def part(m):
m = pscad.wrapper(defaults.items() + m.items())
pad1 = pscad.rounded_square([D("0.7"), D("2.0")], m.round_off, center=True)
pad1_row1 = pscad.pad(itertools.count(1, 2), m.clearance, m.mask) + (
pscad.row(pad1, 1, (m.n + 1) / 2, center=True)
)
pad1_row2 = pscad.pad(itertools.count(2, 2), m.clearance, m.mask) + (
pscad.row(pad1, 1, (m.n - 1) / 2, center=True)
)
pad2 = pscad.rounded_square([D("1.3"), D("3.4")], m.round_off, center=True)
pad2_row = pscad.pad(m.n + 1, m.clearance, m.mask) + (
pscad.row(pad2, (m.n - 1) / D(2) + D("5.7"), 2, center=True)
)
bore = pscad.hole(m.clearance, 0) + pscad.circle(D("1.3") / 2)
bore_row = pscad.row(bore, (m.n - 1) / D(2) + D("3.1"), 2, center = True)
# Reverse up/down for plug/receptacle
pads = (
bore_row,
pscad.up(D("2.5")) + pad1_row1,
pscad.down(D("2.5")) + pad1_row2,
pad2_row,
bore_row
)
all = pads
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())
pad1 = pscad.rounded_square([D("0.6"), D("1.25")], m.round_off, center=True)
pad1_row = pscad.pad(itertools.count(1), m.clearance, m.mask) + (
pscad.row(pad1, D("1.0"), m.n, center=True)
)
pad2 = pscad.rounded_square([D("0.9"), D("1.7")], m.round_off, center=True)
pad2_row = pscad.pad(m.n + 1, m.clearance, m.mask) + (
pscad.row(pad2, m.n + 1 + D("0.9"), 2, center=True)
)
pads = (
pscad.up(D("3.35") + D("1.25") / 2) + pad1_row,
pscad.up(D("1.7") / 2) + pad2_row
)
all = (
pads,
pscad.silk(m.silk) + pscad.up(D("1.45")) + pscad.square((m.n + D("2.8"), D("4.3")), 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())
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 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())
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 thermal_pad(pad, size, paste_fraction, max_paste_size):
paste_x = size[0] * dmath.sqrt(paste_fraction)
paste_y = size[1] * dmath.sqrt(paste_fraction)
n_x = dmath.ceil(paste_x / max_paste_size)
n_y = dmath.ceil(paste_y / max_paste_size)
paste_pad = pscad.rounded_square([paste_y / n_y, paste_x / n_x], D("0.05"), center=True)
return pscad.union() + (
pscad.row(pscad.rotate(90) + pscad.row(paste_pad, size[1] / n_y, n_y, center=True),
size[0] / n_x, n_x, center=True),
pscad.nopaste() + pad
)
def part(m):
m = pscad.wrapper(defaults.items() + m.items())
pitch = D("1.27")
width = D("6.61")
pad_size0 = [D("0.61"), D("1.27")]
pad_size1 = [D("0.61"), D("1.02")]
pad_size2 = [D("1.65"), D("3.81")]
body = [D("5.0"), D("6.25")]
thermal_pad = pscad.paste_fraction(pscad.rounded_square(pad_size2, m.round_off, center=True), D("0.5"))
all = (
pscad.pad(itertools.count(1), m.clearance, m.mask) +
pscad.down((width - pad_size0[1]) / D(2)) +
pscad.row(pscad.rounded_square(pad_size0, m.round_off, center=True), pitch, 4, center=True),
pscad.pad((i for i in [6, 6, 5, 5]), m.clearance, m.mask) +
pscad.up((width - pad_size1[1]) / D(2)) +
pscad.row(pscad.rounded_square(pad_size1, m.round_off, center=True), pitch, 4, center=True),
pscad.pad((i for i in [6, 5]), m.clearance, m.mask) +
pscad.down(width / D(2)) +
pscad.up(pad_size0[1] + D("0.82") + pad_size2[1] / D(2)) +
pscad.row(thermal_pad, D("0.61") + pad_size2[0], 2, center=True),
pscad.silk(m.silk) + patterns.brackets(body, D("0.2"), center=True)
)
silk = pscad.silk(m.silk) + (
patterns.placement_courtyard(all, m.placement, m.grid, D("0.5")),
pscad.down(width / D(2) + m.silk) +
pscad.left(pitch * D("1.5")) +
pscad.line(pad_size0[0], center=True)
)
return all, silk
def part(m):
m = pscad.wrapper(defaults.items() + m.items())
row = pscad.row(pscad.rounded_square([m.l, m.w], m.round_off, center=True), m.a + m.l, 2, center=True)
all = pscad.pad(itertools.count(1), m.clearance, m.mask) + (
pscad.rotate(270) +
pscad.row(pscad.rotate(90) + row, m.b + m.w, 2, center=True)
)
courtyard = pscad.expand_to_grid(pscad.bound(all), m.placement, m.grid)
courtyard_sz = (courtyard[1][0] - courtyard[0][0], courtyard[1][1] - courtyard[0][1])
silk = pscad.silk(m.silk) + (
pscad.translate(courtyard[0]) +
patterns.brackets(courtyard_sz, m.l)
)
return all, silk
def part(m):
m = pscad.wrapper(defaults.items() + m.items())
pad_row = pscad.rotate(180) + pscad.row(pscad.rounded_square(
(D("0.5"), D("2.0")), m.round_off, center=True), D("0.8"), 5, center=True)
gnd_row = pscad.row(pscad.donut(I("0.034"), I("0.045")), D("5.3"), 2)
side = (
pscad.pin("G", m.clearance, m.mask, square=True) + (
pscad.left(D("3.6")) + pscad.up(2) +
pscad.rotate(-90) + gnd_row,
),
pscad.hole(m.clearance, 0) + (
pscad.left(D("1.7")) + pscad.down(D("1.3")) +
pscad.circle(I("0.018"))
),
pscad.silk(m.silk) + (
pscad.left(D("3.6")) + pscad.up(D("4.6")) +
pscad.polygon([(0, 0), (0, D("1.3")), (0, D("3.9")), (0, D("6.6"))],
[(0, 1), (2, 3)])
)
)
all = (
pscad.pad(itertools.count(1), m.clearance, m.mask) + (
pscad.down(D("3.5")) + pad_row
),
side + pscad.mirror([1, 0]) + side,
pscad.silk(m.silk) + (
pscad.up(D("4.6")) + pscad.line(D("7.2"), 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())
try:
pin_count = m.n
pin_names = itertools.count(1)
except:
pin_count = len(m.pins.split(','))
pin_names = (i for i in m.pins.split(','))
try:
body_y = m.body_y
except:
body_y = m.width - m.pad_l - m.silk * D(3)
pad_row = pscad.row(pscad.rounded_square(
(m.pad_w, m.pad_l), m.round_off, center=True), m.pitch, pin_count / 2, center=True)
if body_y > m.width - m.pad_l - m.silk * D(2):
edge = m.body_x / D(2) - m.pitch * pin_count / 4
body = patterns.brackets([m.body_x, body_y], edge, center=True)
else:
body = pscad.square([m.body_x, body_y], center=True)
all = pscad.pad(pin_names, m.clearance, m.mask) + (
pscad.down(m.width / D(2)) + pad_row,
pscad.up(m.width / D(2)) + pscad.rotate(180) + pad_row
), pscad.silk(m.silk) + body
silk = pscad.silk(m.silk) + (
patterns.placement_courtyard(all, m.placement, m.grid, m.pad_w * D(2)),
pscad.down(m.width / D(2)) +
pscad.left(m.silk + m.pitch * pin_count / 4) +
pscad.line([0, m.pad_l * D("0.7")], center=True)
)
return all, silk
def part(m):
m = pscad.wrapper(defaults.items() + m.items())
try:
pin_count = m.n
pin_names = itertools.count(1)
except:
pin_count = len(m.pins.split(','))
pin_names = (i for i in m.pins.split(','))
if 'pads_x' in m:
pads_x = m.pads_x
elif m.quad:
pads_x = pin_count / 4
else:
pads_x = 0
pads_y = pin_count / 2 - pads_x
try:
body_y = m.body_y
except:
body_y = m.width - m.pad_l - m.silk * 3
if 'height' in m:
height = m.height
else:
height = m.width
pad = pscad.rounded_square((m.pad_w, m.pad_l), m.round_off, center=True)
row_y = pscad.down(m.width / 2) + pscad.row(
pscad.paste_fraction(pad, (1,m.pad_paste_fraction)),
m.pitch, pads_y, center=True)
if m.quad:
row_x = pscad.down(height / 2) + pscad.row(
pscad.paste_fraction(pad, (1,m.pad_paste_fraction)),
m.pitch, pads_x, center=True)
pads = pscad.pad(pin_names, m.clearance, m.mask) + (
row_y, pscad.rotate(90) + row_x,
pscad.rotate(180) + row_y, pscad.rotate(270) + row_x
)
else:
pads = pscad.pad(pin_names, m.clearance, m.mask) + (
row_y, pscad.rotate(180) + row_y
)
try:
if m.quad:
raise Exception()
if body_y > m.width - m.pad_l - m.silk * 2:
edge = m.body_x / 2 - m.pitch * D(pin_count) / 4
body = patterns.brackets([m.body_x, body_y], edge, center=True)
else:
body = pscad.square([m.body_x, body_y], center=True)
all = pads, pscad.silk(m.silk) + body
except:
all = pads
try:
corners = m.corners
except:
corners = m.pad_w * 2
silk = pscad.silk(m.silk) + (
patterns.placement_courtyard(all, m.placement, m.grid, corners),
pscad.down(m.width / 2) +
pscad.left(m.silk + m.pitch * pads_y / 2) +
pscad.line([0, m.pad_l * D("0.7")], center=True)
)
return all, silk
