submodular/SN-L00
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SN-L00/hardware/kicad/scripts/place_6hp.py
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florian.berthold d43c7976ad Add panel-to-PCB mounting system with M3 standoffs 
Panel alignment:
- PCB offset 10mm from panel top
- Component holes aligned: OLED@25mm, jacks@45mm, button@58mm
- 4x M3 standoff holes at corners (5,5), (35,5), (5,75), (35,75)

Updates:
- Panel SVG and spec aligned with PCB layout
- Mounting holes added to PCB (Edge.Cuts layer)
- Regenerated Gerbers with mounting holes
- Updated autoroute.py to add mounting holes automatically

DRC: 0 unconnected, 7 cosmetic errors (courtyard overlaps)
2026-01-23 08:15:25 +01:00

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#!/usr/bin/env python3
"""
SN-L00 Component Placement Script for 6HP Eurorack
Board at origin (0,0) to (28,100)
Run in KiCad PCB Editor: Tools → Scripting Console
Then: exec(open('scripts/place_6hp.py').read())
"""
import pcbnew
board = pcbnew.GetBoard()
def mm(val):
return pcbnew.FromMM(val)
def place(x, y):
return pcbnew.VECTOR2I(mm(x), mm(y))
# Component positions for 6HP (28mm x 100mm) layout
# Board origin at (0,0), components placed relative to that
placements = {
# Top - OLED display (rotated 90°, 13mm wide when rotated)
"MOD3": (14, 18, 90),
# Audio jacks
"J3": (7, 40, 0), # RETURN_IN
"J4": (21, 40, 0), # TRIG_OUT
# Button
"SW1": (14, 54, 0),
# RP2040-Zero module
"MOD2": (14, 70, 0),
# Signal conditioning ICs
"U2": (6, 85, 0), # 74LVC1G17
"U4": (22, 85, 0), # MCP6001
# Resistors
"R2": (3, 90, 0),
"R3": (7, 90, 0),
"R4": (11, 90, 0),
"R5": (15, 90, 0),
"R6": (19, 90, 0),
"R7": (23, 90, 0),
# Decoupling caps
"C4": (3, 85, 90),
"C5": (11, 85, 90),
"C6": (25, 85, 90),
# LED
"D5": (25, 90, 0),
# Protection diodes
"D3": (6, 94, 0),
"D4": (22, 94, 0),
# Power section
"J2": (14, 94, 0), # Eurorack power header
"D2": (3, 94, 90), # Protection diode
"U3": (25, 94, 180), # LDO - moved right
"C2": (3, 90, 90), # Input cap
"C3": (25, 90, 90), # Output cap - moved right
}
print("Placing components for 6HP Eurorack layout...")
placed = 0
not_found = []
for ref, (x, y, rot) in placements.items():
fp = board.FindFootprintByReference(ref)
if fp:
fp.SetPosition(place(x, y))
fp.SetOrientationDegrees(rot)
placed += 1
print(f" {ref} -> ({x}, {y}) rot={rot}°")
else:
not_found.append(ref)
print(f"\nPlaced {placed} components")
if not_found:
print(f"Not found: {', '.join(not_found)}")
pcbnew.Refresh()
print("\nDone! Save (Ctrl+S), then export DSN for routing.")
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