Altium designer 18 region to pad
![altium designer 18 region to pad altium designer 18 region to pad](http://images.elektroda.net/92_1307554760.png)
They will detect unplated holes in the Gerber data and automatically convert these to post plate step. NON-ISSUE place a pad with pad diameter and hole diameter set to 2.4mm. Is that true? I am offering ten(10) engineer-nice-person points for an elegant solution to this trivial problem! cheers Place a primitive/polygon on a mechanical layer and perform TOOLS>CONVERT>CREATE BOARD CUTOUT FROM SELECTED PRIMITIVES problems: -there is no nice screw model representation like in METHOD 2 -will it generate proper gerber drill data to the manufacturer? I am afraid it will be just a random cutout that they will have to route in some expensive way -I don't get the nice dimension outlines: screw head (grey circle) and screw clearance (green circle) -it will not make a plated hole: I have read that its best to keep all holes plated, even mounting ones, as it reduces the tooling overhead. problems: -this METHOD gives errors when processing the PCB as it is an object in the PCB not referenced in the schematic -I also tried creating a schematic library part, and adding the above mentioned PCB library footprint(pad) and 3D model to it - now I had to hide unnecessary bloat items in the schematic -same Eurocircuits fabricator problem as above METHOD 3. You could add a 3D model to each screw hole in the METHOD 1, but you would have to align it one by one, and here its all pre-done. The bonus is that you can add a 3d model of the screw, which makes it much nicer for the final board 3D render. Create a PCB library footprint for the hole (also from a pad). What gives? How do I make a larger hole then? METHOD 2. Clearly that can not include routing and cutouts. problems: -if you set annular ring to 0mm you will get manufacturer errors, as you will get a virtual 0mm point surrounded by soldermask clearance ring in gerber files -if you set annular ring to 2.4mm, same as hole size, you will get a hole with soldermask clearance ring (makes the soldermask susceptible to peeling with screw torque) -using a PCB template rules from (my fabricator of choice) for Class 6C - 2 layer - 1.55 mm i get an design rule error saying "Hole Size Constraint (Min=0.25mm) (Max=2mm) (All) 4" which means they do holes up to 2mm. Place a pad on the PCB, set hole size to 2.4mm and annular ring size to less than 2.4mm. I have found three methods used to make mounting holes, none of them is satisfying to me: METHOD 1.
![altium designer 18 region to pad altium designer 18 region to pad](https://i.stack.imgur.com/3dXGt.png)
My other obvious solution is to run traces within the copper between the components that are throwing the errors, but that will be rather tedious (and a bit of a waste of time).Īm I overlooking something? Is there something I can do in the design rules to ignore this while not masking real errors? I'm worried that I'm going to miss an actual unrouted net in this jumble.I want to make a mounting hole of 2.4 mm diameter for a M2 screw. I was just going to ignore these rules, but in the 230 reported, I've already found a few that are legitimate un-routed nets. I looked into tweaking the un-routed net rules, but I didn't see a way to select multiple objects that wouldn't mask true errors. The copper is associated with the proper net and I have "pour over same net objects" selected. I've tried using solid regions and pours and both behaved the same. "Un-Routed Net Constraint: Net 3.3V_DAC Between Pad C165-2(-3629mil,-2656.99mil) on Top Layer And Via (-3600mil,-2655mil) from Top Layer to Bottom Layer " Unfortunately, Altium is reporting un-routed nets anywhere that I'm using the copper as a means of connection. I'm using copper on the top to connect the net to caps, resistors, beads, etc, and dropping vias that connect that to the internal pour. I have quite a few power pours that are running on internal layers.
#ALTIUM DESIGNER 18 REGION TO PAD HOW TO#
I'm having an issue with connection errors and I can't figure out how to get rid of them, as they don't seem to be real.