Component library of parts used in <a href="https://modules.infektor.net/">infektor</a> Eurorack synthesizer modules. >NAME * * >Name D(R-PDSO-G14) >NAME >VALUE 2x5 Open Eurorack Power Header GND +12V -12V 2x05 SMD Eurorack Power Header POWER 0V +12 -12 <a href="https://www.molex.com/molex/products/datasheet.jsp?part=active/0901303110_PCB_HEADERS.xml">Molex 90130-3110</a> C-Grid III Header, Dual Row, Right-Angle, Shrouded, Fully Loaded, 10 Circuits, Black, 3µm Tin (Sn) over Nickel (Ni). POWER -12V +12V GND Pulp Logic 1U Tile Power. >NAME W R B Generic 3216 (1206) package 0.2mm courtyard excess rounded to nearest 0.05mm. >NAME >VALUE SMALL OUTLINE DIODE >NAME >VALUE SOT-23 >NAME >VALUE Multilayer SMD >VALUE >NAME D (R-PDSO-G8) >NAME >VALUE SMALL OUTLINE DIODE SOT-23 >NAME >VALUE <h1>Dual Voltate Controled Amplifier (VCA) AS3360</h1> The AS3360 is a dual general purpose voltage controlled transconductor intended for such applications as voltage controlled amplifiers, filters, and waveform generators. Each transconductor independently provides both linear and exponential control scaling over greater than a 100 dB range. Complete with virtual ground summing inputs, wide voltage compliance current outputs, and control inputs referenced to ground, the AS3360 requires exceptionally few external components and is extremely easy to use. Because of its inherent ultra-low control feedthrough, no trimming is required. Added to these features are exceptionally low noise, wide bandwidth, and operation down to ± 3 volts, making the AS3360 a real cost saver in most applications requiring variable transconductance amplifiers. <a href="https://www.thonk.co.uk/wp-content/uploads/2018/01/AS3360.pdf">Datasheet</a> >NAME AS3360 >NAME A polymeric positive temperature coefficient device (PPTC, commonly known as a resettable fuse, polyfuse or polyswitch) is a passive electronic component used to protect against overcurrent faults in electronic circuits. - Wikipedia >NAME >VALUE >NAME >VALUE >VALUE >NAME >NAME >VALUE >NAME >VALUE 2x5 pin power header. <h3>Resettable Fuse PPTC</h3> Resettable Fuse. Really a sort of resistor with a polymeric positive temperature coefficient whose resistance increases dramatically with an increase in temperature. When heated by the power passing through the resistance rises causing the current to be limited, protecting the circuit. This is achieved by the transition of the polymer from a crystalline to an amorphous state where the conductive carbon separates breaking the conductive pathways found in the cool crystalline structure. When a PPTC cools back down it resumes conducting letting the circuit turn back on. SparkFun Products: <ul><li><a href="https://www.sparkfun.com/products/12757">SparkFun RedBoard - Programmed with Arduino</a></li> <li><a href="https://www.sparkfun.com/products/12640">Pro Micro - 5V/16MHz</a></li> <li><a href="https://www.sparkfun.com/products/10915">Arduino Pro 328 - 5V/16MHz</a></li> <li><a href="https://www.sparkfun.com/products/13720">MP3 Trigger</a></li> </ul> DIODE unfilled Dual Low-Noise JFET-Input General-Purpose Operational Amplifier Source: <a href="http://www.ti.com/lit/ds/symlink/tl072.pdf"> Datasheet </a> Quad Low-Noise JFET-Input General-Purpose Operational Amplifier Source: <a href="http://www.ti.com/lit/ds/symlink/tl074.pdf"> Datasheet </a> Resistors, Capacitors, Inductors 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 <author>Created by librarian@cadsoft.de</author> for Electrolyt Capacitors see also : www.bccomponents.com www.panasonic.com www.kemet.com http://www.secc.co.jp/pdf/os_e/2004/e_os_all.pdf (SANYO) for trimmer refence see : www.electrospec-inc.com/cross_references/trimpotcrossref.asp <table border=0 cellspacing=0 cellpadding=0 width="100%" cellpaddding=0> <tr valign="top"> <! <td width="10"> </td> <td width="90%"> TRIM-POT CROSS REFERENCE <TABLE BORDER=0 CELLSPACING=1 CELLPADDING=2> <TR> <TD COLSPAN=8> RECTANGULAR MULTI-TURN </TD> </TR> <TR> <TD ALIGN=CENTER> BOURNS </TD> <TD ALIGN=CENTER> BI TECH </TD> <TD ALIGN=CENTER> DALE-VISHAY </TD> <TD ALIGN=CENTER> PHILIPS/MEPCO </TD> <TD ALIGN=CENTER> MURATA </TD> <TD ALIGN=CENTER> PANASONIC </TD> <TD ALIGN=CENTER> SPECTROL </TD> <TD ALIGN=CENTER> MILSPEC </TD><TD> </TD> </TR> <TR> <TD BGCOLOR="#cccccc" ALIGN=CENTER> 3005P 3006P 3006W 3006Y 3009P 3009W 3009Y 3057J 3057L 3057P 3057Y 3059J 3059L 3059P 3059Y </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - 89P 89W 89X 89PH 76P 89XH 78SLT 78L ALT 56P ALT 78P ALT T8S 78L 56P 78P </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - T18/784 783 781 - - - 2199 1697/1897 1680/1880 2187 - - - - </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - 8035EKP/CT20/RJ-20P - RJ-20X - - - 1211L 8012EKQ ALT 8012EKR ALT 1211P 8012EKJ 8012EKL 8012EKQ 8012EKR </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - 2101P 2101W 2101Y - - - - - - - - 2102L 2102S 2102Y </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - EVMCOG - - - - - - - - - - - - - </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - 43P 43W 43Y - - - - 40L 40P 40Y 70Y-T602 70L 70P 70Y </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - - - - - - - - RT/RTR12 RT/RTR12 RT/RTR12 - RJ/RJR12 RJ/RJR12 RJ/RJR12 </TD> </TR> <TR> <TD COLSPAN=8>  </TD> </TR> <TR> <TD COLSPAN=8> SQUARE MULTI-TURN </TD> </TR> <TR> <TD ALIGN=CENTER> BOURN </TD> <TD ALIGN=CENTER> BI TECH </TD> <TD ALIGN=CENTER> DALE-VISHAY </TD> <TD ALIGN=CENTER> PHILIPS/MEPCO </TD> <TD ALIGN=CENTER> MURATA </TD> <TD ALIGN=CENTER> PANASONIC </TD> <TD ALIGN=CENTER> SPECTROL </TD> <TD ALIGN=CENTER> MILSPEC </TD> </TR> <TR> <TD BGCOLOR="#cccccc" ALIGN=CENTER> 3250L 3250P 3250W 3250X 3252P 3252W 3252X 3260P 3260W 3260X 3262P 3262W 3262X 3266P 3266W 3266X 3290H 3290P 3290W 3292P 3292W 3292X 3296P 3296W 3296X 3296Y 3296Z 3299P 3299W 3299X 3299Y 3299Z </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - 66P ALT 66W ALT 66X ALT 66P ALT 66W ALT 66X ALT - 64W ALT - 64P ALT 64W ALT 64X ALT 64P 64W 64X 66X ALT 66P ALT 66W ALT 66P 66W 66X 67P 67W 67X 67Y 67Z 68P 68W 68X 67Y ALT 67Z ALT </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> 5050 5091 5080 5087 - - - - - - - T63YB T63XB - - - 5887 5891 5880 - - - T93Z T93YA T93XA T93YB T93XB - - - - - </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - - - - - - - - - - 8026EKP 8026EKW 8026EKM 8026EKP 8026EKB 8026EKM 1309X 1309P 1309W 8024EKP 8024EKW 8024EKN RJ-9P/CT9P RJ-9W RJ-9X - - - - - - - </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - - - - - - - - - - 3103P 3103Y 3103Z 3103P 3103Y 3103Z - - - - - - 3105P/3106P 3105W/3106W 3105X/3106X 3105Y/3106Y 3105Z/3105Z 3102P 3102W 3102X 3102Y 3102Z </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - - - - - - - - - - - - - - - - - - - - - - EVMCBG EVMCCG - - - - - - - - </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> 55-1-X 55-4-X 55-3-X 55-2-X - - - - - - - - - - - - 50-2-X 50-4-X 50-3-X - - - 64P 64W 64X 64Y 64Z - - - - - </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> RT/RTR22 RT/RTR22 RT/RTR22 RT/RTR22 RJ/RJR22 RJ/RJR22 RJ/RJR22 RT/RTR26 RT/RTR26 RT/RTR26 RJ/RJR26 RJ/RJR26 RJ/RJR26 RJ/RJR26 RJ/RJR26 RJ/RJR26 RT/RTR24 RT/RTR24 RT/RTR24 RJ/RJR24 RJ/RJR24 RJ/RJR24 RJ/RJR24 RJ/RJR24 RJ/RJR24 - - - - - - - </TD> </TR> <TR> <TD COLSPAN=8>  </TD> </TR> <TR> <TD COLSPAN=8> SINGLE TURN </TD> </TR> <TR> <TD ALIGN=CENTER> BOURN </TD> <TD ALIGN=CENTER> BI TECH </TD> <TD ALIGN=CENTER> DALE-VISHAY </TD> <TD ALIGN=CENTER> PHILIPS/MEPCO </TD> <TD ALIGN=CENTER> MURATA </TD> <TD ALIGN=CENTER> PANASONIC </TD> <TD ALIGN=CENTER> SPECTROL </TD> <TD ALIGN=CENTER> MILSPEC </TD> </TR> <TR> <TD BGCOLOR="#cccccc" ALIGN=CENTER> 3323P 3323S 3323W 3329H 3329P 3329W 3339H 3339P 3339W 3352E 3352H 3352K 3352P 3352T 3352V 3352W 3362H 3362M 3362P 3362R 3362S 3362U 3362W 3362X 3386B 3386C 3386F 3386H 3386K 3386M 3386P 3386S 3386W 3386X </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> 25P 25S 25RX 82P 82M 82PA - - - 91E 91X 91T 91B 91A 91V 91W 25W 25V 25P - 25S 25U 25RX 25X 72XW 72XL 72PM 72RX - 72PX 72P 72RXW 72RXL 72X </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - - - T7YB T7YA - - - - - - - - - - - - TXD TYA TYP - TYD TX - 150SX 100SX 102T 101S 190T 150TX 101 - - 101SX </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> ET6P ET6S ET6X RJ-6W/8014EMW RJ-6P/8014EMP RJ-6X/8014EMX TM7W TM7P TM7X - 8017SMS - 8017SMB 8017SMA - - CT-6W CT-6H CT-6P CT-6R - CT-6V CT-6X - - 8038EKV - 8038EKX - - 8038EKP 8038EKZ 8038EKW - </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - - - 3321H 3321P 3321N 1102H 1102P 1102T RVA0911V304A - RVA0911H413A RVG0707V100A RVA0607V(H)306A RVA1214H213A - - - - - - - - - 3104B 3104C 3104F 3104H - 3104M 3104P 3104S 3104W 3104X </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> EVMQ0G EVMQIG EVMQ3G EVMS0G EVMQ0G EVMG0G - - - EVMK4GA00B EVM30GA00B EVMK0GA00B EVM38GA00B EVMB6 EVLQ0 - EVMMSG EVMMBG EVMMAG - - EVMMCS - - - - - EVMM1 - - EVMM0 - - EVMM3 </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - - - 62-3-1 62-1-2 - - - - - - - - - - - 67R - 67P - - - - 67X 63V 63S 63M - - 63H 63P - - 63X </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - - - RJ/RJR50 RJ/RJR50 RJ/RJR50 - - - - - - - - - - - - - - - - - - - - - - - - - - - - </TD> </TR> </TABLE>   <TABLE BORDER=0 CELLSPACING=1 CELLPADDING=3> <TR> <TD COLSPAN=7> SMD TRIM-POT CROSS REFERENCE MULTI-TURN </TD> </TR> <TR> <TD> BOURNS </TD> <TD> BI TECH </TD> <TD> DALE-VISHAY </TD> <TD> PHILIPS/MEPCO </TD> <TD> PANASONIC </TD> <TD> TOCOS </TD> <TD> AUX/KYOCERA </TD> </TR> <TR> <TD BGCOLOR="#cccccc" ALIGN=CENTER> 3224G 3224J 3224W 3269P 3269W 3269X </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> 44G 44J 44W 84P 84W 84X </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - - - ST63Z ST63Y - </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - - - ST5P ST5W ST5X </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - - - - - - </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - - - - - - </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - - - - - - </TD> </TR> <TR> <TD COLSPAN=7>  </TD> </TR> <TR> <TD COLSPAN=7> SINGLE TURN </TD> </TR> <TR> <TD> BOURNS </TD> <TD> BI TECH </TD> <TD> DALE-VISHAY </TD> <TD> PHILIPS/MEPCO </TD> <TD> PANASONIC </TD> <TD> TOCOS </TD> <TD> AUX/KYOCERA </TD> </TR> <TR> <TD BGCOLOR="#cccccc" ALIGN=CENTER> 3314G 3314J 3364A/B 3364C/D 3364W/X 3313G 3313J </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> 23B 23A 21X 21W - 22B 22A </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> ST5YL/ST53YL ST5YJ/5T53YJ ST-23A ST-22B ST-22 - - </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> ST-4B ST-4A - - - ST-3B ST-3A </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - EVM-6YS EVM-1E EVM-1G EVM-1D - - </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> G4B G4A TR04-3S1 TRG04-2S1 - - - </TD> <TD BGCOLOR="#cccccc" ALIGN=CENTER> - - DVR-43A CVR-42C CVR-42A/C - - </TD> </TR> </TABLE> ALT = ALTERNATE   </td> </tr> </table> Chip RESISTOR 0402 EIA (1005 Metric) >NAME >VALUE RESISTOR >NAME >VALUE RESISTOR >NAME >VALUE RESISTOR wave soldering >NAME >VALUE RESISTOR >NAME >VALUE RESISTOR wave soldering >NAME >VALUE RESISTOR >NAME >VALUE RESISTOR wave soldering >NAME >VALUE RESISTOR >NAME >VALUE RESISTOR wave soldering >NAME >VALUE RESISTOR >NAME >VALUE RESISTOR wave soldering >NAME >VALUE RESISTOR >NAME >VALUE RESISTOR wave soldering >NAME >VALUE RESISTOR >NAME >VALUE RESISTOR wave soldering >NAME >VALUE RESISTOR >NAME >VALUE RESISTOR wave soldering >NAME >VALUE RESISTOR >NAME >VALUE RESISTOR wave soldering >NAME >VALUE RESISTOR Source: http://download.siliconexpert.com/pdfs/2005/02/24/Semi_Ap/2/VSH/Resistor/dcrcwfre.pdf >NAME >VALUE RESISTOR wave soldering Source: http://download.siliconexpert.com/pdfs/2005/02/24/Semi_Ap/2/VSH/Resistor/dcrcwfre.pdf >NAME >VALUE RESISTOR MELF 0.10 W >NAME >VALUE RESISTOR MELF 0.25 W >NAME >VALUE RESISTOR MELF 0.12 W >NAME >VALUE RESISTOR MELF 0.10 W >NAME >VALUE RESISTOR MELF 0.25 W >NAME >VALUE RESISTOR MELF 0.25 W >NAME >VALUE RESISTOR MELF 0.12 W >NAME >VALUE RESISTOR MELF 0.25 W >NAME >VALUE RESISTOR type 0204, grid 5 mm >NAME >VALUE RESISTOR type 0204, grid 7.5 mm >NAME >VALUE RESISTOR type 0207, grid 10 mm >NAME >VALUE RESISTOR type 0207, grid 12 mm >NAME >VALUE RESISTOR type 0207, grid 15mm >NAME >VALUE RESISTOR type 0207, grid 2.5 mm >NAME >VALUE RESISTOR type 0207, grid 5 mm >NAME >VALUE RESISTOR type 0207, grid 7.5 mm >NAME >VALUE RESISTOR type 0309, grid 10mm >NAME >VALUE RESISTOR type 0309, grid 12.5 mm >NAME >VALUE RESISTOR type 0411, grid 12.5 mm >NAME >VALUE RESISTOR type 0411, grid 15 mm >NAME >VALUE RESISTOR type 0411, grid 3.81 mm >NAME >VALUE RESISTOR type 0414, grid 15 mm >NAME >VALUE RESISTOR type 0414, grid 5 mm >NAME >VALUE RESISTOR type 0617, grid 17.5 mm >NAME >VALUE RESISTOR type 0617, grid 22.5 mm >NAME >VALUE RESISTOR type 0617, grid 5 mm >NAME >VALUE RESISTOR type 0922, grid 22.5 mm >NAME >VALUE RESISTOR type 0613, grid 5 mm >NAME >VALUE RESISTOR type 0613, grid 15 mm >NAME >VALUE RESISTOR type 0817, grid 22.5 mm >NAME >VALUE 0817 RESISTOR type 0817, grid 6.35 mm >NAME >VALUE 0817 RESISTOR type V234, grid 12.5 mm >NAME >VALUE RESISTOR type V235, grid 17.78 mm >NAME >VALUE RESISTOR type V526-0, grid 2.5 mm >NAME >VALUE Mini MELF 0102 Axial >NAME >VALUE RESISTOR type 0922, grid 7.5 mm >NAME >VALUE 0922 CECC Size RC2211 Reflow Soldering source Beyschlag >NAME >VALUE CECC Size RC2211 Wave Soldering source Beyschlag >NAME >VALUE CECC Size RC3715 Reflow Soldering source Beyschlag >NAME >VALUE CECC Size RC3715 Wave Soldering source Beyschlag >NAME >VALUE CECC Size RC6123 Reflow Soldering source Beyschlag >NAME >VALUE CECC Size RC6123 Wave Soldering source Beyschlag >NAME >VALUE RESISTOR type RDH, grid 15 mm >NAME >VALUE RDH RESISTOR type 0204, grid 2.5 mm >NAME >VALUE RESISTOR type 0309, grid 2.5 mm >NAME >VALUE RESISTOR chip Source: http://www.vishay.com/docs/20008/dcrcw.pdf >NAME >VALUE Bulk Metal® Foil Technology, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements MIL SIZE RNC55 Source: VISHAY .. vta56.pdf >NAME >VALUE Bulk Metal® Foil Technology, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements MIL SIZE RNC60 Source: VISHAY .. vta56.pdf >NAME >VALUE Bulk Metal® Foil Technology, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements MIL SIZE RBR52 Source: VISHAY .. vta56.pdf >NAME >VALUE Bulk Metal® Foil Technology, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements MIL SIZE RBR53 Source: VISHAY .. vta56.pdf >NAME >VALUE Bulk Metal® Foil Technology, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements MIL SIZE RBR54 Source: VISHAY .. vta56.pdf >NAME >VALUE Bulk Metal® Foil Technology, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements MIL SIZE RBR55 Source: VISHAY .. vta56.pdf >NAME >VALUE Bulk Metal® Foil Technology, Tubular Axial Lead Resistors, Meets or Exceeds MIL-R-39005 Requirements MIL SIZE RBR56 Source: VISHAY .. vta56.pdf >NAME >VALUE Package 4527 Source: http://www.vishay.com/docs/31059/wsrhigh.pdf >NAME >VALUE Wirewound Resistors, Precision Power Source: VISHAY wscwsn.pdf >NAME >VALUE Wirewound Resistors, Precision Power Source: VISHAY wscwsn.pdf >NAME >VALUE Wirewound Resistors, Precision Power Source: VISHAY wscwsn.pdf >NAME >VALUE Wirewound Resistors, Precision Power Source: VISHAY wscwsn.pdf >NAME >VALUE Wirewound Resistors, Precision Power Source: VISHAY wscwsn.pdf >NAME >VALUE Wirewound Resistors, Precision Power Source: VISHAY wscwsn.pdf >NAME >VALUE CRCW1218 Thick Film, Rectangular Chip Resistors Source: http://www.vishay.com .. dcrcw.pdf >NAME >VALUE Chip Monolithic Ceramic Capacitors Medium Voltage High Capacitance for General Use Source: http://www.murata.com .. GRM43DR72E224KW01.pdf >NAME >VALUE >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR >NAME >VALUE CAPACITOR grid 2.5 mm, outline 2.4 x 4.4 mm >NAME >VALUE CAPACITOR grid 2.5 mm, outline 2.5 x 5 mm >NAME >VALUE CAPACITOR grid 2.5 mm, outline 3 x 5 mm >NAME >VALUE CAPACITOR grid 2.5 mm, outline 4 x 5 mm >NAME >VALUE CAPACITOR grid 2.5 mm, outline 5 x 5 mm >NAME >VALUE CAPACITOR grid 2.5 mm, outline 6 x 5 mm >NAME >VALUE CAPACITOR grid 2.5 mm + 5 mm, outline 2.4 x 7 mm >NAME >VALUE CAPACITOR grid 2.5 + 5 mm, outline 2.5 x 7.5 mm >NAME >VALUE CAPACITOR grid 2.5 + 5 mm, outline 3.5 x 7.5 mm >NAME >VALUE CAPACITOR grid 2.5 + 5 mm, outline 4.5 x 7.5 mm >NAME >VALUE CAPACITOR grid 2.5 + 5 mm, outline 5.5 x 7.5 mm >NAME >VALUE CAPACITOR grid 5 mm, outline 2.4 x 4.4 mm >NAME >VALUE CAPACITOR grid 5 mm, outline 2.5 x 7.5 mm >NAME >VALUE CAPACITOR grid 5 mm, outline 4.5 x 7.5 mm >NAME >VALUE CAPACITOR grid 5 mm, outline 3 x 7.5 mm >NAME >VALUE CAPACITOR grid 5 mm, outline 5 x 7.5 mm >NAME >VALUE CAPACITOR grid 5 mm, outline 5.5 x 7.5 mm >NAME >VALUE CAPACITOR grid 5 mm, outline 7.5 x 7.5 mm >NAME >VALUE CAPACITOR Horizontal, grid 5 mm, outline 7.5 x 7.5 mm >NAME >VALUE CAPACITOR grid 7.5 mm, outline 3.2 x 10.3 mm >NAME >VALUE CAPACITOR grid 7.5 mm, outline 4.2 x 10.3 mm >NAME >VALUE CAPACITOR grid 7.5 mm, outline 5.2 x 10.6 mm >NAME >VALUE CAPACITOR grid 10.2 mm, outline 4.3 x 13.3 mm >NAME >VALUE CAPACITOR grid 10.2 mm, outline 5.4 x 13.3 mm >NAME >VALUE CAPACITOR grid 10.2 mm, outline 6.4 x 13.3 mm >NAME >VALUE CAPACITOR grid 10.2 mm + 15.2 mm, outline 6.2 x 18.4 mm >NAME >VALUE CAPACITOR grid 15 mm, outline 5.4 x 18.3 mm >NAME >VALUE CAPACITOR grid 15 mm, outline 6.4 x 18.3 mm >NAME >VALUE CAPACITOR grid 15 mm, outline 7.2 x 18.3 mm >NAME >VALUE CAPACITOR grid 15 mm, outline 8.4 x 18.3 mm >NAME >VALUE CAPACITOR grid 15 mm, outline 9.1 x 18.2 mm >NAME >VALUE CAPACITOR grid 22.5 mm, outline 6.2 x 26.8 mm >NAME >VALUE CAPACITOR grid 22.5 mm, outline 7.4 x 26.8 mm >NAME >VALUE CAPACITOR grid 22.5 mm, outline 8.7 x 26.8 mm >NAME >VALUE CAPACITOR grid 22.5 mm, outline 10.8 x 26.8 mm >NAME >VALUE CAPACITOR grid 22.5 mm, outline 11.3 x 26.8 mm >NAME >VALUE CAPACITOR grid 27.5 mm, outline 9.3 x 31.6 mm >NAME >VALUE CAPACITOR grid 27.5 mm, outline 11.3 x 31.6 mm >NAME >VALUE CAPACITOR grid 27.5 mm, outline 13.4 x 31.6 mm >NAME >VALUE CAPACITOR grid 27.5 mm, outline 20.5 x 31.6 mm >NAME >VALUE CAPACITOR grid 32.5 mm, outline 13.7 x 37.4 mm >NAME >VALUE CAPACITOR grid 32.5 mm, outline 16.2 x 37.4 mm >NAME >VALUE CAPACITOR grid 32.5 mm, outline 18.2 x 37.4 mm >NAME >VALUE CAPACITOR grid 37.5 mm, outline 19.2 x 41.8 mm >NAME >VALUE CAPACITOR grid 37.5 mm, outline 20.3 x 41.8 mm >NAME >VALUE CAPACITOR grid 5 mm, outline 3.5 x 7.5 mm >NAME >VALUE CAPACITOR grid 37.5 mm, outline 15.5 x 41.8 mm >NAME >VALUE CAPACITOR grid 7.5 mm, outline 6.3 x 10.6 mm >NAME >VALUE CAPACITOR grid 27.5 mm, outline 15.4 x 31.6 mm >NAME >VALUE CAPACITOR grid 27.5 mm, outline 17.3 x 31.6 mm >NAME >VALUE Ceramic Chip Capacitor KEMET 0204 reflow solder Metric Code Size 1005 >NAME >VALUE Ceramic Chip Capacitor KEMET 0603 reflow solder Metric Code Size 1608 >NAME >VALUE Ceramic Chip Capacitor KEMET 0805 reflow solder Metric Code Size 2012 >NAME >VALUE Ceramic Chip Capacitor KEMET 1206 reflow solder Metric Code Size 3216 >NAME >VALUE Ceramic Chip Capacitor KEMET 1210 reflow solder Metric Code Size 3225 >NAME >VALUE Ceramic Chip Capacitor KEMET 1812 reflow solder Metric Code Size 4532 >NAME >VALUE Ceramic Chip Capacitor KEMET 1825 reflow solder Metric Code Size 4564 >NAME >VALUE Ceramic Chip Capacitor KEMET 2220 reflow solderMetric Code Size 5650 >NAME >VALUE Ceramic Chip Capacitor KEMET 2225 reflow solderMetric Code Size 5664 >NAME >VALUE Source: http://www.vishay.com/docs/10129/hpc0201a.pdf >NAME >VALUE Source: http://www.avxcorp.com/docs/catalogs/cx5r.pdf >NAME >VALUE CAPACITOR Source: AVX .. aphvc.pdf >NAME >VALUE CAPACITOR Source: AVX .. aphvc.pdf >NAME >VALUE CAPACITOR >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 Chip package with body size 0.40 X 0.20 X 0.16 mm Chip, 1.00 X 0.50 X 0.60 mm body Chip package with body size 1.00 X 0.50 X 0.60 mm 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 RESISTOR, American symbol CAPACITOR, European symbol Supply Symbols GND, VCC, 0V, +5V, -5V, etc. Please keep in mind, that these devices are necessary for the automatic wiring of the supply signals. The pin name defined in the symbol is identical to the net which is to be wired automatically. 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. <author>Created by librarian@cadsoft.de</author> >VALUE SUPPLY SYMBOL Supply Symbols GND, VCC, 0V, +5V, -5V, etc. Please keep in mind, that these devices are necessary for the automatic wiring of the supply signals. The pin name defined in the symbol is identical to the net which is to be wired automatically. 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. <author>Created by librarian@cadsoft.de</author> >VALUE >VALUE SUPPLY SYMBOL SUPPLY SYMBOL Diodes Based on the following sources: <ul> <li>Motorola : www.onsemi.com <li>Fairchild : www.fairchildsemi.com <li>Philips : www.semiconductors.com <li>Vishay : www.vishay.de </ul> <author>Created by librarian@cadsoft.de</author> SOD-323 Source: www.st.com, BAT60J.pdf >NAME >VALUE SOD-323 Source: www.st.com, BAT60J.pdf >NAME >VALUE Schottky barrier diode Source: www.st.com, BAT60J.pdf CV inputs are conditioned with two inverting opamp stages, the AS3360 VC inputs operates in the 0-2V operating range with a maximum range of -2-2.5V. Stage one applies a negative gain to clip the voltage at -10.5V. For an input CV range of 0-8V a gain of -1.25 (30k/24k) is used. For an input CV range of 0-5V a gain of -2.13 (100k/47k) is used. Stage two applies a gain of -0.2 (20k/100k) to the output of stage one, finally negative voltages are sent to ground using a shotkey diode, resulting in an output voltage in the 0-2.1V range. Outputs are buffered using an opamp at unity gain. Inputs accept 20Vpp converted to current through 47k resistors and sent to II1/II2. Linear VC inputs are conditioned to operate in the 0-2.1V range, undergo log coversion, output at VO and sent to VE controlling the amplitude. Ouput current at IO is converted to a voltage and sent to the output 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. 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. Since Version 9.0, EAGLE supports the align property for labels. Labels in schematic will not be understood with this version. Update EAGLE to the latest version for full support of labels.