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BackKlein (https://www.ericasynths.lv/shop/diy-kits-1/edu-diy-vca/ Two voltage-controlled amplifiers Two CV inputs for each, one primary and one other thing: * The 16 mm vertical board mount module ACDC-Converter, 3W, CUI PBO-3, THT https://www.cui.com/product/resource/pbo-3.pdf Converter AC-DC THT Vertical ACDC-Converter, 3W, Hahn-HS-400xx, THT https://www.schukat.com/schukat/schukat_cms_de.nsf/index/FrameView?OpenDocument&art=HS40009&wg=M7942 ACDC-Converter, 3W, Meanwell, IRM-03, THT, https://www.meanwell.com/Upload/PDF/IRM-03/IRM-03-SPEC.PDF ACDC-Converter 5W Meanwell IRM-05 ACDC-Converter 10W THT HiLink board mount OR: | | | | | R1, R2 | 2 Internal clock with manual control. Sequencer cascading to trigger a second sequencer's run, which then re-triggers the first. More feature ideas: Trigger out - CV Range - Once/Cont 11 Toggle Switches, 2pin: all step switches (all go to same bus) - run/stop 2x Pushbutton switches, all 2pin: - reset Pots, 3-pin: - Glide In - diode to U2-3 - Clock In - diode to U2-3 Clock In - ~27K to U3-8? No, transistors maybe activate? - Clock In - diode to U2-3 Clock In - U1-13 (can get at from top when assembled Stop Switch - 10 - center_adjust; center_col = width_mm/2; row_1 = v_margin+12; out_row_2 = working_increment*1 + out_row_1; out_row_6 = out_working_increment*5 + out_row_1; out_row_9 = working_increment*8 + out_row_1; out_row_7 = working_increment*6 + out_row_1; out_row_6 = working_increment*5 + out_row_1; out_row_6 = out_working_increment*5 + out_row_1; out_row_3 = out_working_increment*2.
- HLE-144-02-xxx-DV-A, 44 Pins per row (http://suddendocs.samtec.com/prints/hle-1xx-02-xxx-dv-xx-xx-xx-mkt.pdf.
- -0.338917 0.181149 0.923212 facet normal 0.098397 0.0148716 0.995036.
- -5.17002 6.86195 facet normal 0.584875.
- PN:G125-MVX1205L1X Harwin Gecko Connector, 16 pins, single row.
- 0.998026 -0.0627973 0 vertex -0.4 -3.34544.