0603-Mini
<p>Mini footprint for dense boards</p>
>NAME
>VALUE
>NAME
>VALUE
<b> 0402</b>
>NAME
>VALUE
<b>0402 MicroPitch<p>
>NAME
>VALUE
<b>0603</b>
>NAME
>VALUE
<b>0603 MicroPitch</b>
>NAME
>VALUE
<b>0805</b>
>NAME
>VALUE
<b>0805 MicroPitch</b>
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
<b>RESISTOR 2512 (Metric 6432)</b>
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
<p>Source: http://media.digikey.com/pdf/Data%20Sheets/C&K/KMT_0xx_NGJ_LHS_Drawing.pdf</p>
>NAME
>VALUE
>NAME
>VALUE
C&K
>NAME
>VALUE
>NAME
>VALUE
<p>HTSSOP 16 (5x4.4mm 0.65mm Pitch)</p>
<p>Source: http://www.ti.com/lit/ds/slvsar1b/slvsar1b.pdf</p>
>NAME
>VALUE
<b>Solder Jumper</b> - Reflow
>NAME
>VALUE
<b>Solder Jumper</b> - Wave
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
<b>SOT23</b> - Reflow soldering
>NAME
>VALUE
>NAME
>VALUE
<b>SMALL OUTLINE TRANSISTOR</b><p>
TS-003
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
1
2
3
4
<b>CHIPLED 1206</b>
>NAME
>VALUE
A
C
<b>CHIPLED 0805</b>
>NAME
>VALUE
A
C
<b>CHIPLED 0603</b>
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
A
C
<p>Source: http://www.cree.com/~/media/Files/Cree/LED%20Components%20and%20Modules/XLamp/Data%20and%20Binning/XLampXPE2.pdf</p>
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
<p>PLCC2 - Reverse Mount</p>
<p>Source: http://catalog.osram-os.com/media/_en/Graphics/00042122_0.pdf</p>
>NAME
>VALUE
>NAME
>VALUE
Surface Mount USB Mini-B Connector
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
PCB EDGE
>NAME
>VALUE
PCB EDGE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
DJ Jack 2.0mm PTH Right-Angle
>NAME
>VALUE
DC 2.0/2.1
2.0/2.1mm DC Jack - SMT
<p>4UConnector: 03267</p>
<p>Note: Small tRestrict polygon's were added to the ground pads to improve solderability when this part is used in combination with a ground pour. By default, Eagle will product four large bridges to the ground pour significantly increasing the heat distribution on the pads and preventing lead-free solder from reflowing in certain situations. For more details, see: http://www.microbuilder.eu/Blog/09-12-14/Reducing_Thermals_for_Large_Pads_in_Eagle.aspx</p>
+
GND
>VALUE
>NAME
>NAME
>VALUE
DC 1.3
>NAME
>VALUE
<b>PIN HEADER</b>
>NAME
>VALUE
>NAME
>VALUE
<p><b>Pin Headers</b><br/>
5 Pin, 0.1"/2.54mm pitch, SMT</p>
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
<b>Small Outline Transistor</b> - 5 Pin
>NAME
>VALUE
>NAME
>VALUE
<b>Source: http://www.intersil.com/data/fn/fn7833.pdf</b>
>NAME
>VALUE
<p>Bourns 3303W 3MM SMT Trimpot</p>
>NAME
>VALUE
<p>Source: http://www.bourns.com/data/global/PDFs/TC33.PDF</p>
>NAME
>VALUE
>NAME
>VALUE
3
1
3
3,0
1,0
2,0
1mm
<b>FIDUCIAL MARKER</b><p>
round, layers 1 + 16 + 21 + 39 + 49
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>NAME
>NAME
>VALUE
<b>Panasonic Aluminium Electrolytic Capacitor VS-Serie Package C</b>
>NAME
>VALUE
<b>Panasonic Aluminium Electrolytic Capacitor VS-Serie Package D</b>
>NAME
>VALUE
<b>ELECTROLYTIC CAPACITOR</b><p>
grid 3.5 mm, diameter 8 mm
>NAME
>VALUE
<b>ELECTROLYTIC CAPACITOR</b><p>
grid 3.5 mm, diameter 10 mm
>NAME
>VALUE
<b>PIN HEADER</b>
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
0603 (1608 Metric)
>NAME
>VALUE
0805 (2012 Metric)
>NAME
>VALUE
<b>SMA Surface Mount Diode</b>
>NAME
>VALUE
>Name
>Value
SOD-523 (0.8x1.2mm)
<p>Source: http://www.rohm.com/products/databook/di/pdf/rb751s-40.pdf</p>
>NAME
>VALUE
<b>SOD323</b> (2.5x1.2mm)
>NAME
>VALUE
<b>SOD-123</b>
<p>Source: http://www.diodes.com/datasheets/ds30139.pdf</p>
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
1
3
>NAME
>VALUE
1
2
3
>NAME
>VALUE
1
2
3
>NAME
>VALUE
>NAME
>VALUE
<b>PIN HEADER</b>
>NAME
>VALUE
>NAME
>VALUE
<p><b>Pin Headers</b><br/>
2 Pin, 0.1"/2.54mm pitch, SMT</p>
>NAME
>VALUE
>NAME
>NAME
>VALUE
>VALUE
>NAME
>VALUE
>DRAWING_NAME
>LAST_DATE_TIME
>SHEET
Sheet:
Adafruit Industries
Drawing:
>AUTHOR
>VALUE
>NAME
>VALUE
>VALUE
>NAME
DRV8833
Dual H-Bridge Motor Driver
VM:
2.7-10.8V
IOUT Per Bridge: 1.5A
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>VALUE
>NAME
D
S
G
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>NAME
>VALUE
>VALUE
>NAME
PAM8302A
2.5W Class-D
Audio Amplifier
VDD:
Temp:
2.0-5.5V
-40-85°C
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
TPS259X3
>NAME
>VALUE
>NAME
>VALUE
WS2812B
>NAME
>VALUE
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
<b>GND</b>
<p><b>Resistors</b></p>
<p>For new designs, use the packages preceded by an '_' character since they are more reliable:</p>
<p>The following footprints should be used on most boards:</p>
<ul>
<li><b>_0402</b> - Standard footprint for regular board layouts</li>
<li><b>_0603</b> - Standard footprint for regular board layouts</li>
<li><b>_0805</b> - Standard footprint for regular board layouts</li>
<li><b>_1206</b> - Standard footprint for regular board layouts</li>
</ul>
<p>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.):</p>
<ul>
<li><b>_0402MP</b> - Micro-pitch footprint for very dense/compact boards</li>
<li><b>_0603MP</b> - Micro-pitch footprint for very dense/compact boards</li>
<li><b>_0805MP</b> - Micro-pitch footprint for very dense/compact boards</li>
<li><b>_1206MP</b> - Micro-pitch footprint for very dense/compact boards</li>
</ul>
Frame A4
<b>3.3V Supply</b>
<p>SMT Tact Switches</p>
<ul>
<li>6x6mm - Digikey: P12940SCT-ND</li>
<li>KMR2 (4.6x2.8mm) - Digikey: 401-1426-1-ND</li>
<li>EVQ-PQHB55 - Light Touch, 160GF (4.5x4.5mm) - Digikey: P8090SCT-ND</li>
<li>KMT0 - KMT021 NGJ LHS (etc.) IP68/Waterproof - Digikey: CKN10289CT-ND</li>
</ul>
<b>Switch - DPDT</b>
<p>A DPDT Switch acts like an SPDT switch, but has a pair of switches instead of just one.</p>
<ul>
<li>Vertical - 0.3A @ 6V SMT - Digikey: JS202011SCQN</li>
</ul>
<b>DRV8833 Dual H-Bridge Motor Driver</b> -- HTSSOP Package
<p><b>Ceramic Capacitors</b></p>
<p>For new designs, use the packages preceded by an '_' character since they are more reliable:</p>
<p>The following footprints should be used on most boards:</p>
<ul>
<li><b>_0402</b> - Standard footprint for regular board layouts</li>
<li><b>_0603</b> - Standard footprint for regular board layouts</li>
<li><b>_0805</b> - Standard footprint for regular board layouts</li>
<li><b>_1206</b> - Standard footprint for regular board layouts</li>
</ul>
<p>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.):</p>
<ul>
<li><b>_0402MP</b> - Micro-pitch footprint for very dense/compact boards</li>
<li><b>_0603MP</b> - Micro-pitch footprint for very dense/compact boards</li>
<li><b>_0805MP</b> - Micro-pitch footprint for very dense/compact boards</li>
<li><b>_1206MP</b> - Micro-pitch footprint for very dense/compact boards</li>
</ul>
<p><b>SMD Solder JUMPER</b></p>
<p>Solder the two pads together to create a connection, or remove the solder to break it.</p>
<b>REFLOW</b> - Use this footprint for solder paste and reflow ovens.<br/>
<b>WAVE</b> - Use this footprint for hand-soldering (larger pads).
<p><b>CLOSED</b> - Has a trace between the two pads to ensure it is closed by default. The trace needs to be cut to disable the jumper, and can be closed again by creating a solder bridge between the two pads.</p>
<b>P-Channel Mosfet</b>
<p><b>LEGEND</b></p>
<p>
<b>VDS</b>: Voltage Drain-Source<br/>
<b>ID</b>: Drain Current<br/>
<b>RDS(ON)</b>: Drain-Source On-State Resistance<br/>
<b>VGS(TH)</b>: Gate-Source Threshold Voltage<br/>
<b>CISS</b>: Drain-Source Input Capacitance
</p>
<p>
<b>SOT-23</b>
<table border="0" width="90%" cellspacing="0" cellpadding="5">
<tr bgcolor="#DDDDDD">
<td>Name</td>
<td>VDS</td>
<td>ID</td>
<td>RDS(ON)</td>
<td>VGS(TH)</td>
<td>CISS</td>
<td>Order Number</td>
</tr>
<tr>
<td>IRLML5103</td>
<td>30V</td>
<td>760mA</td>
<td>600 mOhm</td>
<td>--</td>
<td>75pF @ 25V</td>
<td>Digikey: IRLML5103PBFCT-ND</td>
</tr>
<tr>
<td>IRLML6401</td>
<td>12V</td>
<td>4.3A</td>
<td>50 mOhm</td>
<td>950mV @ 250µA</td>
<td>830pF @ 10V</td>
<td>Digikey: IRLML6401PBFTR-ND</td>
</tr>
<tr>
<td>NTR0202PL</td>
<td>20V</td>
<td>400mA</td>
<td>800 mOhm</td>
<td>2.3V @ 250uA</td>
<td>70pF @ 5V</td>
<td>Digikey: NTR0202PLT1GOSTR-ND</td>
</tr>
<tr>
<td>NTR4101PT1G</td>
<td>20V</td>
<td>1.8A</td>
<td>85 mOhm</td>
<td>1.2V @ 250uA</td>
<td>675pF @ 10V</td>
<td>Digikey: NTR4101PT1GOSCT-ND</td>
</tr>
<tr>
<td>DMP2004K</td>
<td>20V</td>
<td>600mA</td>
<td>900 mOhm</td>
<td>1V @ 250uA</td>
<td>175pF @ 16V</td>
<td>Digikey: DMP2004KDICT-ND</td>
</tr>
<tr>
<td>PMV65XP</td>
<td>20V</td>
<td>3.9A</td>
<td>76 mOhm</td>
<td>950mV @ 1mA</td>
<td>725pF @ 20V</td>
<td>Digikey: 568-2358-2-ND</td>
</tr>
<tr>
<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>
</tr>
</table>
<b>TO-252</b>
<table border="0" width="90%" cellspacing="0" cellpadding="5">
<tr bgcolor="#DDDDDD">
<td>Name</td>
<td>VDS</td>
<td>ID</td>
<td>RDS(ON)</td>
<td>VGS(TH)</td>
<td>CISS</td>
<td>Order Number</td>
</tr>
<tr>
<td>AOD417</td>
<td>30V</td>
<td>25A</td>
<td>34 mOhm</td>
<td>3V @ 250µA</td>
<td>920pF @ 15V</td>
<td>Digikey: 785-1106-2-ND</td>
</tr>
</table>
<b>PowerPak</b>
<table border="0" width="90%" cellspacing="0" cellpadding="5">
<tr bgcolor="#DDDDDD">
<td>Name</td>
<td>VDS</td>
<td>ID</td>
<td>RDS(ON)</td>
<td>VGS(TH)</td>
<td>CISS</td>
<td>Order Number</td>
</tr>
<tr>
<td>AON7401</td>
<td>30V</td>
<td>12A</td>
<td>14 mOhm</td>
<td>3V @ 250µA</td>
<td>2600pF @ 15V</td>
<td>Digikey: 785-1302-1-ND</td>
</tr>
</p>
<p><b>LED</b></p>
<b>0603</b> - 0603 Surface Mount Package
<hr>
<p><b><u>2mA:</u></b></p>
<ul>
<li>Green LED - Low Power (3.9mcd, 2ma, 1.7Vf) - Digikey: 475-2709-2-ND</li>
<li>Orange LED - Low Power (9.8mcd, 2ma, 1.8Vf) - Digikey: 475-1194-2-ND</li>
<li>Red LED - Low Power (5mcd, 2ma, 1.8Vf) - Digikey: 475-1195-2-ND</li>
<li>Yellow LED - Low Power (7mcd, 2ma, 1.8Vf) - Digikey: 475-1196-2-ND</li>
</ul>
<p><b><u>5mA:</u></b></p>
<ul>
<li>Blue LED - Low Power (17mcd, 5ma, 2.9Vf) - Digikey: LNJ937W8CRACT-ND</li>
</ul>
<b>0805</b> - 0805 Surface Mount Package
<hr>
<p><b><u>2mA:</u></b></p>
<ul>
<li>Red LED (8.8mcd, 2mA, 1.8Vf, Clear) - Low Power [Digikey: 475-2510-1-ND]</li>
<li>Green LED (5mcd, 2mA, 1.8Vf, Clear) - Low Power [Digikey: 475-2730-1-ND]</li>
<li>Yellow LED (11.3mcd, 2mA, 1.8Vf, Clear) - Low Power [Digikey: 475-2555-1-ND]</li>
</ul>
<p><b><u>20mA:</u></b></p>
<ul>
<li>Red LED (104mcd, 20mA, Diffused) - LS R976 [Digikey: 475-1278-6-ND]</li>
<li>Red LED (12mcd, 20mA, 2.0Vf, Clear) - APT2012EC [Digikey: 754-1128-1-ND]</li>
<li>Green LED (15mcd, 20mA, 2.2Vf, Clear) - APT2012GC [Digikey: 754-1131-1-ND]</li>
<li>Orange LED (160mcd, 20mA, 2.1Vf, Clear) - APT2012SECK [Digikey: 754-1130-1-ND]</li>
</ul>
<li><b>1206</b> - 1206 Surface Mount Package
<hr>
<ul>
<li>Green LED (26mcd, 20mA, Diffused) - LG N971 [Digikey: 475-1407-6-ND]</li>
<li>Red LED (15mcd, 20mA, Diffused) - LH N974 [Digikey: 475-1416-6-ND]</li>
</ul>
<li><b>Cree</b> - Cree High-Power Surface Mount LEDs
<hr>
<ul>
<li>XPEBWT-L1-0000-00D50 - White 111lm 350mA 2.9Vf 6200K 110°</li>
<li>XTEAWT-00-0000-00000LEE3 - White 114lm 350mA 2.85Vf 5000K 115°</li>
</ul>
<li><b>Everlight</b> - Everlight 45-21 Series Surface Mount LEDs
<hr>
<ul>
<li>45-21/QK2C-B2832AC2CB2/2T - Warm White 2000mcd 20mA 3.25Vf 3050K 120°</li>
<li>45-21/LK2C-B38452C4CB2/2T - Nuetral White 2000mcd 20mA 3.25Vf 4150K 120°</li>
<li>45-21/LK2C-B50634C6CB2/2T - Cold White 2200mcd 20mA 3.25Vf 5650K 120°</li>
</ul>
<li><b>PLCC2 Reverse Mount</b>
<hr>
<ul>
<li>LS T77K-J1L2-1-0-2-R18-Z - Red 11.25mcd 2mA 1.8Vf 630nm 120°</li>
<li>LO T77K-L1M2-24-Z - Orange 19.6mcd 2mA 1.8Vf 606nm 120°</li>
<li>LY T77K-K2M1-26-Z - Yellow 15.7mcd 2mA 1.8Vf 587nm 120°</li>
</ul>
<p><b>USB Connectors</b></p>
<b>USBMINIB</b> - Surface Mount Female Mini-B USB Connector
<p>4UConnector: 06564</p>
<p><b>DC Barrel Jack</b></p>
<p><b>DCJACK_1.3MM_PTH</b> - Through Hole 1.3mm Jack (4UConnector: 05536)</p>
<p><b>DCJACK_2MM_PTH</b> - Through Hole 2.0/2.1 Jack (4UConnector: 05537)</p>
<p><b>DCJACK_2MM_SMT</b> - SMT 2.0/2.1mm Jack(4UConnector: 03267)</p>
<b>5.0V Supply</b>
<b>PIN HEADER</b>
<p><b>SOT23-5 Fixed Voltage Regulators</b></p>
<p></p>
<table width="700">
<tr bgcolor="#EEEEEE" >
<td><b>Part</b></td>
<td><b>Current Out</b></td>
<td><b>V Out</b></td>
<td><b>V In</b></td>
<td><b>V Dropout</b></td>
<td><b>θJA (°C/W)</b></td>
<td><b>TJ (°C)</b></td>
<td><b>Digikey Part No.</b></td>
</tr>
<tr>
<td>ADP121</td>
<td>150mA</td>
<td><b>3.3V</b></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><b>3.0V</b></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><strong>300mA</strong></td>
<td><b>3.3V</b></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><strong>300mA</strong></td>
<td><b>3.3V</b></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 (<b>Low Cost</b>)</td>
<td>150mA</td>
<td><b>3.3V</b></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><b>1.8V</b></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><b>3.3V</b></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><b>300mA</b></td>
<td><b>3.3V</b></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><b>2.5V</b></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><b>3.0V</b></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><b>3.3V</b></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><b>3.3V+2.2V</b></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><b>3.3V</b></td>
<td>3.5-<b>45V</b></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>
<p>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></p>
<p>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).</p>
3.5mm Terminal block
<p>http://www.ladyada.net/library/pcb/eaglelibrary.html<p>
<p><b>PAM8302A</b> - 2.5W Class-D Mono Audio Amplifier</p>
<p>
<ul>
<li>MSOP8 = PAM8302AASCR</li>
</ul>
</p>
<p><b>3-Pin SMT Trimpots</b></p>
<p><b>Bourns TC33 (X-2) Series</b></p>
<ul>
<li> 1K - Digikey: TC33X-102ECT-ND</li>
<li> 10K - Digikey: TC33X-2-103E</li>
<li> 100K - Digikey: TC33X-104ECT-ND</li>
</ul>
<p><b>Bourns 3303 (W) Series</b></p>
<ul>
<li> 3mm 10K Single Turn - Digikey: 3303W-103ETR-ND</li>
<li> 3mm 100K Single Turn - Digikey: 3303X-104ETR-ND</li>
</ul>
<b>Mounting Hole</b>
<p>For #2 screws (0.086"/2.18mm width, 0.094"/2.4mm hole) use 2.5mm</p>
<b>Fiducial Alignment Points</b>
<p>Various fiducial points for machine vision alignment.</p>
3.5mm Terminal block
<p>http://www.ladyada.net/library/pcb/eaglelibrary.html<p>
VIN Supply Symbol
<b>3x8 0.1" Headers</b>
<p>Male - 4UCON: 01058</p>
<p><b>Electrolytic Capacitors</b></p>
<p><b>SMT</b><hr/></p>
<b>PANASONIC_C</b> - Size C Panasonic Electrolytic Aluminum Capacitor
<ul>
<li>47µF 16V 20% Electrolytic Capacitor [Digikey: PCE3890TR-ND]</li>
</ul>
<b>PANASONIC_D</b> - Size D Panasonic Electrolytic Aluminum Capacitor
<ul>
<li>100µF 25V 20% Electrolytic Capacitor [Digikey: PCE3898TR-ND]</li>
</ul>
<p><b>PTH</b><hr/></p>
<b>3.5 mm grid, 8 mm diameter</b>
<ul>
<li>...</li>
</ul>
<b>3.5 mm grid, 10 mm diameter</b>
<ul>
<li>...</li>
</ul>
<p>VBUS Supply Symbole</p>
<b>PIN HEADER</b>
<p><b>Ferrite Bead</b></p>
<p>0603</p>
<ul>
<li>MMZ1608B121C - 120 Ohm @ 100MHz, 600mA, 0.15 Ohm DC Resistance - Digikey: 445-2164-1-ND</li>
<li>BK1608HW121-T - 120 Ohm, 600mA Ferrite Chip - Digikey: 587-1876-2-ND</li>
</ul>
<p>0805</p>
<ul>
<li>HZ0805B272R-10 - 2.7K Ohm @ 100MHz, 200mA, 0.8 Ohm DC Resistance - Digikey: 240-2504-1-ND (see also Murata BLM21BD272SN1L)</li>
<li>MMZ2012Y152B - 1.5K Ohm @ 100MHz, 500mA, 0.4 Ohm DC Resistance - Digikey: 445-1560-1-ND - Mainly for high frequency (80-400MHz)</li>
<li>MMZ2012R102A - 1K Ohm @ 100MHz, 500mA, 0.3 Ohm DC Resistance - Digikey: 445-1555-2-ND - More general purpose (10-200MHz)</li>
</ul>
<b>2-Way Solder Jumper</b>
<b>Diode</b>
<p>
<h3>SMA</h3>
<table cellpadding="5" width="600">
<tr bgcolor="#DDDDDD">
<td><b>Model</b></td>
<td><b>Volts</b></td>
<td><b>Amps</b></td>
<td><b>Type</b></td>
<td><b>Vf</b></td>
<td><b>Ir</b></td>
<td><b>Digikey #</b></td>
<td><b>Notes</b></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><b>Model</b></td>
<td><b>Volts</b></td>
<td><b>Amps</b></td>
<td><b>Type</b></td>
<td><b>Vf</b></td>
<td><b>Ir</b></td>
<td><b>Order #</b></td>
<td><b>Notes</b></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><b>Model</b></td>
<td><b>Volts</b></td>
<td><b>Amps</b></td>
<td><b>Type</b></td>
<td><b>Vf</b></td>
<td><b>Ir</b></td>
<td><b>Order #</b></td>
<td><b>Notes</b></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><b>Model</b></td>
<td><b>Volts</b></td>
<td><b>Amps</b></td>
<td><b>Type</b></td>
<td><b>Vf</b></td>
<td><b>Ir</b></td>
<td><b>Order #</b></td>
<td><b>Notes</b></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)
<br/>
<table cellpadding="5" width="600">
<tr bgcolor="#DDDDDD">
<td><b>Model</b></td>
<td><b>Volts</b></td>
<td><b>Amps</b></td>
<td><b>Type</b></td>
<td><b>Vf</b></td>
<td><b>Ir</b></td>
<td><b>Order #</b></td>
<td><b>Notes</b></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>
<br/>
<table cellpadding="5" width="600">
<tr bgcolor="#DDDDDD">
<td><b>Model</b></td>
<td><b>Volts</b></td>
<td><b>Amps</b></td>
<td><b>Type</b></td>
<td><b>Vf</b></td>
<td><b>Ir</b></td>
<td><b>Order #</b></td>
<td><b>Notes</b></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>
</p>
<b>Header 1x17</b>
<b>PIN HEADER</b>
>VALUE
<b>SUPPLY SYMBOL</b>
<b>Driver Arrays</b><p>
ULN and UDN Series<p>
<author>Created by librarian@cadsoft.de</author>
<b>Small Outline Package</b>
>VALUE
>NAME
<b>Dual In Line Package</b>
>NAME
>VALUE
Small Outline Package
Dual In Line Package
>NAME
>VALUE
<b>DRIVER ARRAY</b>
<b>Single and Dual Gates Family, US symbols</b><p>
Little logic devices from Texas Instruments<br>
TinyLogic(R) from FAIRCHILD Semiconductor TM
<p>
<author>Created by evgeni@eniks.com</author><br>
<author>Extended by librarian@cadsoft.de</author>
<b>Small Outline Transistor</b><p>
SOT753 - Philips Semiconductors<br>
Source: http://www.semiconductors.philips.com/acrobat_download/datasheets/74HC_HCT1G66_3.pdf
>NAME
>VALUE
<b>SMT SC70-5</b><p>
SOT353 - Philips Semiconductors<br>
Source: http://www.semiconductors.philips.com/acrobat_download/datasheets/74HC_HCT1G66_3.pdf
>NAME
>VALUE
Small Outline Transistor
SOT753 - Philips Semiconductors
Source: http://www.semiconductors.philips.com/acrobat_download/datasheets/74HC_HCT1G66_3.pdf
SMT SC70-5
SOT353 - Philips Semiconductors
Source: http://www.semiconductors.philips.com/acrobat_download/datasheets/74HC_HCT1G66_3.pdf
>NAME
>VALUE
>NAME
GND
VCC
Single Bus <b>Buffer </b>Gate with 3-State Output
<b>Supply Symbols</b><p>
GND, VCC, 0V, +5V, -5V, etc.<p>
Please keep in mind, that these devices are necessary for the
automatic wiring of the supply signals.<p>
The pin name defined in the symbol is identical to the net which is to be wired automatically.<p>
In this library the device names are the same as the pin names of the symbols, therefore the correct signal names appear next to the supply symbols in the schematic.<p>
<author>Created by librarian@cadsoft.de</author>
>VALUE
<b>SUPPLY SYMBOL</b>
<b>Supply Symbols</b><p>
GND, VCC, 0V, +5V, -5V, etc.<p>
Please keep in mind, that these devices are necessary for the
automatic wiring of the supply signals.<p>
The pin name defined in the symbol is identical to the net which is to be wired automatically.<p>
In this library the device names are the same as the pin names of the symbols, therefore the correct signal names appear next to the supply symbols in the schematic.<p>
<author>Created by librarian@cadsoft.de</author>
>VALUE
<b>SUPPLY SYMBOL</b>
<b>Test Pins/Pads</b><p>
Cream on SMD OFF.<br>
new: Attribute TP_SIGNAL_NAME<br>
<author>Created by librarian@cadsoft.de</author>
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
<b>TEST PAD</b>
>NAME
>VALUE
>TP_SIGNAL_NAME
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
TEST PAD
>NAME
>TP_SIGNAL_NAME
<b>Test pad</b>
TCC2.1
TCC2.0
TCC1.2
TCC1.3
TCC1.1
TCC1.0
TCC0.4
TCC0.5
TCC0.6
TCC0.7
TC3.0
TC3.1
TC4.0
TC4.1
4 x 8-bit PWM for 2 Motors ✓
TC3 & TC4
4 x 50 Hz 16-bit+ PWM for 4 Servos ✓
TCC0
4 x 8-bit PWM for relay/power out ✓
TC5 & TCC2
8 x GPIO & Analog in ✓
AIN4,5,6,7,16,17,18,19
4 x Captouch ✓
0 x Piezo (no more PWMs left!)
1 x NeoPixel ✓
1 x LED ✓
1 x IRQ ✓
2 x USB ✓
2 x SWD ✓
2 x I2C (SERCOM1) ✓
----------------------------------
30 GPIO
TC5.0
TC5.1
3.3V REGULATION
off
on (rdiv)
off
on (pup)
For debugging
ON/OFF
5VDC POWER IN
POWER DECOUPLING
CPX CONNECTION
SEESAW
Close SJ1/2 if current
sense resistors not used
~0.2 ohm = 1 A current limit
ICHOP = (0.2V / RSENSE)
DC MOTOR DRIVE
SERVO OUTPUT
DARLINGTON DRIVES
C3: Use 1uF to filter high frequency noise,
or 10uF if lower frequency noise is present
SIGNAL I/O
AUDIO AMP
NEOPIXEL BUFFER
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.