Ejemplo n.º 1
0
def side_pth_fab(pins):
    out = []
    w = fab_width
    centre = (0, -2.6)

    # Draw outline
    nw, ne, se, sw, _ = draw_square(2.5 * (pins - 1) + 5, 8.2, centre, "F.Fab",
                                    w)
    out.append(fp_line(nw, ne, "F.Fab", w))
    out.append(fp_line(ne, se, "F.Fab", w))
    out.append(fp_line(se, (se[0] - 1, se[1]), "F.Fab", w))
    out.append(
        fp_line((se[0] - 1, se[1]), (se[0] - 1, se[1] - 2.2), "F.Fab", w))
    out.append(
        fp_line((se[0] - 1, se[1] - 2.2), (sw[0] + 1, sw[1] - 2.2), "F.Fab",
                w))
    out.append(fp_line(nw, sw, "F.Fab", w))
    out.append(fp_line(sw, (sw[0] + 1, sw[1]), "F.Fab", w))
    out.append(
        fp_line((sw[0] + 1, sw[1]), (sw[0] + 1, sw[1] - 2.2), "F.Fab", w))

    # Draw the pins
    x = 1.25 * (pins - 1)
    for pin in range(pins):
        sq = draw_square(0.5, 0.75, (x, -0.125), "F.Fab", fab_width)
        out += sq[4]
        out.append(
            fp_line((x - .25, -.25), (x + .25, -.25), "F.Fab", fab_width))
        x -= 2.5
    return out
Ejemplo n.º 2
0
def side_smd_fab(pins):
    out = []
    w = fab_width

    # Draw outline
    nw, ne, se, sw, sq = draw_square(2 * pins + 4, 8.9, (0, -3.5), "F.Fab", w)
    out.append(fp_line(nw, (nw[0] + 3, nw[1]), "F.Fab", w))
    out.append(
        fp_line((nw[0] + 3, nw[1]), (nw[0] + 3, nw[1] + 1.4), "F.Fab", w))
    out.append(
        fp_line((nw[0] + 3, nw[1] + 1.4), (ne[0] - 3, ne[1] + 1.4), "F.Fab",
                w))
    out.append(
        fp_line((ne[0] - 3, ne[1] + 1.4), (ne[0] - 3, ne[1]), "F.Fab", w))
    out.append(fp_line((ne[0] - 3, ne[1]), ne, "F.Fab", w))
    out.append(fp_line(ne, se, "F.Fab", w))
    out.append(fp_line(se, sw, "F.Fab", w))
    out.append(fp_line(sw, nw, "F.Fab", w))

    # Draw pins
    x = pins - 1
    for pin in range(pins):
        _, _, _, _, sq = draw_square(0.5, 2.5, (x, 2.5 / 2), "F.Fab", w)
        out += sq
        x -= 2
    return out
Ejemplo n.º 3
0
def side_pth_fab(pins):
    out = []
    w = fab_width
    centre = (0, -2.35)

    # Draw outline
    nw, ne, se, sw, _ = draw_square(2*(pins-1)+4, 11.7, centre, "F.Fab", w)
    out.append(fp_line(nw, ne, "F.Fab", w))
    out.append(fp_line(ne, se, "F.Fab", w))
    out.append(fp_line(se, (se[0]-1, se[1]), "F.Fab", w))
    out.append(fp_line((se[0]-1, se[1]), (se[0]-1, se[1]-4), "F.Fab", w))
    out.append(fp_line((se[0]-1, se[1]-4), (sw[0]+1, sw[1]-4), "F.Fab", w))
    out.append(fp_line(nw, sw, "F.Fab", w))
    out.append(fp_line(sw, (sw[0]+1, sw[1]), "F.Fab", w))
    out.append(fp_line((sw[0]+1, sw[1]), (sw[0]+1, sw[1]-4), "F.Fab", w))

    # Draw side legs
    x = (2*(pins-1)+4)//2 - 0.3
    _, _, _, _, sq = draw_square(0.6, 0.8, (x, -2.1), "F.Fab", w)
    out += sq
    _, _, _, _, sq = draw_square(0.6, 0.8, (-x, -2.1), "F.Fab", w)
    out += sq

    # Draw the pins
    x = pins - 1
    for pin in range(pins):
        sq = draw_square(0.5, 0.75, (x, -0.125), "F.Fab", fab_width)
        out += sq[4]
        out.append(fp_line((x-.25, -.25), (x+.25, -.25), "F.Fab", fab_width))
        x -= 2
    return out
Ejemplo n.º 4
0
def side_pth_fab(pins):
    out = []
    w = fab_width
    centre = (0, -2.35)

    # Draw outline
    nw, ne, se, sw, _ = draw_square(2 * (pins - 1) + 4, 11.7, centre, "F.Fab",
                                    w)
    out.append(fp_line(nw, ne, "F.Fab", w))
    out.append(fp_line(ne, se, "F.Fab", w))
    out.append(fp_line(se, (se[0] - 1, se[1]), "F.Fab", w))
    out.append(fp_line((se[0] - 1, se[1]), (se[0] - 1, se[1] - 4), "F.Fab", w))
    out.append(
        fp_line((se[0] - 1, se[1] - 4), (sw[0] + 1, sw[1] - 4), "F.Fab", w))
    out.append(fp_line(nw, sw, "F.Fab", w))
    out.append(fp_line(sw, (sw[0] + 1, sw[1]), "F.Fab", w))
    out.append(fp_line((sw[0] + 1, sw[1]), (sw[0] + 1, sw[1] - 4), "F.Fab", w))

    # Draw side legs
    x = (2 * (pins - 1) + 4) // 2 - 0.3
    _, _, _, _, sq = draw_square(0.6, 0.8, (x, -2.1), "F.Fab", w)
    out += sq
    _, _, _, _, sq = draw_square(0.6, 0.8, (-x, -2.1), "F.Fab", w)
    out += sq

    # Draw the pins
    x = pins - 1
    for pin in range(pins):
        sq = draw_square(0.5, 0.75, (x, -0.125), "F.Fab", fab_width)
        out += sq[4]
        out.append(
            fp_line((x - .25, -.25), (x + .25, -.25), "F.Fab", fab_width))
        x -= 2
    return out
Ejemplo n.º 5
0
def fab(conf):
    """
    Generate a drawing of the chip on the Fab layer, including its outline,
    the outline of the pins, and a pin 1 indicator.
    """
    chip_w, chip_h = conf['chip_shape']
    pin_w, pin_h = conf['pin_shape']
    out = []

    # Chip outline
    nw, _, _, _, sq = draw_square(chip_w, chip_h, (0, 0), "F.Fab", fab_width)
    out += sq

    # Pin 1
    centre = (nw[0] + fab_pin1_offset, nw[1] + fab_pin1_offset)
    end = (centre[0], centre[1] + fab_pin1_r)
    out.append(fp_circle(centre, end, "F.Fab", fab_width))

    # Pins
    leftr, bottomr, rightr, topr = pin_centres(conf)
    idx = 1
    for pin in leftr:
        idx += 1
        if idx - 1 in conf.get('skip_pins', []):
            continue
        xy = -(chip_w + pin_w) / 2.0, pin[1]
        _, _, _, _, sq = draw_square(pin_w, pin_h, xy, "F.Fab", fab_width)
        out += [sq[0], sq[2], sq[3]]
    for pin in rightr:
        idx += 1
        if idx - 1 in conf.get('skip_pins', []):
            continue
        xy = (chip_w + pin_w) / 2.0, pin[1]
        _, _, _, _, sq = draw_square(pin_w, pin_h, xy, "F.Fab", fab_width)
        out += [sq[0], sq[1], sq[2]]
    if conf['rows'] == 4:
        for pin in topr:
            idx += 1
            if idx - 1 in conf.get('skip_pins', []):
                continue
            xy = pin[0], -(chip_h + pin_w) / 2.0
            _, _, _, _, sq = draw_square(pin_h, pin_w, xy, "F.Fab", fab_width)
            out += [sq[0], sq[1], sq[3]]
        for pin in bottomr:
            idx += 1
            if idx - 1 in conf.get('skip_pins', []):
                continue
            xy = pin[0], (chip_h + pin_w) / 2.0
            _, _, _, _, sq = draw_square(pin_h, pin_w, xy, "F.Fab", fab_width)
            out += [sq[1], sq[2], sq[3]]

    return out
Ejemplo n.º 6
0
def fab(conf):
    """
    Generate a drawing of the chip on the Fab layer, including its outline,
    the outline of the pins, and a pin 1 indicator.
    """
    chip_w, chip_h = conf['chip_shape']
    pin_w, pin_h = conf['pin_shape']
    out = []

    # Chip outline
    nw, _, _, _, sq = draw_square(chip_w, chip_h, (0, 0), "F.Fab", fab_width)
    out += sq

    # Pin 1
    centre = (nw[0] + fab_pin1_offset, nw[1] + fab_pin1_offset)
    end = (centre[0], centre[1] + fab_pin1_r)
    out.append(fp_circle(centre, end, "F.Fab", fab_width))

    # Pins
    leftr, bottomr, rightr, topr = pin_centres(conf)
    idx = 1
    for pin in leftr:
        idx += 1
        if idx - 1 in conf.get('skip_pins', []):
            continue
        xy = -(chip_w + pin_w) / 2.0, pin[1]
        _, _, _, _, sq = draw_square(pin_w, pin_h, xy, "F.Fab", fab_width)
        out += [sq[0], sq[2], sq[3]]
    for pin in rightr:
        idx += 1
        if idx - 1 in conf.get('skip_pins', []):
            continue
        xy = (chip_w + pin_w) / 2.0, pin[1]
        _, _, _, _, sq = draw_square(pin_w, pin_h, xy, "F.Fab", fab_width)
        out += [sq[0], sq[1], sq[2]]
    if conf['rows'] == 4:
        for pin in topr:
            idx += 1
            if idx - 1 in conf.get('skip_pins', []):
                continue
            xy = pin[0], -(chip_h + pin_w) / 2.0
            _, _, _, _, sq = draw_square(pin_h, pin_w, xy, "F.Fab", fab_width)
            out += [sq[0], sq[1], sq[3]]
        for pin in bottomr:
            idx += 1
            if idx - 1 in conf.get('skip_pins', []):
                continue
            xy = pin[0], (chip_h + pin_w) / 2.0
            _, _, _, _, sq = draw_square(pin_h, pin_w, xy, "F.Fab", fab_width)
            out += [sq[1], sq[2], sq[3]]

    return out
Ejemplo n.º 7
0
def ctyd(conf):
    row_pitch = conf['row_pitch']
    pad_w, pad_h = conf['pad_shape']
    chip_w, chip_h = conf['chip_shape']

    if conf['rows'] == 2:
        width = row_pitch + pad_w + 2 * ctyd_gap
        height = chip_h + 2 * ctyd_gap
    elif conf['rows'] == 4:
        # We need to handle non-square chips slightly differently,
        # depending on whether row_pitch is given as (w, h) or just a scalar.
        if isinstance(row_pitch, float):
            height = width = row_pitch + pad_w + 2 * ctyd_gap
        else:
            width = row_pitch[0] + pad_w + 2 * ctyd_gap
            height = row_pitch[1] + pad_w + 2 * ctyd_gap

    # Ensure courtyard lies on a specified grid
    # (double the grid since we halve the width/height)
    grid = 2*ctyd_grid
    width = grid * int(math.ceil(width / (2*ctyd_grid)))
    height = grid * int(math.ceil(height / (2*ctyd_grid)))

    _, _, _, _, sq = draw_square(width, height, (0, 0), "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 8
0
def top_smd_fab(pins):
    out = []
    w = fab_width

    # Outline
    _, _, _, _, sq = draw_square(2*pins+4, 5.7, (0, 3.35), "F.Fab", w)
    out += sq

    # Pins
    x = pins - 1
    for pin in range(pins):
        _, _, _, _, sq = draw_square(0.5, 2.5, (x, -0), "F.Fab", w)
        out += sq
        x -= 2

    return out
Ejemplo n.º 9
0
def ctyd(conf):
    chip_w, chip_h = conf['chip_shape']

    if 'cols' in conf:
        width, height = chip_w + 2 * ctyd_gap, chip_h + 2 * ctyd_gap
    elif conf['rows'] == 2:
        pad_w, pad_h = conf['pad_shape']
        row_pitch = conf['row_pitch']
        width = row_pitch + pad_w + 2 * ctyd_gap
        height = chip_h + 2 * ctyd_gap
    elif conf['rows'] == 4:
        pad_w, pad_h = conf['pad_shape']
        row_pitch = conf['row_pitch']
        # We need to handle non-square chips slightly differently,
        # depending on whether row_pitch is given as (w, h) or just a scalar.
        if isinstance(row_pitch, float):
            height = width = row_pitch + pad_w + 2 * ctyd_gap
        else:
            width = row_pitch[0] + pad_w + 2 * ctyd_gap
            height = row_pitch[1] + pad_w + 2 * ctyd_gap

    # Ensure courtyard lies on a specified grid
    # (double the grid since we halve the width/height)
    grid = 2 * ctyd_grid
    width = grid * int(math.ceil(width / (2 * ctyd_grid)))
    height = grid * int(math.ceil(height / (2 * ctyd_grid)))

    _, _, _, _, sq = draw_square(width, height, (0, 0), "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 10
0
def fab(conf):
    """Generate a drawing of the chip on the Fab layer."""
    out = []
    cw, ch = conf['chip_shape']
    pw, ph = conf['pin_shape']
    w = fab_width

    # Chip body
    _, _, _, _, sq = draw_square(cw, ch, (0, 0), "F.Fab", w)
    out += sq

    # Pin 1 indicator
    if conf.get('silk') in ("triangle", "internal_pin1", "external_pin1"):
        out.append(fp_line(
            (-cw/4, -ch/2), (-cw/4, ch/2), "F.Fab", w))

    # Left pin
    out.append(fp_line((-cw/2 - pw, -ph/2), (-cw/2 - pw, ph/2), "F.Fab", w))
    if ph != ch:
        out.append(fp_line((-cw/2 - pw, -ph/2), (-cw/2, -ph/2), "F.Fab", w))
        out.append(fp_line((-cw/2 - pw, ph/2), (-cw/2, ph/2), "F.Fab", w))

    # Right pin
    out.append(fp_line((cw/2 + pw, -ph/2), (cw/2 + pw, ph/2), "F.Fab", w))
    if ph != ch:
        out.append(fp_line((cw/2 + pw, -ph/2), (cw/2, -ph/2), "F.Fab", w))
        out.append(fp_line((cw/2 + pw, ph/2), (cw/2, ph/2), "F.Fab", w))

    return out
def sfml_silk(pins):
    out = []
    l = "F.SilkS"
    w = silk_width
    a_x = (3.94 - 0.38) / 2.0
    a_y = (3.05 - 1.52) / 2.0
    nw, ne, se, sw, _ = draw_square(pins * 1.27 + 0.38 - w, 3.05 - w, (0, 0),
                                    l, w)

    out.append(fp_line(ne, (ne[0], ne[1] + a_y), l, w))
    out.append(fp_line((ne[0], ne[1] + a_y), (ne[0] + a_x, ne[1] + a_y), l, w))
    out.append(
        fp_line((ne[0] + a_x, ne[1] + a_y), (se[0] + a_x, se[1] - a_y), l, w))
    out.append(fp_line((se[0] + a_x, se[1] - a_y), (se[0], se[1] - a_y), l, w))
    out.append(fp_line((se[0], se[1] - a_y), se, l, w))
    out.append(fp_line(se, (se[0] - 0.3, se[1]), l, w))

    out.append(fp_line((sw[0] + 0.3, sw[1]), sw, l, w))
    out.append(fp_line(sw, (sw[0], sw[1] - a_y), l, w))
    out.append(fp_line((sw[0], sw[1] - a_y), (sw[0] - a_x, sw[1] - a_y), l, w))
    out.append(
        fp_line((sw[0] - a_x, sw[1] - a_y), (nw[0] - a_x, nw[1] + a_y), l, w))
    out.append(fp_line((nw[0] - a_x, nw[1] + a_y), (nw[0], nw[1] + a_y), l, w))
    out.append(fp_line((nw[0], nw[1] + a_y), nw, l, w))
    return out
Ejemplo n.º 12
0
def top_smd_fab(pins):
    out = []
    w = fab_width

    # Outline
    _, _, _, _, sq = draw_square(2 * pins + 4, 5.7, (0, 3.35), "F.Fab", w)
    out += sq

    # Pins
    x = pins - 1
    for pin in range(pins):
        _, _, _, _, sq = draw_square(0.5, 2.5, (x, -0), "F.Fab", w)
        out += sq
        x -= 2

    return out
Ejemplo n.º 13
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def fab(conf):
    """Generate a drawing of the chip on the Fab layer."""
    out = []
    cw, ch = conf['chip_shape']
    pw, ph = conf['pin_shape']
    w = fab_width

    # Chip body
    _, _, _, _, sq = draw_square(cw, ch, (0, 0), "F.Fab", w)
    out += sq

    # Pin 1 indicator
    if conf.get('silk') in ("triangle", "internal_pin1", "external_pin1"):
        out.append(fp_line(
            (-cw/4, -ch/2), (-cw/4, ch/2), "F.Fab", w))

    # Left pin
    out.append(fp_line((-cw/2 - pw, -ph/2), (-cw/2 - pw, ph/2), "F.Fab", w))
    if ph != ch:
        out.append(fp_line((-cw/2 - pw, -ph/2), (-cw/2, -ph/2), "F.Fab", w))
        out.append(fp_line((-cw/2 - pw, ph/2), (-cw/2, ph/2), "F.Fab", w))

    # Right pin
    out.append(fp_line((cw/2 + pw, -ph/2), (cw/2 + pw, ph/2), "F.Fab", w))
    if ph != ch:
        out.append(fp_line((cw/2 + pw, -ph/2), (cw/2, -ph/2), "F.Fab", w))
        out.append(fp_line((cw/2 + pw, ph/2), (cw/2, ph/2), "F.Fab", w))

    return out
Ejemplo n.º 14
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def ctyd(pins, h):
    w = pins * 2.54 + 2 * ctyd_gap
    h = h + 2 * ctyd_gap
    grid = 2 * ctyd_grid
    w = grid * int(math.ceil(w / grid))
    h = grid * int(math.ceil(h / grid))
    _, _, _, _, sq = draw_square(w, h, (0, 0), "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 15
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def top_pth_ctyd(pins):
    w = 2 * (pins - 1) + 4 + 2 * ctyd_gap
    h = 5.3 + 2 * ctyd_gap
    grid = 2 * ctyd_grid
    w = grid * int(math.ceil(w / grid))
    h = grid * int(math.ceil(h / grid))
    _, _, _, _, sq = draw_square(w, h, (0, 0), "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 16
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def top_pth_ctyd(pins):
    w = 2*(pins-1)+4 + 2*ctyd_gap
    h = 5.3 + 2*ctyd_gap
    grid = 2*ctyd_grid
    w = grid * int(math.ceil(w / grid))
    h = grid * int(math.ceil(h / grid))
    _, _, _, _, sq = draw_square(w, h, (0, 0), "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 17
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def dil_ctyd(pins):
    w = pins * 2.54 + 2 * ctyd_gap
    h = 2*2.54 + 2 * ctyd_gap
    grid = 2 * ctyd_grid
    w = grid * int(math.ceil(w / grid))
    h = grid * int(math.ceil(h / grid))
    _, _, _, _, sq = draw_square(w, h, (0, 0), "F.CrtYd", ctyd_width)
    return sq
def ctyd(pins):
    w = pins * 1.27 + 3.94 + 2 * ctyd_gap
    h = 6.35 + 2 * ctyd_gap
    grid = 2 * ctyd_grid
    w = grid * int(math.ceil(w / grid))
    h = grid * int(math.ceil(h / grid))
    _, _, _, _, sq = draw_square(w, h, (0, 0), "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 19
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def ctyd(pins):
    w = pins * 1.27 + 3.94 + 2 * ctyd_gap
    h = 6.35 + 2 * ctyd_gap
    grid = 2 * ctyd_grid
    w = grid * int(math.ceil(w / grid))
    h = grid * int(math.ceil(h / grid))
    _, _, _, _, sq = draw_square(w, h, (0, 0), "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 20
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def side_pth_ctyd(pins):
    w = 2*(pins-1)+4 + 2*ctyd_gap
    h = 11.7 + 2*ctyd_gap
    grid = 2*ctyd_grid
    w = grid * int(math.ceil(w / (2*ctyd_grid)))
    h = grid * int(math.ceil(h / (2*ctyd_grid)))
    centre = (0, -2.35)
    _, _, _, _, sq = draw_square(w, h, centre, "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 21
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def side_pth_ctyd(pins):
    w = 2 * (pins - 1) + 4 + 2 * ctyd_gap
    h = 11.7 + 2 * ctyd_gap
    grid = 2 * ctyd_grid
    w = grid * int(math.ceil(w / (2 * ctyd_grid)))
    h = grid * int(math.ceil(h / (2 * ctyd_grid)))
    centre = (0, -2.35)
    _, _, _, _, sq = draw_square(w, h, centre, "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 22
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def side_smd_ctyd(pins):
    w = 2 * (pins - 1 + 1.45 + 1.8 + ctyd_gap)
    h = 3.0 + 7.8 + 2 * ctyd_gap
    grid = 2 * ctyd_grid
    w = grid * int(math.ceil(w / (2 * ctyd_grid)))
    h = grid * int(math.ceil(h / (2 * ctyd_grid)))
    centre = (0, -2.55)
    _, _, _, _, sq = draw_square(w, h, centre, "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 23
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def side_smd_ctyd(pins):
    w = 2 * (pins - 1 + 1.45 + 1.8 + ctyd_gap)
    h = 3.0 + 7.8 + 2*ctyd_gap
    grid = 2*ctyd_grid
    w = grid * int(math.ceil(w / (2*ctyd_grid)))
    h = grid * int(math.ceil(h / (2*ctyd_grid)))
    centre = (0, -2.55)
    _, _, _, _, sq = draw_square(w, h, centre, "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 24
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def top_smd_ctyd(pins):
    w = 1.25*(pins-1) + 2*3.6 + 2*ctyd_gap
    h = 3.0 + 0.6 + 1.3 + 2*ctyd_gap
    grid = 2 * ctyd_grid
    w = grid * int(math.ceil(w / (2*ctyd_grid)))
    h = grid * int(math.ceil(h / (2*ctyd_grid)))
    y = h/2 - 1.3/2 - ctyd_gap
    centre = (0, y)
    _, _, _, _, sq = draw_square(w, h, centre, "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 25
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def top_pth_fab(pins):
    out = []

    # Draw outline
    _, _, _, _, sq = draw_square(2*(pins-1)+4, 5.3, (0, 0), "F.Fab", fab_width)
    out += sq

    # Draw side leg
    x = pins - 1 + 1.5
    _, _, _, _, sq = draw_square(.8, .8, (x, -1.7), "F.Fab", fab_width)
    out += sq

    # Draw pins
    x = pins - 1
    for pin in range(pins):
        _, _, _, _, sq = draw_square(.5, .5, (x, 0), "F.Fab", fab_width)
        out += sq
        x -= 2

    return out
Ejemplo n.º 26
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def dil_silk(pins):
    nw, ne, se, sw, _ = draw_square(pins * 2.54, 2 * 2.54, (0, 0), "F.SilkS",
                                    silk_width)
    layer = "F.SilkS"
    w = silk_width
    out = []
    out.append(fp_line(nw, ne, layer, w))
    out.append(fp_line(ne, se, layer, w))
    out.append(fp_line(se, (1.27, se[1]), layer, w))
    out.append(fp_line((-1.27, sw[1]), sw, layer, w))
    out.append(fp_line(sw, nw, layer, w))
    return out
Ejemplo n.º 27
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def dil_silk(pins):
    nw, ne, se, sw, _ = draw_square(
        pins * 2.54, 2*2.54, (0, 0), "F.SilkS", silk_width)
    l = "F.SilkS"
    w = silk_width
    out = []
    out.append(fp_line(nw, ne, l, w))
    out.append(fp_line(ne, se, l, w))
    out.append(fp_line(se, (1.27, se[1]), l, w))
    out.append(fp_line((-1.27, sw[1]), sw, l, w))
    out.append(fp_line(sw, nw, l, w))
    return out
Ejemplo n.º 28
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def top_pth_fab(pins):
    out = []

    # Draw outline
    _, _, _, _, sq = draw_square(2 * (pins - 1) + 4, 5.3, (0, 0), "F.Fab",
                                 fab_width)
    out += sq

    # Draw side leg
    x = pins - 1 + 1.5
    _, _, _, _, sq = draw_square(.8, .8, (x, -1.7), "F.Fab", fab_width)
    out += sq

    # Draw pins
    x = pins - 1
    for pin in range(pins):
        _, _, _, _, sq = draw_square(.5, .5, (x, 0), "F.Fab", fab_width)
        out += sq
        x -= 2

    return out
Ejemplo n.º 29
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def tfml_silk(pins):
    out = []
    l = "F.SilkS"
    w = silk_width
    nw, ne, se, sw, _ = draw_square(
        pins * 1.27 + 3.18 - w, 5.72 - w, (0, 0), l, w)
    out.append(fp_line((nw[0]+1.5, nw[1]), nw, l, w))
    out.append(fp_line(nw, sw, l, w))
    out.append(fp_line(sw, (sw[0]+1.5, sw[1]), l, w))
    out.append(fp_line((se[0]-1.5, se[1]), (se[0], se[1]-1.5), l, w))
    out.append(fp_line((se[0], se[1]-1.5), (ne[0], ne[1]+1.5), l, w))
    out.append(fp_line((ne[0], ne[1]+1.5), (ne[0]-1.5, ne[1]), l, w))
    return out
Ejemplo n.º 30
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def top_smd_fab(pins):
    out = []
    w = fab_width
    lyr = "F.Fab"
    # Outline box
    box_w = (pins-1)*1.25 + 2*3.6 - 2*2.1
    box_h = 3.5  # XXX
    box_y = box_h/2 + 0.2
    nw, ne, se, sw, sq = draw_square(box_w, box_h, (0, box_y), lyr, w)
    out += sq
    # Mounting pins
    _, _, _, _, sq = draw_square(1.8, 2.8, (nw[0]-1.8/2, sw[1]-2.8/2), lyr, w)
    out += sq
    _, _, _, _, sq = draw_square(1.8, 2.8, (ne[0]+1.8/2, sw[1]-2.8/2), lyr, w)
    out += sq
    # Connector pins
    x = -(pins-1)/2 * 1.25
    for pin in range(pins):
        _, _, _, _, sq = draw_square(0.32, 0.6, (x, 2.6), lyr, w)
        out += sq
        x += 1.25
    return out
def tfml_silk(pins):
    out = []
    l = "F.SilkS"
    w = silk_width
    nw, ne, se, sw, _ = draw_square(pins * 1.27 + 3.18 - w, 5.72 - w, (0, 0),
                                    l, w)
    out.append(fp_line((nw[0] + 1.5, nw[1]), nw, l, w))
    out.append(fp_line(nw, sw, l, w))
    out.append(fp_line(sw, (sw[0] + 1.5, sw[1]), l, w))
    out.append(fp_line((se[0] - 1.5, se[1]), (se[0], se[1] - 1.5), l, w))
    out.append(fp_line((se[0], se[1] - 1.5), (ne[0], ne[1] + 1.5), l, w))
    out.append(fp_line((ne[0], ne[1] + 1.5), (ne[0] - 1.5, ne[1]), l, w))
    return out
Ejemplo n.º 32
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def side_pth_silk(pins):
    out = []
    w = silk_width
    centre = (0, -2.6)
    nw, ne, se, sw, _ = draw_square(2.5*(pins-1)+5, 8.2, centre, "F.SilkS", w)
    out.append(fp_line(nw, ne, "F.SilkS", w))
    out.append(fp_line(ne, se, "F.SilkS", w))
    out.append(fp_line(se, (se[0]-1, se[1]), "F.SilkS", w))
    out.append(fp_line((se[0]-1, se[1]), (se[0]-1, se[1]-2.2), "F.SilkS", w))
    out.append(fp_line(nw, sw, "F.SilkS", w))
    out.append(fp_line(sw, (sw[0]+1, sw[1]), "F.SilkS", w))
    out.append(fp_line((sw[0]+1, sw[1]), (sw[0]+1, sw[1]-2.2), "F.SilkS", w))
    return out
Ejemplo n.º 33
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def side_smd_fab(pins):
    out = []
    w = fab_width

    # Draw outline
    nw, ne, se, sw, sq = draw_square(2*pins+4, 8.9, (0, -3.5), "F.Fab", w)
    out.append(fp_line(nw, (nw[0]+3, nw[1]), "F.Fab", w))
    out.append(fp_line((nw[0]+3, nw[1]), (nw[0]+3, nw[1]+1.4), "F.Fab", w))
    out.append(fp_line((nw[0]+3, nw[1]+1.4), (ne[0]-3, ne[1]+1.4), "F.Fab", w))
    out.append(fp_line((ne[0]-3, ne[1]+1.4), (ne[0]-3, ne[1]), "F.Fab", w))
    out.append(fp_line((ne[0]-3, ne[1]), ne, "F.Fab", w))
    out.append(fp_line(ne, se, "F.Fab", w))
    out.append(fp_line(se, sw, "F.Fab", w))
    out.append(fp_line(sw, nw, "F.Fab", w))

    # Draw pins
    x = pins - 1
    for pin in range(pins):
        _, _, _, _, sq = draw_square(0.5, 2.5, (x, 2.5/2), "F.Fab", w)
        out += sq
        x -= 2
    return out
Ejemplo n.º 34
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def side_pth_silk(pins):
    out = []
    w = silk_width
    centre = (0, -2.35)
    nw, ne, se, sw, _ = draw_square(2*(pins-1)+4, 11.7, centre, "F.SilkS", w)
    out.append(fp_line(nw, ne, "F.SilkS", w))
    out.append(fp_line(ne, se, "F.SilkS", w))
    out.append(fp_line(se, (se[0]-1, se[1]), "F.SilkS", w))
    out.append(fp_line((se[0]-1, se[1]), (se[0]-1, se[1]-4), "F.SilkS", w))
    out.append(fp_line(nw, sw, "F.SilkS", w))
    out.append(fp_line(sw, (sw[0]+1, sw[1]), "F.SilkS", w))
    out.append(fp_line((sw[0]+1, sw[1]), (sw[0]+1, sw[1]-4), "F.SilkS", w))
    return out
Ejemplo n.º 35
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def top_smd_silk(pins):
    out = []
    w = silk_width
    l = "F.SilkS"
    nw, ne, se, sw, _ = draw_square(2 * pins + 4, 5.7, (0, 3.35), l, w)
    # Top left corner
    out.append(fp_line((nw[0], nw[1] + 2.4), (nw[0], nw[1]), l, w))
    out.append(fp_line((nw[0], nw[1]), (nw[0] + 2.3, nw[1]), l, w))
    # Top right corner
    out.append(fp_line((ne[0], ne[1] + 2.4), (ne[0], ne[1]), l, w))
    out.append(fp_line((ne[0], ne[1]), (ne[0] - 2.3, ne[1]), l, w))
    # Bottom
    out.append(fp_line((sw[0] + 1.8, sw[1]), (se[0] - 1.8, se[1]), l, w))
    return out
Ejemplo n.º 36
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def top_smd_silk(pins):
    out = []
    w = silk_width
    lyr = "F.SilkS"
    box_w = (pins-1)*1.25 + 2*3.6 - 2*2.1 - silk_width
    box_h = 3.5  # XXX
    box_y = box_h/2 + 0.2
    nw, ne, se, sw, _ = draw_square(box_w, box_h, (0, box_y), lyr, w)
    out.append(fp_line((nw[0]+0.8, nw[1]), nw, lyr, w))
    out.append(fp_line(nw, sw, lyr, w))
    out.append(fp_line(sw, se, lyr, w))
    out.append(fp_line(se, ne, lyr, w))
    out.append(fp_line((ne[0]-0.8, ne[1]), ne, lyr, w))
    return out
Ejemplo n.º 37
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def top_smd_silk(pins):
    out = []
    w = silk_width
    l = "F.SilkS"
    nw, ne, se, sw, _ = draw_square(2*pins+4, 5.7, (0, 3.35), l, w)
    # Top left corner
    out.append(fp_line((nw[0], nw[1]+2.4), (nw[0], nw[1]), l, w))
    out.append(fp_line((nw[0], nw[1]), (nw[0]+2.3, nw[1]), l, w))
    # Top right corner
    out.append(fp_line((ne[0], ne[1]+2.4), (ne[0], ne[1]), l, w))
    out.append(fp_line((ne[0], ne[1]), (ne[0]-2.3, ne[1]), l, w))
    # Bottom
    out.append(fp_line((sw[0]+1.8, sw[1]), (se[0]-1.8, se[1]), l, w))
    return out
Ejemplo n.º 38
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def side_pth_fab(pins):
    out = []
    w = fab_width
    centre = (0, -2.6)

    # Draw outline
    nw, ne, se, sw, _ = draw_square(2.5*(pins-1)+5, 8.2, centre, "F.Fab", w)
    out.append(fp_line(nw, ne, "F.Fab", w))
    out.append(fp_line(ne, se, "F.Fab", w))
    out.append(fp_line(se, (se[0]-1, se[1]), "F.Fab", w))
    out.append(fp_line((se[0]-1, se[1]), (se[0]-1, se[1]-2.2), "F.Fab", w))
    out.append(fp_line((se[0]-1, se[1]-2.2), (sw[0]+1, sw[1]-2.2), "F.Fab", w))
    out.append(fp_line(nw, sw, "F.Fab", w))
    out.append(fp_line(sw, (sw[0]+1, sw[1]), "F.Fab", w))
    out.append(fp_line((sw[0]+1, sw[1]), (sw[0]+1, sw[1]-2.2), "F.Fab", w))

    # Draw the pins
    x = 1.25*(pins - 1)
    for pin in range(pins):
        sq = draw_square(0.5, 0.75, (x, -0.125), "F.Fab", fab_width)
        out += sq[4]
        out.append(fp_line((x-.25, -.25), (x+.25, -.25), "F.Fab", fab_width))
        x -= 2.5
    return out
Ejemplo n.º 39
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def side_smd_silk(pins):
    out = []
    w = silk_width
    l = "F.SilkS"
    nw, ne, se, sw, _ = draw_square(2*pins+4, 8.9, (0, -3.5), l, w)
    out.append(fp_line(nw, (nw[0]+3, nw[1]), l, w))
    out.append(fp_line((nw[0]+3, nw[1]), (nw[0]+3, nw[1]+1.4), l, w))
    out.append(fp_line((nw[0]+3, nw[1]+1.4), (ne[0]-3, ne[1]+1.4), l, w))
    out.append(fp_line((ne[0]-3, ne[1]+1.4), (ne[0]-3, ne[1]), l, w))
    out.append(fp_line((ne[0]-3, ne[1]), ne, l, w))
    out.append(fp_line(ne, (ne[0], ne[1]+2.8-w), l, w))
    out.append(fp_line(nw, (nw[0], nw[1]+2.8-w), l, w))
    out.append(fp_line(se, (se[0], se[1]-2.3+w), l, w))
    out.append(fp_line(se, (se[0]-1.8, se[1]), l, w))
    out.append(fp_line(sw, (sw[0], sw[1]-2.3+w), l, w))
    out.append(fp_line(sw, (sw[0]+1.8, sw[1]), l, w))
    return out
Ejemplo n.º 40
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def side_smd_silk(pins):
    out = []
    w = silk_width
    l = "F.SilkS"
    nw, ne, se, sw, _ = draw_square(2 * pins + 4, 8.9, (0, -3.5), l, w)
    out.append(fp_line(nw, (nw[0] + 3, nw[1]), l, w))
    out.append(fp_line((nw[0] + 3, nw[1]), (nw[0] + 3, nw[1] + 1.4), l, w))
    out.append(
        fp_line((nw[0] + 3, nw[1] + 1.4), (ne[0] - 3, ne[1] + 1.4), l, w))
    out.append(fp_line((ne[0] - 3, ne[1] + 1.4), (ne[0] - 3, ne[1]), l, w))
    out.append(fp_line((ne[0] - 3, ne[1]), ne, l, w))
    out.append(fp_line(ne, (ne[0], ne[1] + 2.8 - w), l, w))
    out.append(fp_line(nw, (nw[0], nw[1] + 2.8 - w), l, w))
    out.append(fp_line(se, (se[0], se[1] - 2.3 + w), l, w))
    out.append(fp_line(se, (se[0] - 1.8, se[1]), l, w))
    out.append(fp_line(sw, (sw[0], sw[1] - 2.3 + w), l, w))
    out.append(fp_line(sw, (sw[0] + 1.8, sw[1]), l, w))
    return out
Ejemplo n.º 41
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def ctyd(conf):
    row_pitch = conf['row_pitch']
    pad_w, pad_h = conf['pad_shape']
    chip_w, chip_h = conf['chip_shape']

    width = row_pitch + pad_w + 2 * ctyd_gap
    if conf['rows'] == 2:
        height = chip_h + 2 * ctyd_gap
    elif conf['rows'] == 4:
        height = width

    # Ensure courtyard lies on a specified grid
    # (double the grid since we halve the width/height)
    grid = 2 * ctyd_grid
    width = grid * int(math.ceil(width / (2 * ctyd_grid)))
    height = grid * int(math.ceil(height / (2 * ctyd_grid)))

    _, _, _, _, sq = draw_square(width, height, (0, 0), "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 42
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def ctyd(conf):
    row_pitch = conf['row_pitch']
    pad_w, pad_h = conf['pad_shape']
    chip_w, chip_h = conf['chip_shape']

    width = row_pitch + pad_w + 2 * ctyd_gap
    if conf['rows'] == 2:
        height = chip_h + 2 * ctyd_gap
    elif conf['rows'] == 4:
        height = width

    # Ensure courtyard lies on a specified grid
    # (double the grid since we halve the width/height)
    grid = 2*ctyd_grid
    width = grid * int(math.ceil(width / (2*ctyd_grid)))
    height = grid * int(math.ceil(height / (2*ctyd_grid)))

    _, _, _, _, sq = draw_square(width, height, (0, 0), "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 43
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def ctyd(conf):
    """Draw a courtyard around the part."""
    gap = conf.get('courtyard_gap', ctyd_gap)

    # Compute width and height of courtyard
    width = max(conf['pad_shape'][0] + conf['pitch'], conf['chip_shape'][0])
    height = max(conf['pad_shape'][1], conf['chip_shape'][1])

    width += 2 * gap
    height += 2 * gap

    # Ensure courtyard lies on a specified grid
    # (double the grid since we halve the width/height)
    grid = 2*ctyd_grid
    width = grid * int(math.ceil(width / (2*ctyd_grid)))
    height = grid * int(math.ceil(height / (2*ctyd_grid)))

    # Render courtyard
    _, _, _, _, sq = draw_square(width, height, (0, 0), "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 44
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def ctyd(conf):
    """Draw a courtyard around the part."""
    gap = conf.get('courtyard_gap', ctyd_gap)

    # Compute width and height of courtyard
    width = max(conf['pad_shape'][0] + conf['pitch'], conf['chip_shape'][0])
    height = max(conf['pad_shape'][1], conf['chip_shape'][1])

    width += 2 * gap
    height += 2 * gap

    # Ensure courtyard lies on a specified grid
    # (double the grid since we halve the width/height)
    grid = 2*ctyd_grid
    width = grid * int(math.ceil(width / (2*ctyd_grid)))
    height = grid * int(math.ceil(height / (2*ctyd_grid)))

    # Render courtyard
    _, _, _, _, sq = draw_square(width, height, (0, 0), "F.CrtYd", ctyd_width)
    return sq
Ejemplo n.º 45
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def internal_silk(conf):
    """
    Generate an internal silkscreen, with an outline of the part and a pin1
    indicator.
    """
    out = []

    pins = conf['pins']
    rows = conf['rows']
    pin_pitch = conf['pin_pitch']
    row_pitch = conf['row_pitch']
    pad_shape = conf['pad_shape']

    width = row_pitch - pad_shape[0] - 2 * silk_pad_igap
    if rows == 2:
        height = (((pins / rows) - 1) * pin_pitch)
    elif rows == 4:
        height = width

    ir = silk_pin1_ir
    if ir > width:
        ir = width

    c = (0, 0)
    layer = "F.SilkS"
    nw, ne, se, sw, sq = draw_square(width, height, c, layer, silk_width)
    out.append(fp_line((nw[0] + ir, nw[1]), ne, layer, silk_width))
    out.append(fp_line(ne, se, layer, silk_width))
    out.append(fp_line(se, sw, layer, silk_width))
    out.append(fp_line(sw, (nw[0], nw[1] + ir), layer, silk_width))
    start = (nw[0], nw[1] + ir)
    end = (nw[0] + ir, nw[1])
    out.append(fp_line(start, end, "F.SilkS", silk_width))

    # Old circular pin1 indicator:
    # out += sq
    # start = nw
    # end = (start[0] + silk_pin1_ir, start[1])
    # out.append(fp_arc(start, end, 90, "F.SilkS", silk_width))

    return out
Ejemplo n.º 46
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def internal_silk(conf):
    """
    Generate an internal silkscreen, with an outline of the part and a pin1
    indicator.
    """
    out = []

    pins = conf['pins']
    rows = conf['rows']
    pin_pitch = conf['pin_pitch']
    row_pitch = conf['row_pitch']
    pad_shape = conf['pad_shape']

    width = row_pitch - pad_shape[0] - 2 * silk_pad_igap
    if rows == 2:
        height = (((pins / rows) - 1) * pin_pitch)
    elif rows == 4:
        height = width

    ir = silk_pin1_ir
    if ir > width:
        ir = width

    c = (0, 0)
    layer = "F.SilkS"
    nw, ne, se, sw, sq = draw_square(width, height, c, layer, silk_width)
    out.append(fp_line((nw[0] + ir, nw[1]), ne, layer, silk_width))
    out.append(fp_line(ne, se, layer, silk_width))
    out.append(fp_line(se, sw, layer, silk_width))
    out.append(fp_line(sw, (nw[0], nw[1] + ir), layer, silk_width))
    start = (nw[0], nw[1] + ir)
    end = (nw[0] + ir, nw[1])
    out.append(fp_line(start, end, "F.SilkS", silk_width))

    # Old circular pin1 indicator:
    # out += sq
    # start = nw
    # end = (start[0] + silk_pin1_ir, start[1])
    # out.append(fp_arc(start, end, 90, "F.SilkS", silk_width))

    return out
Ejemplo n.º 47
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def sfml_fab(pins):
    out = []
    l = "F.Fab"
    w = fab_width
    a_x = (3.94 - 0.38) / 2.0
    a_y = (3.05 - 1.52) / 2.0
    nw, ne, se, sw, _ = draw_square(
        pins * 1.27 + 0.38, 3.05, (0, 0), l, w)
    out.append(fp_line(nw, ne, l, w))
    out.append(fp_line(ne, (ne[0], ne[1]+a_y), l, w))
    out.append(fp_line((ne[0], ne[1]+a_y), (ne[0]+a_x, ne[1]+a_y), l, w))
    out.append(fp_line((ne[0]+a_x, ne[1]+a_y), (se[0]+a_x, se[1]-a_y), l, w))
    out.append(fp_line((se[0]+a_x, se[1]-a_y), (se[0], se[1]-a_y), l, w))
    out.append(fp_line((se[0], se[1]-a_y), se, l, w))
    out.append(fp_line(se, sw, l, w))
    out.append(fp_line(sw, (sw[0], sw[1]-a_y), l, w))
    out.append(fp_line((sw[0], sw[1]-a_y), (sw[0]-a_x, sw[1]-a_y), l, w))
    out.append(fp_line((sw[0]-a_x, sw[1]-a_y), (nw[0]-a_x, nw[1]+a_y), l, w))
    out.append(fp_line((nw[0]-a_x, nw[1]+a_y), (nw[0], nw[1]+a_y), l, w))
    out.append(fp_line((nw[0], nw[1]+a_y), nw, l, w))
    return out
Ejemplo n.º 48
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def sfml_fab(pins):
    out = []
    l = "F.Fab"
    w = fab_width
    a_x = (3.94 - 0.38) / 2.0
    a_y = (3.05 - 1.52) / 2.0
    nw, ne, se, sw, _ = draw_square(
        pins * 1.27 + 0.38, 3.05, (0, 0), l, w)
    out.append(fp_line(nw, ne, l, w))
    out.append(fp_line(ne, (ne[0], ne[1]+a_y), l, w))
    out.append(fp_line((ne[0], ne[1]+a_y), (ne[0]+a_x, ne[1]+a_y), l, w))
    out.append(fp_line((ne[0]+a_x, ne[1]+a_y), (se[0]+a_x, se[1]-a_y), l, w))
    out.append(fp_line((se[0]+a_x, se[1]-a_y), (se[0], se[1]-a_y), l, w))
    out.append(fp_line((se[0], se[1]-a_y), se, l, w))
    out.append(fp_line(se, sw, l, w))
    out.append(fp_line(sw, (sw[0], sw[1]-a_y), l, w))
    out.append(fp_line((sw[0], sw[1]-a_y), (sw[0]-a_x, sw[1]-a_y), l, w))
    out.append(fp_line((sw[0]-a_x, sw[1]-a_y), (nw[0]-a_x, nw[1]+a_y), l, w))
    out.append(fp_line((nw[0]-a_x, nw[1]+a_y), (nw[0], nw[1]+a_y), l, w))
    out.append(fp_line((nw[0], nw[1]+a_y), nw, l, w))
    return out
Ejemplo n.º 49
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def sfml_silk(pins):
    out = []
    l = "F.SilkS"
    w = silk_width
    a_x = (3.94 - 0.38) / 2.0
    a_y = (3.05 - 1.52) / 2.0
    nw, ne, se, sw, _ = draw_square(
        pins * 1.27 + 0.38 - w, 3.05 - w, (0, 0), l, w)

    out.append(fp_line(ne, (ne[0], ne[1]+a_y), l, w))
    out.append(fp_line((ne[0], ne[1]+a_y), (ne[0]+a_x, ne[1]+a_y), l, w))
    out.append(fp_line((ne[0]+a_x, ne[1]+a_y), (se[0]+a_x, se[1]-a_y), l, w))
    out.append(fp_line((se[0]+a_x, se[1]-a_y), (se[0], se[1]-a_y), l, w))
    out.append(fp_line((se[0], se[1]-a_y), se, l, w))
    out.append(fp_line(se, (se[0]-0.3, se[1]), l, w))

    out.append(fp_line((sw[0]+0.3, sw[1]), sw, l, w))
    out.append(fp_line(sw, (sw[0], sw[1]-a_y), l, w))
    out.append(fp_line((sw[0], sw[1]-a_y), (sw[0]-a_x, sw[1]-a_y), l, w))
    out.append(fp_line((sw[0]-a_x, sw[1]-a_y), (nw[0]-a_x, nw[1]+a_y), l, w))
    out.append(fp_line((nw[0]-a_x, nw[1]+a_y), (nw[0], nw[1]+a_y), l, w))
    out.append(fp_line((nw[0], nw[1]+a_y), nw, l, w))
    return out
Ejemplo n.º 50
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def tfml_fab(pins):
    _, _, _, _, sq = draw_square(
        pins * 1.27 + 3.18, 5.72, (0, 0), "F.Fab", fab_width)
    return sq
Ejemplo n.º 51
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def internal_silk(conf):
    """Draw internal silkscreen."""
    w = conf['pitch'] - conf['pad_shape'][0] - 2*silk_pad_igap
    h = conf['chip_shape'][1] - silk_width
    _, _, _, _, sq = draw_square(w, h, (0, 0), "F.SilkS", silk_width)
    return sq
Ejemplo n.º 52
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def top_pth_silk(pins):
    s = draw_square(2*(pins-1)+4, 5.3, (0, 0), "F.SilkS", silk_width)
    return s[4]
Ejemplo n.º 53
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def sil_silk(pins):
    _, _, _, _, sq = draw_square(pins * 2.54, 2.54, (0, 0), "F.SilkS",
                                 silk_width)
    return sq
Ejemplo n.º 54
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def kk_fab(pins):
    w = fab_width
    nw, ne, se, sw, sq = draw_square(pins * 2.54, 6.35, (0, 0), "F.Fab", w)
    sq.append(fp_line((nw[0], nw[1] + 2.0), (ne[0], ne[1] + 2.0), "F.Fab", w))
    return sq
Ejemplo n.º 55
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def fab(pins, h):
    _, _, _, _, sq = draw_square(pins * 2.54, h, (0, 0), "F.Fab", fab_width)
    return sq
Ejemplo n.º 56
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def internal_silk(conf):
    """Draw internal silkscreen."""
    w = conf['pitch'] - conf['pad_shape'][0] - 2*silk_pad_igap
    h = conf['chip_shape'][1] - silk_width
    _, _, _, _, sq = draw_square(w, h, (0, 0), "F.SilkS", silk_width)
    return sq
Ejemplo n.º 57
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def sil_silk(pins):
    _, _, _, _, sq = draw_square(
        pins * 2.54, 2.54, (0, 0), "F.SilkS", silk_width)
    return sq
Ejemplo n.º 58
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def dil_fab(pins):
    _, _, _, _, sq = draw_square(
        pins * 2.54, 2*2.54, (0, 0), "F.Fab", fab_width)
    return sq