DA Library V3.0

Refactor 3D PCB, removing unused components

dev/analog/ETOTH-Amp_LM386/Project Outputs for ETOTH-Amp_LM386/ETOTH-Amp_LM386.nsx

@@ -1,18 +1,18 @@
 ETOTH-Amp_LM386
-*SPICE Netlist generated by Advanced Sim server on 25.11.2025 22:45:08
+*SPICE Netlist generated by Advanced Sim server on 28.11.2025 11:11:11
 .options MixedSimGenerated
 
 *Schematic Netlist:
-CCblock NetCblock_1 OUT 220uF
+CC_DCBLOCK_IN IN NetC_DCBLOCK_IN_2 10uF
-CCblock1 NetCblock1_1 NetCblock1_2 10nF
+CC_DCBLOCK_OUT NetC_DCBLOCK_OUT_1 OUT 220uF
-XIC1A NetIC1_1 0 NetCblock1_2 0 NetCblock_1 VAP NetIC1_7 NetIC1_8 lm386
+XIC1A NetIC1_1 0 NetIC1_3 0 NetC_DCBLOCK_OUT_1 VAP NetIC1_7 NetIC1_8 lm386
-XIC1B NetIC1_1 0 NetCblock1_2 0 NetCblock_1 VAP NetIC1_7 NetIC1_8 lm386
+XIC1B NetIC1_1 0 NetIC1_3 0 NetC_DCBLOCK_OUT_1 VAP NetIC1_7 NetIC1_8 lm386
 LL_Speaker 0 NetL_Speaker_2 0.1mH
 RR_POTA 0 NetR_POT_2 {10k * {POS}}
-RR_POTB NetR_POT_2 IN {10k - (10k * {POS})}
+RR_POTB NetR_POT_2 NetC_DCBLOCK_IN_2 {10k - (10k * {POS})}
 RR_Speaker NetL_Speaker_2 OUT 8R
-RR_static1 NetCblock1_1 NetR_POT_2 100k
+RR_static1 NetIC1_3 NetR_POT_2 100k
-RR_static2 0 NetCblock1_1 10k
+RR_static2 0 NetIC1_3 10k
 VU_q VAP 0 10V
 VUin IN 0 DC 0 SIN(5 2 220 0 0 0) AC 1 0
 

dev/analog/ETOTH-Amp_LM386/Project Outputs for ETOTH-Amp_LM386/Status Report.Txt

@@ -7,4 +7,4 @@ From  : Project [ETOTH-Amp_LM386.PrjPcb]
 Files Generated   : 1
 Documents Printed : 0
 
-Finished Output Generation At 22:41:52 On 25.11.2025
+Finished Output Generation At 11:00:20 On 28.11.2025

dev/analog/ETOTH-TRI-SQR-VCO_OTA_SS/Project Outputs for TRI-SQR-VCO_OTA_SS/Status Report.Txt

@@ -7,4 +7,4 @@ From  : Project [TRI-SQR-VCO_OTA_SS.PrjPcb]
 Files Generated   : 1
 Documents Printed : 0
 
-Finished Output Generation At 21:27:47 On 23.10.2025
+Finished Output Generation At 12:23:27 On 28.11.2025

dev/analog/ETOTH-TRI-SQR-VCO_OTA_SS/Project Outputs for TRI-SQR-VCO_OTA_SS/TRI-SQR-VCO_OTA_SS.nsx

@@ -1,5 +1,5 @@
 TRI-SQR-VCO_OTA_SS
-*SPICE Netlist generated by Advanced Sim server on 18.11.2025 14:07:43
+*SPICE Netlist generated by Advanced Sim server on 28.11.2025 12:29:53
 .options MixedSimGenerated
 
 *Schematic Netlist:
@@ -29,6 +29,8 @@ RR_A 0 U_SQR_OTA 3.63k
 RR_CV NetR_CV_1 NetIC2_9 59.941k
 RR_E NetC_an_2 NetR_E_2 10k
 RR_lambda_T NetIC2_9 U_C 1.1k
+RR_offset_1 NetR_CV_1 GND 10k
+RR_offset_2 VAP NetR_CV_1 10k
 RR_PWM_a GND NetIC3_6 15k
 RR_PWM_b NetIC3_6 VAP 10k
 RR_PWM_c U_PWM NetIC3_7 1k
@@ -55,15 +57,17 @@ VU_var NetR_CV_1 0 1
 .PLOT TRAN {v(U_TRI)} =PLOT(2) =AXIS(1) =NAME(U_TRI) =UNITS(V)
 .PLOT TRAN {v(U_SAW)} =PLOT(3) =AXIS(1) =NAME(U_SAW) =UNITS(V)
 .PLOT TRAN {v(U_PWM)} =PLOT(4) =AXIS(1) =NAME(U_PWM) =UNITS(V)
-.PLOT TRAN {i(U_mess)} =PLOT(5) =AXIS(1) =NAME(I_GND) =UNITS(A)
+.PLOT TRAN {v(U_C)} =PLOT(5) =AXIS(1) =NAME(U_C) =UNITS(V)
-.PLOT TRAN {v(U_in)} =PLOT(2) =AXIS(1) =NAME(U_in) =UNITS(V)
 
 .OPTIONS ABSTOL=1e-10 RELTOL=1e-2 VNTOL=1e-4 METHOD=GEAR MAXORD=2
 *Selected Circuit Analyses:
 .TRAN 25u 20m 5m 25u UIC
+.CONTROL
+SWEEP R_offset_2 LIST 10k 20k 30k
+.ENDC
 
 *Global Parameters:
-.PARAM POS=0
+.PARAM POS={0}
 
 *Models and Subcircuits:
 * A dual opamp ngspice model

dev/da_altium_lib/DA_LIB/DA_LIB.LibPkg

@@ -84,6 +84,18 @@ GenerateClassCluster=0
 DocumentUniqueId=OHRGASOY
 
 [GeneratedDocument1]
+DocumentPath=DA_LIB.cmp
+DItemRevisionGUID=
+
+[GeneratedDocument2]
+DocumentPath=DA_LIB.csv
+DItemRevisionGUID=
+
+[GeneratedDocument3]
+DocumentPath=DA_LIB.rep
+DItemRevisionGUID=
+
+[GeneratedDocument4]
 DocumentPath=DA_LIB_V1-0.cmp
 DItemRevisionGUID=
 

dev/da_altium_lib/DA_LIB/DA_LIB.cmp

@@ -0,0 +1,14 @@
+Component Name : C CL05A105KA5NQNC
+
+Part Count : 2
+
+Part : C?
+     Pins - (Normal) : 0
+          Hidden Pins : 
+
+Part : C?
+     Pins - (Normal) : 2
+          1              1              Passive
+          2              2              Passive
+          Hidden Pins : 
+

dev/da_altium_lib/DA_LIB/DA_LIB.csv

@@ -0,0 +1,49 @@
+"LIBRARYREFERENCE","FOOTPRINT1","FOOTPRINT2","CAUTHOR","COMMENT","COMPONENTLINK1DESCBC","COMPONENTLINK1DESCRIPTION","COMPONENTLINK1URL","COMPONENTLINK2DESCA4","COMPONENTLINK2DESCRIPTION","COMPONENTLINK2URL","COMPONENTLINK3DESCAC","COMPONENTLINK3URL","LATESTREV","LCSC PART #","PUBLISHED","VALUE","SHEETPART","DESIGNATOR","DESCRIPTION"
+"C CL05A105KA5NQNC","C0402","","Erik T<>th","=VALUE","","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","","","","2025-09-27","C52923","2025-09-27","1uF","*","C?","25V 1uF X5R <20>10% 0402 Ceramic Capacitors ROHS"
+"C CL05A474KA5NNNC","C0402","","Erik T<>th","=VALUE","","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","","","","2025-10-23","C92361","2025-10-23","470nF","*","C?","25V 470nF X5R <20>10% 0402 Ceramic Capacitors ROHS"
+"C CL05B103KB5NNNC","C0402","","Erik T<>th","=VALUE","","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","","","","2025-09-27","C15195","2025-09-27","10nF","*","C?","50V 10nF X7R <20>10% 0402 Ceramic Capacitors ROHS"
+"C CL05C220JB5NNNC","C0402","","Erik T<>th","=VALUE","","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","","","","2025-09-28","C70464","2025-09-28","22pF","*","C?","50V 22pF C0G <20>5% 0402 Ceramic Capacitors ROHS"
+"C CL10A106KP8NNNC","C0603","","Erik T<>th","=VALUE","","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","","","","2025-10-14","C19702","2025-10-14","10uF","*","C?","10V 10uF X5R <20>10% 0603 Ceramic Capacitors ROHS"
+"C CL10A474KB8NNNC","C0603","","Erik T<>th","=VALUE","","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","","","","2025-10-23","C170149","2025-10-23","470nF","*","C?","50V 470nF X5R <20>10% 0603 Ceramic Capacitors ROHS"
+"C CL10B104KB8NNNC","C0603","","Erik T<>th","=VALUE","","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","","","","2025-10-25","C1591","2025-10-25","100nF","*","C?","50V 100nF X7R <20>10% 0603 Ceramic Capacitors ROHS"
+"C CL10B104KB8NNNC_1","C0603","","Erik T<>th","=VALUE","","Datasheet","https://www.samsungsem.com/resources/file/global/support/product_catalog/MLCC.pdf","","","","","","2025-10-14","C1591","2025-09-22","0.1uF","*","C?","0.1<EFBFBD>F <20>10% 50V Ceramic Capacitor X7R 0603 (1608 Metric)"
+"C TAJA106K016RNJ","TAJA_AVX","","Erik T<>th","=VALUE","","Datasheet","https://datasheet.octopart.com/TAJA106K016RNJ-AVX---Kyocera-datasheet-50868559.pdf","","","","","","2025-09-22","C7171","2025-09-22","10uF","*","C?","10uF 16V 3O@100kHz <20>10% CASE-A-3216-18(mm) Tantalum Capacitors ROHS"
+"C TAJC226K025RNJ","CASE-C-6032-28","","Erik T<>th","=VALUE","","Datasheet","https://datasheets.kyocera-avx.com/TAJ.pdf","","","","","","2025-10-14","C7214","2025-10-14","22uF","*","C?","22uF 25V 1.4O@100kHz <20>10% CASE-C-6032-28(mm) Tantalum Capacitors ROHS"
+"D 1N4148WS","CR_WS-G3-08_VIS","","Erik T<>th","","","Datasheet","https://www.lcsc.com/datasheet/C2128.pdf","","","","","","2025-09-25","C2128","2025-09-25","","*","D?","2A 4ns 100V Independent 1.25V@150mA 150mA SOD-323 Single Diodes ROHS"
+"D DF2S16FS,L3M","SODFL1006X45N","","Erik T<>th","*","","Datasheet","https://www.arrow.com/en/products/df2s16fsl3m/toshiba","","","","","","2025-09-23","C1972990","2025-09-23","","*","D?","TVS Diode (Uni-directional)"
+"D ESD5Z6.0T1G","SOD-523_0P9X1P3_ONS","","Erik T<>th","ESD5Z6.0T1G","","Datasheet","https://www.onsemi.com/download/data-sheet/pdf/esd5z2.5t1-d.pdf","","","","","","2025-09-23","C82323","2025-09-23","","*","D?","TVS Diode (Uni-directional)"
+"D PESD2USB3UV-TR","SOT95P230X110-3N","","Erik T<>th","PESD2USB3UV-TR","","Datasheet","https://assets.nexperia.com/documents/data-sheet/PESD2USB3UV-T.pdf","","","","","","2025-09-23","C3704436","2025-09-23","","*","D?","2 Channel TVS Diode (Uni-directional)"
+"D SESD0402Q2UG-0020-090","SESD0402Q2UG0020090","","Erik T<>th","*","","Datasheet","https://www.littelfuse.com/~/media/electronics/datasheets/tvs_diode_arrays/littelfuse_tvs_diode_array_sesd_ultra_low_capacitance_diode_arrays_datasheet.pdf.pdf","","","","","","2025-09-23","C1975947","2025-09-23","","*","D?","2 Channel TVS Diode (Uni-directional)"
+"IC CH224K","ESSOP10","","Erik T<>th","CH224K","","Datasheet","https://item.szlcsc.com/datasheet/CH224K/1060460.html","","","","","","2025-09-20","C970725","2025-09-20","","","IC?","USBPD and Multiple Fast Charging Protocol Receiving Chip"
+"IC ESP32-S3R8","QFN40P700X700X90-57N-D","","Erik T<>th","ESP32-S3R8","","Datasheet","https://www.espressif.com/sites/default/files/documentation/esp32-s3_datasheet_en.pdf","","","","","","2025-09-27","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","DFN-6L-EP","","Erik T<>th","HUSB237","","Datasheet","https://www.lcsc.com/datasheet/C22373734.pdf","","","","","","2025-09-19","C22373734","2025-09-19","","*","IC?","USB Type-C Power Delivery Sink Controller"
+"IC LM13700","SOIC-16","PDIP-16","Erik T<>th","LM13700","","JLCPCB Part URL","https://jlcpcb.com/partdetail/TexasInstruments-LM13700MXNOPB/C174050","","Datasheet URL","https://www.ti.com/lit/ds/symlink/lm13700.pdf","","","2025-08-08","C174050","2025-06-22","","*","IC?","Dual Operational Transconductance Amplifiers With Linearizing Diodes and Buffers"
+"IC LM321DTR(XBLW)","SOT95P280X125-5N","","Erik T<>th","LM321","LM321Datasheet","Datasheet","https://www.lcsc.com/datasheet/C18723612.pdf","LM321WebPage","","http//wwwnationalcom/pf/LM/LM321html","MF05APackageWebPage","http//wwwnationalcom/packaging/folders/mf05ahtml","2025-10-23","C18723612","2025-10-23","","*","IC?","3V~32V 2mV 1MHz 45nA 400V/ms 1 90dB SOT-23-5 Amplifiers ROHS"
+"IC LM321MFX/NOPB","SOT95P280X125-5N","","Erik T<>th","TI LM321","LM321Datasheet","Datasheet","https://www.ti.com/lit/ds/symlink/lm321.pdf","LM321WebPage","","http//wwwnationalcom/pf/LM/LM321html","MF05APackageWebPage","http//wwwnationalcom/packaging/folders/mf05ahtml","2025-10-24","C9405","2025-10-24","","*","IC?","7mV 500nA 400V/ms 85dB 3V~30V 1MHz 1 SOT-23-5 Amplifiers ROHS"
+"IC LM386MX-1/NOPB","M08A_TEX","","Erik T<>th","LM386MX-1/NOPB","","Datasheet","https://www.ti.com/lit/ds/symlink/lm386.pdf","","","","","","2025-11-25","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","","Erik T<>th","MCP4728","","Datasheet","http://ww1.microchip.com/downloads/en/DeviceDoc/22187E.pdf","","","","","","2025-09-22","C478093","2025-09-22","","*","IC?","Quad, 12-bit NV DAC with I2C interface"
+"IC STUSB4500QTR","QFN24EP_4X4_STM","","Erik T<>th","STUSB4500","","Datasheet","https://www.st.com/resource/en/datasheet/stusb4500.pdf","","","","","","2025-09-20","C2678061","2025-09-20","","*","IC?","Standalone USB PD controller for power sinking devices"
+"IC TL074IDR","SOIC-14","","Erik T<>th","TL074","","Datasheet","http://www.ti.com/lit/ds/symlink/tl074.pdf","","","","","","2025-10-13","C6964","2025-10-13","","*","IC?","3mV 65pA 13V/us 70dB -15V~15V 3MHz 4 SOIC-14 Amplifiers ROHS"
+"IC W25Q128JVSIQ","SOIC127P790X216-8N","","Erik T<>th","W25Q128JVSIQ","","Datasheet","https://www.winbond.com/hq/search-resource-file.jsp?partNo=W25Q128JVSIQ&type=datasheet","","","","","","2025-09-27","C97521","2025-09-27","","*","IC?","128M-bit Serial Flash Memory with uniform 4KB sectors and Dual/Quad SPI"
+"J TYPE-C-16PIN-2MD","CONN-Type-C-16POS-SMD","","Erik T<>th","*","","Datasheet","https://www.lcsc.com/datasheet/C2765186.pdf","","","","","","2025-09-26","C2765186","2025-09-17","","*","J?","1 16P -25?~+85? Type-C SMD USB, DVI, HDMI Connector Assemblies ROHS"
+"L LQG15HS2N0S02D","IND_LQG15_MUR","","Erik T<>th","=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 T<>th","=VALUE","","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","","","","2025-09-27","C17168","2025-09-27","0R","*","R?","0O 62.5mW 50V <20>800ppm/? Thick Film Resistor <20>1% 0402 Chip Resistor - Surface Mount ROHS"
+"R 0402WGF1002TCE","R0402","","Erik T<>th","=VALUE","","Datasheet","https://www.lcsc.com/datasheet/C25744.pdf","","","","","","2025-09-27","C25744","2025-09-27","10k","*","R?","10kO 62.5mW 50V <20>100ppm/? Thick Film Resistor <20>1% 0402 Chip Resistor - Surface Mount ROHS"
+"R 0603WAF1004T5E","R0603","","Erik T<>th","=VALUE","","Datasheet","https://www.lcsc.com/datasheet/C22935.pdf","","","","","","2025-10-24","C22935","2025-10-24","1Meg","*","R?","100mW 1MO 75V <20>100ppm/? Thick Film Resistor <20>1% 0603 Chip Resistor - Surface Mount ROHS"
+"R RC0402FR-075KL","R0402","","Erik T<>th","=VALUE","","Datasheet","https://www.lcsc.com/datasheet/C477765.pdf","","","","","","2025-10-11","C477765","2025-10-11","5k","*","R?","5kO 62.5mW 50V <20>100ppm/? Thick Film Resistor <20>1% 0402 Chip Resistor - Surface Mount ROHS"
+"R_POT PTV09A-4020F-B103","PTV09A-4","","Erik T<>th","=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 T<>th","=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 T<>th","=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 T<>th","=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 T<>th","=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 T<>th","=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 T<>th","=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 T<>th","=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 T<>th","","","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 T<>th","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"
+"U AMS1117-3.3","SOT_AMS1117-2.5_AMS","","Erik T<>th","AMS1117","","Datasheet","http://www.advanced-monolithic.com/pdf/ds1117.pdf","","","","","","2025-10-14","C6186","2025-09-19","","*","U?","1A LOW DROPOUT VOLTAGE REGULATOR"
+"U LD1117S33CTR","SOT223","","Erik T<>th","LD1117","","Datasheet","https://www.st.com/resource/en/datasheet/ld1117.pdf","","","","","","2025-09-20","C35879","2025-09-19","","*","U?","Linear Voltage Regulator IC Positive Fixed 1 Output 800mA SOT-223"
+"U LM2940IMP-10/NOPB","SOT-223-4","","Erik T<>th","LM2940","","Datasheet","https://www.ti.com/lit/ds/symlink/lm2940c.pdf","","","","","","2025-10-22","C2866078","2025-10-22","","*","U?","54dB@(120Hz) Positive Fixed 10V SOT-223-4 Voltage Regulators - Linear, Low Drop Out (LDO) Regulators ROHS"
+"U RS3K-XX15D_H3","RS3K-Z","","Erik T<>th","RS3K-Z Series","","Datasheet","https://recom-power.com/pdf/Econoline/RS3K(-Z).pdf","","","","","","2025-09-20","","2025-09-20","","*","U?","3W DC/DC-Converter"
+"U SFT03XXXD15","SFT03","","Erik T<>th","SFT03C/T series","","Datasheet","https://www.xppower.com/storage/portals/0/pdfs/SF_SFT03.pdf","","","","","","2025-09-20","","2025-09-20","","*","U?","3W DC/DC-Converter"
+"Y X322540MPB4SI","Y_XTAL_3225","","Erik T<>th","=Value","","Datasheet","https://www.yxc.hk/uploadfiles/2021/11/YSX321SL.pdf","","","","","","2025-09-27","C9010","2025-09-27","40MHz","*","Y?","CRYSTAL 40MHz 15pF SMD"

dev/da_altium_lib/DA_LIB/DA_LIB.rep

@@ -0,0 +1,55 @@
+CSV text has been written to file : DA_LIB.csv
+
+Library Component Count : 48
+
+Name                Description
+----------------------------------------------------------------------------------------------------
+
+C CL05A105KA5NQNC   25V 1uF X5R <20>10% 0402 Ceramic Capacitors ROHS
+C CL05A474KA5NNNC   25V 470nF X5R <20>10% 0402 Ceramic Capacitors ROHS
+C CL05B103KB5NNNC   50V 10nF X7R <20>10% 0402 Ceramic Capacitors ROHS
+C CL05C220JB5NNNC   50V 22pF C0G <20>5% 0402 Ceramic Capacitors ROHS
+C CL10A106KP8NNNC   10V 10uF X5R <20>10% 0603 Ceramic Capacitors ROHS
+C CL10A474KB8NNNC   50V 470nF X5R <20>10% 0603 Ceramic Capacitors ROHS
+C CL10B104KB8NNNC   50V 100nF X7R <20>10% 0603 Ceramic Capacitors ROHS
+C CL10B104KB8NNNC_1 0.1<EFBFBD>F <20>10% 50V Ceramic Capacitor X7R 0603 (1608 Metric)
+C TAJA106K016RNJ    10uF 16V 3O@100kHz <20>10% CASE-A-3216-18(mm) Tantalum Capacitors ROHS
+C TAJC226K025RNJ    22uF 25V 1.4O@100kHz <20>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 PESD2USB3UV-TR    2 Channel TVS Diode (Uni-directional)
+D SESD0402Q2UG-0020-0902 Channel TVS Diode (Uni-directional)
+IC CH224K           USBPD and Multiple Fast Charging Protocol Receiving Chip
+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 LM321DTR(XBLW)   3V~32V 2mV 1MHz 45nA 400V/ms 1 90dB SOT-23-5 Amplifiers ROHS
+IC LM321MFX/NOPB    7mV 500nA 400V/ms 85dB 3V~30V 1MHz 1 SOT-23-5 Amplifiers ROHS
+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 STUSB4500QTR     Standalone USB PD controller for power sinking devices
+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 TYPE-C-16PIN-2MD  1 16P -25?~+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 <20>800ppm/? Thick Film Resistor <20>1% 0402 Chip Resistor - Surface Mount ROHS
+R 0402WGF1002TCE    10kO 62.5mW 50V <20>100ppm/? Thick Film Resistor <20>1% 0402 Chip Resistor - Surface Mount ROHS
+R 0603WAF1004T5E    100mW 1MO 75V <20>100ppm/? Thick Film Resistor <20>1% 0603 Chip Resistor - Surface Mount ROHS
+R RC0402FR-075KL    5kO 62.5mW 50V <20>100ppm/? Thick Film Resistor <20>1% 0402 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
+U AMS1117-3.3       1A LOW DROPOUT VOLTAGE REGULATOR
+U LD1117S33CTR      Linear Voltage Regulator IC Positive Fixed 1 Output 800mA SOT-223
+U LM2940IMP-10/NOPB 54dB@(120Hz) Positive Fixed 10V SOT-223-4 Voltage Regulators - Linear, Low Drop Out (LDO) Regulators ROHS
+U RS3K-XX15D_H3     3W DC/DC-Converter
+U SFT03XXXD15       3W DC/DC-Converter
+Y X322540MPB4SI     CRYSTAL 40MHz 15pF SMD

dev/digital/ESP32-S3/ESP32-S3.Harness

@@ -0,0 +1 @@
+SB=SB1.R,SB1.P,SB2.R,SB2.P

dev/digital/ESP32-S3/ESP32-S3.PrjPcb

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+
 [Parameter1]
 Name=ProjectTitle
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dev/digital/Firmware_TEST/README.md

@@ -0,0 +1,456 @@
+# Firmware
+
+## Inhaltsverzeichnis
+
+1. [Projektübersicht](#projektübersicht)
+2. [Systemarchitektur](#systemarchitektur)
+3. [Komponenten](#komponenten)
+4. [Speicheranalyse](#speicheranalyse)
+5. [Installation](#installation)
+6. [Verwendung](#verwendung)
+7. [Hauptablauf](#hauptablauf)
+
+---
+
+## Projektübersicht
+
+### Features
+
+- ✅ **Dual-Channel CV-Sequencer** - 2 unabhängige Control Voltage Ausgänge
+- ✅ **4×3 Tastaturmatrix** - Echtzeit-Tasten-Eingabe mit Entprellung
+- ✅ **Recording & Playback** - Speichere Sequenzen bis 30 Sekunden
+- ✅ **Loop-Funktion** - Endlose Wiederholung oder Einmaledition
+- ✅ **Live-Modus** - Direkte Tastatur-zu-CV Ausgabe
+- ✅ **Multi-Key Support** - Bis zu 10 gleichzeitig aktive Tasten
+
+### Hardware
+
+| Komponente | Modell | Funktion |
+|-----------|--------|---------|
+| Microcontroller | ESP32 | Hauptprozessor |
+| DAC | MCP4728 | 4-Kanal 12-Bit DAC |
+| I2C Bus | - | Kommunikation MCU ↔ DAC |
+| Tastatur | 4×3 Matrix | Benutzereingabe |
+| Buttons | 4× Push-Buttons | Record/Play Steuerung |
+
+---
+
+## Systemarchitektur
+
+### 3-Schicht-Modell
+
+```
+┌─────────────────────────────────────────────────────┐
+│                  INPUT LAYER (📥)                   │
+├──────────────────────┬──────────────────────────────┤
+│   Keyboard Matrix    │   Sequencer Buttons          │
+│   (4×3 Tasten)       │   (Record/Play × 2)          │
+└──────────────┬───────┴──────────────┬───────────────┘
+               │                      │
+┌──────────────▼─────────────────────▼───────────────┐
+│              PROCESSING LAYER (⚙️)                 │
+├──────────────────────┬──────────────────────────────┤
+│  Keyboard Klasse     │  SequencerBlock (2×)         │
+│  (Queue-Management)  │  (Recording & Playback)      │
+└──────────────┬───────┴──────────────┬───────────────┘
+               │                      │
+┌──────────────▼─────────────────────▼───────────────┐
+│              OUTPUT LAYER (📤)                     │
+├──────────────────────┬──────────────────────────────┤
+│    CV Klasse (DAC)   │   CV Ausgänge                │
+│   MCP4728 I2C        │   (A=Ch1, B=Ch2)             │
+└──────────────┬───────┴──────────────┬───────────────┘
+               │                      │
+               └──────────────┬───────┘
+                              ▼
+                    Externe Synthesizer / Module
+```
+
+### Datenfluss
+
+```
+TASTATUR → KEYBOARD → SEQUENCER/LIVE → DAC → CV AUSGÄNGE
+                         ↑
+                      BUTTONS
+```
+
+---
+
+## Komponenten
+
+### 1. Keyboard Klasse
+
+**Funktion:** Verwaltet die 4×3 Matrix-Tastatur mit Entprellung
+
+```cpp
+class Keyboard {
+    public:
+        Keyboard(uint8_t nRows, uint8_t nCols, uint8_t *pinsRow, uint8_t *pinsCol);
+        void begin();
+        void update();
+        int getQueueLength();
+        Key getQueue(uint8_t index);
+    // ...
+};
+```
+
+**Merkmale:**
+- Debounce-Zeit: 20ms
+- Max. 10 gleichzeitig aktive Tasten
+- FIFO-Queue für Tastenreihenfolge
+- Rückmeldung als `Key(row, col)` Struktur
+
+### 2. CV Klasse
+
+**Funktion:** Verwaltet DAC-Ausgänge über I2C (MCP4728)
+
+```cpp
+class CV {
+    public:
+        CV(Adafruit_MCP4728 *dac, TwoWire *wire, uint8_t nCV, 
+           MCP4728_channel_t *cvChannelMap, uint16_t *keyToVoltage, 
+           uint8_t row, uint8_t col);
+        bool begin(uint8_t pinSDA, uint8_t pinSCL);
+        void setVoltage(uint8_t cvIndex, Key k);
+        void setVoltage(uint8_t cvIndex, uint16_t mV);
+        void clearAll();
+    // ...
+};
+```
+
+**Merkmale:**
+- 2 CV-Kanäle (A, B)
+- I2C-Kommunikation (Pins 15, 16)
+- Voltage-Mapping von Tasten
+- Range: 0-4096mV (12-Bit)
+
+### 3. SequencerBlock Klasse
+
+**Funktion:** Speichert und spielt Sequenzen auf 2 Kanälen
+
+```cpp
+class SequencerBlock {
+    public:
+        SequencerBlock(uint16_t maxDurationMS, uint16_t minStepDurationMS);
+        
+        // Recording
+        void startRecord();
+        void stopRecord();
+        void addStep(uint16_t voltage_ch1, uint16_t voltage_ch2);
+        
+        // Playback
+        void startPlay();
+        void stopPlay();
+        void update();  // Must be called regularly
+        void setLoop(bool loop);
+        
+        // Status
+        uint8_t getStepCount();
+        uint16_t getCurrentVoltageCh1();
+        uint16_t getCurrentVoltageCh2();
+    // ...
+};
+```
+
+**Merkmale:**
+- Max. 128 Steps pro Sequenz
+- Max. 30 Sekunden Aufnahmetime
+- Dual-Channel Recording
+- Loop-Funktion
+- Automatisches Time-Limit
+
+### 4. Button-Verarbeitung
+
+**3-Mode Play-Button-System:**
+
+| Click | Aktion | Zustand |
+|-------|--------|---------|
+| 1x | Play (keine Loop) | Spielt einmalig ab |
+| 2x | Loop aktivieren | Endlosschleife |
+| 3x | Stop | Stoppt Wiedergabe |
+
+**Record-Button:** Toggle zwischen Recording starten/stoppen
+
+---
+
+## Speicheranalyse
+```bash
+RAM:   [=         ]   6.5% (used 21176 bytes from 327680 bytes)
+Flash: [=         ]   8.5% (used 283165 bytes from 3342336 bytes)
+```
+### RAM-Verbrauch
+
+| Komponente | Größe | Menge | Gesamt | Notizen |
+|-----------|-------|-------|--------|---------|
+| SequencerBlock #1 | ~550 B | 1x | 550 B | 128 Steps × 6 Bytes + Variablen |
+| SequencerBlock #2 | ~550 B | 1x | 550 B | 128 Steps × 6 Bytes + Variablen |
+| Keyboard Objekt | ~130 B | 1x | 130 B | 8×8 Bool Arrays + Pointer |
+| CV Objekt | ~50 B | 1x | 50 B | DAC-Pointer + Config |
+| keyToVoltage Array | 24 B | 1x | 24 B | 12 Keys × uint16_t |
+| Button States | ~50 B | 1x | 50 B | 4 Buttons × ~12 Bytes |
+| Lokale Variablen | ~100 B | 1x | 100 B | Loop-Variablen |
+| **GESAMT (Schätzung)** | - | - | **~1.5 KB** | - |
+
+### Flash-Verbrauch
+
+| Komponente | Größe |
+|-----------|-------|
+| Arduino/Wire Libraries | ~150 KB |
+| Adafruit_MCP4728 | ~20 KB |
+| Firmware Code | ~80 KB |
+| Bootloader | ~60 KB |
+| **GESAMT (Schätzung)** | **~310 KB** |
+
+
+### Sequenzen-Speicher Detail
+
+```cpp
+struct DualVoltageDurationPair {
+    uint16_t voltage_ch1;  // 2 Bytes
+    uint16_t voltage_ch2;  // 2 Bytes
+    uint16_t duration;     // 2 Bytes
+};  // = 6 Bytes pro Step
+
+// Berechnung:
+// - N_MAX_SEQUENCE_STEPS = 128
+// - 128 Steps × 6 Bytes = 768 Bytes pro Sequenz
+// - 2 Sequenzer = 1536 Bytes (1.5 KB)
+```
+
+### Optimierungspotential
+
+| Feature | Größenänderung | Status |
+|---------|-----------------|--------|
+| 256 Steps statt 128 | +768 B | ✅ Problemlos möglich |
+| 60s statt 30s Limit | 0 B | ✅ Kostenloses Upgrade |
+| 4 Sequenzer statt 2 | +3.3 KB | ✅ Problemlos möglich |
+| 8×8 Tastatur statt 4×3 | ~ +30 B | ✅ Kaum Mehraufwand |
+
+---
+
+## Verwendung
+
+### Grundlegende Konfiguration
+
+`include/FIRMWARE_DEF.h`:
+
+```cpp
+#define N_KEYBOARD_ROW  4      // Keyboard Reihen
+#define N_KEYBOARD_COL  3      // Keyboard Spalten
+#define N_CV_GATES      2      // CV-Ausgänge
+#define N_SB            2      // Sequencer
+
+// I2C Pins
+#define PIN_SDA         15
+#define PIN_SCL         16
+
+// Keyboard Pins (Reihen)
+#define PIN_K_R0        7
+#define PIN_K_R1        8
+#define PIN_K_R2        9
+#define PIN_K_R3        10
+
+// Keyboard Pins (Spalten)
+#define PIN_K_C0        1
+#define PIN_K_C1        2
+#define PIN_K_C2        4
+```
+
+### Spannung-Mapping
+
+`src/main.cpp`:
+
+```cpp
+// Voltage für jede Tastaturposition (in 1/12V = 83mV Schritten = 1 Halbtonschritt)
+uint16_t keyToVoltage[N_KEYBOARD_ROW*N_KEYBOARD_COL] = {
+    1*83, 5*83, 9*83,    // Row 0: C, E, G
+    2*83, 6*83, 10*83,   // Row 1: D, F, A
+    3*83, 7*83, 11*83,   // Row 2: E, G, B
+    4*83, 8*83, 12*83    // Row 3: F, A, C (Oktave)
+};
+```
+
+---
+
+## Hauptablauf
+
+### Main Loop Flowchart
+
+```
+START
+  ↓
+SETUP (Initialisierung)
+  ↓
+┌─── MAIN LOOP ───────────────────────┐
+│                                     │
+├─ Keyboard Update                    │
+│  (Tasten auslesen)                  │
+│                                     │
+├─ Button Handler                     │
+│  (Record/Play Buttons)              │
+│                                     │
+├─ Sequencer Update                   │
+│  (sb1 & sb2 Playback)               │
+│                                     │
+├─ Spannungen bestimmen               │
+│  voltage_ch1 = Queue[0]             │
+│  voltage_ch2 = Queue[1]             │
+│                                     │
+├─ Recording Check                    │
+│  IF Recording: addStep()            │
+│                                     │
+├─ Output Priority                    │
+│  IF sb1.playing() → Output SEQ1     │
+│  ELSE IF sb2.playing() → Output SEQ2│
+│  ELSE → Output Live                 │
+│                                     │
+├─ Time-Limit Check                   │
+│  IF Limit reached: Stop Record      │
+│                                     │
+├─ Delay 10ms                         │
+│                                     │
+└─────────────────────────────────────┘
+     ↓
+  [Loop zurück]
+```
+
+### State Machine
+
+| State | Beschreibung | Aktion |
+|-------|-------------|--------|
+| **IDLE** | Leerlauf | Liest Tasten, gibt Live-Spannungen aus |
+| **REC** | Recording aktiv | Speichert Sequenzen, überwacht Zeit-Limits |
+| **PLAY** | Playback aktiv | Gibt Sequenzen aus, verwaltet Step-Übergänge |
+| **LOOP** | Endlosschleife | Wiederholt Sequenz nahtlos |
+
+### Ausgabe-Prioritätssystem
+
+```
+1. Sequencer 1 Playing?
+   ├─ JA → Gebe SEQ1 Voltages aus (höchste Priorität)
+   └─ NEIN ↓
+
+2. Sequencer 2 Playing?
+   ├─ JA → Gebe SEQ2 Voltages aus (zweite Priorität)
+   └─ NEIN ↓
+
+3. Live Input
+   └─ Gebe Tasten-Voltages aus (Standard)
+```
+
+Dies ermöglicht nahtlose Übergänge und verhindert Konflikte.
+
+---
+
+## Code-Beispiele
+
+### Beispiel 1: Live-Modus (main.cpp.1)
+
+Direkte Tastatur-zu-CV Verbindung ohne Sequencer:
+
+```cpp
+void loop() {
+  keyboard.update();
+  
+  int n = keyboard.getQueueLength();
+  
+  if(n > 0) {
+    for(int i = 0; (i < N_CV_GATES) && (i < n); i++) {
+      Key k = keyboard.getQueue(i);
+      cv.setVoltage(i, k);  // Taste direkt auf CV ausgeben
+    }
+  } else {
+    cv.clearAll();  // Keine Taste → 0V
+  }
+  
+  delay(50);
+}
+```
+
+### Beispiel 2: Dual-Channel Sequencer (main.cpp)
+
+Vollständiger Sequencer mit 2 unabhängigen Kanälen:
+
+```cpp
+void loop() {
+  keyboard.update();
+  handleSequencerButtons();
+  
+  sb1.update();
+  sb2.update();
+  
+  // ... Voltage determination ...
+  
+  // Recording
+  if(sb1.isRecording()) {
+    sb1.addStep(voltage_ch1, voltage_ch2);
+  }
+  if(sb2.isRecording()) {
+    sb2.addStep(voltage_ch1, voltage_ch2);
+  }
+  
+  // Output mit Priorität
+  if(sb1.isPlaying()) {
+    cv.setVoltage(0, sb1.getCurrentVoltageCh1());
+    cv.setVoltage(1, sb1.getCurrentVoltageCh2());
+  }
+  else if(sb2.isPlaying()) {
+    cv.setVoltage(0, sb2.getCurrentVoltageCh1());
+    cv.setVoltage(1, sb2.getCurrentVoltageCh2());
+  }
+  else {
+    cv.setVoltage(0, voltage_ch1);
+    cv.setVoltage(1, voltage_ch2);
+  }
+  
+  delay(10);
+}
+```
+
+---
+
+## Dateistruktur
+
+```
+project/
+├── include/
+│   ├── FIRMWARE.h          # Klassen-Definitionen
+│   └── FIRMWARE_DEF.h      # Konstanten & Pin-Definitionen
+│   
+└── src/
+    ├── main.cpp            # Dual-Channel Sequencer Beispiel
+    ├── main.cpp.1          # Live-Modus Beispiel
+    ├── main.cpp.2          # Dual-Channel ohne Sequencer
+    └── FIRMWARE.cpp        # Implementierungen
+
+```
+
+---
+
+## Technische Spezifikationen
+
+### Timings
+
+| Parameter | Wert | Funktion |
+|-----------|------|----------|
+| Keyboard Debounce | 20ms | Anti-Prellen Verzögerung |
+| Button Debounce | 50ms | Button Anti-Prellen |
+| Main Loop Delay | 10ms | Update-Rate |
+| Max Recording | 30s | Zeit-Limit pro Sequenz |
+| Min Step Duration | 50ms | Minimale Step-Länge |
+
+### Voltage-Mapping
+
+Verwendet gleichmäßige 83mV Schritte (1/12 Oktave):
+
+```
+Key (1,0) = 1 × 83mV  = 83mV   (C)
+Key (1,1) = 5 × 83mV  = 415mV  (E)
+Key (1,2) = 9 × 83mV  = 747mV  (G)
+... etc
+Key (4,2) = 12 × 83mV = 996mV  (C')
+```
+
+---
+
+**Zuletzt aktualisiert:** 2025-11-30