@@ -59,10 +59,10 @@
-To ease laying out the board, we create a net lsit by drawing rats. +To ease laying out the board, we create a net list by drawing rats. Rat lines are logical connections between terminals. A terminal is a pin or pad of a component, addressed as refdes-termid, where -refdes is the host subcircuit's refdes and termid is the unique temrinal +refdes is the host subcircuit's refdes and termid is the unique terminal ID within the subc. The drawing already has unique refdes assigned to each subc and the stock footprints we worked from already have unique terminal IDs. @@ -74,7 +74,7 @@ terminal for a few seconds1.
Select the Rats layer on the left - it is part of the "Virtual" layer -group on the bottom. Select the line tool on the overhead toolbard +group on the bottom. Select the line tool on the overhead toolbar (second icon from the left).
Start drawing a line from J1's terminal 2 (the round one) by left-clicking it. @@ -117,8 +117,8 @@
Start drawing a line from J1-1 with left click. The line will bend in 45 degrees. You can press the shift key and move the mouse to invert -the refraction temporarily, or use the slash key to cycle through differen -refractions (including the ortho mode, which allows 90 degree lines only). +the refraction temporarily, or use the slash key to cycle through different +refraction (including the ortho mode, which allows 90 degree lines only). With 2..3 clicks, connect J1-1 and C3's '+' pin.
Now that one of the logical connections is turned to copper, press {c r} @@ -180,7 +180,7 @@
We've been drawing the board from looking at it from the top, with -'x-ray vision', seeing all copper on the bottom. Once the board is fabbed, +'x-ray vision', seeing all copper on the bottom. Once the board is fabricated, this is not how we'll see it.
It is possible to flip the board using the tab key, to get a bottom view.