<h2>microBuilder.eu Eagle Footprint Library</h2> Footprints for common components used in our projects and products. This is the same library that we use internally, and it is regularly updated. The newest version can always be found at www.microBuilder.eu. If you find this library useful, please feel free to purchase something from our online store. Please also note that all holes are optimised for metric drill bits! <h3>Obligatory Warning</h3> While it probably goes without saying, there are no guarantees that the footprints or schematic symbols in this library are flawless, and we make no promises of fitness for production, prototyping or any other purpose. These libraries are provided for information puposes only, and are used at your own discretion. While we make every effort to produce accurate footprints, and many of the items found in this library have be proven in production, we can't make any promises of suitability for a specific purpose. If you do find any errors, though, please feel free to contact us at www.microbuilder.eu to let us know about it so that we can update the library accordingly! <h3>License</h3> This work is placed in the public domain, and may be freely used for commercial and non-commercial work with the following conditions: THIS SOFTWARE IS PROVIDED ''AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. >NAME >VALUE 0603-Mini Mini footprint for dense boards >NAME >VALUE >NAME >VALUE 0402 >NAME >VALUE 0402 MicroPitch >NAME >VALUE 0603 >NAME >VALUE 0603 MicroPitch >NAME >VALUE 0805 >NAME >VALUE 0805 MicroPitch >NAME >VALUE >NAME >VALUE >NAME >VALUE >NAME >VALUE >NAME >VALUE >NAME >VALUE Inductor - 1007 (2518 Metric) L: 2.5mm x W: 1.8mm x H: 1.8mm >NAME >VALUE 0603 (1608 Metric) >NAME >VALUE 0805 (2012 Metric) >NAME >VALUE Source: http://www.tdk.co.jp/tefe02/e531_vlc6045.pdf >NAME >VALUE Source: http://www.tdk.co.jp/tefe02/e531_slf6045.pdf >NAME >VALUE Source: http://www.tdk.co.jp/tefe02/e531_vlc5045.pdf >NAME >VALUE >NAME >VALUE >NAME >VALUE Source: http://www.sumida.com/products/pdf/CDRH5D28,5D28R,5D28RHP.pdf >NAME >VALUE >NAME >VALUE >NAME >VALUE >NAME >VALUE 1mm FIDUCIAL MARKER round, layers 1 + 16 + 21 + 39 + 49 3,0 1,0 2,0 4UCONN: 19269 4UCONN: 19268 4UCONN: 19267 http://www.4uconnector.com/online/Itemadrawing.asp?fldseries=19267&seriesno_a=18 >NAME >VALUE >NAME >VALUE >NAME >VALUE RESISTOR 2512 (Metric 6432) >NAME >VALUE SMA Surface Mount Diode >NAME >VALUE >Name >Value SOT23 - Reflow soldering >NAME >VALUE SOD-523 (0.8x1.2mm) Source: http://www.rohm.com/products/databook/di/pdf/rb751s-40.pdf >NAME >VALUE SOD323 (2.5x1.2mm) >NAME >VALUE SOD-123 Source: http://www.diodes.com/datasheets/ds30139.pdf >NAME >VALUE >NAME >VALUE >NAME >VALUE Small Outline Transistor - 5 Pin >NAME >VALUE SMD CRYSTAL >NAME >VALUE 32.768KHz Crystal - SMT Cylinder >NAME >VALUE 3.2mm x 2.5mm Thin SMT Crystal >NAME >VALUE 4.9mm x 1.8mm Thin SMT Crystal Epson Toyocom FCC-255 >NAME >VALUE 8.0x3.8x2.5mm SMT Crystal Source: http://www.abracon.com/Resonators/abs25.pdf >NAME >VALUE >NAME >VALUE >NAME >VALUE >NAME >VALUE PROPRIETARY THIS DRAWING CONTAINS CONFIDENTIAL INFORMATION. ANY REPRODUCTION IN PART OR WHOLE IS STRICTLY PROHIBITED WITHOUT WRITTEN PERMISSION! Frame doc - Courtesy Robert Starr (bobstarr.net) >SHEET REV TITLE DRG o >DRAWING_NAME N DATE >LAST_DATE_TIME 2013 C ISSUE DRAWN CHECKED DATE >COMPANY FILE: PAGE: >DRAWN >CHECKED >DATE >DRGNO >REV >NAME >VALUE >VALUE >NAME >VALUE >NAME >VALUE >NAME >VALUE >NAME >VALUE >NAME >VALUE >NAME >VALUE >NAME >VALUE >NAME >VALUE FRAME DIN A4, landscape with location and doc. field Si4712/13 FM Radio Transmitter and Receiver <ul> <li>VDD: 2.7-5.5V</li> <li>FM Band: 76-108MHz</li> </ul> GND Ceramic Capacitors For new designs, use the packages preceded by an '_' character since they are more reliable: The following footprints should be used on most boards: <ul> <li>_0402 - Standard footprint for regular board layouts</li> <li>_0603 - Standard footprint for regular board layouts</li> <li>_0805 - Standard footprint for regular board layouts</li> <li>_1206 - Standard footprint for regular board layouts</li> </ul> For extremely tight-pitch boards where space is at a premium, the following 'micro-pitch' footprints can be used (smaller pads, no silkscreen outline, etc.): <ul> <li>_0402MP - Micro-pitch footprint for very dense/compact boards</li> <li>_0603MP - Micro-pitch footprint for very dense/compact boards</li> <li>_0805MP - Micro-pitch footprint for very dense/compact boards</li> <li>_1206MP - Micro-pitch footprint for very dense/compact boards</li> </ul> Inductors 0603: <ul> <li>10nH Ceramic Inductor - microwire antenna/RF (Digikey: 712-1434-2-ND)</li> </ul> 0805: <ul> <li>560nH Ceramic Inductor - RF (Digikey: 553-1047-1-ND)</li> <li>270nH Ceramic Inductor - Q = 40@250MHz, +-5%, 1 Ohm DC Resistance (Digikey: 535-10506-2-ND)</li> </ul> 1007 (2518 Metric) SMT: <ul> <li>10µH 10% 250mOhm 820mA 1007 Inductor (Digikey: 587-2189-1-ND)</li> <li>22µH 10% 500mOhm 580mA 1007 Inductor (Digikey: 587-2190-1-ND)</li> <li>47µH 10% 950mOhm 420mA 1007 Inductor (Digikey: 587-2191-1-ND)</li> <li>47µH 5% 100mOhm 1A 1008 Inductor (Digikey: 732-1816-1-ND)</li> </ul> 5.0x5.0mm (Taiyo Yuden NR5040 Series) <ul> <li>6.8µH 20% 2.3A 64mOhm Inductor (Digikey: 587-2374-2-ND)</li> </ul> 5.0x5.0mm (TDK VLC5045 Series) <ul> <li>4.7µH 20% 3.3A 34mOhm Inductor (Digikey: 445-6526-1-ND)</li> <li>6.8µH 20% 2.7A 46mOhm Inductor (Digikey: 445-6527-1-ND)</li> </ul> 6.0x6.0mm (TDK VLC6045 Series) <ul> <li>4.7µH 20% 3.8A 27mOhm Inductor (Digikey: 445-6538-2-ND)</li> <li>6.8µH 20% 3A 41mOhm Inductor (Digikey: 445-6540-1-ND)</li> <li>6.2µH 30% 2.2A 45mOhm Inductor (Digikey: SRR5028-6R2YCT-ND) - Not TDK VLC6045 but footprint should match</li> </ul> 6.0x6.0mm (TDK SLF6045 Series) <ul> <li>6.8uH 30% 2A 33mOhm Inductor (Digikey: 445-4572-1-ND, Mouser: 810-SLF645T6R8N2R0PF)</li> </ul> 6.0x6.0mm (Sumida CDRH5D28 Series) <ul> <li>6.2uH 30% 1.8A 45mOhm Inductor (Digikey: 308-1542-1-ND)</li> </ul> Taiyo Yuden NR3015T2R2M - 2.2uH 20% 1.5A (Digikey: 587-1648-2-ND, Mouser: 963-NR3015T2R2M) - Used with TI TPS62172 CoilCraft RFID Transponder Coil - MA5532-AE (For use with AS3935 Lightning Sensor) Fiducial Alignment Points Various fiducial points for machine vision alignment. Mounting Hole For #2 screws (0.086"/2.18mm width, 0.094"/2.4mm hole) use 2.5mm 3.5MM Audio Jack These are normally connected as follows, from left-to right on the schematic symbol above: <ul> <li>Tip: Left Audio</li> <li>Inner Ring: Right Audio</li> <li>Shell: Common/GND</li> </ul> Resistors For new designs, use the packages preceded by an '_' character since they are more reliable: The following footprints should be used on most boards: <ul> <li>_0402 - Standard footprint for regular board layouts</li> <li>_0603 - Standard footprint for regular board layouts</li> <li>_0805 - Standard footprint for regular board layouts</li> <li>_1206 - Standard footprint for regular board layouts</li> </ul> For extremely tight-pitch boards where space is at a premium, the following 'micro-pitch' footprints can be used (smaller pads, no silkscreen outline, etc.): <ul> <li>_0402MP - Micro-pitch footprint for very dense/compact boards</li> <li>_0603MP - Micro-pitch footprint for very dense/compact boards</li> <li>_0805MP - Micro-pitch footprint for very dense/compact boards</li> <li>_1206MP - Micro-pitch footprint for very dense/compact boards</li> </ul> Diode <h3>SMA</h3> <table cellpadding="5" width="600"> <tr bgcolor="#DDDDDD"> <td>Model</td> <td>Volts</td> <td>Amps</td> <td>Type</td> <td>Vf</td> <td>Ir</td> <td>Digikey #</td> <td>Notes</td> </tr> <tr> <td>SSA34-E3</td> <td>40V</td> <td>3A</td> <td>Schottky</td> <td>480mV @ 3A</td> <td>200uA @ 40V</td> <td>SSA34-E3/61TGITR-ND</td> <td></td> </tr> <tr> <td>CDBA120-G</td> <td>20V</td> <td>1A</td> <td>Schottky</td> <td>500mV @ 1A</td> <td>500uA @ 20V</td> <td>641-1014-6-ND</td> <td>REEL</td> </tr> <tr> <td>MBRA210</td> <td>10V</td> <td>2A</td> <td>Schottky</td> <td>350mV @ 2A</td> <td>700uA @ 10V</td> <td>MBRA210LT3</td> <td></td> </tr> </table> <h3>SOD-123</h3> <table cellpadding="5" width="600"> <tr bgcolor="#DDDDDD"> <td>Model</td> <td>Volts</td> <td>Amps</td> <td>Type</td> <td>Vf</td> <td>Ir</td> <td>Order #</td> <td>Notes</td> </tr> <tr> <td>BAT54T1G</td> <td>30V</td> <td>200mA</td> <td>Schottky</td> <td>800mV @ 200mA</td> <td>2uA @ 25V</td> <td>BAT54T1GOSTR-ND</td> <td></td> </tr> <tr> <td>B0530W</td> <td>30V</td> <td>500mA</td> <td>Schottky</td> <td>430mV @ 500mA</td> <td>130uA @ 30V</td> <td>B0530W-FDICT-ND</td> <td>REEL</td> </tr> <tr> <td>MBR120</td> <td>20V</td> <td>1A</td> <td>Schottky</td> <td>340mV @ 1A</td> <td></td> <td>MBR120VLSFT1GOSCT-ND</td> <td></td> </tr> </table> <h3>SOD-323</h3> <table cellpadding="5" width="600"> <tr bgcolor="#DDDDDD"> <td>Model</td> <td>Volts</td> <td>Amps</td> <td>Type</td> <td>Vf</td> <td>Ir</td> <td>Order #</td> <td>Notes</td> </tr> <tr> <td>PMEG2005EJ</td> <td>20V</td> <td>500mA</td> <td>Schottky</td> <td>355mV @ 500mA</td> <td></td> <td>568-4110-1-ND</td> <td></td> </tr> <tr> <td>ZLLS410</td> <td>10V</td> <td>570mA</td> <td>Schottky</td> <td>380mV @ 570mA</td> <td></td> <td>ZLLS410CT-ND</td> <td></td> </tr> <tr> <td>1N4148WS</td> <td>75V</td> <td>150mA</td> <td>Silicon/Simple</td> <td>1V</td> <td></td> <td>1N4148WSFSCT-ND</td> <td>REEL</td> </tr> </table> <h3>SOD-523</h3> <table cellpadding="5" width="600"> <tr bgcolor="#DDDDDD"> <td>Model</td> <td>Volts</td> <td>Amps</td> <td>Type</td> <td>Vf</td> <td>Ir</td> <td>Order #</td> <td>Notes</td> </tr> <tr> <td>BAT54XV2</td> <td>30V</td> <td>200mA</td> <td>Schottky</td> <td>0.8V @ 100mA</td> <td></td> <td>BAT54XV2CT-ND</td> <td></td> </tr> <tr> <td>TB751S</td> <td>30V</td> <td>30mA</td> <td>Schottky</td> <td></td> <td></td> <td>RB751S-40TE61CT-ND</td> <td></td> </tr> </table> <h3>SOT23-R/W</h3>(R = Solder Paste/Reflow Ovens, W = Hand-Soldering) <table cellpadding="5" width="600"> <tr bgcolor="#DDDDDD"> <td>Model</td> <td>Volts</td> <td>Amps</td> <td>Type</td> <td>Vf</td> <td>Ir</td> <td>Order #</td> <td>Notes</td> </tr> <tr> <td>BAT54FILM</td> <td>40V</td> <td>300mA</td> <td>Schottky</td> <td></td> <td></td> <td>497-7162-1-ND</td> <td></td> </tr> </table> <h3>POWERDI-5</h3> <table cellpadding="5" width="600"> <tr bgcolor="#DDDDDD"> <td>Model</td> <td>Volts</td> <td>Amps</td> <td>Type</td> <td>Vf</td> <td>Ir</td> <td>Order #</td> <td>Notes</td> </tr> <tr> <td>PDS560</td> <td>60V</td> <td>5A</td> <td>Schottky</td> <td>670mV @ 5A</td> <td>150uA @ 60V</td> <td>PDS560DICT-ND</td> <td></td> </tr> </table> SOT23-5 Fixed Voltage Regulators <table width="700"> <tr bgcolor="#EEEEEE" > <td>Part</td> <td>Current Out</td> <td>V Out</td> <td>V In</td> <td>V Dropout</td> <td>θJA (°C/W)</td> <td>TJ (°C)</td> <td>Digikey Part No.</td> </tr> <tr> <td>ADP121</td> <td>150mA</td> <td>3.3V</td> <td>3.4-5.5V</td> <td>0.09V @ 150mA</td> <td>--</td> <td>--</td> <td>ADP121-AUJZ33R7CT-ND</td> </tr> <tr> <td>ADP121</td> <td>150mA</td> <td>3.0V</td> <td>3.1-5.5V</td> <td>0.09V @ 150mA</td> <td>--</td> <td>--</td> <td>ADP121-AUJZ30R7CT-ND</td> </tr> <tr> <td>ADP122</td> <td>300mA</td> <td>3.3V</td> <td>3.4-5.5V</td> <td>0.085V @ 300mA</td> <td>--</td> <td>--</td> <td>ADP122AUJZ-3.3-R7CT-ND</td> </tr> <tr> <td>ADP1712</td> <td>300mA</td> <td>3.3V</td> <td>3.5-5.5V</td> <td>0.17V @ 300mA</td> <td>--</td> <td>--</td> <td>ADP1712AUJZ-3.3-R7TR-ND</td> </tr> <tr> <td>AP7311 (Low Cost)</td> <td>150mA</td> <td>3.3V</td> <td>3.5-6V</td> <td>0.15V @ 150mA</td> <td>--</td> <td>--</td> <td>AP7311-33WG-7DICT-ND</td> </tr> <tr> <td>LD39015M18R</td> <td>150mA</td> <td>1.8V</td> <td>1.9V-5.5V</td> <td>0.08V @ 100mA</td> <td>--</td> <td>--</td> <td>497-6977-1-ND</td> </tr> <tr> <td>LP2985A-33DBVR</td> <td>150mA</td> <td>3.3V</td> <td>3.3-16V</td> <td>0.28V @ 150mA</td> <td>206</td> <td>150</td> <td>296-18479-1-ND</td> </tr> <tr> <td>MCP1824T-3302E/OT</td> <td>300mA</td> <td>3.3V</td> <td>3.5V-6V</td> <td>0.2V @ 300mA</td> <td>--</td> <td>--</td> <td>MCP1824T-3302E/OTCT-ND</td> </tr> <tr> <td>MIC5205-2.5YM5 TR</td> <td>150mA</td> <td>2.5V</td> <td>2.7-16V</td> <td>0.165V @ 150mA</td> <td>--</td> <td>--</td> <td>576-1257-2-ND</td> </tr> <tr> <td>MIC5205-3.0YM5 TR</td> <td>150mA</td> <td>3.0V</td> <td>3.2V-16V</td> <td>0.165V @ 150mA</td> <td>--</td> <td>--</td> <td>576-1258-2-ND</td> </tr> <tr> <td>MIC5205-3.3YM5 TR</td> <td>150mA</td> <td>3.3V</td> <td>3.5V-16V</td> <td>0.165V @ 150mA</td> <td>--</td> <td>--</td> <td>576-1259-2-ND</td> </tr> <tr> <td>TPS780330220</td> <td>150mA</td> <td>3.3V+2.2V</td> <td>3.6-5.5V</td> <td>250mV Max</td> <td>--</td> <td>--</td> <td>296-23332-1-ND</td> </tr> <tr> <td>TDA3663/N1,135</td> <td>100mA</td> <td>3.3V</td> <td>3.5-45V</td> <td>0.18V @ 50mA</td> <td>--</td> <td>--</td> <td>568-5343-1-ND</td> </tr> <tr> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> </tr> <tr> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> </tr> </table> Max operating temp can be calculated using θJA, TJ (max junction temperature), and power in watts. Set the "Maximum Ambient Temperature" until it reaches TJ ("Max Junction Temperature"), which is the absolute limit for safe use of the regulator: <a href="http://www.daycounter.com/Calculators/Heat-Sink-Temperature-Calculator.phtml">Heat Sink Temperature Calculator</a> For example, With 12V source into a 3.3V LP2985 and a 30mA load, we are dissipating (12V-3.3V) * 0.03A = 0.261W. With a θJA of 206 °C/W, a TJ of 150°C, and 261mW we can safely use the chip without a heat sink up to 75°C (=147.1°C Junction Temperature). Crystals HC49UP - Surface Mount Crystal <ul> <li>4.0MHz 18pF +/-30ppm Surface Mount Crystal [Digikey: 535-9857-1-ND]</li> <li>12.0 MHz Surface Mount Crystal [Digikey: 535-9869-6-ND]</li> <li>25.0 MHz Surface Mount Crystal [Digikey: 535-9078-1-ND]</li> </ul> 2.5 x 2.0mm - MEMs SMT Crystal <ul> <li>16.0 MHz 10pF 20ppm 2.5 x 2.0mm Crystal [Digikey -40-85°C: 535-10923-1-ND]</li> </ul> 3.2 x 2.5mm - MEMs SMT Crystal <ul> <li>12.0 MHz 8pF 15ppm 3.2 x 2.5mm Crystal [Digikey: -10-70°C: 644-1047-1-ND -40-125°C: 644-1128-1-ND] 40~85°C cheaper: 644-1173-6-ND</li> <li>16.0 MHz 8pF 15ppm 3.2 x 2.5mm Crystal [Digikey: -10-70°C: 644-1049-1-ND -40-125°C: 644-1129-2-ND]-40~85°C cheaper: 644-1175-6-ND</li> <li>16.0 MHz 10pF 10ppm 3.2 x 2.5mm Crystal [Digikey: 644-1100-1-ND]</li> <li>27.12 MHz 18pF 30ppm 3.2 x 2.5mm Crystal [Digikey: 887-1424-1-ND]</li> <li>27.12MHz 10pF 10ppm 3.2 x 2.5mm Crystal [Digikey: 887-1329-1-ND]</li> </ul> 4.9 x 1.8mm - MEMs SMT Crystal <ul> <li>32.768 KHz 12.5pF 20ppm 4.9 x 1.8mm Crystal [Digikey: SE2415CT-ND]</li> </ul> 8.0 x 3.8mm - Surface Mount Crystal <ul> <li>32.768kHz 12.5pF 20ppm -40°C-85°C [Digikey: 535-9166-2-ND]</li> </ul> Cylinder <ul> <li>32.768KHz Cylinder Crystal (2x6mm body) [Ex. Digikey: 300-8341-2-ND]</li> </ul> PIN HEADER >NAME >VALUE >NAME >VALUE SOT23 - Wave soldering >NAME >VALUE SOT-23 >NAME >VALUE >NAME >VALUE >NAME >VALUE D S G Pin header 1x1 for 0.1" spacing With round pins N-Channel Mosfet <ul> <li>2N7002E - 60V 260mA SOT23 [Digikey: 2N7002ET1GOSTR-ND] - REEL</li> <li>BSH103 - 30V 850mA SOT23 [Digikey: 568-5013-1-ND]</li> </ul> >VALUE >VALUE SUPPLY SYMBOL SUPPLY SYMBOL Configured for analog input GPO1/2 have internal PU/PD for i2c i2c addr select SEN low: 0x11 SEN high: 0x63 Since Version 6.2.2 text objects can contain more than one line, which will not be processed correctly with this version.