>VALUE>NAMEAA-Series<b>POLCAP SCREW MOUNT</b><p>
AA-Series Computer Grade, 28.6 mm lead spacing, 64 mm diameter, grid 0.0125 inch>VALUE>NAMEAA-Series<b>POLCAP SCREW MOUNT</b><p>
AA-Series Computer Grade, 31.8 mm lead spacing, 79 mm diameter, grid 0.0125 inch>VALUE>NAMEAA-Series<b>POLCAP TANTALUM</b><p>
2.5 mm lead spacing, 10 mm diameter, grid 0.0125 inch>NAME>VALUE<b>POLCAP TANTALUM</b><p>
2.5 mm lead spacing, 3 mm diameter, grid 0.0125 inch>NAME>VALUE<b>POLCAP TANTALUM</b><p>
2.5 mm lead spacing, 4 mm diameter, grid 0.0125 inch>NAME>VALUE<b>POLCAP TANTALUM</b><p>
2.5 mm lead spacing, 5 mm diameter, grid 0.0125 inch>NAME>VALUE<b>POLCAP TANTALUM</b><p>
2.5 mm lead spacing, 7 mm diameter, grid 0.0125 inch>NAME>VALUE<b>POLCAP TANTALUM</b><p>
5.0 mm lead spacing, 10 mm diameter, grid 0.0125 inch>NAME>VALUE<b>POLCAP TANTALUM</b><p>
5.0 mm lead spacing, 8 mm diameter, grid 0.0125 inch>NAME>VALUE<b>SMD CHIP TANT</b> - Panasonic Size A <p>
EIA Code 3216, 3.2 mm x 1.6 mm, grid 0.0125 inch>VALUE>NAME<b>SMD CHIP TANT</b> - Panasonic Size B<p>
EIA Code 3528, 3.5 mm x 2.8 mm, grid 0.0125 inch>VALUE>NAME<b>SMD CHIP TANT</b> - Panasonic Size C<p>
EIA Code 6032, 6.0 mm x 3.2 mm, grid 0.0125 inch>VALUE>NAME<b>SMD ELECTROLYTIC</b> - Panasonic A<p>
3 mm dia, grid 0.0125 inch>NAME>VALUE<b>SMD ELECTROLYTIC</b> - Panasonic B<p>
4 mm dia, grid 0.0125 inch>NAME>VALUE<b>SMD ELECTROLYTIC</b> - Panasonic C<p>
5 mm dia, grid 0.0125 inch>NAME>VALUE<b>SMD ELECTROLYTIC</b> - Panasonic D<p>
6.3 mm dia, grid 0.0125 inch>NAME>VALUE<b>SMD ELECTROLYTIC</b> - Panasonic E/F<p>
8 mm dia, grid 0.0125 inch>NAME>VALUE<b>SMD ELECTROLYTIC</b> - Panasonic G<p>
10 mm dia, grid 0.0125 inch>NAME>VALUE<b>SMD CHIP TANT</b><p>
chip tantalum>NAME>VALUE<b>SMD CHIP TANT</b> - KEMET A / EIA 3216-18 Reflow solder<p>
KEMET S / EIA 3216-12>NAME>VALUE<b>SMD CHIP TANT</b> - KEMET A / EIA 3216-18 Wave solder<p>
KEMET S / EIA 3216-12>NAME>VALUE<b>SMD CHIP TANT</b><p>
chip tantalum>NAME>VALUE<b>SMD CHIP TANT</b> - KEMET B / EIA 3528-21 Reflow solder<p>
KEMET T / EIA 3528-12>NAME>VALUE<b>SMD CHIP TANT</b> - KEMET B / EIA 3528-21 Wave solder<p>
KEMET T / EIA 3528-12>NAME>VALUE<b>SMD CHIP TANT</b><p>
chip tantalum>NAME>VALUE<b>SMD CHIP TANT</b> - KEMET C / EIA 6032-28 Reflow solder<p>
KEMET U / EIA 6032-15>NAME>VALUE<b>SMD CHIP TANT</b> - KEMET C / EIA 6032-28 Wave solder<p>
KEMET U / EIA 6032-15>NAME>VALUE<b>SMD CHIP TANT</b><p>
chip tantalum>NAME>VALUE<b>SMD POLCAP</b> - reflow soldering<p>
SMD (Chip) Long Life 139 CLL<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b> - wave soldering<p>
SMD (Chip) Long Life 139 CLL<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b> - wave soldering<p>
SMD (Chip) Long Life 139 CLL<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
Long life base plate, High temperature 140 CLH<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
Long life base plate, High temperature 140 CLH<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
Long life base plate, High temperature 140 CLH<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
Long life base plate, very low impedance 150 CLZ<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
Long life base plate, very low impedance 150 CLZ<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
Long life base plate, very low impedance 150 CLZ<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
SMD (Chip) Long Life Vertical 153 CLV<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
High Temperature solid electrolytic SMD 175 TMP<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD POLCAP</b><p>
High Temperature solid electrolytic SMD 175 TMP<p>
http://www.bccomponents.com/>NAME>VALUE<b>SMD ELECTROLYTIC</b> - Panasonic H<p>
12.5 mm dia, grid 0.0125 inch>NAME>VALUE<b>SMD ELECTROLYTIC</b> - Panasonic J<p>
16 mm dia, grid 0.0125 inch>NAME>VALUE<b>SMD ELECTROLYTIC</b> - Panasonic K<p>
18 mm dia, grid 0.0125 inch>NAME>VALUE<b>GOLD CAP</b> - Panasonic<p>
SD Series, Horizontal mount>NAME>VALUE<b>GOLD CAP</b> - Panasonic<p>
SD Series, Vertical mount>NAME>VALUE<b>POLCAP RADIAL</b><p>
1.5 mm lead spacing, 4 mm diameter, grid 0.0125 inch>VALUE>NAME<b>POLCAP RADIAL</b><p>
2.0 mm lead spacing, 6 mm diameter, grid 0.0125 inch>NAME>VALUE<b>POLCAP RADIAL</b><p>
2.5 mm lead spacing, 7.5 mm diameter, grid 0.0125 inch>NAME>VALUE<b>POLCAP RADIAL</b><p>
2.5 mm lead spacing, 8.5 mm diameter, grid 0.0125 inch>NAME>VALUE<b>POLCAP RADIAL</b> - Horizontal<p>
3.5 mm lead spacing, 8 mm diameter, 11.5 mm length, grid 0.00625 inch>VALUE>NAME<b>POLCAP RADIAL</b> - Horizontal Rotated<p>
3.5 mm lead spacing, 8 mm diameter, 11.5 mm length, grid 0.00625 inch>VALUE>NAME>NAME>VALUE+<B>POLARIZED CAP</B><b>SMD RESISTOR</b> - 0402>NAME>VALUE<b>SMD RESISTOR</b> - 0603>NAME>VALUE<b>SMD RESISTOR</b> - 0805>NAME>VALUE<b>SMD RESISTOR</b> - 1005>NAME>VALUE<b>SMD RESISTOR</b> - 1206>NAME>VALUE<b>SMD RESISTOR</b> - 1210>NAME>VALUE<b>SMD RESISTOR</b> - 2010>NAME>VALUE<b>SMD RESISTOR</b> - 2012>NAME>VALUE<b>SMD RESISTOR</b> - 2512>NAME>VALUE<b>SMD RESISTOR</b> - 3216>NAME>VALUE<b>SMD RESISTOR</b> - 3225>NAME>VALUE<b>SMD RESISTOR</b> - 5025>NAME>VALUE<b>SMD RESISTOR</b> - 6332>NAME>VALUE<b>SMD RESISTOR</b> - 0201>NAME>VALUE<b>SMD CHIP CAP</b> - 1812>NAME>VALUE<b>SMD CHIP CAP</b> - KEMET 1812 Reflow solder<p>
Metric Code Size 4532>NAME>VALUE<b>SMD CHIP CAP</b> - 1825>NAME>VALUE<b>SMD CHIP CAP</b> - KEMET 1825 Reflow solder<p>
Metric Code Size 4564>NAME>VALUE<b>SMD CHIP CAP</b> - 2012>NAME>VALUE<b>SMD CHIP CAP</b> - KEMET 2220 Reflow solder<p>
Metric Code Size 5650>NAME>VALUE<b>SMD CHIP CAP</b> - KEMET 2225 Reflow solder<p>
Metric Code Size 5664>NAME>VALUE<b>SMD CHIP CAP</b> - 3216>NAME>VALUE<b>SMD CHIP CAP</b> - 3225>NAME>VALUE<b>SMD CHIP CAP</b> - 4532>NAME>VALUE<b>SMD CHIP CAP</b> - 4564>NAME>VALUE<b>SMD CHIP CAP</b> - 0402>NAME>VALUE<b>SMD CHIP CAP</b> - 0603>NAME>VALUE<b>SMD CHIP CAP</b> - 0805>NAME>VALUE<b>SMD CHIP CAP</b> - 1206>NAME>VALUE<b>SMD CHIP CAP</b> - 1210>NAME>VALUE<b>SMD CHIP CAP</b> - 0201>NAME>VALUE<b>SMD CHIP CAP</b> - 1608>NAME>VALUE<b>SMD CHIP CAP</b> - 1808>NAME>VALUE>NAME>VALUE12>NAME>VALUE<B>RESISTOR</B><b>NON-POLARIZED CAP</b><b>SOT-23</b>>NAME>VALUESOT323 Philips>NAME>VALUE<b>TO-236</b> ITT Intermetall>NAME>VALUE>NAME>VALUE>NAME>VALUE<b>NPN TRANSISTOR</b><b>PNP Transistror</b>>NAME>NAME>NAME<b>Frames for Sheet and Layout</b>Date:>LAST_DATE_TIMESheet:>SHEETREV:TITLE:Document Number:>DRAWING_NAME<b>FRAME</b><p>
DIN A4, landscape with extra doc fieldTOS-100 Arduino ShieldThis work is licensed under a Creative Commons Attribution 3.0
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