261 lines
10 KiB
Python
261 lines
10 KiB
Python
# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
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# MA 02110-1301, USA.
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#
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from __future__ import division
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import pcbnew
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import pcbnew
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import FootprintWizardBase
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import PadArray as PA
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class QFNWizard(FootprintWizardBase.FootprintWizard):
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def GetName(self):
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return "QFN"
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def GetDescription(self):
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return "Quad Flat No-lead (QFN) footprint wizard"
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def GenerateParameterList(self):
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self.AddParam("Pads", "nx", self.uInteger, 25)
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self.AddParam("Pads", "ny", self.uInteger, 25, min_value=1)
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self.AddParam("Pads", "pitch", self.uMM, 0.4, designator='e')
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self.AddParam("Pads", "width", self.uMM, 0.2, designator='X1')
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self.AddParam("Pads", "length", self.uMM, 0.75, designator='Y1')
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self.AddParam("Pads", "offset", self.uMM, 0.0)
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self.AddParam("Pads", "oval", self.uBool, True)
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self.AddParam("EPad", "epad", self.uBool, True)
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self.AddParam("EPad", "width", self.uMM, 10, designator="E2")
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self.AddParam("EPad", "length", self.uMM, 10, designator="D2")
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self.AddParam("EPad", "thermal vias", self.uBool, False)
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self.AddParam("EPad", "thermal vias drill", self.uMM, 0.6, min_value=0.1)
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self.AddParam("EPad", "x divisions", self.uInteger, 4, min_value=1)
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self.AddParam("EPad", "y divisions", self.uInteger, 4, min_value=1)
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self.AddParam("EPad", "paste margin", self.uMM, 0.75)
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self.AddParam("Package", "width", self.uMM, 14, designator='E')
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self.AddParam("Package", "height", self.uMM, 14, designator='D')
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self.AddParam("Package", "margin", self.uMM, 0.25, minValue=0.2)
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@property
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def pads(self):
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return self.parameters['Pads']
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@property
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def epad(self):
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return self.parameters['EPad']
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@property
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def package(self):
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return self.parameters['Package']
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def CheckParameters(self):
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pass
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def GetValue(self):
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return "QFN-{n}_{ep}{x:g}x{y:g}_Pitch{p:g}mm".format(
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n = (self.pads['nx'] + self.pads['ny']) * 2,
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ep = "EP_" if self.epad['epad'] else '',
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x = pcbnew.ToMM(self.package['width']),
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y = pcbnew.ToMM(self.package['height']),
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p = pcbnew.ToMM(self.pads['pitch'])
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)
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def BuildThisFootprint(self):
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pad_pitch = self.pads["pitch"]
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pad_length = self.pads["length"]
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# offset allows one to define how much of the pad is outside of the package
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pad_offset = self.pads["offset"]
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pad_width = self.pads["width"]
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v_pitch = self.package["height"]
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h_pitch = self.package["width"]
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v_pads_per_row = int(self.pads["ny"])
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h_pads_per_row = int(self.pads["nx"])
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v_row_len = (v_pads_per_row - 1) * pad_pitch
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h_row_len = (h_pads_per_row - 1) * pad_pitch
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pad_shape = pcbnew.PAD_SHAPE_OVAL if self.pads["oval"] else pcbnew.PAD_SHAPE_RECT
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h_pad = PA.PadMaker(self.module).SMDPad( pad_length, pad_width,
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shape=pad_shape, rot_degree=90.0)
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v_pad = PA.PadMaker(self.module).SMDPad( pad_length, pad_width, shape=pad_shape)
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h_pitch = (int)(h_pitch / 2 - pad_length + pad_offset + pad_length/2)
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v_pitch = (int)(v_pitch / 2 - pad_length + pad_offset + pad_length/2)
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#left row
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pin1Pos = pcbnew.VECTOR2I( -h_pitch, 0)
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array = PA.PadLineArray(h_pad, v_pads_per_row, pad_pitch, True, pin1Pos)
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array.SetFirstPadInArray(1)
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array.AddPadsToModule(self.draw)
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#bottom row
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pin1Pos = pcbnew.VECTOR2I(0, v_pitch)
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array = PA.PadLineArray(v_pad, h_pads_per_row, pad_pitch, False, pin1Pos)
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array.SetFirstPadInArray(v_pads_per_row + 1)
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array.AddPadsToModule(self.draw)
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#right row
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pin1Pos = pcbnew.VECTOR2I(h_pitch, 0)
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array = PA.PadLineArray(h_pad, v_pads_per_row, -pad_pitch, True,
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pin1Pos)
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array.SetFirstPadInArray(v_pads_per_row + h_pads_per_row + 1)
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array.AddPadsToModule(self.draw)
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#top row
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pin1Pos = pcbnew.VECTOR2I(0, -v_pitch)
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array = PA.PadLineArray(v_pad, h_pads_per_row, -pad_pitch, False,
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pin1Pos)
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array.SetFirstPadInArray(2*v_pads_per_row + h_pads_per_row + 1)
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array.AddPadsToModule(self.draw)
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lim_x = self.package["width"] / 2
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lim_y = self.package["height"] / 2
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# epad
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epad_width = self.epad["width"]
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epad_length = self.epad["length"]
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aper_pad_ny = self.epad["x divisions"]
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aper_pad_nx = self.epad["y divisions"]
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epad_via_drill = self.epad["thermal vias drill"]
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# Create a central exposed pad?
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if self.epad['epad'] == True:
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epad_num = (self.pads['nx'] + self.pads['ny']) * 2 + 1
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aper_pad_w = epad_length / aper_pad_nx
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aper_pad_l = epad_width / aper_pad_ny
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paste_margin = self.epad['paste margin']
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if paste_margin >= aper_pad_w:
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paste_margin = aper_pad_w -1
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if paste_margin >= aper_pad_l:
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paste_margin = aper_pad_l -1
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# Create the epad
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aperture_pad = PA.PadMaker(self.module).AperturePad( aper_pad_w-paste_margin, aper_pad_l-paste_margin,
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shape=pcbnew.PAD_SHAPE_RECT )
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epad = PA.PadMaker(self.module).SMDPad( epad_length, epad_width,
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shape=pcbnew.PAD_SHAPE_RECT )
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# set pad layers
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layers = pcbnew.LSET(pcbnew.F_Mask)
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layers.AddLayer( pcbnew.F_Cu )
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epad.SetLayerSet( layers )
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epad.SetPosition( pcbnew.VECTOR2I(0,0) )
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epad.SetName( epad_num )
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self.module.Add( epad )
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array = PA.EPADGridArray( aperture_pad, aper_pad_ny, aper_pad_nx, aper_pad_l, aper_pad_w, pcbnew.VECTOR2I(0,0) )
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array.AddPadsToModule(self.draw)
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if self.epad['thermal vias']:
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# create the thermal via
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via_diam = min(aper_pad_w, aper_pad_l) / 2
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via_drill = min(via_diam / 2, epad_via_drill)
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via = PA.PadMaker(self.module).THRoundPad(via_diam, via_drill)
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layers = pcbnew.LSET.AllCuMask()
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layers.AddLayer(pcbnew.B_Mask)
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layers.AddLayer(pcbnew.F_Mask)
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via.SetLayerSet(layers)
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# thermal pads are placed between aperture pads.
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# so the number of thermal pads is aper_pad_ny-1 and aper_pad_nx-1 because
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#there are aper_pad_nx and aper_pad_nx apertures
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via_array = PA.EPADGridArray( via, aper_pad_ny-1, aper_pad_nx-1, aper_pad_l, aper_pad_w,
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pcbnew.VECTOR2I( 0, 0 ) )
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via_array.SetFirstPadInArray(epad_num)
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via_array.AddPadsToModule(self.draw)
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# Draw the package outline on the F.Fab layer
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bevel = min( pcbnew.FromMM(1.0), self.package['width']/2, self.package['height']/2 )
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self.draw.SetLayer(pcbnew.F_Fab)
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w = self.package['width']
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h = self.package['height']
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self.draw.BoxWithDiagonalAtCorner(0, 0, w, h, bevel)
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# Silkscreen
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self.draw.SetLayer( pcbnew.F_SilkS )
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offset = self.draw.GetLineThickness()
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h_clip = h_row_len / 2 + self.pads['pitch']
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v_clip = v_row_len / 2 + self.pads['pitch']
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self.draw.SetLineThickness( pcbnew.FromMM( 0.12 ) ) #Default per KLC F5.1 as of 12/2018
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if h_pads_per_row > 0:
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self.draw.Polyline( [ [ h_clip, -h/2-offset], [ w/2+offset,-h/2-offset], [ w/2+offset, -v_clip] ] ) # top right
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self.draw.Polyline( [ [ h_clip, h/2+offset], [ w/2+offset, h/2+offset], [ w/2+offset, v_clip] ] ) # bottom right
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self.draw.Polyline( [ [-h_clip, h/2+offset], [-w/2-offset, h/2+offset], [-w/2-offset, v_clip] ] ) # bottom left
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# Add pin-1 indication as per IPC-7351C
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self.draw.Line( -h_clip, -h/2-offset, -w/2-pad_length/2, -h/2-offset )
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else:
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self.draw.Polyline( [ [-w/2-offset, v_clip], [-w/2-offset, h/2+offset], [ w/2+offset, h/2+offset],
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[ w/2+offset, v_clip] ] ) # bottom
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# Add pin-1 indication as per IPC-7351C
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self.draw.Polyline( [ [-h/2-offset, -h/2-offset], [ w/2+offset,-h/2-offset], [ w/2+offset, -v_clip] ] )
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self.draw.SetLineThickness( offset ) #Restore default
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# Courtyard
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cmargin = self.package["margin"]
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self.draw.SetLayer(pcbnew.F_CrtYd)
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sizex = (lim_x + cmargin) * 2 + pad_length
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sizey = (lim_y + cmargin) * 2 + pad_length
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# round size to nearest 0.1mm, rectangle will thus land on a 0.05mm grid
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sizex = pcbnew.PutOnGridMM(sizex, 0.1)
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sizey = pcbnew.PutOnGridMM(sizey, 0.1)
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# set courtyard line thickness to the one defined in KLC
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thick = self.draw.GetLineThickness()
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self.draw.SetLineThickness(pcbnew.FromMM(0.05))
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self.draw.Box(0, 0, sizex, sizey)
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# restore line thickness to previous value
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self.draw.SetLineThickness(pcbnew.FromMM(thick))
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#reference and value
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text_size = self.GetTextSize() # IPC nominal
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text_offset = sizey / 2 + text_size
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self.draw.Value(0, text_offset, text_size)
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self.draw.Reference(0, -text_offset, text_size)
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# set SMD attribute
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self.module.SetAttributes(pcbnew.FP_SMD)
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QFNWizard().register()
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