Merge branch 'martinbudden-stepper_motor_jst_connector'

Fixed connector position, fixed missing wires, updated images.
Reverted the jst header pin position change.
2025-09-03 20:32:35 +02:00 · 2020-11-08 21:29:03 +00:00 · 2020-11-08 21:28:08 +00:00 · 2020-11-08 15:14:19 +00:00 · 2020-11-08 12:20:15 +00:00 · 2020-11-04 22:27:31 +00:00
67 changed files with 605 additions and 217 deletions
--- a/core.scad
+++ b/core.scad
@@ -18,7 +18,7 @@
 //

 //
-// Include this file to use the miniumum library plus screws, nuts and washers
+// Include this file to use the minimum library plus screws, nuts and washers
 //
 include <utils/core/core.scad>
 //
--- a/global_defs.scad
+++ b/global_defs.scad
@@ -33,7 +33,7 @@ $exploded       = is_undef($explode)         ? 0      : $explode;         // 1 f
 layer_height    = is_undef($layer_height)    ? 0.25   : $layer_height;    // layer heigth when printing
 extrusion_width = is_undef($extrusion_width) ? 0.5    : $extrusion_width; // filament width when printing
 nozzle          = is_undef($nozzle)          ? 0.45   : $nozzle;          // 3D printer nozzle
-cnc_bit_r       = is_undef($cnc_bit_r)       ? 1.2    : $cnc_bit_r;       // miniumum tool radius when milling 2D objects
+cnc_bit_r       = is_undef($cnc_bit_r)       ? 1.2    : $cnc_bit_r;       // minimum tool radius when milling 2D objects
 pp1_colour      = is_undef($pp1_colour)      ? [0, 146/255, 0] : $pp1_colour; // printed part colour 1, RepRap logo colour
 pp2_colour      = is_undef($pp2_colour)      ? "red"  : $pp2_colour;      // printed part colour 2
 pp3_colour      = is_undef($pp3_colour)      ? "blue" : $pp3_colour;      // printed part colour 3
--- a/libtest.png
+++ b/libtest.png
--- a/libtest.scad
+++ b/libtest.scad
@@ -117,17 +117,17 @@ cable_grommets_y = 0;
 translate([x5, cable_grommets_y])
    cable_grommets();

-translate([x5, cable_grommets_y + 50])
-    feet();
+translate([x5 + 80, cable_grommets_y])
+    ribbon_clamps();

-translate([x5, cable_grommets_y + 75])
+translate([x5, cable_grommets_y + 60])
    fixing_blocks();

-translate([x5, cable_grommets_y + 100])
+translate([x5, cable_grommets_y + 90])
    corner_blocks();

 translate([x5, cable_grommets_y + 150])
-    ribbon_clamps();
+    feet();

 translate([x5 + 70, cable_grommets_y + 150])
    screw_knobs();
--- a/printed/ribbon_clamp.scad
+++ b/printed/ribbon_clamp.scad
@@ -24,69 +24,72 @@ include <../core.scad>
 use <../vitamins/insert.scad>
 use <../vitamins/cable_strip.scad>

-wall = 2;
+wall = 1.6;
 min_wall = 2 * extrusion_width;
 screw = M3_cap_screw;
-insert = screw_insert(screw);
-screw_depth = insert_length(insert) + 1;

-function ribbon_clamp_hole_pitch(ways) = ribbon_clamp_slot(ways) + 2 * min_wall + 2 * corrected_radius(insert_hole_radius(insert)); //! Hole pitch
-function ribbon_clamp_width() = 2 * (insert_hole_radius(insert) + wall); //! Width
-function ribbon_clamp_length(ways) = ribbon_clamp_hole_pitch(ways) + ribbon_clamp_width(); //! Length given ways
-function ribbon_clamp_height() = screw_depth + 1; //! Height
+function ribbon_clamp_screw_depth(screw = screw) = insert_length(screw_insert(screw)) + 1;
+function ribbon_clamp_hole_pitch(ways, screw = screw) =
+    ribbon_clamp_slot(ways) + 2 * min_wall + 2 * corrected_radius(insert_hole_radius(screw_insert(screw))); //! Hole pitch

-module ribbon_clamp_hole_positions(ways, side = undef) //! Place children at hole positions
+function ribbon_clamp_width(screw = screw) = 2 * (insert_hole_radius(screw_insert(screw)) + wall); //! Width
+function ribbon_clamp_length(ways, screw = screw) = ribbon_clamp_hole_pitch(ways, screw) + ribbon_clamp_width(screw); //! Length given ways
+function ribbon_clamp_height(screw = screw) = ribbon_clamp_screw_depth(screw) + 1; //! Height
+
+module ribbon_clamp_hole_positions(ways, screw = screw, side = undef) //! Place children at hole positions
    for(x = is_undef(side) ? [-1, 1] : side)
-        translate([x * ribbon_clamp_hole_pitch(ways) / 2, 0])
+        translate([x * ribbon_clamp_hole_pitch(ways, screw) / 2, 0])
            children();

-module ribbon_clamp_holes(ways, h = 20) //! Drill screw holes
-    ribbon_clamp_hole_positions(ways)
+module ribbon_clamp_holes(ways, h = 20, screw = screw) //! Drill screw holes
+    ribbon_clamp_hole_positions(ways, screw)
        drill(screw_clearance_radius(screw), h);

-module ribbon_clamp(ways) { //! Generate STL for given number of ways
-    stl(str("ribbon_clamp_", ways));
+module ribbon_clamp(ways, screw = screw) { //! Generate STL for given number of ways
+    screw_d = screw_radius(screw) * 2;
+    stl(str("ribbon_clamp_", ways, screw_d != 3 ? str("_", screw_d) : ""));

-    pitch = ribbon_clamp_hole_pitch(ways);
-    d = ribbon_clamp_width();
-    h = ribbon_clamp_height();
-    t = h - ribbon_clamp_slot_depth() - wall;
+    pitch = ribbon_clamp_hole_pitch(ways, screw);
+    d = ribbon_clamp_width(screw);
+    h = ribbon_clamp_height(screw);
+    t = round_to_layer(ribbon_clamp_slot_depth() + wall);
+    insert = screw_insert(screw);

    difference() {
        union() {
            hull() {
                translate_z(h - t / 2)
-                    cube([ribbon_clamp_hole_pitch(ways), d, t], center = true);
+                    cube([ribbon_clamp_hole_pitch(ways, screw), d, t], center = true);

                translate_z(1)
                    cube([pitch, max(wall, d - 2 * (h - t)), 2], center = true);
            }
-            ribbon_clamp_hole_positions(ways, -1)
+            ribbon_clamp_hole_positions(ways, screw, -1)
                cylinder(d = d, h = h);

-            ribbon_clamp_hole_positions(ways,  1)
+            ribbon_clamp_hole_positions(ways, screw, 1)
                cylinder(d = d, h = h);
-
        }

        translate_z(h)
            cube([ribbon_clamp_slot(ways), d + 1, ribbon_clamp_slot_depth() * 2], center = true);

-        ribbon_clamp_hole_positions(ways)
+        ribbon_clamp_hole_positions(ways, screw)
            translate_z(h)
                rotate(22.5)
-                    insert_hole(insert, screw_depth - insert_length(insert));
+                    insert_hole(insert, ribbon_clamp_screw_depth(screw) - insert_length(insert));
    }
 }

-module ribbon_clamp_assembly(ways) pose([55, 180, 25])  //! Printed part with inserts in place
-    assembly(str("ribbon_clamp_", ways)) {
-    h = ribbon_clamp_height();
+module ribbon_clamp_assembly(ways, screw) pose([55, 180, 25])  //! Printed part with inserts in place
+    assembly(let(screw_d = screw_radius(screw) * 2)str("ribbon_clamp_", ways, screw_d != 3 ? str("_", screw_d) : "")) {
+    h = ribbon_clamp_height(screw);
+    insert = screw_insert(screw);

    stl_colour(pp1_colour) render()
-        translate_z(h) vflip() ribbon_clamp(ways);
+        translate_z(h) vflip() ribbon_clamp(ways, screw);

-    ribbon_clamp_hole_positions(ways)
+    ribbon_clamp_hole_positions(ways, screw)
        vflip()
            insert(insert);
 }
@@ -99,20 +102,24 @@ module ribbon_clamp_fastened_assembly(ways, thickness, screw = screw) { //! Clam
    vitamin(str(": Tape self amalgamating silicone ",tape_l," x 25mm"));

    washer = screw_washer(screw);
-    screw_length = screw_shorter_than(2 * washer_thickness(washer) + thickness + screw_depth);
+    screw_length = screw_shorter_than(2 * washer_thickness(washer) + thickness + ribbon_clamp_screw_depth(screw));

-    ribbon_clamp_assembly(ways);
+    ribbon_clamp_assembly(ways, screw);

    color("red") translate_z(tape_thickness / 2)
        cube([tape_l, tape_width, tape_thickness], center = true);

-    ribbon_clamp_hole_positions(ways)
+    ribbon_clamp_hole_positions(ways, screw)
        vflip()
           translate_z(thickness)
                screw_and_washer(screw, screw_length, true);
 }

 module ribbon_clamp_20_stl() ribbon_clamp(20);
+module ribbon_clamp_8_2_stl() ribbon_clamp(8, M2_dome_screw);

 //! * Place inserts into the holes and press home with a soldering iron with a conical bit heated to 200&deg;C.
 module ribbon_clamp_20_assembly() ribbon_clamp_assembly(20);
+
+//! * Place inserts into the holes and press home with a soldering iron with a conical bit heated to 200&deg;C.
+module ribbon_clamp_8_2_assembly() ribbon_clamp_assembly(8, M2_dome_screw);
--- a/readme.md
+++ b/readme.md
@@ -20,23 +20,23 @@ See [usage](docs/usage.md) for requirements, installation instructions and a usa
 <th align="left"> Vitamins A-I </th><th align="left"> Vitamins J-Q </th><th align="left"> Vitamins R-Z </th><th align="left"> Printed </th><th align="left"> Utilities </th><th align="left"> Core Utilities </th></tr>
 <tr><td> <a href = "#Axials">Axials</a> </td><td> <a href = "#Jack">Jack</a> </td><td> <a href = "#Rails">Rails</a> </td><td> <a href = "#Box">Box</a> </td><td> <a href = "#Annotation">Annotation</a> </td><td> <a href = "#BOM">BOM</a> </td></tr>
 <tr><td> <a href = "#Ball_bearings">Ball_bearings</a> </td><td> <a href = "#KP_pillow_blocks">KP_pillow_blocks</a> </td><td> <a href = "#Ring_terminals">Ring_terminals</a> </td><td> <a href = "#Butt_box">Butt_box</a> </td><td> <a href = "#Bezier">Bezier</a> </td><td> <a href = "#Clip">Clip</a> </td></tr>
-<tr><td> <a href = "#Batteries">Batteries</a> </td><td> <a href = "#LDRs">LDRs</a> </td><td> <a href = "#Rockers">Rockers</a> </td><td> <a href = "#Cable_grommets">Cable_grommets</a> </td><td> <a href = "#Dogbones">Dogbones</a> </td><td> <a href = "#Global">Global</a> </td></tr>
-<tr><td> <a href = "#Belts">Belts</a> </td><td> <a href = "#LED_meters">LED_meters</a> </td><td> <a href = "#Rod">Rod</a> </td><td> <a href = "#Carriers">Carriers</a> </td><td> <a href = "#Fillet">Fillet</a> </td><td> <a href = "#Polyholes">Polyholes</a> </td></tr>
-<tr><td> <a href = "#Blowers">Blowers</a> </td><td> <a href = "#LEDs">LEDs</a> </td><td> <a href = "#SCS_bearing_blocks">SCS_bearing_blocks</a> </td><td> <a href = "#Corner_block">Corner_block</a> </td><td> <a href = "#Gears">Gears</a> </td><td> <a href = "#Rounded_rectangle">Rounded_rectangle</a> </td></tr>
-<tr><td> <a href = "#Bulldogs">Bulldogs</a> </td><td> <a href = "#Leadnuts">Leadnuts</a> </td><td> <a href = "#SK_brackets">SK_brackets</a> </td><td> <a href = "#Door_hinge">Door_hinge</a> </td><td> <a href = "#Hanging_hole">Hanging_hole</a> </td><td> <a href = "#Sphere">Sphere</a> </td></tr>
-<tr><td> <a href = "#Buttons">Buttons</a> </td><td> <a href = "#Light_strips">Light_strips</a> </td><td> <a href = "#SMDs">SMDs</a> </td><td> <a href = "#Door_latch">Door_latch</a> </td><td> <a href = "#Horiholes">Horiholes</a> </td><td> <a href = "#Teardrops">Teardrops</a> </td></tr>
-<tr><td> <a href = "#Cable_strips">Cable_strips</a> </td><td> <a href = "#Linear_bearings">Linear_bearings</a> </td><td> <a href = "#SSRs">SSRs</a> </td><td> <a href = "#Fan_guard">Fan_guard</a> </td><td> <a href = "#Layout">Layout</a> </td><td></td></tr>
-<tr><td> <a href = "#Cameras">Cameras</a> </td><td> <a href = "#Magnets">Magnets</a> </td><td> <a href = "#Screws">Screws</a> </td><td> <a href = "#Fixing_block">Fixing_block</a> </td><td> <a href = "#Maths">Maths</a> </td><td></td></tr>
-<tr><td> <a href = "#Circlips">Circlips</a> </td><td> <a href = "#Mains_sockets">Mains_sockets</a> </td><td> <a href = "#Sealing_strip">Sealing_strip</a> </td><td> <a href = "#Flat_hinge">Flat_hinge</a> </td><td> <a href = "#Offset">Offset</a> </td><td></td></tr>
-<tr><td> <a href = "#Components">Components</a> </td><td> <a href = "#Microswitches">Microswitches</a> </td><td> <a href = "#Sheets">Sheets</a> </td><td> <a href = "#Foot">Foot</a> </td><td> <a href = "#Quadrant">Quadrant</a> </td><td></td></tr>
-<tr><td> <a href = "#DIP">DIP</a> </td><td> <a href = "#Microview">Microview</a> </td><td> <a href = "#Spades">Spades</a> </td><td> <a href = "#Handle">Handle</a> </td><td> <a href = "#Round">Round</a> </td><td></td></tr>
-<tr><td> <a href = "#D_connectors">D_connectors</a> </td><td> <a href = "#Modules">Modules</a> </td><td> <a href = "#Spools">Spools</a> </td><td> <a href = "#PCB_mount">PCB_mount</a> </td><td> <a href = "#Rounded_cylinder">Rounded_cylinder</a> </td><td></td></tr>
-<tr><td> <a href = "#Displays">Displays</a> </td><td> <a href = "#Nuts">Nuts</a> </td><td> <a href = "#Springs">Springs</a> </td><td> <a href = "#PSU_shroud">PSU_shroud</a> </td><td> <a href = "#Rounded_polygon">Rounded_polygon</a> </td><td></td></tr>
-<tr><td> <a href = "#Extrusion_brackets">Extrusion_brackets</a> </td><td> <a href = "#O_ring">O_ring</a> </td><td> <a href = "#Stepper_motors">Stepper_motors</a> </td><td> <a href = "#Printed_box">Printed_box</a> </td><td> <a href = "#Sector">Sector</a> </td><td></td></tr>
-<tr><td> <a href = "#Extrusions">Extrusions</a> </td><td> <a href = "#Opengrab">Opengrab</a> </td><td> <a href = "#Swiss_clips">Swiss_clips</a> </td><td> <a href = "#Ribbon_clamp">Ribbon_clamp</a> </td><td> <a href = "#Sweep">Sweep</a> </td><td></td></tr>
-<tr><td> <a href = "#Fans">Fans</a> </td><td> <a href = "#PCB">PCB</a> </td><td> <a href = "#Toggles">Toggles</a> </td><td> <a href = "#SSR_shroud">SSR_shroud</a> </td><td> <a href = "#Thread">Thread</a> </td><td></td></tr>
-<tr><td> <a href = "#Fuseholder">Fuseholder</a> </td><td> <a href = "#PCBs">PCBs</a> </td><td> <a href = "#Transformers">Transformers</a> </td><td> <a href = "#Screw_knob">Screw_knob</a> </td><td> <a href = "#Tube">Tube</a> </td><td></td></tr>
-<tr><td> <a href = "#Geared_steppers">Geared_steppers</a> </td><td> <a href = "#PSUs">PSUs</a> </td><td> <a href = "#Tubings">Tubings</a> </td><td> <a href = "#Socket_box">Socket_box</a> </td><td></td><td></td></tr>
+<tr><td> <a href = "#Batteries">Batteries</a> </td><td> <a href = "#LDRs">LDRs</a> </td><td> <a href = "#Rockers">Rockers</a> </td><td> <a href = "#Cable_grommets">Cable_grommets</a> </td><td> <a href = "#Catenary">Catenary</a> </td><td> <a href = "#Global">Global</a> </td></tr>
+<tr><td> <a href = "#Belts">Belts</a> </td><td> <a href = "#LED_meters">LED_meters</a> </td><td> <a href = "#Rod">Rod</a> </td><td> <a href = "#Carriers">Carriers</a> </td><td> <a href = "#Dogbones">Dogbones</a> </td><td> <a href = "#Polyholes">Polyholes</a> </td></tr>
+<tr><td> <a href = "#Blowers">Blowers</a> </td><td> <a href = "#LEDs">LEDs</a> </td><td> <a href = "#SCS_bearing_blocks">SCS_bearing_blocks</a> </td><td> <a href = "#Corner_block">Corner_block</a> </td><td> <a href = "#Fillet">Fillet</a> </td><td> <a href = "#Rounded_rectangle">Rounded_rectangle</a> </td></tr>
+<tr><td> <a href = "#Bulldogs">Bulldogs</a> </td><td> <a href = "#Leadnuts">Leadnuts</a> </td><td> <a href = "#SK_brackets">SK_brackets</a> </td><td> <a href = "#Door_hinge">Door_hinge</a> </td><td> <a href = "#Gears">Gears</a> </td><td> <a href = "#Sphere">Sphere</a> </td></tr>
+<tr><td> <a href = "#Buttons">Buttons</a> </td><td> <a href = "#Light_strips">Light_strips</a> </td><td> <a href = "#SMDs">SMDs</a> </td><td> <a href = "#Door_latch">Door_latch</a> </td><td> <a href = "#Hanging_hole">Hanging_hole</a> </td><td> <a href = "#Teardrops">Teardrops</a> </td></tr>
+<tr><td> <a href = "#Cable_strips">Cable_strips</a> </td><td> <a href = "#Linear_bearings">Linear_bearings</a> </td><td> <a href = "#SSRs">SSRs</a> </td><td> <a href = "#Fan_guard">Fan_guard</a> </td><td> <a href = "#Horiholes">Horiholes</a> </td><td></td></tr>
+<tr><td> <a href = "#Cameras">Cameras</a> </td><td> <a href = "#Magnets">Magnets</a> </td><td> <a href = "#Screws">Screws</a> </td><td> <a href = "#Fixing_block">Fixing_block</a> </td><td> <a href = "#Layout">Layout</a> </td><td></td></tr>
+<tr><td> <a href = "#Circlips">Circlips</a> </td><td> <a href = "#Mains_sockets">Mains_sockets</a> </td><td> <a href = "#Sealing_strip">Sealing_strip</a> </td><td> <a href = "#Flat_hinge">Flat_hinge</a> </td><td> <a href = "#Maths">Maths</a> </td><td></td></tr>
+<tr><td> <a href = "#Components">Components</a> </td><td> <a href = "#Microswitches">Microswitches</a> </td><td> <a href = "#Sheets">Sheets</a> </td><td> <a href = "#Foot">Foot</a> </td><td> <a href = "#Offset">Offset</a> </td><td></td></tr>
+<tr><td> <a href = "#DIP">DIP</a> </td><td> <a href = "#Microview">Microview</a> </td><td> <a href = "#Spades">Spades</a> </td><td> <a href = "#Handle">Handle</a> </td><td> <a href = "#Quadrant">Quadrant</a> </td><td></td></tr>
+<tr><td> <a href = "#D_connectors">D_connectors</a> </td><td> <a href = "#Modules">Modules</a> </td><td> <a href = "#Spools">Spools</a> </td><td> <a href = "#PCB_mount">PCB_mount</a> </td><td> <a href = "#Round">Round</a> </td><td></td></tr>
+<tr><td> <a href = "#Displays">Displays</a> </td><td> <a href = "#Nuts">Nuts</a> </td><td> <a href = "#Springs">Springs</a> </td><td> <a href = "#PSU_shroud">PSU_shroud</a> </td><td> <a href = "#Rounded_cylinder">Rounded_cylinder</a> </td><td></td></tr>
+<tr><td> <a href = "#Extrusion_brackets">Extrusion_brackets</a> </td><td> <a href = "#O_ring">O_ring</a> </td><td> <a href = "#Stepper_motors">Stepper_motors</a> </td><td> <a href = "#Printed_box">Printed_box</a> </td><td> <a href = "#Rounded_polygon">Rounded_polygon</a> </td><td></td></tr>
+<tr><td> <a href = "#Extrusions">Extrusions</a> </td><td> <a href = "#Opengrab">Opengrab</a> </td><td> <a href = "#Swiss_clips">Swiss_clips</a> </td><td> <a href = "#Ribbon_clamp">Ribbon_clamp</a> </td><td> <a href = "#Sector">Sector</a> </td><td></td></tr>
+<tr><td> <a href = "#Fans">Fans</a> </td><td> <a href = "#PCB">PCB</a> </td><td> <a href = "#Toggles">Toggles</a> </td><td> <a href = "#SSR_shroud">SSR_shroud</a> </td><td> <a href = "#Sweep">Sweep</a> </td><td></td></tr>
+<tr><td> <a href = "#Fuseholder">Fuseholder</a> </td><td> <a href = "#PCBs">PCBs</a> </td><td> <a href = "#Transformers">Transformers</a> </td><td> <a href = "#Screw_knob">Screw_knob</a> </td><td> <a href = "#Thread">Thread</a> </td><td></td></tr>
+<tr><td> <a href = "#Geared_steppers">Geared_steppers</a> </td><td> <a href = "#PSUs">PSUs</a> </td><td> <a href = "#Tubings">Tubings</a> </td><td> <a href = "#Socket_box">Socket_box</a> </td><td> <a href = "#Tube">Tube</a> </td><td></td></tr>
 <tr><td> <a href = "#Green_terminals">Green_terminals</a> </td><td> <a href = "#Panel_meters">Panel_meters</a> </td><td> <a href = "#Variacs">Variacs</a> </td><td> <a href = "#Strap_handle">Strap_handle</a> </td><td></td><td></td></tr>
 <tr><td> <a href = "#Hot_ends">Hot_ends</a> </td><td> <a href = "#Pillars">Pillars</a> </td><td> <a href = "#Veroboard">Veroboard</a> </td><td></td><td></td><td></td></tr>
 <tr><td> <a href = "#Hygrometer">Hygrometer</a> </td><td> <a href = "#Pin_headers">Pin_headers</a> </td><td> <a href = "#Washers">Washers</a> </td><td></td><td></td><td></td></tr>
@@ -85,6 +85,7 @@ Axial components for PCBs.
 |   1 | ```ax_res(res1_4, 47000)``` |  Resistor 47000 Ohms 5% 0.25W |
 |   1 | ```ax_res(res1_2, 8200)``` |  Resistor 8200 Ohms 5% 0.5W |
 |   1 | ```ax_res(res1_2, 8250, tol = 1)``` |  Resistor 8250 Ohms 1% 0.5W |
+|   1 | ```wire_link(0.8, 10.16)``` |  Wire link 0.8mm x 0.4" |


 <a href="#top">Top</a>
@@ -402,7 +403,7 @@ PCB mounted buttons. Can optionally have a coloured cap
 ## Cable_strips
 A strip of polypropylene used with ribbon cable to make a cable flexible in one direction only.

-Modelled with a Bezier spline, which is not quite the same as a miniumum energy curve but very close, epecially
+Modelled with a Bezier spline, which is not quite the same as a minimum energy curve but very close, epecially
 near the extreme positions, where the model needs to be accurate.

 When the sides are constrained then a circular model is more accurate.
@@ -1267,7 +1268,7 @@ Heatfit threaded inserts. Can be pushed into thermoplastics using a soldering ir
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   1 | ```insert(F1BM)``` |  Heatfit insert M2 |
+|   1 | ```insert(F1BM2)``` |  Heatfit insert M2 |
 |   1 | ```insert(F1BM2p5)``` |  Heatfit insert M2.5 |
 |   1 | ```insert(F1BM3)``` |  Heatfit insert M3 |
 |   1 | ```insert(F1BM4)``` |  Heatfit insert M4 |
@@ -2009,6 +2010,8 @@ A permanent magnet that can be magnatized and de-magnatized electronically.
 | Function | Description |
 |:--- |:--- |
 | ```opengrab_depth()``` | Module height |
+| ```opengrab_pcb()``` | The PCB |
+| ```opengrab_pcb_z()``` | PCB offset from the front |
 | ```opengrab_target_thickness()``` | Target sheet thickness |
 | ```opengrab_width()``` | Module width |

@@ -2211,6 +2214,7 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   1 | ```smd_resistor(RES0603, 1K)``` |  SMD resistor 0603 1K 0.1W |
 |   1 | ```smd_resistor(RES0805, 1K)``` |  SMD resistor 0805 1K 0.125W |
 |   1 | ```smd_resistor(RES1206, 1K)``` |  SMD resistor 1206 1K 0.25W |
+|   1 | ```square_button(button_4p5mm)``` |  Square button 4.5mm |
 |   1 | ```square_button(button_6mm)``` |  Square button 6mm |
 |   1 | ```pcb(TMC2130)``` |  TMC2130 |
 |   1 | ```green_terminal(gt_5p08, 2)``` |  Terminal block 2 way 0.2" |
@@ -2223,6 +2227,8 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   2 | ```green_terminal(gt_3p5, 4)``` |  Terminal block 4 way 3.5mm |
 |   1 | ```terminal_35(4)``` |  Terminal block 4 way 3.5mm |
 |   1 | ```pcb(TestPCB)``` |  Test PCB |
+|   1 | ```wire_link(0.8, 5.08, h = 10.16)``` |  Wire link 0.8mm x 0.2" |
+|   1 | ```wire_link(0.8, 10.16)``` |  Wire link 0.8mm x 0.4" |


 <a href="#top">Top</a>
@@ -2326,14 +2332,14 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   1 | ```pcb(EnviroPlus)``` |  Enviro+ |
 |   1 | ```pcb(ExtruderPCB)``` |  Extruder connection PCB |
 |   1 | ```pcb(Keyes5p1)``` |  Keyes5.1 Arduino Uno expansion board |
+|   1 | ```pcb(MP1584EN)``` |  MP1584EN 3A buck converter |
 |   1 | ```pcb(MT3608)``` |  MT3608 boost converter module |
-|   1 | ```pcb(Melzi)``` |  Melzi electronics |
-|   5 |  |  Micro SD card |
+|   4 |  |  Micro SD card |
 |   1 | ```molex_254(2)``` |  Molex KK header 2 way |
 |   1 | ```molex_254(3)``` |  Molex KK header 3 way |
 |  16 | ```nut(M2_nut, nyloc = true)``` |  Nut M2 x 1.6mm nyloc |
 |  34 | ```nut(M2p5_nut, nyloc = true)``` |  Nut M2.5 x 2.2mm nyloc |
-|  16 | ```nut(M3_nut, nyloc = true)``` |  Nut M3 x 2.4mm nyloc |
+|  12 | ```nut(M3_nut, nyloc = true)``` |  Nut M3 x 2.4mm nyloc |
 |  12 | ```nut(M4_nut, nyloc = true)``` |  Nut M4 x 3.2mm nyloc |
 |   1 | ```pcb(PI_IO)``` |  PI_IO V2 |
 |   1 | ```pcb(PSU12V1A)``` |  PSU 12V 1A |
@@ -2349,24 +2355,21 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   1 | ```pcb(RPI0)``` |  Raspberry Pi Zero |
 |  12 | ```screw(M2_cap_screw, 16)``` |  Screw M2 cap x 16mm |
 |   4 | ```screw(M2_cap_screw, 20)``` |  Screw M2 cap x 20mm |
-|   2 | ```screw(M2p5_cap_screw, 16)``` |  Screw M2.5 cap x 16mm |
-|   4 | ```screw(M2p5_cap_screw, 20)``` |  Screw M2.5 cap x 20mm |
-|   4 | ```screw(M2p5_cap_screw, 25)``` |  Screw M2.5 cap x 25mm |
+|   2 | ```screw(M2p5_cap_screw, 20)``` |  Screw M2.5 cap x 20mm |
+|   8 | ```screw(M2p5_cap_screw, 25)``` |  Screw M2.5 cap x 25mm |
 |   8 | ```screw(M2p5_cap_screw, 30)``` |  Screw M2.5 cap x 30mm |
 |   4 | ```screw(M2p5_pan_screw, 20)``` |  Screw M2.5 pan x 20mm |
 |  12 | ```screw(M2p5_pan_screw, 25)``` |  Screw M2.5 pan x 25mm |
 |   4 | ```screw(M3_cap_screw, 16)``` |  Screw M3 cap x 16mm |
 |   8 | ```screw(M3_cap_screw, 30)``` |  Screw M3 cap x 30mm |
-|   4 | ```screw(M3_cap_screw, 35)``` |  Screw M3 cap x 35mm |
 |  12 | ```screw(M4_cap_screw, 35)``` |  Screw M4 cap x 35mm |
 |   1 | ```pcb(TP4056)``` |  TP4056 Li-lon Battery charger module |
 |   3 | ```terminal_35(2)``` |  Terminal block 2 way 3.5mm |
 |   2 | ```green_terminal(gt_2p54, 4)``` |  Terminal block 4 way 0.1" |
-|   1 |  |  USB A to Mini B lead |
 |   1 | ```pcb(WD2002SJ)``` |  WD2002SJ Buck Boost DC-DC converter |
 |  16 | ```washer(M2_washer)``` |  Washer  M2 x 5mm x 0.3mm |
 |  34 | ```washer(M2p5_washer)``` |  Washer  M2.5 x 5.9mm x 0.5mm |
-|  16 | ```washer(M3_washer)``` |  Washer  M3 x 7mm x 0.5mm |
+|  12 | ```washer(M3_washer)``` |  Washer  M3 x 7mm x 0.5mm |
 |  12 | ```washer(M4_washer)``` |  Washer  M4 x 9mm x 0.8mm |
 |   1 | ```pcb(ZC_A0591)``` |  ZC-A0591 ULN2003 driver PCB |

@@ -2377,22 +2380,21 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   4 | pcb_spacer2070.stl |
 |   4 | pcb_spacer2080.stl |
 |   4 | pcb_spacer2090.stl |
-|   4 | pcb_spacer25100.stl |
 |   4 | pcb_spacer25110.stl |
 |   4 | pcb_spacer25120.stl |
-|   4 | pcb_spacer25130_2.stl |
+|   4 | pcb_spacer25130.stl |
 |   4 | pcb_spacer25140_2.stl |
 |   4 | pcb_spacer25150_2.stl |
-|   4 | pcb_spacer25180.stl |
+|   4 | pcb_spacer25160_2.stl |
 |   4 | pcb_spacer25190.stl |
-|   2 | pcb_spacer2570.stl |
-|   4 | pcb_spacer30160.stl |
+|   4 | pcb_spacer25200.stl |
+|   2 | pcb_spacer2580.stl |
 |   4 | pcb_spacer30170.stl |
-|   4 | pcb_spacer30230.stl |
+|   4 | pcb_spacer30180.stl |
 |   4 | pcb_spacer3050.stl |
-|   4 | pcb_spacer40200.stl |
 |   4 | pcb_spacer40210.stl |
 |   4 | pcb_spacer40220.stl |
+|   4 | pcb_spacer40230.stl |


 <a href="#top">Top</a>
@@ -2473,7 +2475,7 @@ Pin headers and sockets, etc.
 |:--- |:--- |
 | ```box_header(type, cols = 1, rows = 1, smt = false, cutout = false)``` | Draw box header |
 | ```idc_transition(type, cols = 5, skip = [], cutout = false)``` | Draw IDC transition header |
-| ```jst_xh_header(type, pin_count, right_angle=false, colour, pin_colour)``` | Draw JST XH connector |
+| ```jst_xh_header(type, pin_count, right_angle = false, colour = false, pin_colour = false)``` | Draw JST XH connector |
 | ```pin(type, length = undef)``` | Draw a header pin |
 | ```pin_header(type, cols = 1, rows = 1, smt = false, right_angle = false, cutout = false, colour)``` | Draw pin header |
 | ```pin_socket(type, cols = 1, rows = 1, right_angle = false, height = 0, smt = false, cutout = false, colour)``` | Draw pin socket |
@@ -2484,11 +2486,18 @@ Pin headers and sockets, etc.
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
 |   1 | ```box_header(2p54header, 10, 2)``` |  Box header 10 x 2 |
+|   1 | ```box_header(2p54header, 8, 1)``` |  Box header 8 x 1 |
 |   1 | ```idc_transition(2p54header, 10)``` |  IDC transition header 10 x 2 |
 |   1 | ```pin_header(2p54header, 10, 2)``` |  Pin header 10 x 2 |
-|   1 | ```pin_header(2p54header, 10, 2, right_angle = true)``` |  Pin header 10 x 2 right_angle |
+|   1 | ```pin_header(2p54header, 3, 1, right_angle = true)``` |  Pin header 3 x 1 right_angle |
+|   1 | ```pin_header(2p54header, 3, 2, right_angle = true)``` |  Pin header 3 x 2 right_angle |
+|   1 | ```pin_header(2p54header, 3, 3, right_angle = true)``` |  Pin header 3 x 3 right_angle |
+|   1 | ```pin_header(2p54header, 8, 1)``` |  Pin header 8 x 1 |
 |   1 | ```pin_socket(2p54header, 10, 2)``` |  Pin socket 10 x 2 |
-|   1 | ```pin_socket(2p54header, 10, 2, right_angle = true)``` |  Pin socket 10 x 2 right_angle |
+|   1 | ```pin_socket(2p54header, 3, 1, right_angle = true)``` |  Pin socket 3 x 1 right_angle |
+|   1 | ```pin_socket(2p54header, 3, 2, right_angle = true)``` |  Pin socket 3 x 2 right_angle |
+|   1 | ```pin_socket(2p54header, 3, 3, right_angle = true)``` |  Pin socket 3 x 3 right_angle |
+|   1 | ```pin_socket(2p54header, 8, 1)``` |  Pin socket 8 x 1 |


 <a href="#top">Top</a>
@@ -2919,6 +2928,7 @@ Machine screws and wood screws with various head styles.
 |   1 | ```screw(No632_pan_screw, 30)``` |  Screw 6-32 pan x 30mm |
 |   1 | ```screw(M2_cap_screw, 10)``` |  Screw M2 cap x 10mm |
 |   1 | ```screw(M2_cs_cap_screw, 10)``` |  Screw M2 cs cap x 10mm |
+|   1 | ```screw(M2_dome_screw, 10)``` |  Screw M2 dome x 10mm |
 |   1 | ```screw(M2p5_cap_screw, 10)``` |  Screw M2.5 cap x 10mm |
 |   1 | ```screw(M2p5_pan_screw, 10)``` |  Screw M2.5 pan x 10mm |
 |   1 | ```screw(M3_cap_screw, 10)``` |  Screw M3 cap x 10mm |
@@ -3412,7 +3422,7 @@ NEMA stepper motor model.
 ### Modules
 | Module | Description |
 |:--- |:--- |
-| ```NEMA(type, shaft_angle = 0)``` | Draw specified NEMA stepper motor |
+| ```NEMA(type, shaft_angle = 0, jst_connector = false)``` | Draw specified NEMA stepper motor |
 | ```NEMA_outline(type)``` | 2D outline |
 | ```NEMA_screw_positions(type, n = 4)``` | Positions children at the screw holes |
 | ```NEMA_screws(type, screw, n = 4, screw_length = 8, earth = undef)``` | Place screws and optional earth tag |
@@ -4286,7 +4296,7 @@ Star washers can be omitted by setting ```star_washers``` to false.
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   3 | ```insert(F1BM)``` |  Heatfit insert M2 |
+|   3 | ```insert(F1BM2)``` |  Heatfit insert M2 |
 |   3 | ```insert(F1BM2p5)``` |  Heatfit insert M2.5 |
 |   3 | ```insert(F1BM3)``` |  Heatfit insert M3 |
 |   3 | ```insert(F1BM4)``` |  Heatfit insert M4 |
@@ -4506,7 +4516,7 @@ Star washers can be omitted by setting ```star_washers``` to false.
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   3 | ```insert(F1BM)``` |  Heatfit insert M2 |
+|   3 | ```insert(F1BM2)``` |  Heatfit insert M2 |
 |   3 | ```insert(F1BM2p5)``` |  Heatfit insert M2.5 |
 |   3 | ```insert(F1BM3)``` |  Heatfit insert M3 |
 |   3 | ```insert(F1BM4)``` |  Heatfit insert M4 |
@@ -4836,7 +4846,7 @@ It can also have printed feet on the base with the screws doubling up to hold th
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   4 | ```insert(F1BM)``` |  Heatfit insert M2 |
+|   4 | ```insert(F1BM2)``` |  Heatfit insert M2 |
 |   4 | ```insert(F1BM3)``` |  Heatfit insert M3 |
 |   4 | ```screw(M2_cap_screw, 6)``` |  Screw M2 cap x  6mm |
 |   3 | ```screw(M3_pan_screw, 6)``` |  Screw M3 pan x  6mm |
@@ -4935,41 +4945,48 @@ Clamp for ribbon cable and polypropylene strip.
 ### Functions
 | Function | Description |
 |:--- |:--- |
-| ```ribbon_clamp_height()``` | Height |
-| ```ribbon_clamp_hole_pitch(ways)``` | Hole pitch |
-| ```ribbon_clamp_length(ways)``` | Length given ways |
-| ```ribbon_clamp_width()``` | Width |
+| ```ribbon_clamp_height(screw = screw)``` | Height |
+| ```ribbon_clamp_length(ways, screw = screw)``` | Length given ways |
+| ```ribbon_clamp_width(screw = screw)``` | Width |

 ### Modules
 | Module | Description |
 |:--- |:--- |
-| ```ribbon_clamp(ways)``` | Generate STL for given number of ways |
-| ```ribbon_clamp_assembly(ways)``` | Printed part with inserts in place |
+| ```ribbon_clamp(ways, screw = screw)``` | Generate STL for given number of ways |
+| ```ribbon_clamp_assembly(ways, screw)``` | Printed part with inserts in place |
 | ```ribbon_clamp_fastened_assembly(ways, thickness, screw = screw)``` | Clamp with fasteners in place |
-| ```ribbon_clamp_hole_positions(ways, side = undef)``` | Place children at hole positions |
-| ```ribbon_clamp_holes(ways, h = 20)``` | Drill screw holes |
+| ```ribbon_clamp_hole_positions(ways, screw = screw, side = undef)``` | Place children at hole positions |
+| ```ribbon_clamp_holes(ways, h = 20, screw = screw)``` | Drill screw holes |

 ![ribbon_clamp](tests/png/ribbon_clamp.png)

 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
+|   2 | ```insert(F1BM2)``` |  Heatfit insert M2 |
 |   2 | ```insert(F1BM3)``` |  Heatfit insert M3 |
 |   1 |  |  Ribbon cable 20 way 100mm |
+|   1 |  |  Ribbon cable 8 way 100mm |
+|   2 | ```screw(M2_dome_screw, 8)``` |  Screw M2 dome x  8mm |
 |   2 | ```screw(M3_cap_screw, 10)``` |  Screw M3 cap x 10mm |
+|   1 |  |  Tape self amalgamating silicone 11 x 25mm |
 |   1 |  |  Tape self amalgamating silicone 26 x 25mm |
+|   2 | ```washer(M2_washer)``` |  Washer  M2 x 5mm x 0.3mm |
 |   2 | ```washer(M3_washer)``` |  Washer  M3 x 7mm x 0.5mm |
+|   2 | ```star_washer(M2_washer)``` |  Washer star M2 x 0.3mm |
 |   2 | ```star_washer(M3_washer)``` |  Washer star M3 x 0.5mm |

 ### Printed
 | Qty | Filename |
 | ---:|:--- |
 |   1 | ribbon_clamp_20.stl |
+|   1 | ribbon_clamp_8_2.stl |

 ### Assemblies
 | Qty | Name |
 | ---:|:--- |
 |   1 | ribbon_clamp_20_assembly |
+|   1 | ribbon_clamp_8_2_assembly |


 <a href="#top">Top</a>
@@ -5224,6 +5241,36 @@ Bezier curves and function to get and adjust the length or minimum z point.
 ![bezier](tests/png/bezier.png)


+<a href="#top">Top</a>
+
+---
+<a name="Catenary"></a>
+## Catenary
+Catenary curve to model hanging wires, etc.
+
+Although the equation of the curve is simply ```y = a cosh(x / a)``` there is no explicit formula to calculate the constant ```a``` or the range of ```x``` given the
+length of the cable and the end point coordinates. See <https://en.wikipedia.org/wiki/Catenary#Determining_parameters>. The Newton-Raphson method is used to find
+```a``` numerically, see <https://en.wikipedia.org/wiki/Newton%27s_method>.
+
+The coordinates of the lowest point on the curve can be retrieved by calling ```catenary_points()``` with ```steps``` equal to zero.
+
+
+[utils/catenary.scad](utils/catenary.scad) Implementation.
+
+[tests/catenary.scad](tests/catenary.scad) Code for this example.
+
+### Functions
+| Function | Description |
+|:--- |:--- |
+| ```catenary(t, a)``` | Parametric catenary function linear along the length of the curve. |
+| ```catenary_ds_by_da(d, a)``` | First derivative of the length with respect to ```a```. |
+| ```catenary_find_a(d, l, a = 1, best_e = inf, best_a = 1)``` | Find the catenary constant ```a```, given half the horizontal span and the length. |
+| ```catenary_points(l, x, y, steps = 100)``` | Returns a list of 2D points on the curve that goes from the origin to ```(x,y)``` and has length ```l```. |
+| ```catenary_s(d, a)``` | Length of a symmetric catenary with width ```2d```. |
+
+![catenary](tests/png/catenary.png)
+
+
 <a href="#top">Top</a>

 ---
@@ -5340,6 +5387,8 @@ Method to print holes in mid air. See <https://hydraraptor.blogspot.com/2014/03/
 ## Horiholes
 Utilities for depicting the staircase slicing of horizontal holes made with [`teardrop_plus()`](#teardrops), see <https://hydraraptor.blogspot.com/2020/07/horiholes-2.html>

+```horicylinder()``` makes cylinders that fit inside a round hole. Layers that are less than 2 filaments wide and layers that need more than a 45 degree overhang are omitted.
+

 [utils/horiholes.scad](utils/horiholes.scad) Implementation.

@@ -5348,11 +5397,13 @@ Utilities for depicting the staircase slicing of horizontal holes made with [`te
 ### Functions
 | Function | Description |
 |:--- |:--- |
+| ```teardrop_minus_x(r, y, h)``` | Calculate the ordinate of a compensated teardrop given y and layer height. |
 | ```teardrop_plus_x(r, y, h)``` | Calculate the ordinate of a compensated teardrop given y and layer height. |

 ### Modules
 | Module | Description |
 |:--- |:--- |
+| ```horicylinder(r, z, h = 0, center = true)``` | For making horizontal cylinders that don't need support material and are correct dimensions |
 | ```horihole(r, z, h = 0, center = true)``` | For making horizontal holes that don't need support material and are correct dimensions |

 ![horiholes](tests/png/horiholes.png)
@@ -5399,7 +5450,14 @@ Maths utilities for manipulating vectors and matrices.
 | Function | Description |
 |:--- |:--- |
 | ```angle_between(v1, v2)``` | Return the angle between two vectors |
+| ```argcosh(x)``` | inverse hyperbolic cosine |
+| ```argcoth(x)``` | inverse hyperbolic cotangent |
+| ```argsinh(x)``` | inverse hyperbolic sine |
+| ```argtanh(x)``` | inverse hyperbolic tangent |
 | ```augment(m)``` | Augment a matrix by adding an identity matrix to the right |
+| ```circle_intersect(c1, r1, c2, r2)``` | Calculate one point where two circles in the X-Z plane intersect, clockwise around c1 |
+| ```cosh(x)``` | hyperbolic cosine |
+| ```coth(x)``` | hyperbolic cotangent |
 | ```degrees(radians)``` | Convert degrees to radians |
 | ```euler(R)``` | Convert a rotation matrix to a Euler rotation vector. |
 | ```identity(n, x = 1)``` | Construct an arbitrary size identity matrix |
@@ -5412,9 +5470,11 @@ Maths utilities for manipulating vectors and matrices.
 | ```rotate(a, v)``` | Generate a 4x4 rotation matrix, ```a``` can be a vector of three angles or a single angle around ```z```, or around axis ```v``` |
 | ```rowswap(m, i, j)``` | Swap two rows of a matrix |
 | ```scale(v)``` |  Generate a 4x4 matrix that scales by ```v```, which can be a vector of xyz factors or a scalar to scale all axes equally |
+| ```sinh(x)``` | hyperbolic sine |
 | ```solve(m, i = 0, j = 0)``` | Solve each row ensuring diagonal is not zero |
 | ```solve_row(m, i)``` | Make diagonal one by dividing the row by it and subtract from other rows to make column zero |
 | ```sqr(x)``` | Square x |
+| ```tanh(x)``` | hyperbolic tangent |
 | ```transform(v, m)``` | Apply 4x4 transform to a 3 vector by extending it and cropping it again |
 | ```transform_points(path, m)``` | Apply transform to a path |
 | ```translate(v)``` | Generate a 4x4 translation matrix, ```v``` can be ```[x, y]```, ```[x, y, z]``` or ```z``` |
@@ -5604,7 +5664,7 @@ An additional twist around the path can be specified. If the path is closed this
 ### Modules
 | Module | Description |
 |:--- |:--- |
-| ```sweep(path, profile, loop = false, twist = 0)``` | Draw a polyhedron that is the swept volume |
+| ```sweep(path, profile, loop = false, twist = 0, convexity = 1)``` | Draw a polyhedron that is the swept volume |

 ![sweep](tests/png/sweep.png)

@@ -5796,11 +5856,13 @@ Global constants, functions and modules. This file is used directly or indirectl
 | ```foot(x)``` | Foot to mm conversion |
 | ```in(list, x)``` | Returns true if ```x``` is an element in the ```list``` |
 | ```inch(x)``` | Inch to mm conversion (For fractional inches, 'inch(1 + 7/8)' will work as expected.) |
+| ```limit(x, min, max)``` | Force x in range min <= x <= max |
 | ```m(x)``` | m to mm conversion |
 | ```mm(x)``` | Explicit mm specified |
 | ```no_point(str)``` | Replace decimal point in string with 'p' |
 | ```r2sides(r)``` | Replicates the OpenSCAD logic to calculate the number of sides from the radius |
 | ```r2sides4n(r)``` | Round up the number of sides to a multiple of 4 to ensure points land on all axes |
+| ```slice(list, start = 0, end = undef)``` | Slice a list or string with Python type semantics |
 | ```sqr(x)``` | Returns the square of ```x``` |
 | ```yard(x)``` | Yard to mm conversion |

@@ -5846,7 +5908,7 @@ The module provides `poly_circle()`, `poly_cylinder()` and `poly_ring()` that is
 |:--- |:--- |
 | ```drill(r, h = 100, center = true)``` | Make a cylinder for drilling holes suitable for CNC routing, set h = 0 for circle |
 | ```poly_circle(r, sides = 0)``` | Make a circle adjusted to print the correct size |
-| ```poly_cylinder(r, h, center = false, sides = 0)``` | Make a cylinder adjusted to print the correct size |
+| ```poly_cylinder(r, h, center = false, sides = 0, chamfer = false)``` | Make a cylinder adjusted to print the correct size |
 | ```poly_drill(r, h = 100, center = true)``` | Make a cylinder for drilling holes suitable for CNC routing if cnc_bit_r is non zero, otherwise a poly_cylinder. |
 | ```poly_ring(or, ir, sides = 0)``` | Make a 2D ring adjusted to have the correct internal radius |
 | ```poly_tube(or, ir, h, center = false)``` | Make a tube adjusted to have the correct internal radius |
--- a/tests/PCB.scad
+++ b/tests/PCB.scad
@@ -86,10 +86,13 @@ test_pcb = ["TestPCB", "Test PCB",
        [  5, 218, 180, "hdmi"],
        [  3, 235, 180, "mini_hdmi"],
        [  6, 175, 180, "uSD", [12, 11.5, 1.4]],
+
+        [ 65,   9,   0, "link", inch(0.4)],
        [ 65,  12,   0, "ax_res", res1_8, 1000],
        [ 65,  17,   0, "ax_res", res1_4, 10000],
        [ 65,  22,   0, "ax_res", res1_2, 100000],

+        [ 80,   9,   0, "link", inch(0.2), inch(0.4)],
        [ 80,  12,   0, "ax_res", res1_8, 1000000, 1, inch(0.1)],
        [ 80,  17,   0, "ax_res", res1_4, 100,     2, inch(0.1)],
        [ 80,  22,   0, "ax_res", res1_2, 10,     10, inch(0.2)],
@@ -118,7 +121,8 @@ test_pcb = ["TestPCB", "Test PCB",
        [ 70, 130, 180, "term35", 3, "lime"],
        [ 50, 150,   0, "transition", 5],
        [ 50, 160,   0, "block", 10, 5, 8, "orange"],
-        [ 50, 170,   0, "button_6mm"],
+        [ 45, 170,   0, "button_6mm"],
+        [ 55, 170,   0, "button_4p5mm"],
        [ 50, 185,   0, "microswitch", small_microswitch],
        [ 52, 200,   0, "pcb", 11, TMC2130 ],
        [ 80, 200,   0, "pdip", 24, "27C32", true, inch(0.6) ],
--- a/tests/catenary.scad
+++ b/tests/catenary.scad
@@ -0,0 +1,56 @@
+//
+// NopSCADlib Copyright Chris Palmer 2020
+// nop.head@gmail.com
+// hydraraptor.blogspot.com
+//
+// This file is part of NopSCADlib.
+//
+// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
+// GNU General Public License as published by the Free Software Foundation, either version 3 of
+// the License, or (at your option) any later version.
+//
+// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
+// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
+// See the GNU General Public License for more details.
+//
+// You should have received a copy of the GNU General Public License along with NopSCADlib.
+// If not, see <https://www.gnu.org/licenses/>.
+//
+l = 250; // [1: 1000]
+x = 200; // [1: 1000]
+y = 50; //[-500 : 500]
+
+include <../utils/core/core.scad>
+use <../utils/catenary.scad>
+use <../utils/sweep.scad>
+use <../utils/annotation.scad>
+
+module catenaries() {
+    //
+    // catenary curve path from control points
+    //
+    curve = [for(p = catenary_points(l, x, y)) [p.x, p.y, 0]];
+    //
+    // Draw the curve
+    //
+    r = 0.5;
+    sweep(curve, circle_points(r, $fn = 64));
+    //
+    // Minimum Z
+    //
+    min_z = catenary_points(l, x, y, 0);
+
+    color("blue") {
+        translate([min_z.x, min_z.y + r])
+            rotate([-90, 0, 0])
+                arrow();
+
+        translate([min_z.x, min_z.y - r])
+            rotate([90, 0, 0])
+                arrow();
+    }
+}
+
+if($preview)
+    rotate(is_undef($bom) ? 0 : [70, 0, 315])
+        catenaries();
--- a/tests/foot.scad
+++ b/tests/foot.scad
@@ -21,14 +21,14 @@ use <../printed/foot.scad>

 module feet()
    if($preview) {
-        translate([50, 0])
+        translate([40, 0])
            foot_assembly(3);

        translate([foot_diameter(insert_foot()) / 2, 0])
            fastened_insert_foot_assembly(3);
    }
    else {
-        translate([50, 0])
+        translate([40, 0])
            foot();

        insert_foot();
--- a/tests/global.scad
+++ b/tests/global.scad
@@ -29,6 +29,23 @@ module globals() {
        translate([50, 0])
            right_triangle(10, 20, 0);
    }
+    assert(slice("ABCD")    == "ABCD");
+    assert(slice("ABCD", 1) == "BCD");
+    assert(slice("ABCD", 2) == "CD");
+    assert(slice("ABCD", 3) == "D");
+    assert(slice("ABCD", 4) == "");
+    assert(slice("ABCD", 1, -1) == "BC");
+    assert(slice("ABCD", 2, -1) == "C");
+    assert(slice("ABCD", 3, -1) == "");
+    assert(slice("ABCD", 4, -1) == "");
+    assert(slice("ABCD", 0, -1) == "ABC");
+    assert(slice("ABCD", 0, -2) == "AB");
+    assert(slice("ABCD", 0, -3) == "A");
+    assert(slice("ABCD", 0, -4) == "");
+    assert(slice("ABCD", 0,  0) == "");
+    assert(slice("ABCD", 0,  1) == "A");
+    assert(slice("ABCD", 0,  2) == "AB");
+    assert(slice("ABCD", 0,  3) == "ABC");
 }

 rotate([70, 0, 315]) globals();
--- a/tests/horiholes.scad
+++ b/tests/horiholes.scad
@@ -69,9 +69,13 @@ module horiholes() {
            color(silver)
                cylinder(r = $r, h = eps, center = true, $fn = 360);

+    hole_positions()
+        color("blue")
+            horicylinder(r = $r, z = $z, h = 2 * eps, center = true, $fn = 360);
+
    hole_positions()
        color("red")
-            linear_extrude(2 * eps, center = true)
+            linear_extrude(3 * eps, center = true)
                intersection() {
                    difference() {
                        square(8, center = true);
--- a/tests/maths.scad
+++ b/tests/maths.scad
@@ -69,6 +69,33 @@ module maths() {
    // Test Euler
    //
    assert(euler(rotate(r)) == r, "euler() failed");
+    //
+    // Circle intersect
+    //
+    r1 = 10;
+    c1 = [50, 0, 10];
+    r2 = 20;
+    c2 = [67, 0, 0];
+    p1 = circle_intersect(c1, r1, c2, r2);
+    p2 = circle_intersect(c2, r2, c1, r1);
+
+    rotate(90) {
+        color(grey(90))
+            translate(c1) rotate([90, 0, 0]) cylinder(r = r1, h = 4 * eps, center = true);
+
+        color(grey(80))
+            translate(c2) rotate([90, 0, 0]) cylinder(r = r2, h = eps, center = true);
+
+        color("red")
+            translate(p1) rotate([90, 0, 0]) cylinder(r = 0.1, h = 6 * eps, center = true);
+
+        color("blue")
+            translate(p2) rotate([90, 0, 0]) cylinder(r = 0.1, h = 6 * eps, center = true);
+
+        translate(p1) arrow();
+
+        translate(p2) vflip() arrow();
+    }
 }

 rotate(45)
--- a/tests/opengrab.scad
+++ b/tests/opengrab.scad
@@ -21,11 +21,11 @@ include <../utils/core/core.scad>
 use <../vitamins/opengrab.scad>

 module opengrab_test() {
-    opengrab_target();
-
    rotate(45)
-        translate_z(opengrab_target_thickness())
-            opengrab();
+        opengrab_target();
+
+    translate_z(opengrab_target_thickness())
+        opengrab();
 }

 if($preview)
--- a/tests/pin_headers.scad
+++ b/tests/pin_headers.scad
@@ -23,26 +23,53 @@ include <../vitamins/pin_headers.scad>

 pins = 10;

-module pin_headers()
+module pin_headers() {
    layout([for(p = pin_headers) hdr_pitch(p) * pins], 15) {
        idc_transition(pin_headers[$i], 10);

        translate([0, 20])
-            pin_header(pin_headers[$i], 10, 2, right_angle = true);
+            pin_header(pin_headers[$i], 3, 2, right_angle = true);
+
+        translate([-10, 20])
+            pin_header(pin_headers[$i], 3, 1, right_angle = true);
+
+         translate([10, 20])
+            pin_header(pin_headers[$i], 3, 3, right_angle = true);
+
+        translate([0, 30])
+            pin_header(pin_headers[$i], 8, 1);

        translate([0, 40])
            pin_header(pin_headers[$i], 10, 2);

+        translate([0, 50])
+            box_header(pin_headers[$i], 8, 1);
+
        translate([0, 60])
            box_header(pin_headers[$i], 10, 2);

+        translate([0, 70])
+            pin_socket(pin_headers[$i], 8, 1);
+
        translate([0, 80])
            pin_socket(pin_headers[$i], 10, 2);

-        translate([0, 110])
-            pin_socket(pin_headers[$i], 10, 2, right_angle = true);
+        translate([-10, 105])
+            pin_socket(pin_headers[$i], 3, 1, right_angle = true);

+        translate([0, 105])
+            pin_socket(pin_headers[$i], 3, 2, right_angle = true);
+
+        translate([10, 105])
+            pin_socket(pin_headers[$i], 3, 3, right_angle = true);
    }

+    translate([-20, 0])
+        jst_xh_header(jst_xh_header, 5);
+
+    translate([-20, 20])
+        jst_xh_header(jst_xh_header, 5, true);
+}
+
 if($preview)
    pin_headers();
--- a/tests/png/box.png
+++ b/tests/png/box.png
--- a/tests/png/catenary.png
+++ b/tests/png/catenary.png
--- a/tests/png/corner_block.png
+++ b/tests/png/corner_block.png
--- a/tests/png/door_hinge.png
+++ b/tests/png/door_hinge.png
--- a/tests/png/fan_guard.png
+++ b/tests/png/fan_guard.png
--- a/tests/png/fixing_block.png
+++ b/tests/png/fixing_block.png
--- a/tests/png/flat_hinge.png
+++ b/tests/png/flat_hinge.png
--- a/tests/png/foot.png
+++ b/tests/png/foot.png
--- a/tests/png/gears.png
+++ b/tests/png/gears.png
--- a/tests/png/horiholes.png
+++ b/tests/png/horiholes.png
--- a/tests/png/maths.png
+++ b/tests/png/maths.png
--- a/tests/png/modules.png
+++ b/tests/png/modules.png
--- a/tests/png/opengrab.png
+++ b/tests/png/opengrab.png
--- a/tests/png/pcb.png
+++ b/tests/png/pcb.png
--- a/tests/png/pcbs.png
+++ b/tests/png/pcbs.png
--- a/tests/png/pin_headers.png
+++ b/tests/png/pin_headers.png
--- a/tests/png/printed_box.png
+++ b/tests/png/printed_box.png
--- a/tests/png/ribbon_clamp.png
+++ b/tests/png/ribbon_clamp.png
--- a/tests/png/ring_terminals.png
+++ b/tests/png/ring_terminals.png
--- a/tests/png/screws.png
+++ b/tests/png/screws.png
--- a/tests/png/smds.png
+++ b/tests/png/smds.png
--- a/tests/png/spools.png
+++ b/tests/png/spools.png
--- a/tests/png/stepper_motors.png
+++ b/tests/png/stepper_motors.png
--- a/tests/png/veroboard.png
+++ b/tests/png/veroboard.png
--- a/tests/ribbon_clamp.scad
+++ b/tests/ribbon_clamp.scad
@@ -16,20 +16,22 @@
 // You should have received a copy of the GNU General Public License along with NopSCADlib.
 // If not, see <https://www.gnu.org/licenses/>.
 //
-include <../utils/core/core.scad>
+include <../core.scad>
 use <../printed/ribbon_clamp.scad>
 use <../vitamins/wire.scad>

-ways = 20;
+ways = [8, 20];
+screws = [M2_dome_screw, M3_cap_screw];

 module ribbon_clamps()
-    translate([ribbon_clamp_length(ways) / 2, 0])
-        if($preview) {
-            ribbon_clamp_fastened_assembly(ways, 3);
+    for(i = [0 : len(screws) - 1])
+        translate([ribbon_clamp_length(ways[i]) / 2, i * 30])
+            if($preview) {
+                ribbon_clamp_fastened_assembly(ways[i], 3, screws[i]);

-            ribbon_cable(ways, 100);
-        }
-        else
-            ribbon_clamp(ways);
+                ribbon_cable(ways[i], 100);
+            }
+            else
+                ribbon_clamp(ways[i], screws[i]);

 ribbon_clamps();
--- a/tests/stepper_motors.scad
+++ b/tests/stepper_motors.scad
@@ -24,7 +24,7 @@ use <../utils/layout.scad>
 module stepper_motors()
    layout([for(s = stepper_motors) NEMA_width(s)], 5) {
        rotate(180)
-            NEMA(stepper_motors[$i]);
+            NEMA(stepper_motors[$i], 0, $i > 1 && $i < 5);

        translate_z(4)
            NEMA_screws(stepper_motors[$i], M3_pan_screw, n = $i, earth = $i > 4 ? undef : $i - 1);
--- a/utils/catenary.scad
+++ b/utils/catenary.scad
@@ -0,0 +1,52 @@
+//
+// NopSCADlib Copyright Chris Palmer 2020
+// nop.head@gmail.com
+// hydraraptor.blogspot.com
+//
+// This file is part of NopSCADlib.
+//
+// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
+// GNU General Public License as published by the Free Software Foundation, either version 3 of
+// the License, or (at your option) any later version.
+//
+// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
+// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
+// See the GNU General Public License for more details.
+//
+// You should have received a copy of the GNU General Public License along with NopSCADlib.
+// If not, see <https://www.gnu.org/licenses/>.
+//
+
+//
+//! Catenary curve to model hanging wires, etc.
+//!
+//! Although the equation of the curve is simply ```y = a cosh(x / a)``` there is no explicit formula to calculate the constant ```a``` or the range of ```x``` given the
+//! length of the cable and the end point coordinates. See <https://en.wikipedia.org/wiki/Catenary#Determining_parameters>. The Newton-Raphson method is used to find
+//! ```a``` numerically, see <https://en.wikipedia.org/wiki/Newton%27s_method>.
+//!
+//! The coordinates of the lowest point on the curve can be retrieved by calling ```catenary_points()``` with ```steps``` equal to zero.
+//
+include <core/core.scad>
+use <maths.scad>
+
+function catenary(t, a) = let(u = argsinh(t)) a * [u, cosh(u)]; //! Parametric catenary function linear along the length of the curve.
+function catenary_s(d, a) = 2 * a * sinh(d / a); //! Length of a symmetric catenary with width ```2d```.
+function catenary_ds_by_da(d, a) = 2 * sinh(d / a) - 2 * d / a * cosh(d / a); //! First derivative of the length with respect to ```a```.
+
+function catenary_find_a(d, l, a = 1, best_e = inf, best_a = 1) =  //! Find the catenary constant ```a```, given half the horizontal span and the length.
+     assert(l > 2 * d, "Not long enough to span the gap") assert(d) let(error = abs(catenary_s(d, a) - l))
+     error >= best_e && error < 0.0001 ? best_a
+                                       : catenary_find_a(d, l, max(a - (catenary_s(d, a) - l) / catenary_ds_by_da(d, a), d / argsinh(1e99)), error, a);
+
+function catenary_points(l, x, y, steps = 100) = //! Returns a list of 2D points on the curve that goes from the origin to ```(x,y)``` and has length ```l```.
+    let(
+        d = x / 2,
+        a = catenary_find_a(d, sqrt(sqr(l) - sqr(y))),   // Find a to get the correct length
+        offset = argsinh(y / catenary_s(d, a)),
+        t0 = sinh(-d / a + offset),
+        t1 = sinh( d / a + offset),
+        h = a * cosh(-d / a + offset) - a,
+        lowest = offset > d / a ? [0, 0] : offset < -d / a ? [x, y] : [d - offset * a, -h],
+        p0 = catenary(t0, a)
+    )
+    steps ? [for(t = [t0 : (t1 - t0) / steps : t1]) catenary(t, a) - p0] : lowest;
--- a/utils/core/core.scad
+++ b/utils/core/core.scad
@@ -18,7 +18,7 @@
 //

 //
-// Include this file to use the miniumum library
+// Include this file to use the minimum library
 //
 include <../../global_defs.scad>
 //
--- a/utils/core/global.scad
+++ b/utils/core/global.scad
@@ -36,12 +36,22 @@ function in(list, x) = !!len([for(v = list) if(v == x) true]);
 function Len(x) = is_list(x) ? len(x) : 0;                                          //! Returns the length of a list or 0 if ```x``` is not a list
 function r2sides(r) = $fn ? $fn : ceil(max(min(360/ $fa, r * 2 * PI / $fs), 5));    //! Replicates the OpenSCAD logic to calculate the number of sides from the radius
 function r2sides4n(r) = floor((r2sides(r) + 3) / 4) * 4;                            //! Round up the number of sides to a multiple of 4 to ensure points land on all axes
+function limit(x, min, max) = max(min(x, max), min);                                //! Force x in range min <= x <= max

 module translate_z(z) translate([0, 0, z]) children();                              //! Shortcut for Z only translations
 module vflip() rotate([180, 0, 0]) children();                                      //! Invert children by doing a 180&deg; flip around the X axis
 module hflip() rotate([0, 180, 0]) children();                                      //! Invert children by doing a 180&deg; flip around the Y axis
 module ellipse(xr, yr) scale([1, yr / xr]) circle4n(xr);                            //! Draw an ellipse

+function slice_str(str, start, end, s ="") = start >= end ? s : slice_str(str, start + 1, end, str(s, str[start])); // Helper for slice()
+
+function slice(list, start = 0, end = undef) = let( //! Slice a list or string with Python type semantics
+        len = len(list),
+        start = limit(start < 0 ? len + start : start, 0, len),
+        end   = is_undef(end) ? len : limit(end   < 0 ? len + end : end, 0, len)
+    ) is_string(list) ? slice_str(list, start, end) : [for(i = [start : 1 : end - 1]) list[i]];
+
+
 module extrude_if(h, center = true)                 //! Extrudes 2D object to 3D when ```h``` is nonzero, otherwise leaves it 2D
    if(h)
        linear_extrude(h, center = center, convexity = 2) // 3D
--- a/utils/core/polyholes.scad
+++ b/utils/core/polyholes.scad
@@ -32,10 +32,14 @@ module poly_circle(r, sides = 0) { //! Make a circle adjusted to print the corre
    circle(r = corrected_radius(r,n), $fn = n);
 }

-module poly_cylinder(r, h, center = false, sides = 0) //! Make a cylinder adjusted to print the correct size
+module poly_cylinder(r, h, center = false, sides = 0, chamfer = false) {//! Make a cylinder adjusted to print the correct size
    extrude_if(h, center)
        poly_circle(r, sides);

+    if(h && chamfer)
+        poly_cylinder(r + layer_height, center ? layer_height * 2 : layer_height, center, sides = sides ? sides : sides(r));
+}
+
 module poly_ring(or, ir, sides = 0) { //! Make a 2D ring adjusted to have the correct internal radius
    cir = corrected_radius(ir, sides);
    filaments = (or - cir) / extrusion_width;
--- a/utils/horiholes.scad
+++ b/utils/horiholes.scad
@@ -19,6 +19,8 @@

 //
 //! Utilities for depicting the staircase slicing of horizontal holes made with [`teardrop_plus()`](#teardrops), see <https://hydraraptor.blogspot.com/2020/07/horiholes-2.html>
+//!
+//! ```horicylinder()``` makes cylinders that fit inside a round hole. Layers that are less than 2 filaments wide and layers that need more than a 45 degree overhang are omitted.
 //
 include <../utils/core/core.scad>

@@ -53,3 +55,29 @@ module horihole(r, z, h = 0, center = true) { //! For making horizontal holes th
                        }
             }
 }
+
+function teardrop_minus_x(r, y, h) = //! Calculate the ordinate of a compensated teardrop given y and layer height.
+    let(fr = h / 2,
+        hpot = r - fr,
+        x2 = sqr(hpot) - sqr(y),
+        x = x2 > 0 ? sqrt(x2) : 0,
+        X = y >= -hpot / sqrt(2) ? x + fr : 0
+    )
+    X >= extrusion_width ? X : 0;
+
+module horicylinder(r, z, h = 0, center = true) { //! For making horizontal cylinders that don't need support material and are correct dimensions
+    bot_layer = floor((z - r) / layer_height);
+    top_layer = ceil((z + r) / layer_height);
+    render(convexity = 5)
+        extrude_if(h, center)
+            for(i = [bot_layer : top_layer]) {
+                Z = i * layer_height;
+                y = Z - z + layer_height / 2;
+                x = teardrop_minus_x(r, y, layer_height);
+                if(x >= extrusion_width)
+                    hull()
+                        for(end = [-1, 1])
+                            translate([end * (x - layer_height / 2), y])
+                                circle(d = layer_height, $fn = 32);
+             }
+}
--- a/utils/maths.scad
+++ b/utils/maths.scad
@@ -24,6 +24,14 @@ function sqr(x) = x * x;                        //! Square x
 function radians(degrees) = degrees * PI / 180; //! Convert radians to degrees
 function degrees(radians) = radians * 180 / PI; //! Convert degrees to radians

+function sinh(x) = (exp(x) - exp(-x)) / 2;      //! hyperbolic sine
+function cosh(x) = (exp(x) + exp(-x)) / 2;      //! hyperbolic cosine
+function tanh(x) = sinh(x) / cosh(x);           //! hyperbolic tangent
+function coth(x) = cosh(x) / sinh(x);           //! hyperbolic cotangent
+function argsinh(x) = ln(x + sqrt(sqr(x) + 1)); //! inverse hyperbolic sine
+function argcosh(x) = ln(x + sqrt(sqr(x) - 1)); //! inverse hyperbolic cosine
+function argtanh(x) = ln((1 + x) / (1 - x)) / 2;//! inverse hyperbolic tangent
+function argcoth(x) = ln((x + 1) / (x - 1)) / 2;//! inverse hyperbolic cotangent

 function translate(v) = let(u = is_list(v) ? len(v) == 2 ? [v.x, v.y, 0] //! Generate a 4x4 translation matrix, ```v``` can be ```[x, y]```, ```[x, y, z]``` or ```z```
                                                         : v
@@ -138,3 +146,10 @@ function invert(m) = let(n =len(m), m = solve(augment(m))) [ //! Invert a matrix
             each m[i][j]
    ]
 ];
+
+function circle_intersect(c1, r1, c2, r2) =     //! Calculate one point where two circles in the X-Z plane intersect, clockwise around c1
+    let(
+        v = c1 - c2,                            // Line between centres
+        d = norm(v),                            // Distance between centres
+        a = atan2(v.z, v.x) - acos((sqr(d) + sqr(r2) - sqr(r1)) / (2 * d * r2)) // Cosine rule to find angle from c2
+     ) c2 + r2 * [cos(a), 0, sin(a)];           // Point on second circle
--- a/utils/sweep.scad
+++ b/utils/sweep.scad
@@ -34,14 +34,22 @@ function transpose3(m) = [ [m[0].x, m[1].x, m[2].x],
                           [m[0].y, m[1].y, m[2].y],
                           [m[0].z, m[1].z, m[2].z] ];
 //
+// Find the first non-colinear point
+//
+tiny = 0.00001;
+function find_curve(tangents, i = 1) =
+    i >= len(tangents) - 1 || norm(cross(tangents[0], tangents[i] - tangents[0])) > tiny ? i
+                                                                                         : find_curve(tangents, i + 1);
+//
 // Frenet-Serret frame
 //
 function fs_frame(tangents) =
    let(tangent = tangents[0],
-        normal = tangents[1] - tangents[0],
+        i = find_curve(tangents),
+        normal = tangents[i] - tangents[0],
        binormal = cross(tangent, normal),
        z = unit(tangent),
-        x = assert(norm(binormal) > 0.00001, "first three points are colinear") unit(binormal),
+        x = assert(norm(binormal) > tiny, "all points are colinear") unit(binormal),
        y = unit(cross(z, x))
       ) [[x.x, y.x, z.x],
          [x.y, y.y, z.y],
@@ -70,7 +78,6 @@ function orientate(p, r) =
         [x.y, y.y, z.y],
         [x.z, y.z, z.z],
         [p.x, p.y, p.z]];
-
 //
 // Rotate around z
 //
@@ -145,10 +152,10 @@ function sweep(path, profile, loop = false, twist = 0) = //! Generate the point
        faces = loop ? skin_faces : concat([cap(facets)], skin_faces, [cap(facets, npoints - 1)])
        ) [points, faces];

-module sweep(path, profile, loop = false, twist = 0) { //! Draw a polyhedron that is the swept volume
+module sweep(path, profile, loop = false, twist = 0, convexity = 1) { //! Draw a polyhedron that is the swept volume
    mesh = sweep(path, profile, loop, twist);

-    polyhedron(points = mesh[0], faces = mesh[1]);
+    polyhedron(points = mesh[0], faces = mesh[1], convexity = convexity);
 }

 function path_length(path, i = 0, length = 0) = //! Calculated the length along a path
--- a/vitamins/axial.scad
+++ b/vitamins/axial.scad
@@ -24,6 +24,7 @@ include <../utils/core/core.scad>
 include <../utils/round.scad>

 module wire_link(d, l, h = 1, tail = 3) { //! Draw a wire jumper link.
+    vitamin(str("wire_link(", d, ", ", l, arg(h, 1, "h"), arg(tail, 3, "tail"),  "): Wire link ", d, "mm x ", l / inch(1), "\""));
    r = d;
    $fn = 32;

@@ -57,13 +58,16 @@ module orientate_axial(length, height, pitch, wire_d) { // Orient horizontal or
    min_pitch = ceil((length + 1) / inch(0.1)) * inch(0.1);
    lead_pitch = pitch ? pitch : min_pitch;
    if(lead_pitch >= min_pitch) {
-        wire_link(wire_d, lead_pitch, height);
+        not_on_bom()
+            wire_link(wire_d, lead_pitch, height);
+
        translate_z(height)
            rotate([0, 90, 0])
                children();
    }
    else {
-        wire_link(wire_d, lead_pitch, length + 0.7 + wire_d);
+        not_on_bom()
+            wire_link(wire_d, lead_pitch, length + 0.7 + wire_d);

        translate([-pitch / 2, 0, length / 2 + 0.2])
            children();
--- a/vitamins/cable_strip.scad
+++ b/vitamins/cable_strip.scad
@@ -20,7 +20,7 @@
 //
 //! A strip of polypropylene used with ribbon cable to make a cable flexible in one direction only.
 //!
-//! Modelled with a Bezier spline, which is not quite the same as a miniumum energy curve but very close, epecially
+//! Modelled with a Bezier spline, which is not quite the same as a minimum energy curve but very close, epecially
 //! near the extreme positions, where the model needs to be accurate.
 //!
 //! When the sides are constrained then a circular model is more accurate.
--- a/vitamins/component.scad
+++ b/vitamins/component.scad
@@ -161,13 +161,13 @@ module al_clad_resistor(type, value, leads = true) { //! Draw an aluminium clad
                }
        linear_extrude(thickness)
            difference() {
-                for(end = [-1, 1])
-                    translate([end * (length - tab) / 2, end * (width - width / 2) / 2])
-                        square([tab, width / 2], center = true);
+                union()
+                    for(end = [-1, 1])
+                        translate([end * (length - tab) / 2, end * (width - width / 2) / 2])
+                            square([tab, width / 2], center = true);

                al_clad_resistor_hole_positions(type)
                    circle(d = al_clad_hole(type));
-
            }
        if(leads) {
            translate_z(height / 2)
--- a/vitamins/insert.scad
+++ b/vitamins/insert.scad
@@ -137,19 +137,26 @@ module insert_lug(insert, wall, counter_bore = 0, extension = 0, corner_r = 0, f
    boss_h = insert_hole_length(insert);
    boss_h2 = boss_h + counter_bore;

-    module shape()
-        intersection() {
+    module shape() {
+        module _shape()
            hull() {
                circle(boss_r);

                translate([boss_r + extension - eps, 0])
                    square([eps, 2 * boss_r], center = true);
            }
-            if(corner_r)
+
+        if(corner_r)
+            intersection() {
+                _shape();
+
                translate([boss_r + extension - corner_r, 0])
                    rotate(-45)
                        quadrant(w = 100, r = corner_r - eps, center = true);
-        }
+            }
+        else
+            _shape();
+    }

    translate_z(-boss_h)
        linear_extrude(boss_h)
--- a/vitamins/inserts.scad
+++ b/vitamins/inserts.scad
@@ -29,7 +29,7 @@
 //                          d         d          h    d    d
 //                                         d
 //
-F1BM2   = [ "F1BM",    4.0, 3.6, 3.2, 2,   3.0,  1.0, 3.4, 3.1 ];
+F1BM2   = [ "F1BM2",    4.0, 3.6, 3.2, 2,   3.0,  1.0, 3.4, 3.1 ];
 F1BM2p5 = [ "F1BM2p5", 5.8, 4.6, 4.0, 2.5, 3.65, 1.6, 4.4, 3.9 ];
 F1BM3   = [ "F1BM3",   5.8, 4.6, 4.0, 3,   3.65, 1.6, 4.4, 3.9 ];
 F1BM4   = [ "F1BM4",   8.2, 6.3, 5.6, 4,   5.15, 2.3, 6.0, 5.55 ];
--- a/vitamins/jhead.scad
+++ b/vitamins/jhead.scad
@@ -138,7 +138,7 @@ module jhead_hot_end_assembly(type, filament, naked = false) { //! Assembly with
    //
    // silcone tape
    //
-    if(!naked)
+    if(is_undef(naked) || !naked)
        color("red")
            if(exploded())
                translate([0, max(hot_end_insulator_diameter(type) / 2, heater_length(heater) / 2 - nozzle_x(heater)),
@@ -156,7 +156,7 @@ module jhead_hot_end_assembly(type, filament, naked = false) { //! Assembly with
    //
    // Zip tie and heatshrink
    //
-    if(!naked)
+    if(!naked  && !is_undef(naked))
        rotate(10) {
            dia =  hot_end_insulator_diameter(type);
            scale([1, (bundle + dia) / dia])
@@ -179,23 +179,27 @@ module jhead_hot_end_assembly(type, filament, naked = false) { //! Assembly with
    //
    // heater block
    //
-    rotate(90)
-        translate([-nozzle_x(heater), 0, inset - insulator_length - heater_height(heater) / 2]) {
-            intersection() {
-                group() {
-                    translate([resistor_x(heater), -exploded() * 15, 0])
-                        rotate([90, 0, 0])
-                             sleeved_resistor(resistor, PTFE20, bare = -10);
+    module heater_components() {
+        translate([resistor_x(heater), -exploded() * 15, 0])
+            rotate([90, 0, 0])
+                 sleeved_resistor(resistor, PTFE20, bare = -10);
+
+        translate([-heater_length(heater) / 2 + resistor_length(thermistor) / 2 - exploded() * 10, thermistor_y(heater), 0])
+            rotate([90, 0, -90])
+                 sleeved_resistor(thermistor, PTFE07, heatshrink = HSHRNK16);
+    }
+
+    rotate(90)
+        translate([-nozzle_x(heater), 0, inset - insulator_length - heater_height(heater) / 2])
+            if(exploded())
+                heater_components();
+            else
+                intersection() {
+                    heater_components();

-                    translate([-heater_length(heater) / 2 + resistor_length(thermistor) / 2 - exploded() * 10, thermistor_y(heater), 0])
-                        rotate([90, 0, -90])
-                             sleeved_resistor(thermistor, PTFE07, heatshrink = HSHRNK16);
-                }
-                if(!exploded())
                    if(naked)
                        color("grey") cylinder(r = 12, h = 100, center = true);
                    else
                        cube(1, true);             // hide the wires when not exploded
-            }
-    }
+                }
 }
--- a/vitamins/led_meter.scad
+++ b/vitamins/led_meter.scad
@@ -85,7 +85,8 @@ module meter(type, colour = "red", value = "888", display_colour = false) //! Dr
        translate([0, meter_shunt_y(type), size.z])
            vflip()
                color("#b87333")
-                    wire_link(shunt.y, shunt.x, shunt.z, tail = 2);
+                    not_on_bom()
+                        wire_link(shunt.y, shunt.x, shunt.z, tail = 2);
 }

 clearance = 0.1;
--- a/vitamins/opengrab.scad
+++ b/vitamins/opengrab.scad
@@ -24,18 +24,27 @@
 //
 include <../utils/core/core.scad>
 use <../utils/thread.scad>
+use <pcb.scad>
+include <smds.scad>

 pitch = 33.8 / 2;
 width = 40;
 depth = 18;
 magnet = 4.3;
-pcb = 0.8;
 pillar = 6;
 target = 1;
 pole_w = 2;
 pole_l = 36;
 poles = 15;

+pcb = ["", "",        width, width, 0.8, 0, 3.5, 0, "darkgreen", false, [],
+    [     [ 3.45,   19,   0, "button_4p5mm"],
+          [ 2.75,   24.5, 0, "smd_led", LED0805, "green"],
+          [ 2.75,   28.0, 0, "smd_led", LED0805, "red"],
+          [ 28.5,   13,   0, "2p54header", 3, 1, false, undef, true],
+     ]];
+
+
 module opengrab_hole_positions()    //! Position children at the screw positions
    let($d = 3.2)
        for($x = [-pitch, pitch], $y = [-pitch, pitch])
@@ -48,9 +57,11 @@ module opengrab_side_hole_positions() //! Position children at the two 4mm hole
            translate([$x, 0])
                children();

-function opengrab_width() = width;              //! Module width
-function opengrab_depth() = depth;              //! Module height
-function opengrab_target_thickness() = target;  //! Target sheet thickness
+function opengrab_width() = width;                               //! Module width
+function opengrab_depth() = depth;                               //! Module height
+function opengrab_target_thickness() = target;                   //! Target sheet thickness
+function opengrab_pcb() = pcb;                                   //! The PCB
+function opengrab_pcb_z() = depth - pillar - pcb_thickness(pcb); //! PCB offset from the front

 module opengrab() { //! Draw OpenGrab module
    vitamin("opengrab(): OpenGrab V3 electro permanent magnet");
@@ -67,10 +78,9 @@ module opengrab() { //! Draw OpenGrab module
                cube([pole_w, pole_l, 1], center = true);
    }

-    color("darkgreen")
-        translate_z(depth - pillar - pcb / 2)
-            cube([width, width, pcb], center = true);
-
+    not_on_bom()
+        translate_z(opengrab_pcb_z())
+            pcb(pcb);

    translate_z(1)
        opengrab_hole_positions() {
--- a/vitamins/panel_meter.scad
+++ b/vitamins/panel_meter.scad
@@ -77,7 +77,6 @@ module panel_meter(type) { //! Draw panel mounted LCD meter module
    tab_z = pmeter_tab_z(type);
    pcb = pmeter_pcb(type);
    ap2 = pmeter_inner_ap(type);
-    pcb_h = pmeter_pcb_h(type) - bezel.z;
    buttons = pmeter_buttons(type);

    color("#94A7AB")
@@ -146,15 +145,16 @@ module panel_meter(type) { //! Draw panel mounted LCD meter module
                    translate(pmeter_inner_ap_o(type))
                        square([ap2.x, ap2.y], center = true);
                }
-    if(pcb)
+    if(pcb) {
        vflip()
            translate_z(h - pcb_thickness(pcb) - pmeter_pcb_z(type))
                pcb(pcb);

-    if(pcb_h > 0)
-        %translate_z(-pcb_h / 2 - eps)
-            cube([size.x - 2 * t - eps, size.y - 2 * t - eps, pcb_h], center = true);
-
+        pcb_h = pmeter_pcb_h(type) - bezel.z;
+        if(pcb_h > 0)
+            %translate_z(-pcb_h / 2 - eps)
+                cube([size.x - 2 * t - eps, size.y - 2 * t - eps, pcb_h], center = true);
+    }
    if(buttons)
        for(b = buttons)
            panel_meter_button(b);
--- a/vitamins/panel_meters.scad
+++ b/vitamins/panel_meters.scad
@@ -44,7 +44,7 @@ DSP5005   = ["DSP5005", "Ruideng DSP5005 Power supply module",                [7
 DSN_VC288PCB = ["", "", 41, 21, 1, 0, 0, 0, "green", false, [], [[ 5,  -3,   0, "jst_xh", 3], ], []];

 DSN_VC288 = ["DSN_VC288","DSN-VC288 DC 100V 10A Voltmeter ammeter",            [45.3, 26,   17.4], [47.8, 28.8, 2.5], 0,   [1, 1.8], [36, 18, 2.5], [],            0, 2,
-              [], 0, DSN_VC288PCB, 5];
+              [], 0, DSN_VC288PCB, 5, 0];

 panel_meters = [DSN_VC288, PZEM021, PZEM001, DSP5005];

--- a/vitamins/pcb.scad
+++ b/vitamins/pcb.scad
@@ -915,7 +915,7 @@ module pcb_component(comp, cutouts = false, angle = undef) { //! Draw pcb compon
    function param(n, default = 0) = len(comp) > n ? comp[n] : default;
    rotate(comp.z) {
        // Components that have a cutout parameter go in this section
-        if(show(comp, "2p54header"))    pin_header(2p54header, comp[4], comp[5], param(6, false), false, cutouts, colour = param(7, undef));
+        if(show(comp, "2p54header"))    pin_header(2p54header, comp[4], comp[5], param(6, false), param(8, false), cutouts, colour = param(7, undef));
        if(show(comp, "2p54boxhdr"))    box_header(2p54header, comp[4], comp[5], param(6, false), cutouts);
        if(show(comp, "2p54socket"))    pin_socket(2p54header, comp[4], comp[5], param(6, false), param(7, 0), param(8, false), cutouts, param(9, undef));
        if(show(comp, "chip"))          chip(comp[4], comp[5], comp[6], param(7, grey(30)), cutouts);
@@ -940,6 +940,7 @@ module pcb_component(comp, cutouts = false, angle = undef) { //! Draw pcb compon
        if(!cutouts) {
            // Components that don't have a cutout parameter go in this section
            if(show(comp, "button_6mm"))    square_button(button_6mm);
+            if(show(comp, "button_4p5mm"))  square_button(button_4p5mm);
            if(show(comp, "microswitch"))   translate_z(microswitch_thickness(comp[4])/2) microswitch(comp[4]);
            if(show(comp, "pcb"))           translate_z(comp[4]) pcb(comp[5]);
            if(show(comp, "standoff"))      standoff(comp[4], comp[5], comp[6], comp[7]);
@@ -953,6 +954,7 @@ module pcb_component(comp, cutouts = false, angle = undef) { //! Draw pcb compon
            if(show(comp, "led"))           led(comp[4], comp[5], 2.6);
            if(show(comp, "pdip"))          pdip(comp[4], comp[5], param(6, false), param(7, inch(0.3)));
            if(show(comp, "ax_res"))        ax_res(comp[4], comp[5], param(6, 5), param(7, 0));
+            if(show(comp, "link"))          wire_link(l = comp[4], h = param(5, 1), d = param(6, 0.8), tail = param(7, 3));
            if(show(comp, "D_plug"))        translate_z(d_pcb_offset(comp[4])) d_plug(comp[4], pcb = true);
            if(show(comp, "molex_hdr"))     molex_254(comp[4]);
            if(show(comp, "jst_xh"))        jst_xh_header(jst_xh_header, comp[4], param(5, false), param(6, "white"), param(7, undef));
--- a/vitamins/pcbs.scad
+++ b/vitamins/pcbs.scad
@@ -385,6 +385,11 @@ WD2002SJ = ["WD2002SJ", "WD2002SJ Buck Boost DC-DC converter", 78, 47, 1.6, 0, 3
    ],
    []];

+MP1584EN = ["MP1584EN", "MP1584EN 3A buck converter", 22, 17, 1.2, 0, 1, [2, 2], "green", false,
+    [[1.75, 1.75], [1.75, -1.75], [-1.75, 1.75], [-1.75, -1.75], [-1.75, -4.4], [-1.75, 4.48], [1.75, -4.4], [1.75, 4.4]],
+    []
+];
+
 PERF80x20 = ["PERF80x20", "Perfboard 80 x 20mm", 80, 20, 1.6, 0, 2.3, 0, "green", true, [[2,2],[-2,2],[2,-2],[-2,-2]], [], [], [5.87, 3.49]];

 PERF70x50 = ["PERF70x50", "Perfboard 70 x 50mm", 70, 50, 1.6, 0, 2.3, 0, "green", true, [[2,2],[-2,2],[2,-2],[-2,-2]], [], [], [5.87, 3.49]];
@@ -410,7 +415,7 @@ RAMPSEndstop = ["RAMPSEndstop", "RAMPS Endstop Switch",
    []];


-pcbs = [TP4056, MT3608, RAMPSEndstop, ExtruderPCB, PI_IO, ZC_A0591, RPI0, EnviroPlus, ArduinoUno3, ArduinoLeonardo, Keyes5p1, PSU12V1A, WD2002SJ, RPI3, RPI4, DuetE, Duex2, Duex5, Melzi];
+pcbs = [MP1584EN, TP4056, MT3608, RAMPSEndstop, ExtruderPCB, PI_IO, ZC_A0591, RPI0, EnviroPlus, ArduinoUno3, ArduinoLeonardo, Keyes5p1, PSU12V1A, WD2002SJ, RPI3, RPI4, DuetE, Duex2, Duex5];

 perfboards = [PERF74x51, PERF70x50, PERF60x40, PERF70x30, PERF80x20];

--- a/vitamins/pin_header.scad
+++ b/vitamins/pin_header.scad
@@ -50,26 +50,37 @@ module pin_header(type, cols = 1, rows = 1, smt = false, right_angle = false, cu
    ra_offset = 2.4;
    width = pitch * rows;

-    if(cutout)
+    module cutout()
        dogbone_rectangle([cols * pitch + 2 * panel_clearance, rows * pitch + 2 * panel_clearance, 100], center = false);
+
+    if(cutout) {
+        if(right_angle)
+            translate_z(width / 2)
+                rotate([-90, 0, 180])
+                    cutout();
+        else
+            cutout();
+    }
    else {
        vitamin(str("pin_header(", type[0], ", ", cols, ", ", rows,
                    arg(smt, false, "smt"), arg(right_angle, false, "right_angle"), "): Pin header ", cols, " x ", rows, right_angle ? " right_angle" : ""));

        translate_z(smt ? 3.5 - h : 0) {
            for(x = [0 : cols - 1], y = [0 : rows - 1]) {
-                translate([pitch * (x - (cols - 1) / 2), pitch * (y - (rows - 1) / 2), 0])
+                // Vertical part of the pin
+                translate([pitch * (x - (cols - 1) / 2), pitch * (y - (rows - 1) / 2)])
                    if(right_angle)
-                        pin(type, hdr_pin_below(type) + width / 2 + (y - 0.5) * pitch);
+                        pin(type, hdr_pin_below(type) + (y + 0.5) * pitch);
                    else
                        pin(type);

                if(right_angle) {
                    w = hdr_pin_width(type);
+                    // Horizontal part of the pin
                    rotate([-90, 0, 180])
-                        translate([pitch * (x - (cols - 1) / 2), -pitch * (y - (rows - 1) / 2) -width / 2, hdr_pin_below(type) - (y - 0.5) * pitch])
+                        translate([pitch * (x - (cols - 1) / 2), -pitch * (y - (rows - 1) / 2) - width / 2, hdr_pin_below(type) - (y - (rows - 1) / 2) * pitch])
                            pin(type, hdr_pin_length(type) - hdr_pin_below(type) + ra_offset + pitch / 2 + (y - 0.5) * pitch);
-
+                    // corner
                    translate([pitch * (x - (cols - 1) / 2), pitch * (y - (rows - 1) / 2) - w / 2, pitch * (y - (rows - 1) / 2) + width / 2 - w / 2])
                        rotate([0, -90, 0])
                            color(hdr_pin_colour(type))
@@ -78,7 +89,8 @@ module pin_header(type, cols = 1, rows = 1, smt = false, right_angle = false, cu
                                        square(w);
                }
            }
-            translate([0, right_angle ? -ra_offset - pitch / 2 : 0, right_angle ? width / 2 : 0])
+            // Insulator
+            translate([0, right_angle ? -ra_offset - (rows - 1) * pitch / 2 : 0, right_angle ? width / 2 : 0])
                rotate([right_angle ? 90 : 0, 0, 0])
                    color(base_colour)
                        linear_extrude(h)
@@ -176,7 +188,7 @@ module pin_socket(type, cols = 1, rows = 1, right_angle = false, height = 0, smt
        vitamin(str("pin_socket(", type[0], ", ", cols, ", ", rows, arg(right_angle, false, "right_angle"), arg(height, 0, "height"), arg(smt, false, "smt"),
                               "): Pin socket ", cols, " x ", rows, right_angle ? " right_angle" : ""));
        color(base_colour)
-            translate([0, right_angle ? -ra_offset - pitch / 2 : 0, right_angle ? width / 2 : 0])
+            translate([0, right_angle ? -ra_offset - (rows - 1) * pitch / 2 : 0, right_angle ? width / 2 : 0])
                rotate([right_angle ? 90 : 0, 0, 0])
                    translate_z(depth / 2)
                        linear_extrude(depth, center = true)
@@ -192,11 +204,11 @@ module pin_socket(type, cols = 1, rows = 1, right_angle = false, height = 0, smt
            for(x = [0 : cols - 1], y = [0 : rows -1]) {
                if(!smt)
                    translate([pitch * (x - (cols - 1) / 2), pitch * (y - (rows - 1) / 2), 0])
-                        pin(type, hdr_pin_below(type) + width / 2 + (y - 0.5) * pitch);
+                        pin(type, hdr_pin_below(type) + (y + 0.5) * pitch);

                if(right_angle) {
-                    rotate([-90, 0, 0])
-                        translate([pitch * (x - (cols - 1) / 2), -pitch * (y - (rows - 1) / 2) -width / 2, 0])
+                    rotate([-90, 0, 180])
+                        translate([pitch * (x - (cols - 1) / 2), -pitch * (y - (rows - 1) / 2) - width / 2, hdr_pin_below(type) - (y - (rows - 1) / 2) * pitch])
                            pin(type, hdr_pin_below(type) + (y - 0.5) * pitch);

                    w = hdr_pin_width(type);
@@ -210,7 +222,7 @@ module pin_socket(type, cols = 1, rows = 1, right_angle = false, height = 0, smt
    }
 }

-module jst_xh_header(type, pin_count, right_angle=false, colour, pin_colour) { //! Draw JST XH connector
+module jst_xh_header(type, pin_count, right_angle = false, colour = false, pin_colour = false) { //! Draw JST XH connector
    colour = colour ? colour : hdr_base_colour(type);
    pin_colour = pin_colour ? pin_colour : hdr_pin_colour(type);
    sizeY = 5.75;
--- a/vitamins/pin_headers.scad
+++ b/vitamins/pin_headers.scad
@@ -17,15 +17,15 @@
 // If not, see <https://www.gnu.org/licenses/>.
 //

-//                          p     p     b    p     p       b      Socket depth
-//                          i     i     e    i     i       a
-//                          t     n     l    n     n       s
-//                          c           o                  e
-//                          h     l     w    w     c
-//                                                         c
+//                               p     p     b    p     p       b         Socket depth
+//                               i     i     e    i     i       a
+//                               t     n     l    n     n       s
+//                               c           o                  e
+//                               h     l     w    w     c
+//                                                              c
 //
-2p54header = ["2p54header", 2.54, 11.6, 3.2, 0.66, "gold", grey(20), 8.5];
-jst_xh_header = ["JST XH header",2.5,10,3.4, 0.64, "gold", grey(90), 7];
+2p54header    = ["2p54header",   2.54, 11.6, 3.2, 0.66, "gold", grey(20), 8.5];
+jst_xh_header = ["JST XH header",2.5,  10,   3.4, 0.64, "gold", grey(90), 7];

 pin_headers = [ 2p54header ];

--- a/vitamins/screw.scad
+++ b/vitamins/screw.scad
@@ -175,12 +175,15 @@ module screw(type, length, hob_point = 0, nylon = false) { //! Draw specified sc

        if(head_type == hs_dome) {
            lift = 0.38;
+            h = head_height - lift;
+            r = min(2 * head_height, (sqr(head_rad) + sqr(h)) / 2 * h); // Special case for M2
+            y = sqrt(sqr(r) - sqr(head_rad));
            color(colour) {
                rotate_extrude() {
                    difference() {
                        intersection() {
-                            translate([0, -head_height + lift])
-                                circle(2 * head_height);
+                            translate([0, -y + lift])
+                                circle(r);

                            square([head_rad, head_height]);
                        }
--- a/vitamins/screws.scad
+++ b/vitamins/screws.scad
@@ -75,10 +75,11 @@ M5_cap_screw     = ["M5_cap", "M5 cap",         hs_cap,   5, 8.5, 5,    2.5, 4.0
 M6_cap_screw     = ["M6_cap", "M6 cap",         hs_cap,   6, 10,  6,    3.3, 5.0, 24,  M6_washer, M6_nut,   M6_tap_radius,    M6_clearance_radius];
 M8_cap_screw     = ["M8_cap", "M8 cap",         hs_cap,   8, 13,  8,    4.3, 6.0, 28,  M8_washer, M8_nut,   M8_tap_radius,    M8_clearance_radius];

-M2_cs_cap_screw  = ["M2_cs_cap","M2 cs cap",    hs_cs_cap,2, 3.8, 0,    0.65,1.27,16,  M2_washer, M2_nut,   M2_tap_radius,    M2_clearance_radius];
+M2_cs_cap_screw  = ["M2_cs_cap","M2 cs cap",    hs_cs_cap,2, 3.8, 0,    0.65,1.3, 16,  M2_washer, M2_nut,   M2_tap_radius,    M2_clearance_radius];
 M3_cs_cap_screw  = ["M3_cs_cap","M3 cs cap",    hs_cs_cap,3, 6.0, 0,    1.05,2.0, 18,  M3_washer, M3_nut,   M3_tap_radius,    M3_clearance_radius];
 M4_cs_cap_screw  = ["M4_cs_cap","M4 cs cap",    hs_cs_cap,4, 8.0, 0,    1.49,2.5, 20,  M4_washer, M4_nut,   M4_tap_radius,    M4_clearance_radius];

+M2_dome_screw    = ["M2_dome", "M2 dome",       hs_dome,  2, 3.5, 1.3,  0.6, 1.3, 16,  M2_washer, M2_nut,   M2_tap_radius,    M2_clearance_radius];
 M3_dome_screw    = ["M3_dome", "M3 dome",       hs_dome,  3, 5.7, 1.65, 1.04,2.0, 18,  M3_washer, M3_nut,   M3_tap_radius,    M3_clearance_radius];
 M4_dome_screw    = ["M4_dome", "M4 dome",       hs_dome,  4, 7.6, 2.2,  1.3, 2.5, 20,  M4_washer, M4_nut,   M4_tap_radius,    M4_clearance_radius];

@@ -106,14 +107,14 @@ No6_screw        = ["No6", "No6 pan wood",      hs_pan, 3.5, 6.7, 2.2,    0,   0
 No6_cs_screw     = ["No6_cs", "No6 cs wood",    hs_cs,  3.5, 7.0, 0,      0,   0, 0,   M4_washer, false,    No6_pilot_radius, No6_clearance_radius];

 screw_lists = [
-[ M2_cap_screw, M2p5_cap_screw, M3_cap_screw, M4_cap_screw, M5_cap_screw, M6_cap_screw, M8_cap_screw],
+[ M2_cap_screw, M2p5_cap_screw, M3_cap_screw,    M4_cap_screw, M5_cap_screw, M6_cap_screw, M8_cap_screw],
 [ 0,            0,              M3_low_cap_screw],
-[ 0,            0,              M3_hex_screw, M4_hex_screw, M5_hex_screw, M6_hex_screw, M8_hex_screw],
-[ 0,            M2p5_pan_screw, M3_pan_screw, M4_pan_screw, M5_pan_screw, M6_pan_screw, No632_pan_screw],
-[ 0,            No2_screw,      No4_screw,    No6_screw,    No6_cs_screw],
+[ 0,            0,              M3_hex_screw,    M4_hex_screw, M5_hex_screw, M6_hex_screw, M8_hex_screw],
+[ 0,            M2p5_pan_screw, M3_pan_screw,    M4_pan_screw, M5_pan_screw, M6_pan_screw, No632_pan_screw],
+[ 0,            No2_screw,      No4_screw,       No6_screw,    No6_cs_screw],
 [ 0,            M2_cs_cap_screw,M3_cs_cap_screw, M4_cs_cap_screw],
-[ 0,            0,              M3_dome_screw, M4_dome_screw],
-[ 0,            0,              M3_grub_screw, M4_grub_screw]
+[ 0,            M2_dome_screw,  M3_dome_screw,   M4_dome_screw],
+[ 0,            0,              M3_grub_screw,   M4_grub_screw]
 ];

 use <screw.scad>
--- a/vitamins/smd.scad
+++ b/vitamins/smd.scad
@@ -62,9 +62,10 @@ module smd_led(type, colour, cutout) { //! Draw an SMD LED with specified ```col
                intersection() {
                    square([size.x, size.y], center = true);

-                    for(end = [-1, 1])
-                        translate([end * size.x / 2, 0])
-                            ring(or = r, ir = r / 2);
+                    union()
+                        for(end = [-1, 1])
+                            translate([end * size.x / 2, 0])
+                                ring(or = r, ir = r / 2);
                }

        color(colour, 0.9)
--- a/vitamins/stepper_motor.scad
+++ b/vitamins/stepper_motor.scad
@@ -23,6 +23,7 @@
 include <../core.scad>
 include <ring_terminals.scad>

+include <../vitamins/pin_headers.scad>
 use <../utils/tube.scad>
 use <../utils/thread.scad>
 use <washer.scad>
@@ -39,7 +40,6 @@ function NEMA_shaft_length(type)= type[8]; //! Shaft length above the face, if a
 function NEMA_hole_pitch(type)  = type[9]; //! Screw hole pitch
 function NEMA_holes(type)       = [-NEMA_hole_pitch(type) / 2, NEMA_hole_pitch(type) / 2]; //! Screw positions for for loop
 function NEMA_big_hole(type)    = NEMA_boss_radius(type) + 0.2; //! Clearance hole for the big boss
-
 stepper_body_colour = "black";
 stepper_cap_colour  = grey(50);
 stepper_machined_colour = grey(90);
@@ -52,7 +52,7 @@ module NEMA_outline(type) //! 2D outline
        circle(NEMA_radius(type));
    }

-module NEMA(type, shaft_angle = 0) { //! Draw specified NEMA stepper motor
+module NEMA(type, shaft_angle = 0, jst_connector = false) { //! Draw specified NEMA stepper motor
    side = NEMA_width(type);
    length = NEMA_length(type);
    body_rad = NEMA_body_radius(type);
@@ -89,15 +89,26 @@ module NEMA(type, shaft_angle = 0) { //! Draw specified NEMA stepper motor
        tube(or = boss_rad, ir =  shaft_rad + 2, h = boss_height * 2); // raised boss

        linear_extrude(eps)
-            cap_shape(true);
+            cap_shape(1);
    }

-    color(stepper_cap_colour)                                       // aluminium end caps
+    tabSize = [16, 4, 2.5];
+    color(stepper_cap_colour) {                                     // aluminium end caps
        for(end = [-1, 1])
            translate_z(-length / 2 + end * (length - cap) / 2)
                linear_extrude(cap, center = true)
                    cap_shape(end);

+        if(jst_connector)
+            translate([-tabSize.x / 2, side / 2, -length])
+                cube(tabSize);
+    }
+
+    if(jst_connector)
+        translate([0, side / 2 - 2, -length + tabSize.z + 5.75 / 2])
+            rotate([-90, 0, 0])
+                jst_xh_header(jst_xh_header, 6);
+
    if(show_threads)
        for(x = NEMA_holes(type), y = NEMA_holes(type))
            translate([x, y, -cap / 2])
@@ -111,15 +122,16 @@ module NEMA(type, shaft_angle = 0) { //! Draw specified NEMA stepper motor
                    cylinder(r = shaft_rad, h = shaft + 5);  // shaft
            else
                not_on_bom()
-                    leadscrew(shaft_rad * 2, shaft.x + 5, shaft.y, shaft.z, center = false)
+                    leadscrew(shaft_rad * 2, shaft.x + 5, shaft.y, shaft.z, center = false);

-    translate([0, side / 2, -length + cap / 2])
-        rotate([90, 0, 0])
-            for(i = [0 : 3])
-                rotate(225 + i * 90)
-                    color(["red", "blue","green","black"][i])
-                        translate([1, 0, 0])
-                            cylinder(r = 1.5 / 2, h = 12, center = true);
+    if(!jst_connector)
+        translate([0, side / 2, -length + cap / 2])
+            rotate([90, 0, 0])
+                for(i = [0 : 3])
+                    rotate(225 + i * 90)
+                        color(["red", "blue","green","black"][i])
+                            translate([1, 0, 0])
+                                cylinder(r = 1.5 / 2, h = 12, center = true);
 }

 module NEMA_screw_positions(type, n = 4) { //! Positions children at the screw holes
--- a/vitamins/stepper_motors.scad
+++ b/vitamins/stepper_motors.scad
@@ -23,13 +23,13 @@

 //                                   corner  body    boss    boss          shaft
 //                     side, length, radius, radius, radius, depth, shaft, length,      holes
-NEMA17  = ["NEMA17",   42.3, 47,     53.6/2, 25,     11,     2,     5,     24,          31 ];
-NEMA17M = ["NEMA17M",  42.3, 40,     53.6/2, 25,     11,     2,     5,     20,          31 ];
-NEMA17M8= ["NEMA17M8", 42.3, 40,     53.6/2, 25,     11,     2,     8,     [280, 8, 4], 31 ];
-NEMA17S = ["NEMA17S",  42.3, 34,     53.6/2, 25,     11,     2,     5,     24,          31 ];
-NEMA16  = ["NEMA16",   39.5, 19.2,   50.6/2, 50.6/2, 11,     2,     5,     12,          31 ];
-NEMA14  = ["NEMA14",   35.2, 36,     46.4/2, 21,     11,     2,     5,     21,          26 ];
-NEMA23  = ["NEMA23",   56.4, 51.2,   75.7/2, 35,   38.1/2, 1.6,   6.35,    24,        47.1 ];
+NEMA17  = ["NEMA17",   42.3, 47,     53.6/2, 25,     11,     2,     5,     24,          31];
+NEMA17M = ["NEMA17M",  42.3, 40,     53.6/2, 25,     11,     2,     5,     20,          31];
+NEMA17M8= ["NEMA17M8", 42.3, 40,     53.6/2, 25,     11,     2,     8,     [280, 8, 4], 31];
+NEMA17S = ["NEMA17S",  42.3, 34,     53.6/2, 25,     11,     2,     5,     24,          31];
+NEMA16  = ["NEMA16",   39.5, 19.2,   50.6/2, 50.6/2, 11,     2,     5,     12,          31];
+NEMA14  = ["NEMA14",   35.2, 36,     46.4/2, 21,     11,     2,     5,     21,          26];
+NEMA23  = ["NEMA23",   56.4, 51.2,   75.7/2, 35,   38.1/2, 1.6,   6.35,    24,        47.1];

 stepper_motors = [NEMA14, NEMA16, NEMA17S, NEMA17M, NEMA17, NEMA23];

--- a/vitamins/veroboard.scad
+++ b/vitamins/veroboard.scad
@@ -132,8 +132,12 @@ module veroboard(type) { //! Draw specified veroboard with missing tracks and tr
 module vero_components(type, cutouts = false, angle = undef)
    for(comp = vero_components(type))
        vero_grid_pos(type, comp.x, comp.y)
-            translate_z(vero_thickness(type))
-                pcb_component(comp, cutouts, angle);
+            if(comp[3][0] == "-")
+                vflip()
+                    pcb_component(comp, cutouts, angle);
+            else
+                translate_z(vero_thickness(type))
+                    pcb_component(comp, cutouts, angle);

 module vero_cutouts(type, angle = undef) vero_components(type, true, angle); //! Make cutouts to clear components
Author	SHA1	Message	Date
Chris Palmer	23cbadf6df	Merge branch 'martinbudden-stepper_motor_jst_connector'	2020-11-08 21:29:03 +00:00
Chris Palmer	c9c2ffafba	Fixed connector position, fixed missing wires, updated images. Reverted the jst header pin position change.	2020-11-08 21:28:08 +00:00
Martin Budden	2e0e833d40	Made jst_connector a parameter to NEMA.	2020-11-08 15:14:19 +00:00
Martin Budden	0b035dbd15	Added optional jst connector to stepper motors.	2020-11-08 12:20:15 +00:00
Chris Palmer	34b58e3b64	Added convexity parameter to sweep.	2020-11-04 22:27:31 +00:00
Chris Palmer	df43fe7dc6	Added list and string slicing.	2020-11-04 21:44:07 +00:00
Chris Palmer	b5fe03fcb2	Test image pixel differences due to switch to winter computer	2020-11-04 20:48:22 +00:00
Chris Palmer	1658f6f0b4	Sweep can now cope with the start having colinear points.	2020-11-04 19:56:51 +00:00
Chris Palmer	7b126f9792	More spelling	2020-11-04 19:50:35 +00:00
Chris Palmer	479207fd4f	Spelling	2020-11-04 10:52:57 +00:00
Chris Palmer	3ee55981f9	Comment spelling.	2020-10-05 12:02:54 +01:00
Chris Palmer	8c2b4a20fe	Added tesrdrop_minus() and horicylinder().	2020-10-05 10:59:50 +01:00
Chris Palmer	1529759406	Fixes for lazy union.	2020-10-05 10:42:13 +01:00
Chris Palmer	c4a986aa21	Test for circle_intersect()	2020-10-05 10:41:27 +01:00
Chris Palmer	ebee729d08	Added MP1584EN PCB. Melzi no longer displayed.	2020-10-05 10:40:43 +01:00
Chris Palmer	90e7f1a315	Added circle_intersect() calculation to maths.scad.	2020-10-04 22:01:08 +01:00
Chris Palmer	e39af154bb	Fixed use of intersection with conditional argument to suit new OpenSCAD behaviour.	2020-10-03 15:53:41 +01:00
Chris Palmer	933fea687c	Removed debug code	2020-09-20 09:07:01 +01:00
Chris Palmer	a7803b1efb	Improved numerical accuarcy of catenary calculations.	2020-09-19 23:52:57 +01:00
Chris Palmer	1255e71271	Added catenary curves.	2020-09-19 12:11:54 +01:00
Chris Palmer	b11c5914b3	Added hyperbolic maths functions	2020-09-15 20:58:39 +01:00
Chris Palmer	ac60057801	Fixes for additional warnings in OpenSCAD 2020.09.12.ci5914	2020-09-14 22:54:55 +01:00
Chris Palmer	332933a4fd	Made ribbon_clamps parametric on screw size.	2020-09-11 19:53:14 +01:00
Chris Palmer	6b0132c32e	Added chamfer option to poly_cylinder().	2020-09-11 12:36:37 +01:00
Chris Palmer	afac5f9737	Added PCB components to OpenGrab and functions to access PCB.	2020-09-11 12:35:22 +01:00
Chris Palmer	8d8df3cb8a	Added 4.5mm button to PCBs.	2020-09-11 12:30:00 +01:00
Chris Palmer	81eb183db9	Fixed PCB cutout for right angle pin headers.	2020-09-11 12:24:07 +01:00
Chris Palmer	c99ed98a64	Can now have right angle pin headers on PCBs. Fixed bugs right angle pin headers with rows not equal to two. Added more tests for pin headers.	2020-09-11 00:20:28 +01:00
Chris Palmer	7f65e5d539	Added M2 dome head screws.	2020-09-10 18:38:24 +01:00
Chris Palmer	ffb7f87cc5	Fixed typo in insert name.	2020-09-10 18:27:56 +01:00
Chris Palmer	d0513c7299	Bodge to jhead to allow the ziptie and sleaving to be removed by setting naked to undef.	2020-09-06 12:33:44 +01:00
Chris Palmer	d1429a3b7d	Verboard can now have components on the underside, same as PCBs.	2020-09-06 12:32:42 +01:00
Chris Palmer	70513993bd	Can now put wire links on PCBs	2020-09-06 12:31:41 +01:00