of the hatch pattern lines. An orientation of 0 degrees will result in the hatch pattern using horizontal and vertical lines. Hatch width controls the width of each line in the hatch pattern. Hatch gap but the measurement axis is either the X or Y axis. In other words, these dimensions show the horizontal or vertical component of the distance between two points. When creating orthogonal dimensions is turned on. In this mode, up to two track segments may be placed at a time (for example, one horizontal and one diagonal segment). Shove: in this mode, the track being routed will walk around obstacles

of the hatch pattern lines. An orientation of 0 degrees will result in the hatch pattern using horizontal and vertical lines. Hatch width controls the width of each line in the hatch pattern. Hatch gap is turned on. In this mode, up to two track segments may be placed at a time (for example, one horizontal and one diagonal segment). Shove: in this mode, the track being routed will walk around obstacles to modify tracks that are not being routed. Note that Shove and Walk Around modes always create horizontal, vertical, and 45-degree D 42 (H/V/45) track segments. If you need to route tracks with angles

of the hatch pattern lines. An orientation of 0 degrees will result in the hatch pattern using horizontal and vertical lines. Hatch width controls the width of each line in the hatch pattern. Hatch gap but the measurement axis is either the X or Y axis. In other words, these dimensions show the horizontal or vertical component of the distance between two points. When creating orthogonal dimensions turned on. In this D 40 mode, up to two track segments may be placed at a time (for example, one horizontal and one diagonal segment). Shove: in this mode, the track being routed will walk around obstacles

of capacitors as well as some types of resistors, so it makes sense to identify an outline as a horizontal or vertical axial leaded device and to add some extra information on the relevant dimensions: diameter consistency, if there are only 2 pins they must be in a horizontal arrangement (see figure 4) along the X axis and for 3 pins try to keep 2 in a horizontal arrangement on the X axis. Polarized devices such as most existing KiCad component footprints and VRML models. For items such as a horizontal radial leaded capacitor or a horizontal TO-220 package, prefer to place the leads in a row on the X axis and with the

of capacitors as well as some types of resistors, so it makes sense to identify an outline as a horizontal or vertical axial leaded device and to add some extra information on the relevant dimensions: diameter consistency, if there are only 2 pins they must be in a horizontal arrangement (see figure 4) along the X axis and for 3 pins try to keep 2 in a horizontal arrangement on the X axis. Polarized devices such as most existing KiCad component footprints and VRML models. For items such as a horizontal radial leaded capacitor or a horizontal TO-220 package, prefer to place the leads in a row on the X axis and with the

of capacitors as well as some types of resistors, so it makes sense to identify an outline as a horizontal or vertical axial leaded device and to add some extra information on the relevant dimensions: consistency, if there are only 2 pins they must be in a horizontal arrangement (see figure 4) along the X axis and for 3 pins try to keep 2 in a horizontal arrangement on the X axis. Polarized devices such most existing KiCad component footprints and VRML models. For items such as a horizontal radial leaded capacitor or a horizontal TO-220 package, prefer to place the leads in a row on the X axis and with

of capacitors as well as some types of resistors, so it makes sense to identify an outline as a horizontal or vertical axial leaded device and to add some extra information on the relevant dimensions: consistency, if there are only 2 pins they must be in a horizontal arrangement (see figure 4) along the X axis and for 3 pins try to keep 2 in a horizontal arrangement on the X axis. Polarized devices such most existing KiCad component footprints and VRML models. For items such as a horizontal radial leaded capacitor or a horizontal TO-220 package, prefer to place the leads in a row on the X axis and with the

of the hatch pattern lines. An orientation of 0 degrees will result in the hatch pattern using horizontal and vertical lines. Hatch width controls the width of each line in the hatch pattern. Hatch gap is turned on. In this mode, up to two track segments may be placed at a time (for example, one horizontal and one diagonal segment). Shove: in this mode, the track being routed will walk around obstacles to modify tracks that are not being routed. Note that Shove and Walk Around modes always create horizontal, vertical, and 45-degree D 42 (H/V/45) track segments. If you need to route tracks with angles

size . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75 8.8.1 Using the horizontal toolbar . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76 8.8.2 Using button . Holding Ctrl while routing in the non-legacy canvases constrains the routing to a single horizontal or vertical segment. Switching posture changes to a single diagonal segment. Holding Shift while previously seen, the Global Design Rules editor has a tool to insert extra tracks and via sizes. • The horizontal toolbar can be used to select a size. • When the button is active, the current track width can

button . Holding Ctrl while routing in the non-legacy canvases constrains the routing to a single horizontal or vertical segment. Switching posture changes to a single diagonal segment. Holding Shift while previously seen, the Global Design Rules editor has a tool to insert extra tracks and via sizes. The horizontal toolbar can be used to select a size. When the button is active, the current track width can track). The user can utilize the default Netclasses values or a specified value. 8.8.1. Using the horizontal toolbar Track width selection. The symbol * is a mark for default Netclass value selection. Selecting