Working with a Sheet Symbol Designator Object on a Schematic Sheet in Altium NEXUS
Parent page: Schematic Objects
Summary
The sheet symbol designator is a non-electrical child object of an electrical design primitive. It is used to provide a sheet symbol with a meaningful name that will distinguish it from other sheet symbols placed on the same schematic sheet. Typically the name will reflect the overall function of the schematic sub-sheet that the symbol represents.
Availability and Placement
The sheet symbol designator is automatically placed when the parent component part object is placed. It is not a design object that the user can directly place.
Graphical Editing
This method of editing allows you to select a sheet symbol designator object directly in the workspace and change its location graphically. Sheet symbol designators can only be adjusted with respect to their size by changing the size of the Font in the Properties panel. As such, editing handles are not available when the sheet symbol designator object is selected:
Click anywhere inside the dashed box then drag to reposition the sheet symbol designator object as required. The object can be rotated or flipped while dragging:
- Press the Tab key to access the Properties panel from where properties for the sheet symbol designator can be changed on-the-fly.
- Press the Alt key to constrain the direction of movement to the horizontal or vertical axis depending on the initial direction of movement.
- Press the Spacebar to rotate the sheet symbol designator counter-clockwise or Shift+Spacebar for clockwise rotation. Rotation is in increments of 90°.
- Press the X or Y keys to mirror the sheet symbol designator along the X-axis or Y-axis.
Non-Graphical Editing
The following methods of non-graphical editing are available:
Via the Properties Panel
Panel page: Sheet Symbol Designator Properties
This method of editing uses the associated Properties panel mode to modify the properties of a sheet symbol designator object.
The Parameter mode of the Properties panel can be accessed in one of the following ways:
- Double-click on the placed sheet symbol designator object.
- Place the cursor over the sheet symbol designator object then right-click and choose Properties from the context menu.
- If the Properties panel is already active, select the sheet symbol designator object.
Editing Multiple Objects
The Properties panel supports multiple object editing, where the property settings that are identical in all currently selected objects may be modified. When multiples of the same object type are selected manually, via the Find Similar Objects dialog or through a Filter or List panel, a Properties panel field entry that is not shown as an asterisk (*
) may be edited for all selected objects.
Via a List Panel
Panel pages: SCH List, SCHLIB List, SCH Filter, SCHLIB Filter
A List panel allows you to display design objects from one or more documents in tabular format, enabling quick inspection and modification of object attributes. Used in conjunction with appropriate filtering - by using the applicable Filter panel, or the Find Similar Objects dialog - it enables the display of just those objects falling under the scope of the active filter – allowing you to target and edit multiple design objects with greater accuracy and efficiency.
Tips
- While text frames can be rotated or mirrored along the X or Y axis, this has no effect on the orientation of the text within.
- For simple one line text annotations, consider using the Text String object.
Notes
- By using sheet symbol instantiation, multiple channels on the same sub-sheet can be referenced from a single sheet symbol. The syntax used involves the use of the Repeat keyword in the sheet symbol designator field and takes the form:
Repeat(SheetSymbolDesignator, FirstInstance, LastInstance).
SheetSymbolDesignator is the base name for the sheet symbol and FirstInstance and LastInstance together define the number of channels to be instantiated. The FirstInstance parameter should start at 1 or greater. When the project is built, the Compiler instantiates the channel the required number of times as it builds the internal compiled model, using a chosen annotation scheme to uniquely identify each component in each channel. The channel sub-sheet is not duplicated. Instead, once compiled, a separate tab appears at the bottom of the sub-sheet document in the main design window for each channel on that sheet.