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Erik Tóth
2026-03-18 11:01:39 +01:00
parent f0c2168e2b
commit a24b15c27b
493 changed files with 3025728 additions and 3024156 deletions
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dev/da_altium_lib/DA_LIB/A12405RNZQ.STEP
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dev/da_altium_lib/DA_LIB/DA_LIB.LibPkg
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dev/da_altium_lib/DA_LIB/DA_LIB.cmp
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@@ -1,13 +1,13 @@
Component Name : TP TESTPOINT
Part Count : 2
Part : TP?
Pins - (Normal) : 0
Hidden Pins :
Part : TP?
Pins - (Normal) : 1
TP 1 Passive
Hidden Pins :
Component Name : TP TESTPOINT
Part Count : 2
Part : TP?
Pins - (Normal) : 0
Hidden Pins :
Part : TP?
Pins - (Normal) : 1
TP 1 Passive
Hidden Pins :

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dev/da_altium_lib/DA_LIB/DA_LIB.csv
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@@ -1,88 +1,88 @@
"LIBRARYREFERENCE","FOOTPRINT1","FOOTPRINT2","FOOTPRINT3","FOOTPRINT4","CAUTHOR","COMMENT","COMPONENTLINK1DESCRIPTION","COMPONENTLINK1URL","COMPONENTLINK2DESCRIPTION","COMPONENTLINK2URL","LATESTREV","LCSC PART #","PUBLISHED","VALUE","SHEETPART","DESIGNATOR","DESCRIPTION"
"C CL05A105KA5NQNC","C0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-03","C52923","2025-09-27","1uF","*","C?","25V 1uF X5R ±10% 0402 Ceramic Capacitors ROHS"
"C CL05A474KA5NNNC","C0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-03","C92361","2025-10-23","470nF","*","C?","25V 470nF X5R ±10% 0402 Ceramic Capacitors ROHS"
"C CL05B102KB5NNNC","C0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-08","C14442","2025-12-08","1nF","*","C?","50V 1nF X7R ±10% 0402 Ceramic Capacitors RoHS"
"C CL05B103KB5NNNC","C0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-03","C15195","2025-09-27","10nF","*","C?","50V 10nF X7R ±10% 0402 Ceramic Capacitors ROHS"
"C CL05B104KB54PNC","C0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-08","C307331","2025-12-08","100nF","*","C?","50V 100nF X7R ±10% 0402 Ceramic Capacitors RoHS"
"C CL05B472KB5NNNC","C0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-08","C84705","2025-12-08","4.7nF","*","C?","50V 4.7nF X7R ±10% 0402 Ceramic Capacitors RoHS"
"C CL05C220JB5NNNC","C0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-03","C70464","2025-09-28","22pF","*","C?","50V 22pF C0G ±5% 0402 Ceramic Capacitors ROHS"
"C CL10A105KB8NNNC","C0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-08","C15849","2025-12-08","1uF","*","C?","50V 1uF X5R ±10% 0603 Ceramic Capacitors RoHS"
"C CL10A106MA8NRNC","C0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-03","C96446","2025-10-14","10uF","*","C?","25V 10uF X5R ±20% 0603 Ceramic Capacitors RoHS"
"C CL10A474KB8NNNC","C0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-03","C170149","2025-10-23","470nF","*","C?","50V 470nF X5R ±10% 0603 Ceramic Capacitors ROHS"
"C CL10B102KB8NNNC","C0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-08","C1588","2025-12-08","1nF","*","C?","50V 1nF X7R ±10% 0603 Ceramic Capacitors RoHS"
"C CL10B103KB8NNNC","C0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-08","C1589","2025-12-08","10nF","*","C?","50V 10nF X7R ±10% 0603 Ceramic Capacitors RoHS"
"C CL10B104KB8NNNC","C0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-03","C1591","2025-10-25","100nF","*","C?","50V 100nF X7R ±10% 0603 Ceramic Capacitors ROHS"
"C CL10B472KB8NNNC","C0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-08","C1621","2025-12-08","4.7nF","*","C?","50V 4.7nF X7R ±10% 0603 Ceramic Capacitors RoHS"
"C MMK472J3AB3KN206G0","CAP-TH_L10.0-W4.0-P7.50-D0.6","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C2998030.pdf","","","2025-12-08","C2998030","2025-12-08","4.7nF","*","C?","4.7nF -40?~+105? ±5% 1kV Through Hole,P=7.5mm Film Capacitors RoHS"
"C TAJA106K016RNJ","CAP-SMD_L3.2-W1.6-RD","","","","Erik Tóth","=VALUE","Datasheet","https://datasheet.octopart.com/TAJA106K016RNJ-AVX---Kyocera-datasheet-50868559.pdf","","","2025-12-03","C7171","2025-09-22","10uF","*","C?","10uF 16V 3O@100kHz ±10% CASE-A-3216-18(mm) Tantalum Capacitors ROHS"
"C TAJC226K025RNJ","CAP-SMD_L6.0-W3.2-R-RD","","","","Erik Tóth","=VALUE","Datasheet","https://datasheets.kyocera-avx.com/TAJ.pdf","","","2025-12-03","C7214","2025-10-14","22uF","*","C?","22uF 25V 1.4O@100kHz ±10% CASE-C-6032-28(mm) Tantalum Capacitors ROHS"
"D 1N4148WS","SOD-323_L1.8-W1.3-LS2.5-RD","","","","Erik Tóth","","Datasheet","https://www.lcsc.com/datasheet/C2128.pdf","","","2025-12-03","C2128","2025-09-25","","*","D?","2A 4ns 100V Independent 1.25V@150mA 150mA SOD-323 Single Diodes ROHS"
"D DF2S16FS,L3M","SOD-923_L0.8-W0.6-LS1.0-RD","","","","Erik Tóth","*","Datasheet","https://www.arrow.com/en/products/df2s16fsl3m/toshiba","","","2025-12-03","C1972990","2025-09-23","","*","D?","TVS Diode (Uni-directional)"
"D ESD5Z6.0T1G","SOD-523F_L1.2-W0.8-LS1.7-RD","","","","Erik Tóth","ESD5Z6.0T1G","Datasheet","https://www.onsemi.com/download/data-sheet/pdf/esd5z2.5t1-d.pdf","","","2025-12-03","C82323","2025-09-23","","*","D?","TVS Diode (Uni-directional)"
"D SESD0402Q2UG-0020-090","DFN1006-3L_L1.0-W0.6-BL","","","","Erik Tóth","*","Datasheet","https://www.littelfuse.com/~/media/electronics/datasheets/tvs_diode_arrays/littelfuse_tvs_diode_array_sesd_ultra_low_capacitance_diode_arrays_datasheet.pdf.pdf","","","2025-12-03","C1975947","2025-09-23","","*","D?","2 Channel TVS Diode (Uni-directional)"
"IC ESP32-S3R8","QFN-56_L7.0-W7.0-P0.40-TL-EP4.0.","","","","Erik Tóth","ESP32-S3R8","Datasheet","https://www.espressif.com/sites/default/files/documentation/esp32-s3_datasheet_en.pdf","","","2025-12-03","C2913194","2025-09-27","","*","IC?","150Mbps 2.4GHz -74.2dBm 2.412GHz~2.484GHz QFN-56(7x7) RF Transceiver ICs ROHS"
"IC HUSB237-AA001-DN06R","TDFN-6_L2.0-W2.0-P0.65-TL-EP","","","","Erik Tóth","HUSB237","Datasheet","https://www.lcsc.com/datasheet/C22373734.pdf","","","2025-12-03","C22373734","2025-09-19","","*","IC?","USB Type-C Power Delivery Sink Controller"
"IC LM13700","PDIP-16","SOIC-16_L9.9-W3.9-P1.27-LS6.0-BL","","","Erik Tóth","LM13700","","","Datasheet URL","https://www.ti.com/lit/ds/symlink/lm13700.pdf","2025-12-03","C174050","2025-06-22","","*","IC?","Dual Operational Transconductance Amplifiers With Linearizing Diodes and Buffers"
"IC LM386MX-1/NOPB","SOIC-8_L4.9-W3.9-P1.27-LS6.0-BL","","","","Erik Tóth","LM386MX-1/NOPB","Datasheet","https://www.ti.com/lit/ds/symlink/lm386.pdf","","","2025-12-03","C23573","2025-11-25","","*","IC?","700mW, mono, 5- to 18-V, analog input Class-AB audio amplifier 8-SOIC 0 to 70"
"IC MCP4728-E_UN","MSOP-10_L3.0-W3.0-P0.50-LS4.9-BL","","","","Erik Tóth","MCP4728","Datasheet","http://ww1.microchip.com/downloads/en/DeviceDoc/22187E.pdf","","","2025-12-03","C478093","2025-09-22","","*","IC?","Quad, 12-bit NV DAC with I2C interface"
"IC TL074IDR","SOIC-14_L8.7-W3.9-P1.27-LS6.0-BL","","","","Erik Tóth","TL074","Datasheet","http://www.ti.com/lit/ds/symlink/tl074.pdf","","","2025-12-03","C6964","2025-10-13","","*","IC?","3mV 65pA 13V/us 70dB -15V~15V 3MHz 4 SOIC-14 Amplifiers ROHS"
"IC W25Q128JVSIQ","SOIC-8_L5.3-W5.3-P1.27-LS8.0-BL","","","","Erik Tóth","W25Q128JVSIQ","Datasheet","https://www.winbond.com/hq/search-resource-file.jsp?partNo=W25Q128JVSIQ&type=datasheet","","","2025-12-03","C97521","2025-09-27","","*","IC?","128M-bit Serial Flash Memory with uniform 4KB sectors and Dual/Quad SPI"
"J 2.54-2*6P","IDC-TH_12P-P2.54_BOOMELE-2X6P-2.54MM","","","","Erik Tóth","2.54-2*6P","","","","","2025-12-06","C9136","2025-12-06","","*","J?","2.54mm 2x6P 6 2 IDC Header 2.54mm Through Hole Through Hole,P=2.54mm Free Hanging, Panel Mount RoHS"
"J KH-TYPE-C-16P","USB-C-SMD_KH-TYPE-C-16P","","","","Erik Tóth","TYPE-C-16P","Datasheet","https://www.lcsc.com/datasheet/C709357.pdf","","","2025-12-09","C709357","2025-12-09","","","J?","1 16P -40?~+85? Type-C SMD USB, DVI, HDMI Connector Assemblies RoHS"
"L LQG15HS2N0S02D","IND_LQG15_MUR","","","","Erik Tóth","=VALUE","Datasheet","https://pim.murata.com/asset/pim4/inductor/JELF243B-0010_PDF_INDUCTOR?lastModifiedDatetime=20250708072108","","","2025-09-27","C18216","2025-09-27","2nH","*","L?","900mA 2nH 90mO 0402 Fixed Inductors ROHS"
"R 0402WGF0000TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-03","C17168","2025-09-27","0R","*","R?","0O 62.5mW 50V ±800ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount ROHS"
"R 0402WGF1000TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25076","2025-12-08","100","*","R?","100O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF1001TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C11702","2025-12-06","1k","*","R?","1kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF1002TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-03","C25744","2025-09-27","10k","*","R?","10kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount ROHS"
"R 0402WGF1003TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25741","2025-12-06","100k","*","R?","100kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF1201TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25862","2025-12-08","1.2k","*","R?","1.2kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF1203TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25750","2025-12-08","120k","*","R?","120kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF1501TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25867","2025-12-06","1.5k","*","R?","1.5kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF1502TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25756","2025-12-06","15k","*","R?","15kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF2001TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C4109","2025-12-06","2k","*","R?","2kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF2002TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25765","2025-12-06","20k","*","R?","20kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF2202TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25768","2025-12-06","22k","*","R?","22kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF3300TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25104","2025-12-06","330","*","R?","330O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF3301TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25890","2025-12-06","3.3k","*","R?","3.3kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF3302TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25779","2025-12-06","33k","*","R?","33kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF3303TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25778","2025-12-08","330k","*","R?","330kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF4703TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25790","2025-12-08","470k","*","R?","470kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF5101TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25905","2025-12-06","5.1k","*","R?","5.1kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF5103TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C11616","2025-12-06","510k","*","R?","510kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF6801TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25917","2025-12-08","6.8k","*","R?","6.8kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF7500TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25132","2025-12-08","750","*","R?","750O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF8200TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25135","2025-12-08","820","*","R?","820O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0603WAF1000T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C22775","2025-12-08","100","*","R?","100O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF1002T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C25804","2025-12-08","10k","*","R?","10kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF1003T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C25803","2025-12-08","100k","*","R?","100kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF1004T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-03","C22935","2025-10-24","1Meg","*","R?","1MO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount ROHS"
"R 0603WAF1201T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C22765","2025-12-08","1.2k","*","R?","1.2kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF1203T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C25808","2025-12-08","120k","*","R?","120kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF1501T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-06","C22843","2025-12-06","1.5k","*","R?","1.5kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF1502T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-06","C22809","2025-12-06","15k","*","R?","15kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF2002T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-06","C4184","2025-12-06","20k","*","R?","20kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF2202T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-06","C31850","2025-12-06","22k","*","R?","22kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF3302T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-06","C4216","2025-12-06","33k","*","R?","33kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF3303T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C23137","2025-12-08","330k","*","R?","330kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF4703T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C23178","2025-12-08","470k","*","R?","470kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF5101T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C23186","2025-12-08","5.1k","*","R?","5.1kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF6801T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C23212","2025-12-08","6.8k","*","R?","6.8kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF7500T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C23241","2025-12-08","750","*","R?","750O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF8200T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C23253","2025-12-08","820","*","R?","820O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R_POT PTV09A-4020F-B103","PTV09A-4","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.bourns.com/docs/product-datasheets/PTV09.pdf","","","2025-09-13","C5848782","2025-09-13","10k","*","R_POT?",""
"R_POT PTV09A-4020F-B104","PTV09A-4","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.bourns.com/docs/product-datasheets/PTV09.pdf","","","2025-09-13","C5154557","2025-09-13","100k","*","R_POT?",""
"R_POT PTV09A-4020F-B105","PTV09A-4","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.bourns.com/docs/product-datasheets/PTV09.pdf","","","2025-09-13","C6738612","2025-09-13","1Meg","*","R_POT?",""
"R_POT PTV09A-4020F-B203","PTV09A-4","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.bourns.com/docs/product-datasheets/PTV09.pdf","","","2025-09-13","C6738614","2025-09-13","20k","*","R_POT?",""
"R_POT PTV09A-4020F-B503","PTV09A-4","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.bourns.com/docs/product-datasheets/PTV09.pdf","","","2025-09-13","C5848785","2025-09-13","50k","*","R_POT?",""
"R_POT PTV09A-4020F-B504","PTV09A-4","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.bourns.com/docs/product-datasheets/PTV09.pdf","","","2025-09-13","C5154140","2025-09-13","500k","*","R_POT?",""
"R_POT RK09D113000F","RK09D113F","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.alldatasheet.com/datasheet-pdf/view/328831/ALPS/RK09D113000F.html","","","2025-09-12","C470317","2025-09-12","10k","*","R_POT?",""
"R_POT RK09D1130A1L","RK09D113F","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.alldatasheet.com/datasheet-pdf/view/328831/ALPS/RK09D113000F.html","","","2025-09-13","C470305","2025-09-13","*","*","R_POT?",""
"S A12405RNCQ","A124XXRNCX","","","","Erik Tóth","DNP","Datasheet URL","https://www.ckswitches.com/media/1349/arotary.pdf","","","2025-09-20","C2800106","2025-09-11","","*","S?","1 Pole 4 Stage Rotary Switch"
"S TS02-66-50-BK-100-SCR-D","TS026650BK100SCRD","","","","Erik Tóth","TS02-66-50-BK-100-SCR-D","Datasheet","https://www.sameskydevices.com/product/resource/ts02.pdf","","","2025-09-25","","2025-09-25","","*","S?","6 x 6 mm, 5 mm Actuator Height, 100 gf, Black, Short Crimped, Through Hole, SPST, Tactile Switch"
"T DMMT3906W-7-F","SOT-363_L2.0-W1.3-P0.65-LS2.1-BR","","","","Erik Tóth","DMMT3906W-7-F","Datasheet","https://www.diodes.com/datasheet/download/DMMT3906W.pdf","","","2025-12-08","C151567","2025-12-08","","*","T?","40V 200mW 200mA MATCHED PAIR PNP SMALL SIGNAL TRANSISTOR IN SOT363"
"T SS8050","SOT-23-3_L2.9-W1.3-P1.90-LS2.4-BR","","","","Erik Tóth","SS8050","Datasheet","https://www.lcsc.com/datasheet/C916392.pdf","","","2025-12-08","C916392","2025-12-08","","*","T?","300mW 25V 1.5A NPN SOT-23 Single Bipolar Transistors RoHS"
"T SS8550","SOT-23-3_L2.9-W1.3-P1.90-LS2.4-BR","","","","Erik Tóth","SS8550","Datasheet","https://www.lcsc.com/datasheet/C916393.pdf","","","2025-12-08","C916393","2025-12-08","","*","T?","300mW 25V 1.5A PNP SOT-23 Single Bipolar Transistors RoHS"
"TP TESTPOINT","TP_1.25mm","TP_0.5mm","TP_1.5mm","TP_1mm","","*","","","","","","","","","*","TP?","Test point"
"U AMS1117-3.3","SOT-223-3_L6.5-W3.4-P2.30-LS7.0-BR","","","","Erik Tóth","AMS1117","Datasheet","http://www.advanced-monolithic.com/pdf/ds1117.pdf","","","2025-12-03","C6186","2025-09-19","","*","U?","1A LOW DROPOUT VOLTAGE REGULATOR"
"U LM2940IMP-10/NOPB","SOT-223-4_L6.5-W3.5-P2.30-LS7.0-BR","","","","Erik Tóth","LM2940IMP-10/NOPB","Datasheet","https://www.ti.com/lit/ds/symlink/lm2940-n.pdf","","","2025-12-06","C2866078","2025-12-06","","*","U?","54dB@(120Hz) Positive Fixed 10V SOT-223-4 Voltage Regulators - Linear, Low Drop Out (LDO) Regulators RoHS"
"Y X322540MPB4SI","OSC-SMD_4P-L3.2-W2.5-BL_SIT8008BI","","","","Erik Tóth","=Value","Datasheet","https://www.yxc.hk/uploadfiles/2021/11/YSX321SL.pdf","","","2025-12-03","C9010","2025-09-27","40MHz","*","Y?","CRYSTAL 40MHz 15pF SMD"
"LIBRARYREFERENCE","FOOTPRINT1","FOOTPRINT2","FOOTPRINT3","FOOTPRINT4","CAUTHOR","COMMENT","COMPONENTLINK1DESCRIPTION","COMPONENTLINK1URL","COMPONENTLINK2DESCRIPTION","COMPONENTLINK2URL","LATESTREV","LCSC PART #","PUBLISHED","VALUE","SHEETPART","DESIGNATOR","DESCRIPTION"
"C CL05A105KA5NQNC","C0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-03","C52923","2025-09-27","1uF","*","C?","25V 1uF X5R ±10% 0402 Ceramic Capacitors ROHS"
"C CL05A474KA5NNNC","C0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-03","C92361","2025-10-23","470nF","*","C?","25V 470nF X5R ±10% 0402 Ceramic Capacitors ROHS"
"C CL05B102KB5NNNC","C0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-08","C14442","2025-12-08","1nF","*","C?","50V 1nF X7R ±10% 0402 Ceramic Capacitors RoHS"
"C CL05B103KB5NNNC","C0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-03","C15195","2025-09-27","10nF","*","C?","50V 10nF X7R ±10% 0402 Ceramic Capacitors ROHS"
"C CL05B104KB54PNC","C0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-08","C307331","2025-12-08","100nF","*","C?","50V 100nF X7R ±10% 0402 Ceramic Capacitors RoHS"
"C CL05B472KB5NNNC","C0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-08","C84705","2025-12-08","4.7nF","*","C?","50V 4.7nF X7R ±10% 0402 Ceramic Capacitors RoHS"
"C CL05C220JB5NNNC","C0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-03","C70464","2025-09-28","22pF","*","C?","50V 22pF C0G ±5% 0402 Ceramic Capacitors ROHS"
"C CL10A105KB8NNNC","C0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-08","C15849","2025-12-08","1uF","*","C?","50V 1uF X5R ±10% 0603 Ceramic Capacitors RoHS"
"C CL10A106MA8NRNC","C0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-03","C96446","2025-10-14","10uF","*","C?","25V 10uF X5R ±20% 0603 Ceramic Capacitors RoHS"
"C CL10A474KB8NNNC","C0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-03","C170149","2025-10-23","470nF","*","C?","50V 470nF X5R ±10% 0603 Ceramic Capacitors ROHS"
"C CL10B102KB8NNNC","C0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-08","C1588","2025-12-08","1nF","*","C?","50V 1nF X7R ±10% 0603 Ceramic Capacitors RoHS"
"C CL10B103KB8NNNC","C0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-08","C1589","2025-12-08","10nF","*","C?","50V 10nF X7R ±10% 0603 Ceramic Capacitors RoHS"
"C CL10B104KB8NNNC","C0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-03","C1591","2025-10-25","100nF","*","C?","50V 100nF X7R ±10% 0603 Ceramic Capacitors ROHS"
"C CL10B472KB8NNNC","C0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","2025-12-08","C1621","2025-12-08","4.7nF","*","C?","50V 4.7nF X7R ±10% 0603 Ceramic Capacitors RoHS"
"C MMK472J3AB3KN206G0","CAP-TH_L10.0-W4.0-P7.50-D0.6","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C2998030.pdf","","","2025-12-08","C2998030","2025-12-08","4.7nF","*","C?","4.7nF -40?~+105? ±5% 1kV Through Hole,P=7.5mm Film Capacitors RoHS"
"C TAJA106K016RNJ","CAP-SMD_L3.2-W1.6-RD","","","","Erik Tóth","=VALUE","Datasheet","https://datasheet.octopart.com/TAJA106K016RNJ-AVX---Kyocera-datasheet-50868559.pdf","","","2025-12-03","C7171","2025-09-22","10uF","*","C?","10uF 16V 3O@100kHz ±10% CASE-A-3216-18(mm) Tantalum Capacitors ROHS"
"C TAJC226K025RNJ","CAP-SMD_L6.0-W3.2-R-RD","","","","Erik Tóth","=VALUE","Datasheet","https://datasheets.kyocera-avx.com/TAJ.pdf","","","2025-12-03","C7214","2025-10-14","22uF","*","C?","22uF 25V 1.4O@100kHz ±10% CASE-C-6032-28(mm) Tantalum Capacitors ROHS"
"D 1N4148WS","SOD-323_L1.8-W1.3-LS2.5-RD","","","","Erik Tóth","","Datasheet","https://www.lcsc.com/datasheet/C2128.pdf","","","2025-12-03","C2128","2025-09-25","","*","D?","2A 4ns 100V Independent 1.25V@150mA 150mA SOD-323 Single Diodes ROHS"
"D DF2S16FS,L3M","SOD-923_L0.8-W0.6-LS1.0-RD","","","","Erik Tóth","*","Datasheet","https://www.arrow.com/en/products/df2s16fsl3m/toshiba","","","2025-12-03","C1972990","2025-09-23","","*","D?","TVS Diode (Uni-directional)"
"D ESD5Z6.0T1G","SOD-523F_L1.2-W0.8-LS1.7-RD","","","","Erik Tóth","ESD5Z6.0T1G","Datasheet","https://www.onsemi.com/download/data-sheet/pdf/esd5z2.5t1-d.pdf","","","2025-12-03","C82323","2025-09-23","","*","D?","TVS Diode (Uni-directional)"
"D SESD0402Q2UG-0020-090","DFN1006-3L_L1.0-W0.6-BL","","","","Erik Tóth","*","Datasheet","https://www.littelfuse.com/~/media/electronics/datasheets/tvs_diode_arrays/littelfuse_tvs_diode_array_sesd_ultra_low_capacitance_diode_arrays_datasheet.pdf.pdf","","","2025-12-03","C1975947","2025-09-23","","*","D?","2 Channel TVS Diode (Uni-directional)"
"IC ESP32-S3R8","QFN-56_L7.0-W7.0-P0.40-TL-EP4.0.","","","","Erik Tóth","ESP32-S3R8","Datasheet","https://www.espressif.com/sites/default/files/documentation/esp32-s3_datasheet_en.pdf","","","2025-12-03","C2913194","2025-09-27","","*","IC?","150Mbps 2.4GHz -74.2dBm 2.412GHz~2.484GHz QFN-56(7x7) RF Transceiver ICs ROHS"
"IC HUSB237-AA001-DN06R","TDFN-6_L2.0-W2.0-P0.65-TL-EP","","","","Erik Tóth","HUSB237","Datasheet","https://www.lcsc.com/datasheet/C22373734.pdf","","","2025-12-03","C22373734","2025-09-19","","*","IC?","USB Type-C Power Delivery Sink Controller"
"IC LM13700","PDIP-16","SOIC-16_L9.9-W3.9-P1.27-LS6.0-BL","","","Erik Tóth","LM13700","","","Datasheet URL","https://www.ti.com/lit/ds/symlink/lm13700.pdf","2025-12-03","C174050","2025-06-22","","*","IC?","Dual Operational Transconductance Amplifiers With Linearizing Diodes and Buffers"
"IC LM386MX-1/NOPB","SOIC-8_L4.9-W3.9-P1.27-LS6.0-BL","","","","Erik Tóth","LM386MX-1/NOPB","Datasheet","https://www.ti.com/lit/ds/symlink/lm386.pdf","","","2025-12-03","C23573","2025-11-25","","*","IC?","700mW, mono, 5- to 18-V, analog input Class-AB audio amplifier 8-SOIC 0 to 70"
"IC MCP4728-E_UN","MSOP-10_L3.0-W3.0-P0.50-LS4.9-BL","","","","Erik Tóth","MCP4728","Datasheet","http://ww1.microchip.com/downloads/en/DeviceDoc/22187E.pdf","","","2025-12-03","C478093","2025-09-22","","*","IC?","Quad, 12-bit NV DAC with I2C interface"
"IC TL074IDR","SOIC-14_L8.7-W3.9-P1.27-LS6.0-BL","","","","Erik Tóth","TL074","Datasheet","http://www.ti.com/lit/ds/symlink/tl074.pdf","","","2025-12-03","C6964","2025-10-13","","*","IC?","3mV 65pA 13V/us 70dB -15V~15V 3MHz 4 SOIC-14 Amplifiers ROHS"
"IC W25Q128JVSIQ","SOIC-8_L5.3-W5.3-P1.27-LS8.0-BL","","","","Erik Tóth","W25Q128JVSIQ","Datasheet","https://www.winbond.com/hq/search-resource-file.jsp?partNo=W25Q128JVSIQ&type=datasheet","","","2025-12-03","C97521","2025-09-27","","*","IC?","128M-bit Serial Flash Memory with uniform 4KB sectors and Dual/Quad SPI"
"J 2.54-2*6P","IDC-TH_12P-P2.54_BOOMELE-2X6P-2.54MM","","","","Erik Tóth","2.54-2*6P","","","","","2025-12-06","C9136","2025-12-06","","*","J?","2.54mm 2x6P 6 2 IDC Header 2.54mm Through Hole Through Hole,P=2.54mm Free Hanging, Panel Mount RoHS"
"J KH-TYPE-C-16P","USB-C-SMD_KH-TYPE-C-16P","","","","Erik Tóth","TYPE-C-16P","Datasheet","https://www.lcsc.com/datasheet/C709357.pdf","","","2025-12-09","C709357","2025-12-09","","","J?","1 16P -40?~+85? Type-C SMD USB, DVI, HDMI Connector Assemblies RoHS"
"L LQG15HS2N0S02D","IND_LQG15_MUR","","","","Erik Tóth","=VALUE","Datasheet","https://pim.murata.com/asset/pim4/inductor/JELF243B-0010_PDF_INDUCTOR?lastModifiedDatetime=20250708072108","","","2025-09-27","C18216","2025-09-27","2nH","*","L?","900mA 2nH 90mO 0402 Fixed Inductors ROHS"
"R 0402WGF0000TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-03","C17168","2025-09-27","0R","*","R?","0O 62.5mW 50V ±800ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount ROHS"
"R 0402WGF1000TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25076","2025-12-08","100","*","R?","100O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF1001TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C11702","2025-12-06","1k","*","R?","1kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF1002TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-03","C25744","2025-09-27","10k","*","R?","10kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount ROHS"
"R 0402WGF1003TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25741","2025-12-06","100k","*","R?","100kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF1201TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25862","2025-12-08","1.2k","*","R?","1.2kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF1203TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25750","2025-12-08","120k","*","R?","120kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF1501TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25867","2025-12-06","1.5k","*","R?","1.5kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF1502TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25756","2025-12-06","15k","*","R?","15kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF2001TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C4109","2025-12-06","2k","*","R?","2kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF2002TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25765","2025-12-06","20k","*","R?","20kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF2202TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25768","2025-12-06","22k","*","R?","22kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF3300TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25104","2025-12-06","330","*","R?","330O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF3301TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25890","2025-12-06","3.3k","*","R?","3.3kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF3302TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25779","2025-12-06","33k","*","R?","33kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF3303TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25778","2025-12-08","330k","*","R?","330kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF4703TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25790","2025-12-08","470k","*","R?","470kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF5101TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C25905","2025-12-06","5.1k","*","R?","5.1kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF5103TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-06","C11616","2025-12-06","510k","*","R?","510kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF6801TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25917","2025-12-08","6.8k","*","R?","6.8kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF7500TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25132","2025-12-08","750","*","R?","750O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0402WGF8200TCE","R0402","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","2025-12-08","C25135","2025-12-08","820","*","R?","820O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS"
"R 0603WAF1000T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C22775","2025-12-08","100","*","R?","100O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF1002T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C25804","2025-12-08","10k","*","R?","10kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF1003T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C25803","2025-12-08","100k","*","R?","100kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF1004T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-03","C22935","2025-10-24","1Meg","*","R?","1MO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount ROHS"
"R 0603WAF1201T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C22765","2025-12-08","1.2k","*","R?","1.2kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF1203T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C25808","2025-12-08","120k","*","R?","120kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF1501T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-06","C22843","2025-12-06","1.5k","*","R?","1.5kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF1502T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-06","C22809","2025-12-06","15k","*","R?","15kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF2002T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-06","C4184","2025-12-06","20k","*","R?","20kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF2202T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-06","C31850","2025-12-06","22k","*","R?","22kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF3302T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-06","C4216","2025-12-06","33k","*","R?","33kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF3303T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C23137","2025-12-08","330k","*","R?","330kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF4703T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C23178","2025-12-08","470k","*","R?","470kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF5101T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C23186","2025-12-08","5.1k","*","R?","5.1kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF6801T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C23212","2025-12-08","6.8k","*","R?","6.8kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF7500T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C23241","2025-12-08","750","*","R?","750O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R 0603WAF8200T5E","R0603","","","","Erik Tóth","=VALUE","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","2025-12-08","C23253","2025-12-08","820","*","R?","820O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS"
"R_POT PTV09A-4020F-B103","PTV09A-4","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.bourns.com/docs/product-datasheets/PTV09.pdf","","","2025-09-13","C5848782","2025-09-13","10k","*","R_POT?",""
"R_POT PTV09A-4020F-B104","PTV09A-4","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.bourns.com/docs/product-datasheets/PTV09.pdf","","","2025-09-13","C5154557","2025-09-13","100k","*","R_POT?",""
"R_POT PTV09A-4020F-B105","PTV09A-4","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.bourns.com/docs/product-datasheets/PTV09.pdf","","","2025-09-13","C6738612","2025-09-13","1Meg","*","R_POT?",""
"R_POT PTV09A-4020F-B203","PTV09A-4","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.bourns.com/docs/product-datasheets/PTV09.pdf","","","2025-09-13","C6738614","2025-09-13","20k","*","R_POT?",""
"R_POT PTV09A-4020F-B503","PTV09A-4","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.bourns.com/docs/product-datasheets/PTV09.pdf","","","2025-09-13","C5848785","2025-09-13","50k","*","R_POT?",""
"R_POT PTV09A-4020F-B504","PTV09A-4","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.bourns.com/docs/product-datasheets/PTV09.pdf","","","2025-09-13","C5154140","2025-09-13","500k","*","R_POT?",""
"R_POT RK09D113000F","RK09D113F","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.alldatasheet.com/datasheet-pdf/view/328831/ALPS/RK09D113000F.html","","","2025-09-12","C470317","2025-09-12","10k","*","R_POT?",""
"R_POT RK09D1130A1L","RK09D113F","","","","Erik Tóth","=VALUE","Datasheet URL","https://www.alldatasheet.com/datasheet-pdf/view/328831/ALPS/RK09D113000F.html","","","2025-09-13","C470305","2025-09-13","*","*","R_POT?",""
"S A12405RNCQ","A124XXRNCX","","","","Erik Tóth","DNP","Datasheet URL","https://www.ckswitches.com/media/1349/arotary.pdf","","","2025-09-20","C2800106","2025-09-11","","*","S?","1 Pole 4 Stage Rotary Switch"
"S TS02-66-50-BK-100-SCR-D","TS026650BK100SCRD","","","","Erik Tóth","TS02-66-50-BK-100-SCR-D","Datasheet","https://www.sameskydevices.com/product/resource/ts02.pdf","","","2025-09-25","","2025-09-25","","*","S?","6 x 6 mm, 5 mm Actuator Height, 100 gf, Black, Short Crimped, Through Hole, SPST, Tactile Switch"
"T DMMT3906W-7-F","SOT-363_L2.0-W1.3-P0.65-LS2.1-BR","","","","Erik Tóth","DMMT3906W-7-F","Datasheet","https://www.diodes.com/datasheet/download/DMMT3906W.pdf","","","2025-12-08","C151567","2025-12-08","","*","T?","40V 200mW 200mA MATCHED PAIR PNP SMALL SIGNAL TRANSISTOR IN SOT363"
"T SS8050","SOT-23-3_L2.9-W1.3-P1.90-LS2.4-BR","","","","Erik Tóth","SS8050","Datasheet","https://www.lcsc.com/datasheet/C916392.pdf","","","2025-12-08","C916392","2025-12-08","","*","T?","300mW 25V 1.5A NPN SOT-23 Single Bipolar Transistors RoHS"
"T SS8550","SOT-23-3_L2.9-W1.3-P1.90-LS2.4-BR","","","","Erik Tóth","SS8550","Datasheet","https://www.lcsc.com/datasheet/C916393.pdf","","","2025-12-08","C916393","2025-12-08","","*","T?","300mW 25V 1.5A PNP SOT-23 Single Bipolar Transistors RoHS"
"TP TESTPOINT","TP_1.25mm","TP_0.5mm","TP_1.5mm","TP_1mm","","*","","","","","","","","","*","TP?","Test point"
"U AMS1117-3.3","SOT-223-3_L6.5-W3.4-P2.30-LS7.0-BR","","","","Erik Tóth","AMS1117","Datasheet","http://www.advanced-monolithic.com/pdf/ds1117.pdf","","","2025-12-03","C6186","2025-09-19","","*","U?","1A LOW DROPOUT VOLTAGE REGULATOR"
"U LM2940IMP-10/NOPB","SOT-223-4_L6.5-W3.5-P2.30-LS7.0-BR","","","","Erik Tóth","LM2940IMP-10/NOPB","Datasheet","https://www.ti.com/lit/ds/symlink/lm2940-n.pdf","","","2025-12-06","C2866078","2025-12-06","","*","U?","54dB@(120Hz) Positive Fixed 10V SOT-223-4 Voltage Regulators - Linear, Low Drop Out (LDO) Regulators RoHS"
"Y X322540MPB4SI","OSC-SMD_4P-L3.2-W2.5-BL_SIT8008BI","","","","Erik Tóth","=Value","Datasheet","https://www.yxc.hk/uploadfiles/2021/11/YSX321SL.pdf","","","2025-12-03","C9010","2025-09-27","40MHz","*","Y?","CRYSTAL 40MHz 15pF SMD"
1 LIBRARYREFERENCE FOOTPRINT1 FOOTPRINT2 FOOTPRINT3 FOOTPRINT4 CAUTHOR COMMENT COMPONENTLINK1DESCRIPTION COMPONENTLINK1URL COMPONENTLINK2DESCRIPTION COMPONENTLINK2URL LATESTREV LCSC PART # PUBLISHED VALUE SHEETPART DESIGNATOR DESCRIPTION
2 C CL05A105KA5NQNC C0402 Erik Tóth =VALUE Datasheet https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf 2025-12-03 C52923 2025-09-27 1uF * C? 25V 1uF X5R ±10% 0402 Ceramic Capacitors ROHS
3 C CL05A474KA5NNNC C0402 Erik Tóth =VALUE Datasheet https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf 2025-12-03 C92361 2025-10-23 470nF * C? 25V 470nF X5R ±10% 0402 Ceramic Capacitors ROHS
4 C CL05B102KB5NNNC C0402 Erik Tóth =VALUE Datasheet https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf 2025-12-08 C14442 2025-12-08 1nF * C? 50V 1nF X7R ±10% 0402 Ceramic Capacitors RoHS
5 C CL05B103KB5NNNC C0402 Erik Tóth =VALUE Datasheet https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf 2025-12-03 C15195 2025-09-27 10nF * C? 50V 10nF X7R ±10% 0402 Ceramic Capacitors ROHS
6 C CL05B104KB54PNC C0402 Erik Tóth =VALUE Datasheet https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf 2025-12-08 C307331 2025-12-08 100nF * C? 50V 100nF X7R ±10% 0402 Ceramic Capacitors RoHS
7 C CL05B472KB5NNNC C0402 Erik Tóth =VALUE Datasheet https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf 2025-12-08 C84705 2025-12-08 4.7nF * C? 50V 4.7nF X7R ±10% 0402 Ceramic Capacitors RoHS
8 C CL05C220JB5NNNC C0402 Erik Tóth =VALUE Datasheet https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf 2025-12-03 C70464 2025-09-28 22pF * C? 50V 22pF C0G ±5% 0402 Ceramic Capacitors ROHS
9 C CL10A105KB8NNNC C0603 Erik Tóth =VALUE Datasheet https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf 2025-12-08 C15849 2025-12-08 1uF * C? 50V 1uF X5R ±10% 0603 Ceramic Capacitors RoHS
10 C CL10A106MA8NRNC C0603 Erik Tóth =VALUE Datasheet https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf 2025-12-03 C96446 2025-10-14 10uF * C? 25V 10uF X5R ±20% 0603 Ceramic Capacitors RoHS
11 C CL10A474KB8NNNC C0603 Erik Tóth =VALUE Datasheet https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf 2025-12-03 C170149 2025-10-23 470nF * C? 50V 470nF X5R ±10% 0603 Ceramic Capacitors ROHS
12 C CL10B102KB8NNNC C0603 Erik Tóth =VALUE Datasheet https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf 2025-12-08 C1588 2025-12-08 1nF * C? 50V 1nF X7R ±10% 0603 Ceramic Capacitors RoHS
13 C CL10B103KB8NNNC C0603 Erik Tóth =VALUE Datasheet https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf 2025-12-08 C1589 2025-12-08 10nF * C? 50V 10nF X7R ±10% 0603 Ceramic Capacitors RoHS
14 C CL10B104KB8NNNC C0603 Erik Tóth =VALUE Datasheet https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf 2025-12-03 C1591 2025-10-25 100nF * C? 50V 100nF X7R ±10% 0603 Ceramic Capacitors ROHS
15 C CL10B472KB8NNNC C0603 Erik Tóth =VALUE Datasheet https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf 2025-12-08 C1621 2025-12-08 4.7nF * C? 50V 4.7nF X7R ±10% 0603 Ceramic Capacitors RoHS
16 C MMK472J3AB3KN206G0 CAP-TH_L10.0-W4.0-P7.50-D0.6 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C2998030.pdf 2025-12-08 C2998030 2025-12-08 4.7nF * C? 4.7nF -40?~+105? ±5% 1kV Through Hole,P=7.5mm Film Capacitors RoHS
17 C TAJA106K016RNJ CAP-SMD_L3.2-W1.6-RD Erik Tóth =VALUE Datasheet https://datasheet.octopart.com/TAJA106K016RNJ-AVX---Kyocera-datasheet-50868559.pdf 2025-12-03 C7171 2025-09-22 10uF * C? 10uF 16V 3O@100kHz ±10% CASE-A-3216-18(mm) Tantalum Capacitors ROHS
18 C TAJC226K025RNJ CAP-SMD_L6.0-W3.2-R-RD Erik Tóth =VALUE Datasheet https://datasheets.kyocera-avx.com/TAJ.pdf 2025-12-03 C7214 2025-10-14 22uF * C? 22uF 25V 1.4O@100kHz ±10% CASE-C-6032-28(mm) Tantalum Capacitors ROHS
19 D 1N4148WS SOD-323_L1.8-W1.3-LS2.5-RD Erik Tóth Datasheet https://www.lcsc.com/datasheet/C2128.pdf 2025-12-03 C2128 2025-09-25 * D? 2A 4ns 100V Independent 1.25V@150mA 150mA SOD-323 Single Diodes ROHS
20 D DF2S16FS,L3M SOD-923_L0.8-W0.6-LS1.0-RD Erik Tóth * Datasheet https://www.arrow.com/en/products/df2s16fsl3m/toshiba 2025-12-03 C1972990 2025-09-23 * D? TVS Diode (Uni-directional)
21 D ESD5Z6.0T1G SOD-523F_L1.2-W0.8-LS1.7-RD Erik Tóth ESD5Z6.0T1G Datasheet https://www.onsemi.com/download/data-sheet/pdf/esd5z2.5t1-d.pdf 2025-12-03 C82323 2025-09-23 * D? TVS Diode (Uni-directional)
22 D SESD0402Q2UG-0020-090 DFN1006-3L_L1.0-W0.6-BL Erik Tóth * Datasheet https://www.littelfuse.com/~/media/electronics/datasheets/tvs_diode_arrays/littelfuse_tvs_diode_array_sesd_ultra_low_capacitance_diode_arrays_datasheet.pdf.pdf 2025-12-03 C1975947 2025-09-23 * D? 2 Channel TVS Diode (Uni-directional)
23 IC ESP32-S3R8 QFN-56_L7.0-W7.0-P0.40-TL-EP4.0. Erik Tóth ESP32-S3R8 Datasheet https://www.espressif.com/sites/default/files/documentation/esp32-s3_datasheet_en.pdf 2025-12-03 C2913194 2025-09-27 * IC? 150Mbps 2.4GHz -74.2dBm 2.412GHz~2.484GHz QFN-56(7x7) RF Transceiver ICs ROHS
24 IC HUSB237-AA001-DN06R TDFN-6_L2.0-W2.0-P0.65-TL-EP Erik Tóth HUSB237 Datasheet https://www.lcsc.com/datasheet/C22373734.pdf 2025-12-03 C22373734 2025-09-19 * IC? USB Type-C Power Delivery Sink Controller
25 IC LM13700 PDIP-16 SOIC-16_L9.9-W3.9-P1.27-LS6.0-BL Erik Tóth LM13700 Datasheet URL https://www.ti.com/lit/ds/symlink/lm13700.pdf 2025-12-03 C174050 2025-06-22 * IC? Dual Operational Transconductance Amplifiers With Linearizing Diodes and Buffers
26 IC LM386MX-1/NOPB SOIC-8_L4.9-W3.9-P1.27-LS6.0-BL Erik Tóth LM386MX-1/NOPB Datasheet https://www.ti.com/lit/ds/symlink/lm386.pdf 2025-12-03 C23573 2025-11-25 * IC? 700mW, mono, 5- to 18-V, analog input Class-AB audio amplifier 8-SOIC 0 to 70
27 IC MCP4728-E_UN MSOP-10_L3.0-W3.0-P0.50-LS4.9-BL Erik Tóth MCP4728 Datasheet http://ww1.microchip.com/downloads/en/DeviceDoc/22187E.pdf 2025-12-03 C478093 2025-09-22 * IC? Quad, 12-bit NV DAC with I2C interface
28 IC TL074IDR SOIC-14_L8.7-W3.9-P1.27-LS6.0-BL Erik Tóth TL074 Datasheet http://www.ti.com/lit/ds/symlink/tl074.pdf 2025-12-03 C6964 2025-10-13 * IC? 3mV 65pA 13V/us 70dB -15V~15V 3MHz 4 SOIC-14 Amplifiers ROHS
29 IC W25Q128JVSIQ SOIC-8_L5.3-W5.3-P1.27-LS8.0-BL Erik Tóth W25Q128JVSIQ Datasheet https://www.winbond.com/hq/search-resource-file.jsp?partNo=W25Q128JVSIQ&type=datasheet 2025-12-03 C97521 2025-09-27 * IC? 128M-bit Serial Flash Memory with uniform 4KB sectors and Dual/Quad SPI
30 J 2.54-2*6P IDC-TH_12P-P2.54_BOOMELE-2X6P-2.54MM Erik Tóth 2.54-2*6P 2025-12-06 C9136 2025-12-06 * J? 2.54mm 2x6P 6 2 IDC Header 2.54mm Through Hole Through Hole,P=2.54mm Free Hanging, Panel Mount RoHS
31 J KH-TYPE-C-16P USB-C-SMD_KH-TYPE-C-16P Erik Tóth TYPE-C-16P Datasheet https://www.lcsc.com/datasheet/C709357.pdf 2025-12-09 C709357 2025-12-09 J? 1 16P -40?~+85? Type-C SMD USB, DVI, HDMI Connector Assemblies RoHS
32 L LQG15HS2N0S02D IND_LQG15_MUR Erik Tóth =VALUE Datasheet https://pim.murata.com/asset/pim4/inductor/JELF243B-0010_PDF_INDUCTOR?lastModifiedDatetime=20250708072108 2025-09-27 C18216 2025-09-27 2nH * L? 900mA 2nH 90mO 0402 Fixed Inductors ROHS
33 R 0402WGF0000TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-03 C17168 2025-09-27 0R * R? 0O 62.5mW 50V ±800ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount ROHS
34 R 0402WGF1000TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-08 C25076 2025-12-08 100 * R? 100O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
35 R 0402WGF1001TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-06 C11702 2025-12-06 1k * R? 1kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
36 R 0402WGF1002TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-03 C25744 2025-09-27 10k * R? 10kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount ROHS
37 R 0402WGF1003TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-06 C25741 2025-12-06 100k * R? 100kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
38 R 0402WGF1201TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-08 C25862 2025-12-08 1.2k * R? 1.2kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
39 R 0402WGF1203TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-08 C25750 2025-12-08 120k * R? 120kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
40 R 0402WGF1501TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-06 C25867 2025-12-06 1.5k * R? 1.5kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
41 R 0402WGF1502TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-06 C25756 2025-12-06 15k * R? 15kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
42 R 0402WGF2001TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-06 C4109 2025-12-06 2k * R? 2kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
43 R 0402WGF2002TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-06 C25765 2025-12-06 20k * R? 20kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
44 R 0402WGF2202TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-06 C25768 2025-12-06 22k * R? 22kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
45 R 0402WGF3300TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-06 C25104 2025-12-06 330 * R? 330O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
46 R 0402WGF3301TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-06 C25890 2025-12-06 3.3k * R? 3.3kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
47 R 0402WGF3302TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-06 C25779 2025-12-06 33k * R? 33kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
48 R 0402WGF3303TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-08 C25778 2025-12-08 330k * R? 330kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
49 R 0402WGF4703TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-08 C25790 2025-12-08 470k * R? 470kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
50 R 0402WGF5101TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-06 C25905 2025-12-06 5.1k * R? 5.1kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
51 R 0402WGF5103TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-06 C11616 2025-12-06 510k * R? 510kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
52 R 0402WGF6801TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-08 C25917 2025-12-08 6.8k * R? 6.8kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
53 R 0402WGF7500TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-08 C25132 2025-12-08 750 * R? 750O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
54 R 0402WGF8200TCE R0402 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C25744.pdf 2025-12-08 C25135 2025-12-08 820 * R? 820O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
55 R 0603WAF1000T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-08 C22775 2025-12-08 100 * R? 100O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
56 R 0603WAF1002T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-08 C25804 2025-12-08 10k * R? 10kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
57 R 0603WAF1003T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-08 C25803 2025-12-08 100k * R? 100kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
58 R 0603WAF1004T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-03 C22935 2025-10-24 1Meg * R? 1MO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount ROHS
59 R 0603WAF1201T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-08 C22765 2025-12-08 1.2k * R? 1.2kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
60 R 0603WAF1203T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-08 C25808 2025-12-08 120k * R? 120kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
61 R 0603WAF1501T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-06 C22843 2025-12-06 1.5k * R? 1.5kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
62 R 0603WAF1502T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-06 C22809 2025-12-06 15k * R? 15kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
63 R 0603WAF2002T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-06 C4184 2025-12-06 20k * R? 20kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
64 R 0603WAF2202T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-06 C31850 2025-12-06 22k * R? 22kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
65 R 0603WAF3302T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-06 C4216 2025-12-06 33k * R? 33kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
66 R 0603WAF3303T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-08 C23137 2025-12-08 330k * R? 330kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
67 R 0603WAF4703T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-08 C23178 2025-12-08 470k * R? 470kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
68 R 0603WAF5101T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-08 C23186 2025-12-08 5.1k * R? 5.1kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
69 R 0603WAF6801T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-08 C23212 2025-12-08 6.8k * R? 6.8kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
70 R 0603WAF7500T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-08 C23241 2025-12-08 750 * R? 750O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
71 R 0603WAF8200T5E R0603 Erik Tóth =VALUE Datasheet https://www.lcsc.com/datasheet/C22935.pdf 2025-12-08 C23253 2025-12-08 820 * R? 820O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
72 R_POT PTV09A-4020F-B103 PTV09A-4 Erik Tóth =VALUE Datasheet URL https://www.bourns.com/docs/product-datasheets/PTV09.pdf 2025-09-13 C5848782 2025-09-13 10k * R_POT?
73 R_POT PTV09A-4020F-B104 PTV09A-4 Erik Tóth =VALUE Datasheet URL https://www.bourns.com/docs/product-datasheets/PTV09.pdf 2025-09-13 C5154557 2025-09-13 100k * R_POT?
74 R_POT PTV09A-4020F-B105 PTV09A-4 Erik Tóth =VALUE Datasheet URL https://www.bourns.com/docs/product-datasheets/PTV09.pdf 2025-09-13 C6738612 2025-09-13 1Meg * R_POT?
75 R_POT PTV09A-4020F-B203 PTV09A-4 Erik Tóth =VALUE Datasheet URL https://www.bourns.com/docs/product-datasheets/PTV09.pdf 2025-09-13 C6738614 2025-09-13 20k * R_POT?
76 R_POT PTV09A-4020F-B503 PTV09A-4 Erik Tóth =VALUE Datasheet URL https://www.bourns.com/docs/product-datasheets/PTV09.pdf 2025-09-13 C5848785 2025-09-13 50k * R_POT?
77 R_POT PTV09A-4020F-B504 PTV09A-4 Erik Tóth =VALUE Datasheet URL https://www.bourns.com/docs/product-datasheets/PTV09.pdf 2025-09-13 C5154140 2025-09-13 500k * R_POT?
78 R_POT RK09D113000F RK09D113F Erik Tóth =VALUE Datasheet URL https://www.alldatasheet.com/datasheet-pdf/view/328831/ALPS/RK09D113000F.html 2025-09-12 C470317 2025-09-12 10k * R_POT?
79 R_POT RK09D1130A1L RK09D113F Erik Tóth =VALUE Datasheet URL https://www.alldatasheet.com/datasheet-pdf/view/328831/ALPS/RK09D113000F.html 2025-09-13 C470305 2025-09-13 * * R_POT?
80 S A12405RNCQ A124XXRNCX Erik Tóth DNP Datasheet URL https://www.ckswitches.com/media/1349/arotary.pdf 2025-09-20 C2800106 2025-09-11 * S? 1 Pole 4 Stage Rotary Switch
81 S TS02-66-50-BK-100-SCR-D TS026650BK100SCRD Erik Tóth TS02-66-50-BK-100-SCR-D Datasheet https://www.sameskydevices.com/product/resource/ts02.pdf 2025-09-25 2025-09-25 * S? 6 x 6 mm, 5 mm Actuator Height, 100 gf, Black, Short Crimped, Through Hole, SPST, Tactile Switch
82 T DMMT3906W-7-F SOT-363_L2.0-W1.3-P0.65-LS2.1-BR Erik Tóth DMMT3906W-7-F Datasheet https://www.diodes.com/datasheet/download/DMMT3906W.pdf 2025-12-08 C151567 2025-12-08 * T? 40V 200mW 200mA MATCHED PAIR PNP SMALL SIGNAL TRANSISTOR IN SOT363
83 T SS8050 SOT-23-3_L2.9-W1.3-P1.90-LS2.4-BR Erik Tóth SS8050 Datasheet https://www.lcsc.com/datasheet/C916392.pdf 2025-12-08 C916392 2025-12-08 * T? 300mW 25V 1.5A NPN SOT-23 Single Bipolar Transistors RoHS
84 T SS8550 SOT-23-3_L2.9-W1.3-P1.90-LS2.4-BR Erik Tóth SS8550 Datasheet https://www.lcsc.com/datasheet/C916393.pdf 2025-12-08 C916393 2025-12-08 * T? 300mW 25V 1.5A PNP SOT-23 Single Bipolar Transistors RoHS
85 TP TESTPOINT TP_1.25mm TP_0.5mm TP_1.5mm TP_1mm * * TP? Test point
86 U AMS1117-3.3 SOT-223-3_L6.5-W3.4-P2.30-LS7.0-BR Erik Tóth AMS1117 Datasheet http://www.advanced-monolithic.com/pdf/ds1117.pdf 2025-12-03 C6186 2025-09-19 * U? 1A LOW DROPOUT VOLTAGE REGULATOR
87 U LM2940IMP-10/NOPB SOT-223-4_L6.5-W3.5-P2.30-LS7.0-BR Erik Tóth LM2940IMP-10/NOPB Datasheet https://www.ti.com/lit/ds/symlink/lm2940-n.pdf 2025-12-06 C2866078 2025-12-06 * U? 54dB@(120Hz) Positive Fixed 10V SOT-223-4 Voltage Regulators - Linear, Low Drop Out (LDO) Regulators RoHS
88 Y X322540MPB4SI OSC-SMD_4P-L3.2-W2.5-BL_SIT8008BI Erik Tóth =Value Datasheet https://www.yxc.hk/uploadfiles/2021/11/YSX321SL.pdf 2025-12-03 C9010 2025-09-27 40MHz * Y? CRYSTAL 40MHz 15pF SMD

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dev/da_altium_lib/DA_LIB/DA_LIB.rep
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CSV text has been written to file : DA_LIB.csv
Library Component Count : 87
Name Description
----------------------------------------------------------------------------------------------------
C CL05A105KA5NQNC 25V 1uF X5R ±10% 0402 Ceramic Capacitors ROHS
C CL05A474KA5NNNC 25V 470nF X5R ±10% 0402 Ceramic Capacitors ROHS
C CL05B102KB5NNNC 50V 1nF X7R ±10% 0402 Ceramic Capacitors RoHS
C CL05B103KB5NNNC 50V 10nF X7R ±10% 0402 Ceramic Capacitors ROHS
C CL05B104KB54PNC 50V 100nF X7R ±10% 0402 Ceramic Capacitors RoHS
C CL05B472KB5NNNC 50V 4.7nF X7R ±10% 0402 Ceramic Capacitors RoHS
C CL05C220JB5NNNC 50V 22pF C0G ±5% 0402 Ceramic Capacitors ROHS
C CL10A105KB8NNNC 50V 1uF X5R ±10% 0603 Ceramic Capacitors RoHS
C CL10A106MA8NRNC 25V 10uF X5R ±20% 0603 Ceramic Capacitors RoHS
C CL10A474KB8NNNC 50V 470nF X5R ±10% 0603 Ceramic Capacitors ROHS
C CL10B102KB8NNNC 50V 1nF X7R ±10% 0603 Ceramic Capacitors RoHS
C CL10B103KB8NNNC 50V 10nF X7R ±10% 0603 Ceramic Capacitors RoHS
C CL10B104KB8NNNC 50V 100nF X7R ±10% 0603 Ceramic Capacitors ROHS
C CL10B472KB8NNNC 50V 4.7nF X7R ±10% 0603 Ceramic Capacitors RoHS
C MMK472J3AB3KN206G04.7nF -40?~+105? ±5% 1kV Through Hole,P=7.5mm Film Capacitors RoHS
C TAJA106K016RNJ 10uF 16V 3O@100kHz ±10% CASE-A-3216-18(mm) Tantalum Capacitors ROHS
C TAJC226K025RNJ 22uF 25V 1.4O@100kHz ±10% CASE-C-6032-28(mm) Tantalum Capacitors ROHS
D 1N4148WS 2A 4ns 100V Independent 1.25V@150mA 150mA SOD-323 Single Diodes ROHS
D DF2S16FS,L3M TVS Diode (Uni-directional)
D ESD5Z6.0T1G TVS Diode (Uni-directional)
D SESD0402Q2UG-0020-0902 Channel TVS Diode (Uni-directional)
IC ESP32-S3R8 150Mbps 2.4GHz -74.2dBm 2.412GHz~2.484GHz QFN-56(7x7) RF Transceiver ICs ROHS
IC HUSB237-AA001-DN06RUSB Type-C Power Delivery Sink Controller
IC LM13700 Dual Operational Transconductance Amplifiers With Linearizing Diodes and Buffers
IC LM386MX-1/NOPB 700mW, mono, 5- to 18-V, analog input Class-AB audio amplifier 8-SOIC 0 to 70
IC MCP4728-E_UN Quad, 12-bit NV DAC with I2C interface
IC TL074IDR 3mV 65pA 13V/us 70dB -15V~15V 3MHz 4 SOIC-14 Amplifiers ROHS
IC W25Q128JVSIQ 128M-bit Serial Flash Memory with uniform 4KB sectors and Dual/Quad SPI
J 2.54-2*6P 2.54mm 2x6P 6 2 IDC Header 2.54mm Through Hole Through Hole,P=2.54mm Free Hanging, Panel Mount RoHS
J KH-TYPE-C-16P 1 16P -40?~+85? Type-C SMD USB, DVI, HDMI Connector Assemblies RoHS
L LQG15HS2N0S02D 900mA 2nH 90mO 0402 Fixed Inductors ROHS
R 0402WGF0000TCE 0O 62.5mW 50V ±800ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount ROHS
R 0402WGF1000TCE 100O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF1001TCE 1kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF1002TCE 10kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount ROHS
R 0402WGF1003TCE 100kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF1201TCE 1.2kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF1203TCE 120kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF1501TCE 1.5kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF1502TCE 15kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF2001TCE 2kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF2002TCE 20kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF2202TCE 22kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF3300TCE 330O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF3301TCE 3.3kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF3302TCE 33kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF3303TCE 330kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF4703TCE 470kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF5101TCE 5.1kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF5103TCE 510kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF6801TCE 6.8kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF7500TCE 750O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF8200TCE 820O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0603WAF1000T5E 100O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF1002T5E 10kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF1003T5E 100kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF1004T5E 1MO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount ROHS
R 0603WAF1201T5E 1.2kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF1203T5E 120kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF1501T5E 1.5kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF1502T5E 15kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF2002T5E 20kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF2202T5E 22kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF3302T5E 33kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF3303T5E 330kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF4703T5E 470kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF5101T5E 5.1kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF6801T5E 6.8kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF7500T5E 750O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF8200T5E 820O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R_POT PTV09A-4020F-B103
R_POT PTV09A-4020F-B104
R_POT PTV09A-4020F-B105
R_POT PTV09A-4020F-B203
R_POT PTV09A-4020F-B503
R_POT PTV09A-4020F-B504
R_POT RK09D113000F
R_POT RK09D1130A1L
S A12405RNCQ 1 Pole 4 Stage Rotary Switch
S TS02-66-50-BK-100-SCR-D6 x 6 mm, 5 mm Actuator Height, 100 gf, Black, Short Crimped, Through Hole, SPST, Tactile Switch
T DMMT3906W-7-F 40V 200mW 200mA MATCHED PAIR PNP SMALL SIGNAL TRANSISTOR IN SOT363
T SS8050 300mW 25V 1.5A NPN SOT-23 Single Bipolar Transistors RoHS
T SS8550 300mW 25V 1.5A PNP SOT-23 Single Bipolar Transistors RoHS
TP TESTPOINT Test point
U AMS1117-3.3 1A LOW DROPOUT VOLTAGE REGULATOR
U LM2940IMP-10/NOPB 54dB@(120Hz) Positive Fixed 10V SOT-223-4 Voltage Regulators - Linear, Low Drop Out (LDO) Regulators RoHS
Y X322540MPB4SI CRYSTAL 40MHz 15pF SMD
CSV text has been written to file : DA_LIB.csv
Library Component Count : 87
Name Description
----------------------------------------------------------------------------------------------------
C CL05A105KA5NQNC 25V 1uF X5R ±10% 0402 Ceramic Capacitors ROHS
C CL05A474KA5NNNC 25V 470nF X5R ±10% 0402 Ceramic Capacitors ROHS
C CL05B102KB5NNNC 50V 1nF X7R ±10% 0402 Ceramic Capacitors RoHS
C CL05B103KB5NNNC 50V 10nF X7R ±10% 0402 Ceramic Capacitors ROHS
C CL05B104KB54PNC 50V 100nF X7R ±10% 0402 Ceramic Capacitors RoHS
C CL05B472KB5NNNC 50V 4.7nF X7R ±10% 0402 Ceramic Capacitors RoHS
C CL05C220JB5NNNC 50V 22pF C0G ±5% 0402 Ceramic Capacitors ROHS
C CL10A105KB8NNNC 50V 1uF X5R ±10% 0603 Ceramic Capacitors RoHS
C CL10A106MA8NRNC 25V 10uF X5R ±20% 0603 Ceramic Capacitors RoHS
C CL10A474KB8NNNC 50V 470nF X5R ±10% 0603 Ceramic Capacitors ROHS
C CL10B102KB8NNNC 50V 1nF X7R ±10% 0603 Ceramic Capacitors RoHS
C CL10B103KB8NNNC 50V 10nF X7R ±10% 0603 Ceramic Capacitors RoHS
C CL10B104KB8NNNC 50V 100nF X7R ±10% 0603 Ceramic Capacitors ROHS
C CL10B472KB8NNNC 50V 4.7nF X7R ±10% 0603 Ceramic Capacitors RoHS
C MMK472J3AB3KN206G04.7nF -40?~+105? ±5% 1kV Through Hole,P=7.5mm Film Capacitors RoHS
C TAJA106K016RNJ 10uF 16V 3O@100kHz ±10% CASE-A-3216-18(mm) Tantalum Capacitors ROHS
C TAJC226K025RNJ 22uF 25V 1.4O@100kHz ±10% CASE-C-6032-28(mm) Tantalum Capacitors ROHS
D 1N4148WS 2A 4ns 100V Independent 1.25V@150mA 150mA SOD-323 Single Diodes ROHS
D DF2S16FS,L3M TVS Diode (Uni-directional)
D ESD5Z6.0T1G TVS Diode (Uni-directional)
D SESD0402Q2UG-0020-0902 Channel TVS Diode (Uni-directional)
IC ESP32-S3R8 150Mbps 2.4GHz -74.2dBm 2.412GHz~2.484GHz QFN-56(7x7) RF Transceiver ICs ROHS
IC HUSB237-AA001-DN06RUSB Type-C Power Delivery Sink Controller
IC LM13700 Dual Operational Transconductance Amplifiers With Linearizing Diodes and Buffers
IC LM386MX-1/NOPB 700mW, mono, 5- to 18-V, analog input Class-AB audio amplifier 8-SOIC 0 to 70
IC MCP4728-E_UN Quad, 12-bit NV DAC with I2C interface
IC TL074IDR 3mV 65pA 13V/us 70dB -15V~15V 3MHz 4 SOIC-14 Amplifiers ROHS
IC W25Q128JVSIQ 128M-bit Serial Flash Memory with uniform 4KB sectors and Dual/Quad SPI
J 2.54-2*6P 2.54mm 2x6P 6 2 IDC Header 2.54mm Through Hole Through Hole,P=2.54mm Free Hanging, Panel Mount RoHS
J KH-TYPE-C-16P 1 16P -40?~+85? Type-C SMD USB, DVI, HDMI Connector Assemblies RoHS
L LQG15HS2N0S02D 900mA 2nH 90mO 0402 Fixed Inductors ROHS
R 0402WGF0000TCE 0O 62.5mW 50V ±800ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount ROHS
R 0402WGF1000TCE 100O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF1001TCE 1kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF1002TCE 10kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount ROHS
R 0402WGF1003TCE 100kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF1201TCE 1.2kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF1203TCE 120kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF1501TCE 1.5kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF1502TCE 15kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF2001TCE 2kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF2002TCE 20kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF2202TCE 22kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF3300TCE 330O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF3301TCE 3.3kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF3302TCE 33kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF3303TCE 330kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF4703TCE 470kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF5101TCE 5.1kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF5103TCE 510kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF6801TCE 6.8kO 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF7500TCE 750O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0402WGF8200TCE 820O 62.5mW 50V ±100ppm/? Thick Film Resistor ±1% 0402 Chip Resistor - Surface Mount RoHS
R 0603WAF1000T5E 100O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF1002T5E 10kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF1003T5E 100kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF1004T5E 1MO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount ROHS
R 0603WAF1201T5E 1.2kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF1203T5E 120kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF1501T5E 1.5kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF1502T5E 15kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF2002T5E 20kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF2202T5E 22kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF3302T5E 33kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF3303T5E 330kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF4703T5E 470kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF5101T5E 5.1kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF6801T5E 6.8kO 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF7500T5E 750O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R 0603WAF8200T5E 820O 100mW 75V ±100ppm/? Thick Film Resistor ±1% 0603 Chip Resistor - Surface Mount RoHS
R_POT PTV09A-4020F-B103
R_POT PTV09A-4020F-B104
R_POT PTV09A-4020F-B105
R_POT PTV09A-4020F-B203
R_POT PTV09A-4020F-B503
R_POT PTV09A-4020F-B504
R_POT RK09D113000F
R_POT RK09D1130A1L
S A12405RNCQ 1 Pole 4 Stage Rotary Switch
S TS02-66-50-BK-100-SCR-D6 x 6 mm, 5 mm Actuator Height, 100 gf, Black, Short Crimped, Through Hole, SPST, Tactile Switch
T DMMT3906W-7-F 40V 200mW 200mA MATCHED PAIR PNP SMALL SIGNAL TRANSISTOR IN SOT363
T SS8050 300mW 25V 1.5A NPN SOT-23 Single Bipolar Transistors RoHS
T SS8550 300mW 25V 1.5A PNP SOT-23 Single Bipolar Transistors RoHS
TP TESTPOINT Test point
U AMS1117-3.3 1A LOW DROPOUT VOLTAGE REGULATOR
U LM2940IMP-10/NOPB 54dB@(120Hz) Positive Fixed 10V SOT-223-4 Voltage Regulators - Linear, Low Drop Out (LDO) Regulators RoHS
Y X322540MPB4SI CRYSTAL 40MHz 15pF SMD

88
dev/da_altium_lib/DA_LIB/DA_LIB_V1-0.cmp
View File

@@ -1,44 +1,44 @@
Component Name : LM13700
Part Count : 6
Part : IC?
Pins - (Normal) : 0
Hidden Pins :
Part : IC?A
Pins - (Normal) : 5
D_BIAS_A 15 Input
IN_NINV_A 14 Input
IN_INV_A 13 Input
AMP_BIAS_A 16 Input
OUT_A 12 Output
Hidden Pins :
Part : IC?B
Pins - (Normal) : 5
D_BIAS_B 2 Input
IN_NINV_B 3 Input
IN_INV_B 4 Input
AMP_BIAS_B 1 Input
OUT_B 5 Output
Hidden Pins :
Part : IC?C
Pins - (Normal) : 2
BUF_IN_A 10 Input
BUF_OUT_A 9 Output
Hidden Pins :
Part : IC?D
Pins - (Normal) : 2
BUF_IN_B 7 Input
BUF_OUT_B 8 Output
Hidden Pins :
Part : IC?E
Pins - (Normal) : 2
V_POS 11 Power
V_NEG 6 Power
Hidden Pins :
Component Name : LM13700
Part Count : 6
Part : IC?
Pins - (Normal) : 0
Hidden Pins :
Part : IC?A
Pins - (Normal) : 5
D_BIAS_A 15 Input
IN_NINV_A 14 Input
IN_INV_A 13 Input
AMP_BIAS_A 16 Input
OUT_A 12 Output
Hidden Pins :
Part : IC?B
Pins - (Normal) : 5
D_BIAS_B 2 Input
IN_NINV_B 3 Input
IN_INV_B 4 Input
AMP_BIAS_B 1 Input
OUT_B 5 Output
Hidden Pins :
Part : IC?C
Pins - (Normal) : 2
BUF_IN_A 10 Input
BUF_OUT_A 9 Output
Hidden Pins :
Part : IC?D
Pins - (Normal) : 2
BUF_IN_B 7 Input
BUF_OUT_B 8 Output
Hidden Pins :
Part : IC?E
Pins - (Normal) : 2
V_POS 11 Power
V_NEG 6 Power
Hidden Pins :

34
dev/da_altium_lib/DA_LIB/DMMT3906W.mdl
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@@ -1,18 +1,18 @@
* Dual PNP matched pair: DMMT3906W
* Pins: 1-B2 2-B1 3-C1 4-E1 5-E2 6-C2
* Author: Erik Tóth <me@etoth.dev>, 2025
.SUBCKT DMMT3906W B1 E1 C1 B2 E2 C2
Q1 C1 B1 E1 DI_DMMT3906W
Q2 C2 B2 E2 DI_DMMT3906W
.ENDS DMMT3906W
*SRC=DMMT3906W;DI_DMMT3906W;BJTs PNP; Si; 40.0V 0.200A 257MHz Diodes, Inc. PNP
.MODEL DI_DMMT3906W PNP (IS=20.3f NF=1.00 BF=274 VAF=114
+ IKF=36.4m ISE=6.99p NE=2.00 BR=4.00 NR=1.00
+ VAR=20.0 IKR=90.0m RE=1.01 RB=4.03 RC=0.403
+ XTB=1.5 CJE=12.1p VJE=1.10 MJE=0.500 CJC=10.7p VJC=0.300
* Dual PNP matched pair: DMMT3906W
* Pins: 1-B2 2-B1 3-C1 4-E1 5-E2 6-C2
* Author: Erik Tóth <me@etoth.dev>, 2025
.SUBCKT DMMT3906W B1 E1 C1 B2 E2 C2
Q1 C1 B1 E1 DI_DMMT3906W
Q2 C2 B2 E2 DI_DMMT3906W
.ENDS DMMT3906W
*SRC=DMMT3906W;DI_DMMT3906W;BJTs PNP; Si; 40.0V 0.200A 257MHz Diodes, Inc. PNP
.MODEL DI_DMMT3906W PNP (IS=20.3f NF=1.00 BF=274 VAF=114
+ IKF=36.4m ISE=6.99p NE=2.00 BR=4.00 NR=1.00
+ VAR=20.0 IKR=90.0m RE=1.01 RB=4.03 RC=0.403
+ XTB=1.5 CJE=12.1p VJE=1.10 MJE=0.500 CJC=10.7p VJC=0.300
+ MJC=0.300 TF=531p TR=85.6n EG=1.12 )

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14
dev/da_altium_lib/DA_LIB/LM13700-DUAL.ckt
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@@ -1,7 +1,7 @@
* A dual opamp ngspice model
* file name: LM13700-DUAL.ckt
.subckt LM13700-DUAL 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout 2Bout 2Bin vcc+ 2out 2in- 2in+ 2Dbias 2ABin
.include LM13700.ckt
XU1C 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout vcc+ LM13700/NS
XU1A 2ABin 2DBias 2in+ 2in- 2out vcc- 2Bin 2Bout vcc+ LM13700/NS
.ends
* A dual opamp ngspice model
* file name: LM13700-DUAL.ckt
.subckt LM13700-DUAL 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout 2Bout 2Bin vcc+ 2out 2in- 2in+ 2Dbias 2ABin
.include LM13700.ckt
XU1C 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout vcc+ LM13700/NS
XU1A 2ABin 2DBias 2in+ 2in- 2out vcc- 2Bin 2Bout vcc+ LM13700/NS
.ends

196
dev/da_altium_lib/DA_LIB/LM13700-DUAL_inc.ckt
View File

@@ -1,98 +1,98 @@
* A dual opamp ngspice model
* file name: LM13700-DUAL.ckt
.subckt LM13700-DUAL 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout 2Bout 2Bin vcc+ 2out 2in- 2in+ 2Dbias 2ABin
*//////////////////////////////////////////////////////////////////////
* (C) National Semiconductor, Inc.
* Models developed and under copyright by:
* National Semiconductor, Inc.
*/////////////////////////////////////////////////////////////////////
* Legal Notice: This material is intended for free software support.
* The file may be copied, and distributed; however, reselling the
* material is illegal
*////////////////////////////////////////////////////////////////////
* For ordering or technical information on these models, contact:
* National Semiconductor's Customer Response Center
* 7:00 A.M.--7:00 P.M. U.S. Central Time
* (800) 272-9959
* For Applications support, contact the Internet address:
* amps-apps@galaxy.nsc.com
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
* LM13700 Dual Operational Transconductance Amplifier
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
*
* Amplifier Bias Input
* | Diode Bias
* | | Positive Input
* | | | Negative Input
* | | | | Output
* | | | | | Negative power supply
* | | | | | | Buffer Input
* | | | | | | | Buffer Output
* | | | | | | | | Positive power supply
* | | | | | | | | |
.SUBCKT LM13700/NS 1 2 3 4 5 6 7 8 11
*
* Features:
* gm adjustable over 6 decades.
* Excellent gm linearity.
* Linearizing diodes.
* Wide supply range of +/-2V to +/-22V.
*
* Note: This model is single-pole in nature and over-estimates
* AC bandwidth and phase margin (stability) by over 2X.
* Although refinement may be possible in the future, please
* use benchtesting to finalize AC circuit design.
*
* Note: Model is for single device only and simulated
* supply current is 1/2 of total device current.
*
******************************************************
*
C1 6 4 4.8P
C2 3 6 4.8P
* Output capacitor
C3 5 6 6.26P
D1 2 4 DX
D2 2 3 DX
D3 11 21 DX
D4 21 22 DX
D5 1 26 DX
D6 26 27 DX
D7 5 29 DX
D8 28 5 DX
D10 31 25 DX
* Clamp for -CMR
D11 28 25 DX
* Ios source
F1 4 3 POLY(1) V6 1E-10 5.129E-2 -1.189E4 1.123E9
F2 11 5 V2 1.022
F3 25 6 V3 1.0
F4 5 6 V1 1.022
* Output impedance
F5 5 0 POLY(2) V3 V7 0 0 0 0 1
G1 0 33 5 0 .55E-3
I1 11 6 300U
Q1 24 32 31 QX1
Q2 23 3 31 QX2
Q3 11 7 30 QZ
Q4 11 30 8 QY
V1 22 24 0V
V2 22 23 0V
V3 27 6 0V
V4 11 29 1.4
V5 28 6 1.2
V6 4 32 0V
V7 33 0 0V
.MODEL QX1 NPN (IS=5E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QX2 NPN (IS=5.125E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QY NPN (IS=6E-15 BF=50)
.MODEL QZ NPN (IS=5E-16 BF=266)
.MODEL DX D (IS=5E-16)
.ENDS
*$
XU1C 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout vcc+ LM13700/NS
XU1A 2ABin 2DBias 2in+ 2in- 2out vcc- 2Bin 2Bout vcc+ LM13700/NS
.ends
* A dual opamp ngspice model
* file name: LM13700-DUAL.ckt
.subckt LM13700-DUAL 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout 2Bout 2Bin vcc+ 2out 2in- 2in+ 2Dbias 2ABin
*//////////////////////////////////////////////////////////////////////
* (C) National Semiconductor, Inc.
* Models developed and under copyright by:
* National Semiconductor, Inc.
*/////////////////////////////////////////////////////////////////////
* Legal Notice: This material is intended for free software support.
* The file may be copied, and distributed; however, reselling the
* material is illegal
*////////////////////////////////////////////////////////////////////
* For ordering or technical information on these models, contact:
* National Semiconductor's Customer Response Center
* 7:00 A.M.--7:00 P.M. U.S. Central Time
* (800) 272-9959
* For Applications support, contact the Internet address:
* amps-apps@galaxy.nsc.com
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
* LM13700 Dual Operational Transconductance Amplifier
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
*
* Amplifier Bias Input
* | Diode Bias
* | | Positive Input
* | | | Negative Input
* | | | | Output
* | | | | | Negative power supply
* | | | | | | Buffer Input
* | | | | | | | Buffer Output
* | | | | | | | | Positive power supply
* | | | | | | | | |
.SUBCKT LM13700/NS 1 2 3 4 5 6 7 8 11
*
* Features:
* gm adjustable over 6 decades.
* Excellent gm linearity.
* Linearizing diodes.
* Wide supply range of +/-2V to +/-22V.
*
* Note: This model is single-pole in nature and over-estimates
* AC bandwidth and phase margin (stability) by over 2X.
* Although refinement may be possible in the future, please
* use benchtesting to finalize AC circuit design.
*
* Note: Model is for single device only and simulated
* supply current is 1/2 of total device current.
*
******************************************************
*
C1 6 4 4.8P
C2 3 6 4.8P
* Output capacitor
C3 5 6 6.26P
D1 2 4 DX
D2 2 3 DX
D3 11 21 DX
D4 21 22 DX
D5 1 26 DX
D6 26 27 DX
D7 5 29 DX
D8 28 5 DX
D10 31 25 DX
* Clamp for -CMR
D11 28 25 DX
* Ios source
F1 4 3 POLY(1) V6 1E-10 5.129E-2 -1.189E4 1.123E9
F2 11 5 V2 1.022
F3 25 6 V3 1.0
F4 5 6 V1 1.022
* Output impedance
F5 5 0 POLY(2) V3 V7 0 0 0 0 1
G1 0 33 5 0 .55E-3
I1 11 6 300U
Q1 24 32 31 QX1
Q2 23 3 31 QX2
Q3 11 7 30 QZ
Q4 11 30 8 QY
V1 22 24 0V
V2 22 23 0V
V3 27 6 0V
V4 11 29 1.4
V5 28 6 1.2
V6 4 32 0V
V7 33 0 0V
.MODEL QX1 NPN (IS=5E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QX2 NPN (IS=5.125E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QY NPN (IS=6E-15 BF=50)
.MODEL QZ NPN (IS=5E-16 BF=266)
.MODEL DX D (IS=5E-16)
.ENDS
*$
XU1C 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout vcc+ LM13700/NS
XU1A 2ABin 2DBias 2in+ 2in- 2out vcc- 2Bin 2Bout vcc+ LM13700/NS
.ends

184
dev/da_altium_lib/DA_LIB/LM13700.ckt
View File

@@ -1,92 +1,92 @@
*//////////////////////////////////////////////////////////////////////
* (C) National Semiconductor, Inc.
* Models developed and under copyright by:
* National Semiconductor, Inc.
*/////////////////////////////////////////////////////////////////////
* Legal Notice: This material is intended for free software support.
* The file may be copied, and distributed; however, reselling the
* material is illegal
*////////////////////////////////////////////////////////////////////
* For ordering or technical information on these models, contact:
* National Semiconductor's Customer Response Center
* 7:00 A.M.--7:00 P.M. U.S. Central Time
* (800) 272-9959
* For Applications support, contact the Internet address:
* amps-apps@galaxy.nsc.com
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
* LM13700 Dual Operational Transconductance Amplifier
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
*
* Amplifier Bias Input
* | Diode Bias
* | | Positive Input
* | | | Negative Input
* | | | | Output
* | | | | | Negative power supply
* | | | | | | Buffer Input
* | | | | | | | Buffer Output
* | | | | | | | | Positive power supply
* | | | | | | | | |
.SUBCKT LM13700/NS 1 2 3 4 5 6 7 8 11
*
* Features:
* gm adjustable over 6 decades.
* Excellent gm linearity.
* Linearizing diodes.
* Wide supply range of +/-2V to +/-22V.
*
* Note: This model is single-pole in nature and over-estimates
* AC bandwidth and phase margin (stability) by over 2X.
* Although refinement may be possible in the future, please
* use benchtesting to finalize AC circuit design.
*
* Note: Model is for single device only and simulated
* supply current is 1/2 of total device current.
*
******************************************************
*
C1 6 4 4.8P
C2 3 6 4.8P
* Output capacitor
C3 5 6 6.26P
D1 2 4 DX
D2 2 3 DX
D3 11 21 DX
D4 21 22 DX
D5 1 26 DX
D6 26 27 DX
D7 5 29 DX
D8 28 5 DX
D10 31 25 DX
* Clamp for -CMR
D11 28 25 DX
* Ios source
F1 4 3 POLY(1) V6 1E-10 5.129E-2 -1.189E4 1.123E9
F2 11 5 V2 1.022
F3 25 6 V3 1.0
F4 5 6 V1 1.022
* Output impedance
F5 5 0 POLY(2) V3 V7 0 0 0 0 1
G1 0 33 5 0 .55E-3
I1 11 6 300U
Q1 24 32 31 QX1
Q2 23 3 31 QX2
Q3 11 7 30 QZ
Q4 11 30 8 QY
V1 22 24 0V
V2 22 23 0V
V3 27 6 0V
V4 11 29 1.4
V5 28 6 1.2
V6 4 32 0V
V7 33 0 0V
.MODEL QX1 NPN (IS=5E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QX2 NPN (IS=5.125E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QY NPN (IS=6E-15 BF=50)
.MODEL QZ NPN (IS=5E-16 BF=266)
.MODEL DX D (IS=5E-16)
.ENDS
*$
*//////////////////////////////////////////////////////////////////////
* (C) National Semiconductor, Inc.
* Models developed and under copyright by:
* National Semiconductor, Inc.
*/////////////////////////////////////////////////////////////////////
* Legal Notice: This material is intended for free software support.
* The file may be copied, and distributed; however, reselling the
* material is illegal
*////////////////////////////////////////////////////////////////////
* For ordering or technical information on these models, contact:
* National Semiconductor's Customer Response Center
* 7:00 A.M.--7:00 P.M. U.S. Central Time
* (800) 272-9959
* For Applications support, contact the Internet address:
* amps-apps@galaxy.nsc.com
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
* LM13700 Dual Operational Transconductance Amplifier
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
*
* Amplifier Bias Input
* | Diode Bias
* | | Positive Input
* | | | Negative Input
* | | | | Output
* | | | | | Negative power supply
* | | | | | | Buffer Input
* | | | | | | | Buffer Output
* | | | | | | | | Positive power supply
* | | | | | | | | |
.SUBCKT LM13700/NS 1 2 3 4 5 6 7 8 11
*
* Features:
* gm adjustable over 6 decades.
* Excellent gm linearity.
* Linearizing diodes.
* Wide supply range of +/-2V to +/-22V.
*
* Note: This model is single-pole in nature and over-estimates
* AC bandwidth and phase margin (stability) by over 2X.
* Although refinement may be possible in the future, please
* use benchtesting to finalize AC circuit design.
*
* Note: Model is for single device only and simulated
* supply current is 1/2 of total device current.
*
******************************************************
*
C1 6 4 4.8P
C2 3 6 4.8P
* Output capacitor
C3 5 6 6.26P
D1 2 4 DX
D2 2 3 DX
D3 11 21 DX
D4 21 22 DX
D5 1 26 DX
D6 26 27 DX
D7 5 29 DX
D8 28 5 DX
D10 31 25 DX
* Clamp for -CMR
D11 28 25 DX
* Ios source
F1 4 3 POLY(1) V6 1E-10 5.129E-2 -1.189E4 1.123E9
F2 11 5 V2 1.022
F3 25 6 V3 1.0
F4 5 6 V1 1.022
* Output impedance
F5 5 0 POLY(2) V3 V7 0 0 0 0 1
G1 0 33 5 0 .55E-3
I1 11 6 300U
Q1 24 32 31 QX1
Q2 23 3 31 QX2
Q3 11 7 30 QZ
Q4 11 30 8 QY
V1 22 24 0V
V2 22 23 0V
V3 27 6 0V
V4 11 29 1.4
V5 28 6 1.2
V6 4 32 0V
V7 33 0 0V
.MODEL QX1 NPN (IS=5E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QX2 NPN (IS=5.125E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QY NPN (IS=6E-15 BF=50)
.MODEL QZ NPN (IS=5E-16 BF=266)
.MODEL DX D (IS=5E-16)
.ENDS
*$

15190
dev/da_altium_lib/DA_LIB/LM13700N_NOPB.STEP
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162
dev/da_altium_lib/DA_LIB/LM386.ckt
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@@ -1,81 +1,81 @@
*LM386 Audio power amplifier
* /*
* 1. The following model behavior shows good agreement with the
* LM386 data sheet values:
*
* a) Quiescent power supply current;
* b) High frequency response at low gain setting;
* c) Power-supply rejection ratio, both bypassed and unbypassed;
* d) Voltage gain, both with pins 1&8 shorted and open; and
* e) Total harmonic distortion.
*
* 2. The model has the following discrepancies:
*
* f) High-gain frequency response looks somewhat more wideband
* than the actual device;
* g) Peak-to-peak output voltage swing is a bit more than the
* data sheet value- in other words, the model drives
* closer to the rails; and
* h) Input bias current in this model is only about 7 nA,
* compared with the 250 nA "typical" value mentioned in
* the data sheet.
*
* 3. The frequency response characteristics of this LM386 model
* can be adjusted somewhat by changing C1, the rolloff capacitor in
* the voltage gain stage. It could also be made more realistic by
* tweaking transistor model parameters Cjc, Cje, Tr and Tf,
* although this can get pretty hairy.
*
* 4. Likewise, output drive capability could be made more
* realistic by tweaking transistor model parameters; again, this is
* hairy.
*/
*
.subckt lm386 g1 inn inp gnd out vs byp g8
* | | | | | | | |
* IC pins: 1 2 3 4 5 6 7 8
* input emitter-follower buffers:
q1 gnd inn 10011 ddpnp
r1 inn gnd 50k
q2 gnd inp 10012 ddpnp
r2 inp gnd 50k
* differential input stage, gain-setting
* resistors, and internal feedback resistor:
q3 10013 10011 10008 ddpnp
q4 10014 10012 g1 ddpnp
r3 vs byp 15k
r4 byp 10008 15k
r5 10008 g8 150
r6 g8 g1 1.35k
r7 g1 out 15k
* input stage current mirror:
q5 10013 10013 gnd ddnpn
q6 10014 10013 gnd ddnpn
* voltage gain stage & rolloff cap:
q7 10017 10014 gnd ddnpn
c1 10014 10017 15pf
* current mirror source for gain stage:
i1 10002 vs dc 5m
q8 10004 10002 vs ddpnp
q9 10002 10002 vs ddpnp
* Sziklai-connected push-pull output stage:
q10 10018 10017 out ddpnp
q11 10004 10004 10009 ddnpn 100
q12 10009 10009 10017 ddnpn 100
q13 vs 10004 out ddnpn 100
q14 out 10018 gnd ddnpn 100
* generic transistor models generated
* with MicroSim's PARTs utility, using
* default parameters except Bf:
.model ddnpn NPN(Is=10f Xti=3 Eg=1.11 Vaf=100
+ Bf=400 Ise=0 Ne=1.5 Ikf=0 Nk=.5 Xtb=1.5 Var=100
+ Br=1 Isc=0 Nc=2 Ikr=0 Rc=0 Cjc=2p Mjc=.3333
+ Vjc=.75 Fc=.5 Cje=5p Mje=.3333 Vje=.75 Tr=10n
+ Tf=1n Itf=1 Xtf=0 Vtf=10)
.model ddpnp PNP(Is=10f Xti=3 Eg=1.11 Vaf=100
+ Bf=200 Ise=0 Ne=1.5 Ikf=0 Nk=.5 Xtb=1.5 Var=100
+ Br=1 Isc=0 Nc=2 Ikr=0 Rc=0 Cjc=2p Mjc=.3333
+ Vjc=.75 Fc=.5 Cje=5p Mje=.3333 Vje=.75 Tr=10n
+ Tf=1n Itf=1 Xtf=0 Vtf=10)
.ends LM386
*LM386 Audio power amplifier
* /*
* 1. The following model behavior shows good agreement with the
* LM386 data sheet values:
*
* a) Quiescent power supply current;
* b) High frequency response at low gain setting;
* c) Power-supply rejection ratio, both bypassed and unbypassed;
* d) Voltage gain, both with pins 1&8 shorted and open; and
* e) Total harmonic distortion.
*
* 2. The model has the following discrepancies:
*
* f) High-gain frequency response looks somewhat more wideband
* than the actual device;
* g) Peak-to-peak output voltage swing is a bit more than the
* data sheet value- in other words, the model drives
* closer to the rails; and
* h) Input bias current in this model is only about 7 nA,
* compared with the 250 nA "typical" value mentioned in
* the data sheet.
*
* 3. The frequency response characteristics of this LM386 model
* can be adjusted somewhat by changing C1, the rolloff capacitor in
* the voltage gain stage. It could also be made more realistic by
* tweaking transistor model parameters Cjc, Cje, Tr and Tf,
* although this can get pretty hairy.
*
* 4. Likewise, output drive capability could be made more
* realistic by tweaking transistor model parameters; again, this is
* hairy.
*/
*
.subckt lm386 g1 inn inp gnd out vs byp g8
* | | | | | | | |
* IC pins: 1 2 3 4 5 6 7 8
* input emitter-follower buffers:
q1 gnd inn 10011 ddpnp
r1 inn gnd 50k
q2 gnd inp 10012 ddpnp
r2 inp gnd 50k
* differential input stage, gain-setting
* resistors, and internal feedback resistor:
q3 10013 10011 10008 ddpnp
q4 10014 10012 g1 ddpnp
r3 vs byp 15k
r4 byp 10008 15k
r5 10008 g8 150
r6 g8 g1 1.35k
r7 g1 out 15k
* input stage current mirror:
q5 10013 10013 gnd ddnpn
q6 10014 10013 gnd ddnpn
* voltage gain stage & rolloff cap:
q7 10017 10014 gnd ddnpn
c1 10014 10017 15pf
* current mirror source for gain stage:
i1 10002 vs dc 5m
q8 10004 10002 vs ddpnp
q9 10002 10002 vs ddpnp
* Sziklai-connected push-pull output stage:
q10 10018 10017 out ddpnp
q11 10004 10004 10009 ddnpn 100
q12 10009 10009 10017 ddnpn 100
q13 vs 10004 out ddnpn 100
q14 out 10018 gnd ddnpn 100
* generic transistor models generated
* with MicroSim's PARTs utility, using
* default parameters except Bf:
.model ddnpn NPN(Is=10f Xti=3 Eg=1.11 Vaf=100
+ Bf=400 Ise=0 Ne=1.5 Ikf=0 Nk=.5 Xtb=1.5 Var=100
+ Br=1 Isc=0 Nc=2 Ikr=0 Rc=0 Cjc=2p Mjc=.3333
+ Vjc=.75 Fc=.5 Cje=5p Mje=.3333 Vje=.75 Tr=10n
+ Tf=1n Itf=1 Xtf=0 Vtf=10)
.model ddpnp PNP(Is=10f Xti=3 Eg=1.11 Vaf=100
+ Bf=200 Ise=0 Ne=1.5 Ikf=0 Nk=.5 Xtb=1.5 Var=100
+ Br=1 Isc=0 Nc=2 Ikr=0 Rc=0 Cjc=2p Mjc=.3333
+ Vjc=.75 Fc=.5 Cje=5p Mje=.3333 Vje=.75 Tr=10n
+ Tf=1n Itf=1 Xtf=0 Vtf=10)
.ends LM386

BIN
dev/da_altium_lib/DA_LIB/Project Outputs for DA_LIB/DA_LIB.IntLib
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27364
dev/da_altium_lib/DA_LIB/RK09D1130F.STEP
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160
dev/da_altium_lib/DA_LIB/TL047_QUAD.ckt
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* ===========================================================
* TL074 QUAD OPERATIONAL AMPLIFIER MACROMODEL (Standalone)
* Fully self-contained SPICE subcircuit, no external includes
* Based on TI TL074 macromodel (Rev. 1989)
* ===========================================================
* Pin assignment (DIP-14):
* 1: OUT1
* 2: IN1-
* 3: IN1+
* 4: VCC+
* 5: IN2+
* 6: IN2-
* 7: OUT2
* 8: OUT3
* 9: IN3-
* 10: IN3+
* 11: VCC-
* 12: IN4+
* 13: IN4-
* 14: OUT4
* ===========================================================
.subckt TL074_QUAD OUT1 IN1- IN1+ VCC+ IN2+ IN2- OUT2 OUT3 IN3- IN3+ VCC- IN4+ IN4- OUT4
* ========== OPAMP #1 ==========
XU1 IN1+ IN1- VCC+ VCC- OUT1 TL074_CORE
* ========== OPAMP #2 ==========
XU2 IN2+ IN2- VCC+ VCC- OUT2 TL074_CORE
* ========== OPAMP #3 ==========
XU3 IN3+ IN3- VCC+ VCC- OUT3 TL074_CORE
* ========== OPAMP #4 ==========
XU4 IN4+ IN4- VCC+ VCC- OUT4 TL074_CORE
.ends TL074_QUAD
* ===========================================================
* SINGLE TL074 OPAMP CORE MODEL (from TI 1989 macromodel)
* ===========================================================
.subckt TL074_CORE 1 2 3 4 5
* 1: non-inv input
* 2: inv input
* 3: VCC+
* 4: VCC-
* 5: output
C1 11 12 3.498E-12
C2 6 7 15.00E-12
DC 5 53 DX
DE 54 5 DX
DLP 90 91 DX
DLN 92 90 DX
DP 4 3 DX
EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5
FB 7 99 POLY(5) VB VC VE VLP VLN 0 4.715E6 -5E6 5E6 5E6 -5E6
GA 6 0 11 12 282.8E-6
GCM 0 6 10 99 8.942E-9
ISS 3 10 DC 195.0E-6
HLIM 90 0 VLIM 1K
J1 11 2 10 JX
J2 12 1 10 JX
R2 6 9 100.0E3
RD1 4 11 3.536E3
RD2 4 12 3.536E3
RO1 8 5 150
RO2 7 99 150
RP 3 4 2.143E3
RSS 10 99 1.026E6
VB 9 0 DC 0
VC 3 53 DC 2.200
VE 54 4 DC 2.200
VLIM 7 8 DC 0
VLP 91 0 DC 25
VLN 0 92 DC 25
.MODEL DX D(IS=800.0E-18)
.MODEL JX PJF(IS=15.00E-12 BETA=270.1E-6 VTO=-1)
.ends TL074_CORE
* ===========================================================
* TL074 QUAD OPERATIONAL AMPLIFIER MACROMODEL (Standalone)
* Fully self-contained SPICE subcircuit, no external includes
* Based on TI TL074 macromodel (Rev. 1989)
* ===========================================================
* Pin assignment (DIP-14):
* 1: OUT1
* 2: IN1-
* 3: IN1+
* 4: VCC+
* 5: IN2+
* 6: IN2-
* 7: OUT2
* 8: OUT3
* 9: IN3-
* 10: IN3+
* 11: VCC-
* 12: IN4+
* 13: IN4-
* 14: OUT4
* ===========================================================
.subckt TL074_QUAD OUT1 IN1- IN1+ VCC+ IN2+ IN2- OUT2 OUT3 IN3- IN3+ VCC- IN4+ IN4- OUT4
* ========== OPAMP #1 ==========
XU1 IN1+ IN1- VCC+ VCC- OUT1 TL074_CORE
* ========== OPAMP #2 ==========
XU2 IN2+ IN2- VCC+ VCC- OUT2 TL074_CORE
* ========== OPAMP #3 ==========
XU3 IN3+ IN3- VCC+ VCC- OUT3 TL074_CORE
* ========== OPAMP #4 ==========
XU4 IN4+ IN4- VCC+ VCC- OUT4 TL074_CORE
.ends TL074_QUAD
* ===========================================================
* SINGLE TL074 OPAMP CORE MODEL (from TI 1989 macromodel)
* ===========================================================
.subckt TL074_CORE 1 2 3 4 5
* 1: non-inv input
* 2: inv input
* 3: VCC+
* 4: VCC-
* 5: output
C1 11 12 3.498E-12
C2 6 7 15.00E-12
DC 5 53 DX
DE 54 5 DX
DLP 90 91 DX
DLN 92 90 DX
DP 4 3 DX
EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5
FB 7 99 POLY(5) VB VC VE VLP VLN 0 4.715E6 -5E6 5E6 5E6 -5E6
GA 6 0 11 12 282.8E-6
GCM 0 6 10 99 8.942E-9
ISS 3 10 DC 195.0E-6
HLIM 90 0 VLIM 1K
J1 11 2 10 JX
J2 12 1 10 JX
R2 6 9 100.0E3
RD1 4 11 3.536E3
RD2 4 12 3.536E3
RO1 8 5 150
RO2 7 99 150
RP 3 4 2.143E3
RSS 10 99 1.026E6
VB 9 0 DC 0
VC 3 53 DC 2.200
VE 54 4 DC 2.200
VLIM 7 8 DC 0
VLP 91 0 DC 25
VLN 0 92 DC 25
.MODEL DX D(IS=800.0E-18)
.MODEL JX PJF(IS=15.00E-12 BETA=270.1E-6 VTO=-1)
.ends TL074_CORE

28
dev/da_altium_lib/DA_LIB/__Previews/LM13700-DUAL.LIBPreview
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28
dev/da_altium_lib/DA_LIB/__Previews/LM386.cktPreview
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838
dev/da_altium_lib/DA_LIB/lmx58_lm2904.ckt
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@@ -1,419 +1,419 @@
* LMX58_LM2904 - Rev. B
* Created by Paul Goedeke; November 16, 2018 - Revised by GPAMPS Team; 2021-06-29
* Created with Green-Williams-Lis Op Amp Macro-model Architecture
* Copyright 2018 by Texas Instruments Corporation
******************************************************
* MACRO-MODEL SIMULATED PARAMETERS:
******************************************************
* OPEN-LOOP GAIN AND PHASE VS. FREQUENCY WITH RL, CL EFFECTS (Aol)
* UNITY GAIN BANDWIDTH (GBW)
* INPUT COMMON-MODE REJECTION RATIO VS. FREQUENCY (CMRR)
* POWER SUPPLY REJECTION RATIO VS. FREQUENCY (PSRR)
* DIFFERENTIAL INPUT IMPEDANCE (Zid)
* COMMON-MODE INPUT IMPEDANCE (Zic)
* OPEN-LOOP OUTPUT IMPEDANCE VS. FREQUENCY (Zo)
* OUTPUT CURRENT THROUGH THE SUPPLY (Iout)
* INPUT VOLTAGE NOISE DENSITY VS. FREQUENCY (en)
* INPUT CURRENT NOISE DENSITY VS. FREQUENCY (in)
* OUTPUT VOLTAGE SWING vs. OUTPUT CURRENT (Vo)
* SHORT-CIRCUIT OUTPUT CURRENT (Isc)
* QUIESCENT CURRENT (Iq)
* SETTLING TIME VS. CAPACITIVE LOAD (ts)
* SLEW RATE (SR)
* SMALL SIGNAL OVERSHOOT VS. CAPACITIVE LOAD
* LARGE SIGNAL RESPONSE
* OVERLOAD RECOVERY TIME (tor)
* INPUT BIAS CURRENT (Ib)
* INPUT OFFSET CURRENT (Ios)
* INPUT OFFSET VOLTAGE (Vos)
* INPUT COMMON-MODE VOLTAGE RANGE (Vcm)
* INPUT OFFSET VOLTAGE VS. INPUT COMMON-MODE VOLTAGE (Vos vs. Vcm)
* INPUT/OUTPUT ESD CELLS (ESDin, ESDout)
******************************************************
.subckt LMX58_LM2904 IN+ IN- VCC VEE OUT
******************************************************
* MODEL DEFINITIONS:
.model BB_SW VSWITCH(Ron=50 Roff=1e12 Von=700e-3 Voff=0)
.model ESD_SW VSWITCH(Ron=50 Roff=1e12 Von=250e-3 Voff=0)
.model OL_SW VSWITCH(Ron=1e-3 Roff=1e9 Von=900e-3 Voff=800e-3)
.model OR_SW VSWITCH(Ron=10e-3 Roff=1e9 Von=1e-3 Voff=0)
.model R_NOISELESS RES(T_ABS=-273.15)
******************************************************
I_OS ESDn MID -18N
I_B 37 MID -20N
V_GRp 57 MID 180
V_GRn 58 MID -180
V_ISCp 51 MID 40
V_ISCn 52 MID -40
V_ORn 45 VCLP -1.2
V11 56 44 0
V_ORp 43 VCLP 1.2
V12 55 42 0
V4 33 OUT 0
VCM_MIN 79 VEE_B 0
VCM_MAX 80 VCC_B -1.5
I_Q VCC VEE 350U
V_OS 86 37 1.8M
R61 MID 22 R_NOISELESS 8.001K
C16 22 23 19.89P
R58 23 22 R_NOISELESS 100MEG
GVCCS2 23 MID VEE_B MID -992.9M
R57 MID 23 R_NOISELESS 1
XU3 VCC_B VEE_B 24 25 26 27 MID PHASEREV_0
XU1 VIMON MID CRS CRS_DIST_0
C21 28 29 313.8N
C22 30 31 636.6F
R70 31 MID R_NOISELESS 2.5
R67 31 30 R_NOISELESS 10K
R66 30 MID R_NOISELESS 1
XU2 31 MID MID 32 VCCS_LIM_ZO_0
GVCCS4 30 MID 29 MID -4.3
R65 29 MID R_NOISELESS 3.03K
R64 29 28 R_NOISELESS 10K
R63 28 MID R_NOISELESS 1
GVCCS3 28 MID CL_CLAMP 33 -90
R62 32 MID R_NOISELESS 1
C29 34 MID 72F
R78 MID 34 R_NOISELESS 1MEG
GVCCS9 34 MID 35 MID -1U
XU5 36 MID MID CLAMP CRS MID VCCS_LIM_2_EN_0
C28 38 MID 1P
R77 39 38 R_NOISELESS 100
C27 40 MID 1P
R76 41 40 R_NOISELESS 100
R75 MID 42 R_NOISELESS 1
GVCCS8 42 MID 43 MID -1
R74 44 MID R_NOISELESS 1
GVCCS7 44 MID 45 MID -1
Xi_nn ESDn MID FEMT_0
Xi_np MID 37 FEMT_0
Xe_n ESDp 37 VNSE_0
C25 35 MID 72F
R69 MID 35 R_NOISELESS 1MEG
GVCCS6 35 MID VSENSE MID -1U
C20 CLAMP MID 13.5N
R68 MID CLAMP R_NOISELESS 1MEG
R44 MID 36 R_NOISELESS 1MEG
XVCCS_LIM_1 46 27 MID 36 VCCS_LIM_1_0
Rdummy MID 33 R_NOISELESS 25K
Rx 33 32 R_NOISELESS 250K
R56 MID 47 R_NOISELESS 1K
C15 47 48 1.592P
R55 48 47 R_NOISELESS 100MEG
GVCCS1 48 MID VCC_B MID -100M
R54 MID 48 R_NOISELESS 1
R49 MID 49 R_NOISELESS 4.616K
C14 49 50 26.53P
R48 50 49 R_NOISELESS 100MEG
G_adjust 50 MID ESDp MID -685.2M
Rsrc MID 50 R_NOISELESS 1
XIQPos VIMON MID MID VCC VCCS_LIMIT_IQ_0
XIQNeg MID VIMON VEE MID VCCS_LIMIT_IQ_0
C_DIFF ESDp ESDn 1P
XCL_AMP 51 52 VIMON MID 53 54 CLAMP_AMP_LO_0
SOR_SWp CLAMP 55 CLAMP 55 S_VSWITCH_1
SOR_SWn 56 CLAMP 56 CLAMP S_VSWITCH_2
XGR_AMP 57 58 59 MID 60 61 CLAMP_AMP_HI_0
R39 57 MID R_NOISELESS 1T
R37 58 MID R_NOISELESS 1T
R42 VSENSE 59 R_NOISELESS 1M
C19 59 MID 1F
R38 60 MID R_NOISELESS 1
R36 MID 61 R_NOISELESS 1
R40 60 62 R_NOISELESS 1M
R41 61 63 R_NOISELESS 1M
C17 62 MID 1F
C18 MID 63 1F
XGR_SRC 62 63 CLAMP MID VCCS_LIM_GR_0
R21 53 MID R_NOISELESS 1
R20 MID 54 R_NOISELESS 1
R29 53 64 R_NOISELESS 1M
R30 54 65 R_NOISELESS 1M
C9 64 MID 1F
C8 MID 65 1F
XCL_SRC 64 65 CL_CLAMP MID VCCS_LIM_4_0
R22 51 MID R_NOISELESS 1T
R19 MID 52 R_NOISELESS 1T
XCLAWp VIMON MID 66 VCC_B VCCS_LIM_CLAW+_0
XCLAWn MID VIMON VEE_B 67 VCCS_LIM_CLAW-_0
R12 66 VCC_B R_NOISELESS 1K
R16 66 68 R_NOISELESS 1M
R13 VEE_B 67 R_NOISELESS 1K
R17 69 67 R_NOISELESS 1M
C6 69 MID 1F
C5 MID 68 1F
G2 VCC_CLP MID 68 MID -1M
R15 VCC_CLP MID R_NOISELESS 1K
G3 VEE_CLP MID 69 MID -1M
R14 MID VEE_CLP R_NOISELESS 1K
XCLAW_AMP VCC_CLP VEE_CLP VOUT_S MID 70 71 CLAMP_AMP_LO_0
R26 VCC_CLP MID R_NOISELESS 1T
R23 VEE_CLP MID R_NOISELESS 1T
R25 70 MID R_NOISELESS 1
R24 MID 71 R_NOISELESS 1
R27 70 72 R_NOISELESS 1M
R28 71 73 R_NOISELESS 1M
C11 72 MID 1F
C10 MID 73 1F
XCLAW_SRC 72 73 CLAW_CLAMP MID VCCS_LIM_3_0
H2 41 MID V11 -1
H3 39 MID V12 1
C12 SW_OL MID 100P
R32 74 SW_OL R_NOISELESS 100
R31 74 MID R_NOISELESS 1
XOL_SENSE MID 74 40 38 OL_SENSE_0
S1 28 29 SW_OL MID S_VSWITCH_3
H1 75 MID V4 1K
S7 VEE OUT VEE OUT S_VSWITCH_4
S6 OUT VCC OUT VCC S_VSWITCH_5
R11 MID 76 R_NOISELESS 1T
R18 76 VOUT_S R_NOISELESS 100
C7 VOUT_S MID 10P
E5 76 MID OUT MID 1
C13 VIMON MID 10P
R33 75 VIMON R_NOISELESS 100
R10 MID 75 R_NOISELESS 1T
R47 77 VCLP R_NOISELESS 100
C24 VCLP MID 100P
E4 77 MID CL_CLAMP MID 1
R46 MID CL_CLAMP R_NOISELESS 1K
G9 CL_CLAMP MID CLAW_CLAMP MID -1M
R45 MID CLAW_CLAMP R_NOISELESS 1K
G8 CLAW_CLAMP MID 34 MID -1M
R43 MID VSENSE R_NOISELESS 1K
G15 VSENSE MID CLAMP MID -1M
C4 46 MID 1F
R9 46 78 R_NOISELESS 1M
R7 MID 79 R_NOISELESS 1T
R6 80 MID R_NOISELESS 1T
R8 MID 78 R_NOISELESS 1
XVCM_CLAMP 26 MID 78 MID 80 79 VCCS_EXT_LIM_0
E1 MID 0 81 0 1
R89 VEE_B 0 R_NOISELESS 1
R5 82 VEE_B R_NOISELESS 1M
C3 82 0 1F
R60 81 82 R_NOISELESS 1MEG
C1 81 0 100e-9
R3 81 0 R_NOISELESS 1T
R59 83 81 R_NOISELESS 1MEG
C2 83 0 1F
R4 VCC_B 83 R_NOISELESS 1M
R88 VCC_B 0 R_NOISELESS 1
G17 VEE_B 0 VEE 0 -1
G16 VCC_B 0 VCC 0 -1
R_PSR 84 24 R_NOISELESS 1K
G_PSR 24 84 47 22 -1M
R2 25 ESDn R_NOISELESS 1M
R1 84 85 R_NOISELESS 1M
R_CMR 86 85 R_NOISELESS 1K
G_CMR 85 86 49 MID -1M
C_CMn ESDn MID 2P
C_CMp MID ESDp 2P
R53 ESDn MID R_NOISELESS 1T
R52 MID ESDp R_NOISELESS 1T
R35 IN- ESDn R_NOISELESS 10M
R34 IN+ ESDp R_NOISELESS 10M
.MODEL S_VSWITCH_1 VSWITCH (RON=10M ROFF=1T VON=10M VOFF=0)
.MODEL S_VSWITCH_2 VSWITCH (RON=10M ROFF=1T VON=10M VOFF=0)
.MODEL S_VSWITCH_3 VSWITCH (RON=1M ROFF=1T VON=500M VOFF=100M)
.MODEL S_VSWITCH_4 VSWITCH (RON=50 ROFF=1T VON=500M VOFF=450M)
.MODEL S_VSWITCH_5 VSWITCH (RON=50 ROFF=1T VON=500M VOFF=450M)
.ENDS LMX58_LM2904
*
.SUBCKT PHASEREV_0 VCC VEE VIN+ VIN- VOUT+ VOUT- MID
E1 VOUT+ MID VALUE={IF(V(VIN+,MID)<V(VEE,MID)-0.3,V(VCC,MID),V(VIN+,MID))}
E2 VOUT- MID VALUE={IF(V(VIN-,MID)<V(VEE,MID)-0.3,V(VCC,MID),V(VIN-,MID))}
.ENDS
*
.SUBCKT CRS_DIST_0 VIMON MID OUT
V1 VREF MID -40M
ESHF VSHF MID VIMON VREF 1
GZC MID ZC VALUE = {SGN(V(VSHF,MID))}
R1 ZC MID 1
C1 ZC MID 2U
GCR MID OUT VALUE = {IF((ABS(V(ZC,MID))<=0.9),0,1)}
R2 OUT MID 1
.ENDS
*
.SUBCKT VCCS_LIM_ZO_0 VC+ VC- IOUT+ IOUT-
.PARAM GAIN = 4E3
.PARAM IPOS = 1E6
.PARAM INEG = -1E6
G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}
.ENDS
*
.SUBCKT VCCS_LIM_2_EN_0 VC+ VC- IOUT+ IOUT- EN MID
.PARAM GAIN = 8.4E-4
.PARAM IPOS = 0.005
.PARAM INEG = -0.005
G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(EN,MID)*V(VC+,VC-),INEG,IPOS)}
.ENDS
*
.SUBCKT FEMT_0 1 2
.PARAM FLWF=1E-3
.PARAM NLFF=500
.PARAM NVRF=500
.PARAM GLFF={PWR(FLWF,0.25)*NLFF/1164}
.PARAM RNVF={1.184*PWR(NVRF,2)}
.MODEL DVNF D KF={PWR(FLWF,0.5)/1E11} IS=1.0E-16
I1 0 7 10E-3
I2 0 8 10E-3
D1 7 0 DVNF
D2 8 0 DVNF
E1 3 6 7 8 {GLFF}
R1 3 0 1E9
R2 3 0 1E9
R3 3 6 1E9
E2 6 4 5 0 10
R4 5 0 {RNVF}
R5 5 0 {RNVF}
R6 3 4 1E9
R7 4 0 1E9
G1 1 2 3 4 1E-6
.ENDS
*
.SUBCKT VNSE_0 1 2
.PARAM FLW=10
.PARAM NLF=80
.PARAM NVR=35
.PARAM GLF={PWR(FLW,0.25)*NLF/1164}
.PARAM RNV={1.184*PWR(NVR,2)}
.MODEL DVN D KF={PWR(FLW,0.5)/1E11} IS=1.0E-16
I1 0 7 10E-3
I2 0 8 10E-3
D1 7 0 DVN
D2 8 0 DVN
E1 3 6 7 8 {GLF}
R1 3 0 1E9
R2 3 0 1E9
R3 3 6 1E9
E2 6 4 5 0 10
R4 5 0 {RNV}
R5 5 0 {RNV}
R6 3 4 1E9
R7 4 0 1E9
E3 1 2 3 4 1
.ENDS
*
.SUBCKT VCCS_LIM_1_0 VC+ VC- IOUT+ IOUT-
.PARAM GAIN = 1E-4
.PARAM IPOS = .5
.PARAM INEG = -.5
G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}
.ENDS
*
.SUBCKT VCCS_LIMIT_IQ_0 VC+ VC- IOUT+ IOUT-
.PARAM GAIN = 1E-3
G1 IOUT- IOUT+ VALUE={IF( (V(VC+,VC-)<=0),0,GAIN*V(VC+,VC-) )}
.ENDS
*
.SUBCKT CLAMP_AMP_LO_0 VC+ VC- VIN COM VO+ VO-
.PARAM G=1
GVO+ COM VO+ VALUE = {IF(V(VIN,COM)>V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}
GVO- COM VO- VALUE = {IF(V(VIN,COM)<V(VC-,COM),((V(VC-,COM)-V(VIN,COM))*G),0)}
.ENDS
*
.SUBCKT CLAMP_AMP_HI_0 VC+ VC- VIN COM VO+ VO-
.PARAM G=10
GVO+ COM VO+ VALUE = {IF(V(VIN,COM)>V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}
GVO- COM VO- VALUE = {IF(V(VIN,COM)<V(VC-,COM),((V(VC-,COM)-V(VIN,COM))*G),0)}
.ENDS
*
.SUBCKT VCCS_LIM_GR_0 VC+ VC- IOUT+ IOUT-
.PARAM GAIN = 1
.PARAM IPOS = 0.013
.PARAM INEG = -0.013
G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}
.ENDS
*
.SUBCKT VCCS_LIM_4_0 VC+ VC- IOUT+ IOUT-
.PARAM GAIN = 1
.PARAM IPOS = 1.04
.PARAM INEG = -1.04
G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}
.ENDS
*
.SUBCKT VCCS_LIM_CLAW+_0 VC+ VC- IOUT+ IOUT-
G1 IOUT+ IOUT- TABLE {ABS(V(VC+,VC-))} =
+(0, 1.17E-03)
+(0.0046251, 1.17E-3)
+(0.15716, 1.21E-3)
+(1.3309, 1.28E-3)
+(35.075, 2.12E-3)
+(35.680, 2.55E-3)
+(36.033, 2.84E-3)
+(37.416, 7.97E-3)
.ENDS
*
.SUBCKT VCCS_LIM_CLAW-_0 VC+ VC- IOUT+ IOUT-
G1 IOUT+ IOUT- TABLE {ABS(V(VC+,VC-))} =
+(0.010, 2.50E-5)
+(0.070, 2.50E-5)
+(0.090, 5.80E-4)
+(0.100, 6.06E-4)
+(0.760, 7.14E-4)
+(1.440, 7.62E-4)
+(8.000, 1.10E-3)
+(13.60, 1.55E-3)
+(15.45, 1.75E-3)
+(17.26, 2.15E-3)
+(18.87, 2.94E-3)
+(21.58, 4.50E-3)
+(25.53, 1.02E-2)
.ENDS
*
.SUBCKT VCCS_LIM_3_0 VC+ VC- IOUT+ IOUT-
.PARAM GAIN = 1
.PARAM IPOS = 0.435
.PARAM INEG = -0.435
G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}
.ENDS
*
.SUBCKT OL_SENSE_0 COM SW+ OLN OLP
GSW+ COM SW+ VALUE = {IF((V(OLN,COM)>10E-3 | V(OLP,COM)>10E-3),1,0)}
.ENDS
*
.SUBCKT VCCS_EXT_LIM_0 VIN+ VIN- IOUT- IOUT+ VP+ VP-
.PARAM GAIN = 1
G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VIN+,VIN-),V(VP-,VIN-), V(VP+,VIN-))}
.ENDS
*
* LMX58_LM2904 - Rev. B
* Created by Paul Goedeke; November 16, 2018 - Revised by GPAMPS Team; 2021-06-29
* Created with Green-Williams-Lis Op Amp Macro-model Architecture
* Copyright 2018 by Texas Instruments Corporation
******************************************************
* MACRO-MODEL SIMULATED PARAMETERS:
******************************************************
* OPEN-LOOP GAIN AND PHASE VS. FREQUENCY WITH RL, CL EFFECTS (Aol)
* UNITY GAIN BANDWIDTH (GBW)
* INPUT COMMON-MODE REJECTION RATIO VS. FREQUENCY (CMRR)
* POWER SUPPLY REJECTION RATIO VS. FREQUENCY (PSRR)
* DIFFERENTIAL INPUT IMPEDANCE (Zid)
* COMMON-MODE INPUT IMPEDANCE (Zic)
* OPEN-LOOP OUTPUT IMPEDANCE VS. FREQUENCY (Zo)
* OUTPUT CURRENT THROUGH THE SUPPLY (Iout)
* INPUT VOLTAGE NOISE DENSITY VS. FREQUENCY (en)
* INPUT CURRENT NOISE DENSITY VS. FREQUENCY (in)
* OUTPUT VOLTAGE SWING vs. OUTPUT CURRENT (Vo)
* SHORT-CIRCUIT OUTPUT CURRENT (Isc)
* QUIESCENT CURRENT (Iq)
* SETTLING TIME VS. CAPACITIVE LOAD (ts)
* SLEW RATE (SR)
* SMALL SIGNAL OVERSHOOT VS. CAPACITIVE LOAD
* LARGE SIGNAL RESPONSE
* OVERLOAD RECOVERY TIME (tor)
* INPUT BIAS CURRENT (Ib)
* INPUT OFFSET CURRENT (Ios)
* INPUT OFFSET VOLTAGE (Vos)
* INPUT COMMON-MODE VOLTAGE RANGE (Vcm)
* INPUT OFFSET VOLTAGE VS. INPUT COMMON-MODE VOLTAGE (Vos vs. Vcm)
* INPUT/OUTPUT ESD CELLS (ESDin, ESDout)
******************************************************
.subckt LMX58_LM2904 IN+ IN- VCC VEE OUT
******************************************************
* MODEL DEFINITIONS:
.model BB_SW VSWITCH(Ron=50 Roff=1e12 Von=700e-3 Voff=0)
.model ESD_SW VSWITCH(Ron=50 Roff=1e12 Von=250e-3 Voff=0)
.model OL_SW VSWITCH(Ron=1e-3 Roff=1e9 Von=900e-3 Voff=800e-3)
.model OR_SW VSWITCH(Ron=10e-3 Roff=1e9 Von=1e-3 Voff=0)
.model R_NOISELESS RES(T_ABS=-273.15)
******************************************************
I_OS ESDn MID -18N
I_B 37 MID -20N
V_GRp 57 MID 180
V_GRn 58 MID -180
V_ISCp 51 MID 40
V_ISCn 52 MID -40
V_ORn 45 VCLP -1.2
V11 56 44 0
V_ORp 43 VCLP 1.2
V12 55 42 0
V4 33 OUT 0
VCM_MIN 79 VEE_B 0
VCM_MAX 80 VCC_B -1.5
I_Q VCC VEE 350U
V_OS 86 37 1.8M
R61 MID 22 R_NOISELESS 8.001K
C16 22 23 19.89P
R58 23 22 R_NOISELESS 100MEG
GVCCS2 23 MID VEE_B MID -992.9M
R57 MID 23 R_NOISELESS 1
XU3 VCC_B VEE_B 24 25 26 27 MID PHASEREV_0
XU1 VIMON MID CRS CRS_DIST_0
C21 28 29 313.8N
C22 30 31 636.6F
R70 31 MID R_NOISELESS 2.5
R67 31 30 R_NOISELESS 10K
R66 30 MID R_NOISELESS 1
XU2 31 MID MID 32 VCCS_LIM_ZO_0
GVCCS4 30 MID 29 MID -4.3
R65 29 MID R_NOISELESS 3.03K
R64 29 28 R_NOISELESS 10K
R63 28 MID R_NOISELESS 1
GVCCS3 28 MID CL_CLAMP 33 -90
R62 32 MID R_NOISELESS 1
C29 34 MID 72F
R78 MID 34 R_NOISELESS 1MEG
GVCCS9 34 MID 35 MID -1U
XU5 36 MID MID CLAMP CRS MID VCCS_LIM_2_EN_0
C28 38 MID 1P
R77 39 38 R_NOISELESS 100
C27 40 MID 1P
R76 41 40 R_NOISELESS 100
R75 MID 42 R_NOISELESS 1
GVCCS8 42 MID 43 MID -1
R74 44 MID R_NOISELESS 1
GVCCS7 44 MID 45 MID -1
Xi_nn ESDn MID FEMT_0
Xi_np MID 37 FEMT_0
Xe_n ESDp 37 VNSE_0
C25 35 MID 72F
R69 MID 35 R_NOISELESS 1MEG
GVCCS6 35 MID VSENSE MID -1U
C20 CLAMP MID 13.5N
R68 MID CLAMP R_NOISELESS 1MEG
R44 MID 36 R_NOISELESS 1MEG
XVCCS_LIM_1 46 27 MID 36 VCCS_LIM_1_0
Rdummy MID 33 R_NOISELESS 25K
Rx 33 32 R_NOISELESS 250K
R56 MID 47 R_NOISELESS 1K
C15 47 48 1.592P
R55 48 47 R_NOISELESS 100MEG
GVCCS1 48 MID VCC_B MID -100M
R54 MID 48 R_NOISELESS 1
R49 MID 49 R_NOISELESS 4.616K
C14 49 50 26.53P
R48 50 49 R_NOISELESS 100MEG
G_adjust 50 MID ESDp MID -685.2M
Rsrc MID 50 R_NOISELESS 1
XIQPos VIMON MID MID VCC VCCS_LIMIT_IQ_0
XIQNeg MID VIMON VEE MID VCCS_LIMIT_IQ_0
C_DIFF ESDp ESDn 1P
XCL_AMP 51 52 VIMON MID 53 54 CLAMP_AMP_LO_0
SOR_SWp CLAMP 55 CLAMP 55 S_VSWITCH_1
SOR_SWn 56 CLAMP 56 CLAMP S_VSWITCH_2
XGR_AMP 57 58 59 MID 60 61 CLAMP_AMP_HI_0
R39 57 MID R_NOISELESS 1T
R37 58 MID R_NOISELESS 1T
R42 VSENSE 59 R_NOISELESS 1M
C19 59 MID 1F
R38 60 MID R_NOISELESS 1
R36 MID 61 R_NOISELESS 1
R40 60 62 R_NOISELESS 1M
R41 61 63 R_NOISELESS 1M
C17 62 MID 1F
C18 MID 63 1F
XGR_SRC 62 63 CLAMP MID VCCS_LIM_GR_0
R21 53 MID R_NOISELESS 1
R20 MID 54 R_NOISELESS 1
R29 53 64 R_NOISELESS 1M
R30 54 65 R_NOISELESS 1M
C9 64 MID 1F
C8 MID 65 1F
XCL_SRC 64 65 CL_CLAMP MID VCCS_LIM_4_0
R22 51 MID R_NOISELESS 1T
R19 MID 52 R_NOISELESS 1T
XCLAWp VIMON MID 66 VCC_B VCCS_LIM_CLAW+_0
XCLAWn MID VIMON VEE_B 67 VCCS_LIM_CLAW-_0
R12 66 VCC_B R_NOISELESS 1K
R16 66 68 R_NOISELESS 1M
R13 VEE_B 67 R_NOISELESS 1K
R17 69 67 R_NOISELESS 1M
C6 69 MID 1F
C5 MID 68 1F
G2 VCC_CLP MID 68 MID -1M
R15 VCC_CLP MID R_NOISELESS 1K
G3 VEE_CLP MID 69 MID -1M
R14 MID VEE_CLP R_NOISELESS 1K
XCLAW_AMP VCC_CLP VEE_CLP VOUT_S MID 70 71 CLAMP_AMP_LO_0
R26 VCC_CLP MID R_NOISELESS 1T
R23 VEE_CLP MID R_NOISELESS 1T
R25 70 MID R_NOISELESS 1
R24 MID 71 R_NOISELESS 1
R27 70 72 R_NOISELESS 1M
R28 71 73 R_NOISELESS 1M
C11 72 MID 1F
C10 MID 73 1F
XCLAW_SRC 72 73 CLAW_CLAMP MID VCCS_LIM_3_0
H2 41 MID V11 -1
H3 39 MID V12 1
C12 SW_OL MID 100P
R32 74 SW_OL R_NOISELESS 100
R31 74 MID R_NOISELESS 1
XOL_SENSE MID 74 40 38 OL_SENSE_0
S1 28 29 SW_OL MID S_VSWITCH_3
H1 75 MID V4 1K
S7 VEE OUT VEE OUT S_VSWITCH_4
S6 OUT VCC OUT VCC S_VSWITCH_5
R11 MID 76 R_NOISELESS 1T
R18 76 VOUT_S R_NOISELESS 100
C7 VOUT_S MID 10P
E5 76 MID OUT MID 1
C13 VIMON MID 10P
R33 75 VIMON R_NOISELESS 100
R10 MID 75 R_NOISELESS 1T
R47 77 VCLP R_NOISELESS 100
C24 VCLP MID 100P
E4 77 MID CL_CLAMP MID 1
R46 MID CL_CLAMP R_NOISELESS 1K
G9 CL_CLAMP MID CLAW_CLAMP MID -1M
R45 MID CLAW_CLAMP R_NOISELESS 1K
G8 CLAW_CLAMP MID 34 MID -1M
R43 MID VSENSE R_NOISELESS 1K
G15 VSENSE MID CLAMP MID -1M
C4 46 MID 1F
R9 46 78 R_NOISELESS 1M
R7 MID 79 R_NOISELESS 1T
R6 80 MID R_NOISELESS 1T
R8 MID 78 R_NOISELESS 1
XVCM_CLAMP 26 MID 78 MID 80 79 VCCS_EXT_LIM_0
E1 MID 0 81 0 1
R89 VEE_B 0 R_NOISELESS 1
R5 82 VEE_B R_NOISELESS 1M
C3 82 0 1F
R60 81 82 R_NOISELESS 1MEG
C1 81 0 100e-9
R3 81 0 R_NOISELESS 1T
R59 83 81 R_NOISELESS 1MEG
C2 83 0 1F
R4 VCC_B 83 R_NOISELESS 1M
R88 VCC_B 0 R_NOISELESS 1
G17 VEE_B 0 VEE 0 -1
G16 VCC_B 0 VCC 0 -1
R_PSR 84 24 R_NOISELESS 1K
G_PSR 24 84 47 22 -1M
R2 25 ESDn R_NOISELESS 1M
R1 84 85 R_NOISELESS 1M
R_CMR 86 85 R_NOISELESS 1K
G_CMR 85 86 49 MID -1M
C_CMn ESDn MID 2P
C_CMp MID ESDp 2P
R53 ESDn MID R_NOISELESS 1T
R52 MID ESDp R_NOISELESS 1T
R35 IN- ESDn R_NOISELESS 10M
R34 IN+ ESDp R_NOISELESS 10M
.MODEL S_VSWITCH_1 VSWITCH (RON=10M ROFF=1T VON=10M VOFF=0)
.MODEL S_VSWITCH_2 VSWITCH (RON=10M ROFF=1T VON=10M VOFF=0)
.MODEL S_VSWITCH_3 VSWITCH (RON=1M ROFF=1T VON=500M VOFF=100M)
.MODEL S_VSWITCH_4 VSWITCH (RON=50 ROFF=1T VON=500M VOFF=450M)
.MODEL S_VSWITCH_5 VSWITCH (RON=50 ROFF=1T VON=500M VOFF=450M)
.ENDS LMX58_LM2904
*
.SUBCKT PHASEREV_0 VCC VEE VIN+ VIN- VOUT+ VOUT- MID
E1 VOUT+ MID VALUE={IF(V(VIN+,MID)<V(VEE,MID)-0.3,V(VCC,MID),V(VIN+,MID))}
E2 VOUT- MID VALUE={IF(V(VIN-,MID)<V(VEE,MID)-0.3,V(VCC,MID),V(VIN-,MID))}
.ENDS
*
.SUBCKT CRS_DIST_0 VIMON MID OUT
V1 VREF MID -40M
ESHF VSHF MID VIMON VREF 1
GZC MID ZC VALUE = {SGN(V(VSHF,MID))}
R1 ZC MID 1
C1 ZC MID 2U
GCR MID OUT VALUE = {IF((ABS(V(ZC,MID))<=0.9),0,1)}
R2 OUT MID 1
.ENDS
*
.SUBCKT VCCS_LIM_ZO_0 VC+ VC- IOUT+ IOUT-
.PARAM GAIN = 4E3
.PARAM IPOS = 1E6
.PARAM INEG = -1E6
G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}
.ENDS
*
.SUBCKT VCCS_LIM_2_EN_0 VC+ VC- IOUT+ IOUT- EN MID
.PARAM GAIN = 8.4E-4
.PARAM IPOS = 0.005
.PARAM INEG = -0.005
G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(EN,MID)*V(VC+,VC-),INEG,IPOS)}
.ENDS
*
.SUBCKT FEMT_0 1 2
.PARAM FLWF=1E-3
.PARAM NLFF=500
.PARAM NVRF=500
.PARAM GLFF={PWR(FLWF,0.25)*NLFF/1164}
.PARAM RNVF={1.184*PWR(NVRF,2)}
.MODEL DVNF D KF={PWR(FLWF,0.5)/1E11} IS=1.0E-16
I1 0 7 10E-3
I2 0 8 10E-3
D1 7 0 DVNF
D2 8 0 DVNF
E1 3 6 7 8 {GLFF}
R1 3 0 1E9
R2 3 0 1E9
R3 3 6 1E9
E2 6 4 5 0 10
R4 5 0 {RNVF}
R5 5 0 {RNVF}
R6 3 4 1E9
R7 4 0 1E9
G1 1 2 3 4 1E-6
.ENDS
*
.SUBCKT VNSE_0 1 2
.PARAM FLW=10
.PARAM NLF=80
.PARAM NVR=35
.PARAM GLF={PWR(FLW,0.25)*NLF/1164}
.PARAM RNV={1.184*PWR(NVR,2)}
.MODEL DVN D KF={PWR(FLW,0.5)/1E11} IS=1.0E-16
I1 0 7 10E-3
I2 0 8 10E-3
D1 7 0 DVN
D2 8 0 DVN
E1 3 6 7 8 {GLF}
R1 3 0 1E9
R2 3 0 1E9
R3 3 6 1E9
E2 6 4 5 0 10
R4 5 0 {RNV}
R5 5 0 {RNV}
R6 3 4 1E9
R7 4 0 1E9
E3 1 2 3 4 1
.ENDS
*
.SUBCKT VCCS_LIM_1_0 VC+ VC- IOUT+ IOUT-
.PARAM GAIN = 1E-4
.PARAM IPOS = .5
.PARAM INEG = -.5
G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}
.ENDS
*
.SUBCKT VCCS_LIMIT_IQ_0 VC+ VC- IOUT+ IOUT-
.PARAM GAIN = 1E-3
G1 IOUT- IOUT+ VALUE={IF( (V(VC+,VC-)<=0),0,GAIN*V(VC+,VC-) )}
.ENDS
*
.SUBCKT CLAMP_AMP_LO_0 VC+ VC- VIN COM VO+ VO-
.PARAM G=1
GVO+ COM VO+ VALUE = {IF(V(VIN,COM)>V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}
GVO- COM VO- VALUE = {IF(V(VIN,COM)<V(VC-,COM),((V(VC-,COM)-V(VIN,COM))*G),0)}
.ENDS
*
.SUBCKT CLAMP_AMP_HI_0 VC+ VC- VIN COM VO+ VO-
.PARAM G=10
GVO+ COM VO+ VALUE = {IF(V(VIN,COM)>V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}
GVO- COM VO- VALUE = {IF(V(VIN,COM)<V(VC-,COM),((V(VC-,COM)-V(VIN,COM))*G),0)}
.ENDS
*
.SUBCKT VCCS_LIM_GR_0 VC+ VC- IOUT+ IOUT-
.PARAM GAIN = 1
.PARAM IPOS = 0.013
.PARAM INEG = -0.013
G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}
.ENDS
*
.SUBCKT VCCS_LIM_4_0 VC+ VC- IOUT+ IOUT-
.PARAM GAIN = 1
.PARAM IPOS = 1.04
.PARAM INEG = -1.04
G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}
.ENDS
*
.SUBCKT VCCS_LIM_CLAW+_0 VC+ VC- IOUT+ IOUT-
G1 IOUT+ IOUT- TABLE {ABS(V(VC+,VC-))} =
+(0, 1.17E-03)
+(0.0046251, 1.17E-3)
+(0.15716, 1.21E-3)
+(1.3309, 1.28E-3)
+(35.075, 2.12E-3)
+(35.680, 2.55E-3)
+(36.033, 2.84E-3)
+(37.416, 7.97E-3)
.ENDS
*
.SUBCKT VCCS_LIM_CLAW-_0 VC+ VC- IOUT+ IOUT-
G1 IOUT+ IOUT- TABLE {ABS(V(VC+,VC-))} =
+(0.010, 2.50E-5)
+(0.070, 2.50E-5)
+(0.090, 5.80E-4)
+(0.100, 6.06E-4)
+(0.760, 7.14E-4)
+(1.440, 7.62E-4)
+(8.000, 1.10E-3)
+(13.60, 1.55E-3)
+(15.45, 1.75E-3)
+(17.26, 2.15E-3)
+(18.87, 2.94E-3)
+(21.58, 4.50E-3)
+(25.53, 1.02E-2)
.ENDS
*
.SUBCKT VCCS_LIM_3_0 VC+ VC- IOUT+ IOUT-
.PARAM GAIN = 1
.PARAM IPOS = 0.435
.PARAM INEG = -0.435
G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}
.ENDS
*
.SUBCKT OL_SENSE_0 COM SW+ OLN OLP
GSW+ COM SW+ VALUE = {IF((V(OLN,COM)>10E-3 | V(OLP,COM)>10E-3),1,0)}
.ENDS
*
.SUBCKT VCCS_EXT_LIM_0 VIN+ VIN- IOUT- IOUT+ VP+ VP-
.PARAM GAIN = 1
G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VIN+,VIN-),V(VP-,VIN-), V(VP+,VIN-))}
.ENDS
*

149696
dev/da_altium_lib/old_DA_LIB_V1-0/A12405RNZQ.STEP
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2106
dev/da_altium_lib/old_DA_LIB_V1-0/DA_LIB_V1-0.LibPkg
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dev/da_altium_lib/old_DA_LIB_V1-0/DA_LIB_V1-0.cmp
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Component Name : LM13700
Part Count : 6
Part : IC?
Pins - (Normal) : 0
Hidden Pins :
Part : IC?A
Pins - (Normal) : 5
D_BIAS_A 15 Input
IN_NINV_A 14 Input
IN_INV_A 13 Input
AMP_BIAS_A 16 Input
OUT_A 12 Output
Hidden Pins :
Part : IC?B
Pins - (Normal) : 5
D_BIAS_B 2 Input
IN_NINV_B 3 Input
IN_INV_B 4 Input
AMP_BIAS_B 1 Input
OUT_B 5 Output
Hidden Pins :
Part : IC?C
Pins - (Normal) : 2
BUF_IN_A 10 Input
BUF_OUT_A 9 Output
Hidden Pins :
Part : IC?D
Pins - (Normal) : 2
BUF_IN_B 7 Input
BUF_OUT_B 8 Output
Hidden Pins :
Part : IC?E
Pins - (Normal) : 2
V_POS 11 Power
V_NEG 6 Power
Hidden Pins :
Component Name : LM13700
Part Count : 6
Part : IC?
Pins - (Normal) : 0
Hidden Pins :
Part : IC?A
Pins - (Normal) : 5
D_BIAS_A 15 Input
IN_NINV_A 14 Input
IN_INV_A 13 Input
AMP_BIAS_A 16 Input
OUT_A 12 Output
Hidden Pins :
Part : IC?B
Pins - (Normal) : 5
D_BIAS_B 2 Input
IN_NINV_B 3 Input
IN_INV_B 4 Input
AMP_BIAS_B 1 Input
OUT_B 5 Output
Hidden Pins :
Part : IC?C
Pins - (Normal) : 2
BUF_IN_A 10 Input
BUF_OUT_A 9 Output
Hidden Pins :
Part : IC?D
Pins - (Normal) : 2
BUF_IN_B 7 Input
BUF_OUT_B 8 Output
Hidden Pins :
Part : IC?E
Pins - (Normal) : 2
V_POS 11 Power
V_NEG 6 Power
Hidden Pins :

14
dev/da_altium_lib/old_DA_LIB_V1-0/LM13700-DUAL.ckt
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@@ -1,7 +1,7 @@
* A dual opamp ngspice model
* file name: LM13700-DUAL.ckt
.subckt LM13700-DUAL 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout 2Bout 2Bin vcc+ 2out 2in- 2in+ 2Dbias 2ABin
.include LM13700.ckt
XU1C 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout vcc+ LM13700/NS
XU1A 2ABin 2DBias 2in+ 2in- 2out vcc- 2Bin 2Bout vcc+ LM13700/NS
.ends
* A dual opamp ngspice model
* file name: LM13700-DUAL.ckt
.subckt LM13700-DUAL 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout 2Bout 2Bin vcc+ 2out 2in- 2in+ 2Dbias 2ABin
.include LM13700.ckt
XU1C 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout vcc+ LM13700/NS
XU1A 2ABin 2DBias 2in+ 2in- 2out vcc- 2Bin 2Bout vcc+ LM13700/NS
.ends

196
dev/da_altium_lib/old_DA_LIB_V1-0/LM13700-DUAL_inc.ckt
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@@ -1,98 +1,98 @@
* A dual opamp ngspice model
* file name: LM13700-DUAL.ckt
.subckt LM13700-DUAL 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout 2Bout 2Bin vcc+ 2out 2in- 2in+ 2Dbias 2ABin
*//////////////////////////////////////////////////////////////////////
* (C) National Semiconductor, Inc.
* Models developed and under copyright by:
* National Semiconductor, Inc.
*/////////////////////////////////////////////////////////////////////
* Legal Notice: This material is intended for free software support.
* The file may be copied, and distributed; however, reselling the
* material is illegal
*////////////////////////////////////////////////////////////////////
* For ordering or technical information on these models, contact:
* National Semiconductor's Customer Response Center
* 7:00 A.M.--7:00 P.M. U.S. Central Time
* (800) 272-9959
* For Applications support, contact the Internet address:
* amps-apps@galaxy.nsc.com
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
* LM13700 Dual Operational Transconductance Amplifier
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
*
* Amplifier Bias Input
* | Diode Bias
* | | Positive Input
* | | | Negative Input
* | | | | Output
* | | | | | Negative power supply
* | | | | | | Buffer Input
* | | | | | | | Buffer Output
* | | | | | | | | Positive power supply
* | | | | | | | | |
.SUBCKT LM13700/NS 1 2 3 4 5 6 7 8 11
*
* Features:
* gm adjustable over 6 decades.
* Excellent gm linearity.
* Linearizing diodes.
* Wide supply range of +/-2V to +/-22V.
*
* Note: This model is single-pole in nature and over-estimates
* AC bandwidth and phase margin (stability) by over 2X.
* Although refinement may be possible in the future, please
* use benchtesting to finalize AC circuit design.
*
* Note: Model is for single device only and simulated
* supply current is 1/2 of total device current.
*
******************************************************
*
C1 6 4 4.8P
C2 3 6 4.8P
* Output capacitor
C3 5 6 6.26P
D1 2 4 DX
D2 2 3 DX
D3 11 21 DX
D4 21 22 DX
D5 1 26 DX
D6 26 27 DX
D7 5 29 DX
D8 28 5 DX
D10 31 25 DX
* Clamp for -CMR
D11 28 25 DX
* Ios source
F1 4 3 POLY(1) V6 1E-10 5.129E-2 -1.189E4 1.123E9
F2 11 5 V2 1.022
F3 25 6 V3 1.0
F4 5 6 V1 1.022
* Output impedance
F5 5 0 POLY(2) V3 V7 0 0 0 0 1
G1 0 33 5 0 .55E-3
I1 11 6 300U
Q1 24 32 31 QX1
Q2 23 3 31 QX2
Q3 11 7 30 QZ
Q4 11 30 8 QY
V1 22 24 0V
V2 22 23 0V
V3 27 6 0V
V4 11 29 1.4
V5 28 6 1.2
V6 4 32 0V
V7 33 0 0V
.MODEL QX1 NPN (IS=5E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QX2 NPN (IS=5.125E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QY NPN (IS=6E-15 BF=50)
.MODEL QZ NPN (IS=5E-16 BF=266)
.MODEL DX D (IS=5E-16)
.ENDS
*$
XU1C 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout vcc+ LM13700/NS
XU1A 2ABin 2DBias 2in+ 2in- 2out vcc- 2Bin 2Bout vcc+ LM13700/NS
.ends
* A dual opamp ngspice model
* file name: LM13700-DUAL.ckt
.subckt LM13700-DUAL 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout 2Bout 2Bin vcc+ 2out 2in- 2in+ 2Dbias 2ABin
*//////////////////////////////////////////////////////////////////////
* (C) National Semiconductor, Inc.
* Models developed and under copyright by:
* National Semiconductor, Inc.
*/////////////////////////////////////////////////////////////////////
* Legal Notice: This material is intended for free software support.
* The file may be copied, and distributed; however, reselling the
* material is illegal
*////////////////////////////////////////////////////////////////////
* For ordering or technical information on these models, contact:
* National Semiconductor's Customer Response Center
* 7:00 A.M.--7:00 P.M. U.S. Central Time
* (800) 272-9959
* For Applications support, contact the Internet address:
* amps-apps@galaxy.nsc.com
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
* LM13700 Dual Operational Transconductance Amplifier
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
*
* Amplifier Bias Input
* | Diode Bias
* | | Positive Input
* | | | Negative Input
* | | | | Output
* | | | | | Negative power supply
* | | | | | | Buffer Input
* | | | | | | | Buffer Output
* | | | | | | | | Positive power supply
* | | | | | | | | |
.SUBCKT LM13700/NS 1 2 3 4 5 6 7 8 11
*
* Features:
* gm adjustable over 6 decades.
* Excellent gm linearity.
* Linearizing diodes.
* Wide supply range of +/-2V to +/-22V.
*
* Note: This model is single-pole in nature and over-estimates
* AC bandwidth and phase margin (stability) by over 2X.
* Although refinement may be possible in the future, please
* use benchtesting to finalize AC circuit design.
*
* Note: Model is for single device only and simulated
* supply current is 1/2 of total device current.
*
******************************************************
*
C1 6 4 4.8P
C2 3 6 4.8P
* Output capacitor
C3 5 6 6.26P
D1 2 4 DX
D2 2 3 DX
D3 11 21 DX
D4 21 22 DX
D5 1 26 DX
D6 26 27 DX
D7 5 29 DX
D8 28 5 DX
D10 31 25 DX
* Clamp for -CMR
D11 28 25 DX
* Ios source
F1 4 3 POLY(1) V6 1E-10 5.129E-2 -1.189E4 1.123E9
F2 11 5 V2 1.022
F3 25 6 V3 1.0
F4 5 6 V1 1.022
* Output impedance
F5 5 0 POLY(2) V3 V7 0 0 0 0 1
G1 0 33 5 0 .55E-3
I1 11 6 300U
Q1 24 32 31 QX1
Q2 23 3 31 QX2
Q3 11 7 30 QZ
Q4 11 30 8 QY
V1 22 24 0V
V2 22 23 0V
V3 27 6 0V
V4 11 29 1.4
V5 28 6 1.2
V6 4 32 0V
V7 33 0 0V
.MODEL QX1 NPN (IS=5E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QX2 NPN (IS=5.125E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QY NPN (IS=6E-15 BF=50)
.MODEL QZ NPN (IS=5E-16 BF=266)
.MODEL DX D (IS=5E-16)
.ENDS
*$
XU1C 1ABin 1DBias 1in+ 1in- 1out vcc- 1Bin 1Bout vcc+ LM13700/NS
XU1A 2ABin 2DBias 2in+ 2in- 2out vcc- 2Bin 2Bout vcc+ LM13700/NS
.ends

184
dev/da_altium_lib/old_DA_LIB_V1-0/LM13700.ckt
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@@ -1,92 +1,92 @@
*//////////////////////////////////////////////////////////////////////
* (C) National Semiconductor, Inc.
* Models developed and under copyright by:
* National Semiconductor, Inc.
*/////////////////////////////////////////////////////////////////////
* Legal Notice: This material is intended for free software support.
* The file may be copied, and distributed; however, reselling the
* material is illegal
*////////////////////////////////////////////////////////////////////
* For ordering or technical information on these models, contact:
* National Semiconductor's Customer Response Center
* 7:00 A.M.--7:00 P.M. U.S. Central Time
* (800) 272-9959
* For Applications support, contact the Internet address:
* amps-apps@galaxy.nsc.com
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
* LM13700 Dual Operational Transconductance Amplifier
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
*
* Amplifier Bias Input
* | Diode Bias
* | | Positive Input
* | | | Negative Input
* | | | | Output
* | | | | | Negative power supply
* | | | | | | Buffer Input
* | | | | | | | Buffer Output
* | | | | | | | | Positive power supply
* | | | | | | | | |
.SUBCKT LM13700/NS 1 2 3 4 5 6 7 8 11
*
* Features:
* gm adjustable over 6 decades.
* Excellent gm linearity.
* Linearizing diodes.
* Wide supply range of +/-2V to +/-22V.
*
* Note: This model is single-pole in nature and over-estimates
* AC bandwidth and phase margin (stability) by over 2X.
* Although refinement may be possible in the future, please
* use benchtesting to finalize AC circuit design.
*
* Note: Model is for single device only and simulated
* supply current is 1/2 of total device current.
*
******************************************************
*
C1 6 4 4.8P
C2 3 6 4.8P
* Output capacitor
C3 5 6 6.26P
D1 2 4 DX
D2 2 3 DX
D3 11 21 DX
D4 21 22 DX
D5 1 26 DX
D6 26 27 DX
D7 5 29 DX
D8 28 5 DX
D10 31 25 DX
* Clamp for -CMR
D11 28 25 DX
* Ios source
F1 4 3 POLY(1) V6 1E-10 5.129E-2 -1.189E4 1.123E9
F2 11 5 V2 1.022
F3 25 6 V3 1.0
F4 5 6 V1 1.022
* Output impedance
F5 5 0 POLY(2) V3 V7 0 0 0 0 1
G1 0 33 5 0 .55E-3
I1 11 6 300U
Q1 24 32 31 QX1
Q2 23 3 31 QX2
Q3 11 7 30 QZ
Q4 11 30 8 QY
V1 22 24 0V
V2 22 23 0V
V3 27 6 0V
V4 11 29 1.4
V5 28 6 1.2
V6 4 32 0V
V7 33 0 0V
.MODEL QX1 NPN (IS=5E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QX2 NPN (IS=5.125E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QY NPN (IS=6E-15 BF=50)
.MODEL QZ NPN (IS=5E-16 BF=266)
.MODEL DX D (IS=5E-16)
.ENDS
*$
*//////////////////////////////////////////////////////////////////////
* (C) National Semiconductor, Inc.
* Models developed and under copyright by:
* National Semiconductor, Inc.
*/////////////////////////////////////////////////////////////////////
* Legal Notice: This material is intended for free software support.
* The file may be copied, and distributed; however, reselling the
* material is illegal
*////////////////////////////////////////////////////////////////////
* For ordering or technical information on these models, contact:
* National Semiconductor's Customer Response Center
* 7:00 A.M.--7:00 P.M. U.S. Central Time
* (800) 272-9959
* For Applications support, contact the Internet address:
* amps-apps@galaxy.nsc.com
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
* LM13700 Dual Operational Transconductance Amplifier
* \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
*
* Amplifier Bias Input
* | Diode Bias
* | | Positive Input
* | | | Negative Input
* | | | | Output
* | | | | | Negative power supply
* | | | | | | Buffer Input
* | | | | | | | Buffer Output
* | | | | | | | | Positive power supply
* | | | | | | | | |
.SUBCKT LM13700/NS 1 2 3 4 5 6 7 8 11
*
* Features:
* gm adjustable over 6 decades.
* Excellent gm linearity.
* Linearizing diodes.
* Wide supply range of +/-2V to +/-22V.
*
* Note: This model is single-pole in nature and over-estimates
* AC bandwidth and phase margin (stability) by over 2X.
* Although refinement may be possible in the future, please
* use benchtesting to finalize AC circuit design.
*
* Note: Model is for single device only and simulated
* supply current is 1/2 of total device current.
*
******************************************************
*
C1 6 4 4.8P
C2 3 6 4.8P
* Output capacitor
C3 5 6 6.26P
D1 2 4 DX
D2 2 3 DX
D3 11 21 DX
D4 21 22 DX
D5 1 26 DX
D6 26 27 DX
D7 5 29 DX
D8 28 5 DX
D10 31 25 DX
* Clamp for -CMR
D11 28 25 DX
* Ios source
F1 4 3 POLY(1) V6 1E-10 5.129E-2 -1.189E4 1.123E9
F2 11 5 V2 1.022
F3 25 6 V3 1.0
F4 5 6 V1 1.022
* Output impedance
F5 5 0 POLY(2) V3 V7 0 0 0 0 1
G1 0 33 5 0 .55E-3
I1 11 6 300U
Q1 24 32 31 QX1
Q2 23 3 31 QX2
Q3 11 7 30 QZ
Q4 11 30 8 QY
V1 22 24 0V
V2 22 23 0V
V3 27 6 0V
V4 11 29 1.4
V5 28 6 1.2
V6 4 32 0V
V7 33 0 0V
.MODEL QX1 NPN (IS=5E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QX2 NPN (IS=5.125E-16 BF=200 NE=1.15 ISE=.63E-16 IKF=1E-2)
.MODEL QY NPN (IS=6E-15 BF=50)
.MODEL QZ NPN (IS=5E-16 BF=266)
.MODEL DX D (IS=5E-16)
.ENDS
*$

15190
dev/da_altium_lib/old_DA_LIB_V1-0/LM13700N_NOPB.STEP
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dev/da_altium_lib/old_DA_LIB_V1-0/__Previews/LM13700-DUAL.LIBPreview
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