259 lines
8.6 KiB
Python
259 lines
8.6 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 FootprintWizardBase
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import PadArray as PA
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class RowedGridArray(PA.PadGridArray):
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def __init__(self, *args, **kwargs):
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super(RowedGridArray, self).__init__(*args, **kwargs)
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def NamingFunction(self, x, y):
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pad_cnt = self.nx*self.ny
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if self.ny == 1:
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return x+1
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if (y % 2) == 0: # upper row, count down
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return pad_cnt-x
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else: # lower row, count up
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return x+1
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class RowedFootprint(FootprintWizardBase.FootprintWizard):
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pad_count_key = 'pad count'
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row_count_key = 'row count'
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row_spacing_key = 'row spacing'
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pad_length_key = 'pad length'
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pad_width_key = 'pad width'
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pad_pitch_key = 'pad pitch'
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silkscreen_inside_key = 'silk screen inside'
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outline_x_margin_key = 'outline x margin'
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outline_y_margin_key = 'outline y margin'
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def GenerateParameterList(self):
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# defaults for a DIP package
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self.AddParam("Pads", self.pad_count_key, self.uInteger, 24)
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self.AddParam("Pads", self.row_count_key, self.uInteger, 2, min_value=1, max_value=2)
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self.AddParam("Body", self.silkscreen_inside_key, self.uBool, False)
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self.AddParam("Body", self.outline_x_margin_key, self.uMM, 0.5)
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self.AddParam("Body", self.outline_y_margin_key, self.uMM, 0.5)
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def CheckParameters(self):
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self.CheckParam("Pads", self.pad_count_key, multiple=self.parameters['Pads'][self.row_count_key], info='Pads must be multiple of row count')
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def BuildThisFootprint(self):
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pads = self.parameters["Pads"]
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body = self.parameters["Body"]
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num_pads = pads[self.pad_count_key]
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pad_length = pads[self.pad_length_key]
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pad_width = pads[self.pad_width_key]
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row_pitch = pads[self.row_spacing_key]
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pad_pitch = pads[self.pad_pitch_key]
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num_rows = pads[self.row_count_key]
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pads_per_row = num_pads // num_rows
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# add in the pads
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pad = self.GetPad()
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array = RowedGridArray(pad, pads_per_row, num_rows, pad_pitch, row_pitch)
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array.AddPadsToModule(self.draw)
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# draw the Silk Screen
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Hsize = pad_pitch * (num_pads / num_rows - 1)
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Vsize = row_pitch * (num_rows - 1)
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pin1_posY = -Vsize / 2
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pin1_posX = -Hsize / 2
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pad_length = pads[self.pad_length_key]
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pad_width = pads[self.pad_width_key]
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ssx_offset = -pad_width / 2 - body[self.outline_x_margin_key]
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ssy_offset = -pad_length / 2 - body[self.outline_y_margin_key]
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if body[self.silkscreen_inside_key]:
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ssy_offset *= -1
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ssx = -pin1_posX - ssx_offset
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ssy = -pin1_posY - ssy_offset
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self.DrawBox(ssx, ssy)
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# Courtyard
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cmargin = self.draw.GetLineThickness()
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self.draw.SetLayer(pcbnew.F_CrtYd)
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sizex = (ssx + cmargin) * 2
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sizey = (ssy + cmargin) * 2
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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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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(cmargin))
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#reference and value
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text_size = self.GetTextSize() # IPC nominal
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if num_rows == 1:
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text_py = ssy + text_size
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self.draw.Value(0, -text_py, text_size)
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self.draw.Reference(0, text_py, text_size)
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else:
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text_px = ssx + text_size
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# self.draw.Value(text_px, 0, text_size, orientation_degree=90)
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self.draw.Value(0, 0, text_size)
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self.draw.Reference(-text_px, 0, text_size, orientation_degree=90)
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# set the attribute
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if self.GetName() == "S-DIP":
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self.module.SetAttributes(pcbnew.MOD_DEFAULT)
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elif self.GetName() == "SOIC":
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self.module.SetAttributes(pcbnew.MOD_CMS)
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class SDIPWizard(RowedFootprint):
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def GetName(self):
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return "S-DIP"
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def GetDescription(self):
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return "Single/Dual Inline Package Footprint Wizard"
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def GenerateParameterList(self):
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RowedFootprint.GenerateParameterList(self)
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self.AddParam("Pads", self.pad_pitch_key, self.uMM, 2.54)
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self.AddParam("Pads", self.pad_width_key, self.uMM, 1.2)
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self.AddParam("Pads", self.pad_length_key, self.uMM, 2)
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self.AddParam("Pads", self.row_spacing_key, self.uMM, 7.52)
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self.AddParam("Pads", "drill size", self.uMM, 0.8)
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def GetValue(self):
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pads = self.parameters["Pads"]
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rows = pads[self.row_count_key]
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pad_count = pads[self.pad_count_key]
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row_dist_mil = pcbnew.Iu2Mils(int(self.parameters["Pads"][self.row_spacing_key])) #int(self.parameters["Pads"][self.row_spacing_key] / 2.54 * 100)
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pad_shape = ""
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if pads[self.pad_width_key] != pads[self.pad_length_key]:
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pad_shape = '_ELL'
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if rows == 1:
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name = "SIP"
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return "%s-%d" % (name, pad_count)
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name = "DIP"
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return "%s-%d_%d%s" % (name, pad_count, row_dist_mil, pad_shape)
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def GetPad(self):
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pad_length = self.parameters["Pads"][self.pad_length_key]
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pad_width = self.parameters["Pads"][self.pad_width_key]
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drill = self.parameters["Pads"]["drill size"]
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shape = pcbnew.PAD_SHAPE_CIRCLE
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if pad_length != pad_width:
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shape = pcbnew.PAD_SHAPE_OVAL
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return PA.PadMaker(self.module).THPad(
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pad_length, pad_width, drill, shape=shape)
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def DrawBox(self, ssx, ssy):
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if self.parameters["Pads"][self.row_count_key] == 2:
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# ----------
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# |8 7 6 5 |
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# > |
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# |1 2 3 4 |
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# ----------
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# draw the notch
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notchWidth = ssy/1.5
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notchHeight = self.draw.GetLineThickness()*3
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# NotchedBox draws the notch on top. Rotate the box 90 degrees
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# to have it on the left
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self.draw.NotchedBox(0, 0, ssy*2, ssx*2, notchWidth, notchHeight, -90)
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else:
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# -----------------
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# |1|2 3 4 5 6 7 8|
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# -----------------
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self.draw.Box(0, 0, ssx*2, ssy*2)
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#line between pin1 and pin2
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pad_pitch = self.parameters["Pads"][self.pad_pitch_key]
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pad_cnt = self.parameters["Pads"][self.pad_count_key]
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line_x = ( pad_cnt/2 - 1) * pad_pitch
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self.draw.VLine(-line_x, -ssy, ssy * 2)
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return ssx, ssy
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SDIPWizard().register()
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class SOICWizard(RowedFootprint):
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def GetName(self):
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return "SOIC"
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def GetDescription(self):
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return "SOIC, MSOP, SSOP, TSSOP, etc, footprint wizard"
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def GetValue(self):
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pad_count = self.parameters["Pads"][self.pad_count_key]
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return "%s-%d" % ("SOIC", pad_count)
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def GenerateParameterList(self):
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RowedFootprint.GenerateParameterList(self)
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#and override some of them
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self.AddParam("Pads", self.pad_pitch_key, self.uMM, 1.27)
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self.AddParam("Pads", self.pad_width_key, self.uMM, 0.6)
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self.AddParam("Pads", self.pad_length_key, self.uMM, 2.2)
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self.AddParam("Pads", self.row_spacing_key, self.uMM, 5.2)
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def GetPad(self):
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pad_length = self.parameters["Pads"][self.pad_length_key]
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pad_width = self.parameters["Pads"][self.pad_width_key]
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return PA.PadMaker(self.module).SMDPad(
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pad_length, pad_width, shape=pcbnew.PAD_SHAPE_RECT)
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def DrawBox(self, ssx, ssy):
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# ----------
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# |8 7 6 5 |
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# |1 2 3 4 |
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# \---------
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setback = pcbnew.FromMM(0.8)
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if setback > ssy:
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setback = ssy
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self.draw.BoxWithDiagonalAtCorner(0, 0, ssx*2, ssy*2, setback, self.draw.flipY)
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SOICWizard().register()
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