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Https://toshiba.semicon-storage.com/ap-en/design-support/package/detail.TO-3P(N).html TO-3P-3 Horizontal RM 1.27mm staggered type-1 TO-247-2, Horizontal, RM 2.54mm, staggered type-1, see http://www.ti.com/lit/ds/symlink/lmd18200.pdf TO-220-15, Vertical, RM 2.286mm SIPAK, Vertical, RM 2.54mm, see http://www.st.com/resource/en/datasheet/stp20nm60.pdf TO-220F-3 Vertical RM 1.7mm Pentawatt Multiwatt-5 TO-220-5, Vertical, RM 1.7mm, PentawattF-, MultiwattF-5, staggered type-1 TO-220-9 Horizontal RM 2.54mm staggered type-1 TO-220-11, Horizontal, RM 5.08mm, see http://www.vishay.com/docs/88769/woo5g.pdf diode bridge Single phase bridge rectifier case 28.6x28.6mm, pitch 18.0mm & 11.6mm, see https://diotec.com/tl_files/diotec/files/pdf/datasheets/kbpc1500fw.pdf Diotec 32x5.6x17mm rectifier package, 5.08mm pitch, see http://www.vishay.com/docs/88655/kbl005.pdf Vishay KBL rectifier diode bridge Diotec SO-DIL Slim, see https://diotec.com/tl_files/diotec/files/pdf/datasheets/b40fs.pdf SMD diode bridge DFS, see http://www.vishay.com/docs/88854/padlayouts.pdf SMD diode bridge ABS (Diotec), see https://diotec.com/tl_files/diotec/files/pdf/datasheets/abs2.pdf SMD package for Osram SFH9x0x series of boards, e.g. Https://learn.adafruit.com/adafruit-feather-m0-radio-with-rfm69-packet-radio Adafruit Feather M0 Wifi Footprint for Mini-Circuits case QQQ130 (https://ww2.minicircuits.com/case_style/QQQ130.pdf) following land pattern drawing: https://ww2.minicircuits.com/pcb/98-pl094.pdf Footprint for Mini-Circuits case BK377 (https://ww2.minicircuits.com/case_style/BK276.pdf) according to land-pattern PL-005, including GND vias (https://ww2.minicircuits.com/pcb/98-pl230.pdf Footprint for Mini-Circuits case CK605 (https://ww2.minicircuits.com/case_style/CK605.pdf Footprint for Mini-Circuits case TTT167 (https://ww2.minicircuits.com/case_style/TTT167.pdf Footprint for mini circuit case CD542, Land pattern PL-094, pads 5 and 6); middle of slider panel (between steps 5 and 6); middle of panel after deducting left/right sub-panels slider_center = (width_mm - left_panel_width - right_panel_width)/2 + left_panel_width; slider_bottom = v_margin+12; row_2 = row_1 + v_margin + 12; row_1 = vertical_space/7; row_2 = row_1 + v_margin + 12; //knob_radius top_row = height - v_margin; working_increment = working_height / (8+tolerance/5); // generally-useful spacing amount for vertical columns of stuff col_left = thickness * 1; right_rib_x = width_mm - h_margin; cv_in = [h_margin, row_1, 0]; fm_in = [input_column - h_margin/2, row_1, 0]; square_out = [width_mm-h_margin, row_1, 0]; pwm_in = [width_mm - h_margin - working_width/8, row_3, 0]; cv_in_2b = [right_col, row_6, 0]; cv_1b_atten = [right_col, row_3, 0]; cv_in_2b = [right_col, row_1, 0]; pwm_in = [input_column - h_margin/2, row_1, 0]; square_out = [width_mm-h_margin, row_1, 0]; pwm_in = [first_col, fifth_row, 0]; square_out = [output_column, row_1, 0]; audio_out_2 = [right_col, row_7, 0]; cv_in_1b = [right_col, row_6, 0]; cv_1b_atten = [right_col, row_6, 0]; audio_in_1 = [left_col, row_5, 0]; cv_in_2a = [left_col, row_6, 0]; audio_in_1 = [left_col, row_3, 0]; c_tune = [width_mm/2 + h_margin, top_row, 0.

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