def part(m): m = pscad.wrapper(defaults.items() + m.items()) pad = pscad.rounded_square((D("0.8"), D("2.82")), m.round_off, center=True) pad_row = (pscad.left(D("3.5")) + pad + pscad.right(D("2.5")) + pad + pscad.right(2) + pad + pscad.right(D("2.5")) + pad) gnd_pin = pscad.donut(D("1.15"), D("1.40")) side = ( pscad.pin("5", m.clearance, m.mask, square=True) + ( pscad.up(D("14.15") / 2 - D("10.3")) + pscad.left(D("13.14") / 2) + gnd_pin ), pscad.silk(m.silk) + ( pscad.up(D("14.15") / 2) + pscad.line(D("13.90") / 2) + pscad.right(D("13.90") / 2) + pscad.line((0, D("10.30") - D("1.55"))) ) ) all = ( pscad.mirror([1, 0]) + pscad.pad(itertools.count(1), m.clearance, m.mask) + ( pscad.up(D("14.15") / 2 - D("10.3") - D("3.71")) + pad_row ), side + pscad.mirror([1, 0]) + side, ) silk = pscad.silk(m.silk) + ( patterns.placement_courtyard(all, m.placement, m.grid, 1), ) return all, silk
def part(m): m = pscad.wrapper(defaults.items() + m.items()) p_m = dict() p_m['n_x'] = 2 p_m['n_y'] = 23 p_m['prefix'] = "P8-" p_m['annulus'] = "0.3" p_m['drill_d'] = "40 mil" p_m['pitch'] = "0.1 in" p8 = header(pscad.wrapper(m.items() + p_m.items())) p_m['prefix'] = "P9-" p9 = header(pscad.wrapper(m.items() + p_m.items())) p_m['n_x'] = 1 p_m['n_y'] = 6 p_m['prefix'] = "J1-" j1 = header(pscad.wrapper(m.items() + p_m.items())) mhole = pscad.donut(I("0.125") / 2, I("0.125") / 2 + I("0.03125")) all = ( pscad.left(I("3.4") / 2 - I("0.775") - I("0.1") * 11) + ( pscad.up(I("1.9") / 2) + p8, pscad.down(I("1.9") / 2) + p9 + pscad.up(I("0.175")) + pscad.right(I("0.050")) + j1 ), pscad.pin(itertools.count(1), m.clearance, m.mask) + pscad.left(I("3.4") / 2) + pscad.down(I("2.15") / 2) + ( pscad.right(I("3.175")) + (pscad.up(I("0.25")) + mhole, pscad.up(I("1.9")) + mhole), pscad.right(I("0.575")) + (pscad.up(I("0.125")) + mhole, pscad.up(I("2.025")) + mhole) ) ) return all
def part(m): m = pscad.wrapper(defaults.items() + m.items()) row = pscad.row(pscad.donut(D("1.8") / D(2), D("1.8") / D(2) + D("0.5")), D("4.2"), 3) all = ( pscad.pin(itertools.count(1), m.clearance, m.mask) + ( row, pscad.down(D("4.2")) + row ), pscad.hole(m.clearance, 0) + ( pscad.up(D("7.30")) + pscad.row(pscad.circle(D("3.0") / D(2)), D("8.4"), 2) ), pscad.silk(m.silk) + ( pscad.right(D("4.2")) + pscad.up(D("7.3") + D("6.6") - D("12.8") / D("2")) + pscad.square((D("13.8"), D("12.8")), center=True) ) ) silk = pscad.silk(m.silk) + ( patterns.placement_courtyard(all, m.placement, m.grid, 1), pscad.right(D("4.2") - D("4") / D(2)) + pscad.up(D("7.3") + D("6.6")) + pscad.square((D("4"), D("3.5"))) ) return all, silk
def part(m): m = pscad.wrapper(defaults.items() + m.items()) pin2 = pscad.donut(D("0.65"), D("0.85")) pin13 = pscad.donut(D("0.5"), D("0.7")) pins = pscad.down(D("11.5") / 2) + pscad.right(D("11.0") / 2) + pscad.left(D("4.5")) + ( pscad.up(D("8.6")) + ( pscad.left(D("3.8")) + pscad.pin("1", m.clearance, m.mask) + pin13, pscad.left(D("0.5")) + pscad.pin("3", m.clearance, m.mask) + pin13, ), pscad.up(D("9.0")) + ( pscad.right(D("3.5")) + pscad.pin("2", m.clearance, m.mask) + pin2, ), pscad.up(D("1.5")) + ( pscad.hole(m.clearance, 0) + pscad.circle(D("0.9")) ), ) all = ( pins, pscad.silk(m.silk) + pscad.square((D("11.0"), D("11.5")), center=True) ) silk = pscad.silk(m.silk) + ( patterns.placement_courtyard(all, m.placement, m.grid, 1), ) return all, silk
def ptd08a0x0w_pins(m): pwr_pin = pscad.donut(I("0.055") / 2, I("0.055") / 2 + D("0.5")) return pscad.pin(itertools.count(1), m.clearance, m.mask) + ( pwr_pin, pscad.down(m.a) + pwr_pin + pscad.right(m.b) + pwr_pin + pscad.right(m.c) + pwr_pin )
def part(m): m = pscad.wrapper(defaults.items() + m.items()) pin_names = (i for i in m.pins.split(',')) all = pscad.pad(pin_names, m.clearance, m.mask) + ( pscad.row(pscad.rounded_square((m.pad_w, m.pad_l), m.round_off, center=True), m.pitch, 2, center=True) ) if 'body_y' in m: body_lines = pscad.rotate(90) + pscad.row(pscad.rotate(90) + pscad.line(m.pitch, center=True), m.body_y, 2, center=True) else: body_lines = pscad.empty() courtyard = pscad.expand_to_grid(pscad.bound((all, body_lines)), m.placement, m.grid) courtyard_sz = (courtyard[1][0] - courtyard[0][0], courtyard[1][1] - courtyard[0][1]) if m.polarized: mark = ( pscad.right(courtyard[0][0]) + pscad.rotate(90) + pscad.circle(courtyard_sz[1] / D(6), sweep=180) ) else: mark = pscad.empty() silk = pscad.silk(m.silk) + ( pscad.translate(courtyard[0]) + patterns.brackets(courtyard_sz, m.pad_w), mark, body_lines ) return all, silk
def part(m): m = pscad.wrapper(defaults.items() + m.items()) pad1 = pscad.rounded_square([D("0.7"), D("1.5")], m.round_off, center=True) pad1_row = pscad.pad(itertools.count(1), m.clearance, m.mask) + ( pscad.row(pad1, D("1.5"), 6, center=True) ) pad2 = pscad.rounded_square([D("0.8"), 1], m.round_off, center=True) pad2_row = pscad.pad("7", m.clearance, m.mask) + ( pscad.rotate(90) + pscad.row(pad2, D("2.1"), 2, center=True) ) bore = pscad.hole(m.clearance, 0) + pscad.circle(D("0.9") / 2) bore_row = pscad.row(bore, 5, 2, center = True) pads = ( bore_row, pscad.up(1 + D("1.5") / 2) + pad1_row, pscad.left(D("11.8") / 2) + pad2_row, pscad.right(D("11.8") / 2) + pad2_row ) all = ( pads, pscad.silk(m.silk) + pscad.square((D("11.3"), D("2.6")), center=True) ) tick = pscad.line((0, D("0.5")), center=True) silk = pscad.silk(m.silk) + ( patterns.placement_courtyard(all, m.placement, m.grid, 1), pscad.down(D("1.3")) + pscad.row(tick, D("1.5"), 5, center=True) ) return all, silk
def indent_pad(size, indent): return pscad.union() + ( pscad.translate([-size[0] / 2, -size[1] / 2]) + ( pscad.square([size[0], size[1] - indent]), pscad.right(indent) + pscad.square([size[0] - indent, size[1]]), pscad.down(size[1] - indent) + pscad.rotate(45) + pscad.square(indent * dmath.sqrt(D(2))) ) )
def ptd08a0x0w(m): m = pscad.wrapper(defaults.items() + m.items()) m10w = pscad.wrapper(defaults.items() + M10W_defaults.items() + m.items()) m20w = pscad.wrapper(defaults.items() + M20W_defaults.items() + m.items()) all = ( ptd08a0x0w_pins(m20w), pscad.right(m20w.d - m10w.d) + ptd08a0x0w_pins(m10w), pscad.right(m20w.d) + common_pins(m), pscad.silk(m.silk) + pscad.translate([m20w.d / 2, m20w.a / 2]) + pscad.square([m20w.e, m20w.f], center=True) ) silk = pscad.silk(m.silk) + ( patterns.placement_courtyard(all, m.placement, m.grid, 1), ) return all, silk
def ptd08a0x0w_template(m): all = ( ptd08a0x0w_pins(m), pscad.right(m.d) + common_pins(m), pscad.silk(m.silk) + pscad.translate([m.d / 2, m.a / 2]) + pscad.square([m.e, m.f], center=True) ) silk = pscad.silk(m.silk) + ( patterns.placement_courtyard(all, m.placement, m.grid, 1), ) return all, silk
def part(m): m = pscad.wrapper(defaults.items() + m.items()) pin = pscad.donut(m.drill_d / 2, m.drill_d / 2 + m.annulus) all = pscad.pin(itertools.count(1), m.clearance, m.mask) + ( pscad.left(m.pitch) + pin, pscad.up(m.pitch) + pin, pin, pscad.right(m.pitch) + pin, pscad.down(m.pitch) + pin ) silk = pscad.silk(m.silk) + ( patterns.placement_courtyard(all, m.placement, m.grid, I("0.05")) #patterns.corners((3 * m.pitch, 3 * m.pitch), m.pitch / 4, center=True) ) return all, silk
def part(m): m = pscad.wrapper(defaults.items() + m.items()) pad = pscad.square((D("0.70"), D("4.0")), center=True) key_pad = pscad.up(D("0.40")) + pscad.square((D("0.70"), D("3.20")), center=True) mask_dist = D("3.20") - D("2.40") + m.mask mask_pad = pscad.down(D("1.2") - mask_dist / D(2)) + pscad.square((D("0.70"), mask_dist), center=True) mask_pads = ( pscad.row(mask_pad, m.pitch, 11), pscad.right(m.pitch * 10 + D("3.0")) + pscad.row(mask_pad, m.pitch, m.n + 1) ) def names(l): return (l + str(i) for i in itertools.count(1)) all = pscad.pad(names('B'), m.clearance, m.mask) + ( pscad.row(pad, m.pitch, 11), pscad.right(m.pitch * 10 + D("3.0")) + pscad.row(pad, m.pitch, m.n - 1) + pscad.right(m.pitch * m.n - 1) + ( key_pad, pscad.right(m.pitch) + pad ) ), pscad.pad(names('A'), m.clearance, m.mask) + pscad.back() + ( key_pad, pscad.right(m.pitch) + pscad.row(pad, m.pitch, 10), pscad.right(m.pitch * 10 + D("3.0")) + pscad.row(pad, m.pitch, m.n + 1) ), ( pscad.pad(names('B'), m.clearance, D("2.40")) + mask_pads, pscad.back() + pscad.pad(names('A'), m.clearance, D("2.40")) + mask_pads ) return pscad.nopaste() + all