Electronic design is the process of capturing a logical design in the schematic then representing that design as a set of objects in the PCB workspace. Even for a small circuit, the schematic can include many components, each with numerous models and parameters. The PCB workspace can also contain a large number of design objects that make up the board. During the course of the design process, the placement and properties of these objects need to change as you work to balance out the various design requirements.
Before placing objects in the Schematic Editor, set the grids to enable easier placement. Altium Designer offers three grid types: visible grids for navigation, snap grids for placement, and electrical grids for aiding the creation of connections. Grids are document options, meaning that they are saved with the individual design, and therefore, grid settings may differ between one design document and the next. Set the grids initially in the General region of the Document Options mode of the Properties panel.
Visible grids appear whenever the zoom level allows them to be sufficiently spaced, displayed as either lines or dots. The Snap Grid is the grid that the cursor is locked to when placing or moving schematic design objects. Electrical grids override snap grids since they allow connections to be made to off-grid parts. Enable Snap to Electrical Object Hotspots so that when moving an electrical object in the workspace, if it falls within the electrical grid range of another electrical object to which it could connect, it will snap to the fixed object and a hotspot (red cross) will appear. The electrical grid should be set slightly lower than the current snap grid or else it becomes difficult to position electrical objects one snap grid apart.
Grids can be quickly modified or toggled between enabled and disabled through keyboard or mouse shortcuts, for example, press G to cycle through the Snap grid settings of 1, 5 and 10. You can also use the View » Grids sub-menu. Use the Schematic - Grids page of the Preferences dialog to set Imperial and Metric Grid Presets.
You also can change the Cursor type to suit your needs in the Cursor region of the Schematic - Graphical Editing page of the Preferences dialog. For example, a large 90 degree cross that extends to the edges of the design window (Large Cursor 90 option) can be useful when placing and aligning design objects.
The basic steps for placing schematic design objects are outlined below.
The Schematic Editor includes a powerful feature called re-entrant editing that allows you to perform a second operation using the keyboard shortcuts without having to quit the operation you are currently carrying out. For example, pressing the Spacebar when placing a part will rotate the object but will not disrupt the placement process. Once you place the part, another part will appear ready at the cursor already rotated.
Re-entrant editing is also very useful if you start placing a wire that needs to be connected to a port that you have not placed yet. There is no need to exit Place Wire mode; just press the Place Port shortcut keys (P, R), place the port, press Esc to exit Place Port mode and then connect the wire to the port.
The Schematic Editor has a distance tool located in the Reports menu (Reports » Measure Distance as well as the Ctrl+M shortcut keys). You can use this tool to measure the distance between two points on a schematic document. After launching the command, you are prompted to click on two points on the schematic document. Once you have chosen two points, an Information dialog appears with an overall Distance value, with the X Distance and Y Distance values displayed accurate to two decimal places.
The measurement units are determined by the Units chosen for the schematic document in the General region of the Document Options mode of the Properties panel. You also can switch to Imperial or Metric units by toggling the System units (View » Toggle Units).
It is generally easier to edit the look of an object graphically in the workspace. To do this, you must first select the object(s).
When an object is selected, you can move the object or edit its graphical characteristics. Click on an object to select it; its 'handles' or vertices are displayed. To graphically change a selected object, click and hold on an editing handle. That point of the object will then become attached to the cursor. Move the mouse to a new location and release to resize. Click anywhere on a selected object to move it or press the Delete key to delete it.
In the Schematic Editor, you can copy and paste objects within or between Schematic Documents, e.g. component(s) from a schematic can be copied into another Schematic Document. You can copy objects to the Windows clipboard and paste them into other documents. Text can be copied from the Windows clipboard into a schematic text frame. You can also directly copy/paste a table-type selection from another application such as Microsoft Excel or from any grid style control within Altium Designer.
More advanced copy/paste actions can be performed using the Smart Paste feature.
Select the object(s) you want to copy, click Edit » Copy (Ctrl+C) then click to set a copy reference point on the object that will be used to accurately position the object during pasting. You will only be prompted to click to set a reference point if the Clipboard Reference option is enabled on the Schematic - Graphical Editing page of the Preferences dialog.
There are a number of ways of selecting objects, for example, the Windows standard mouse click shortcuts can be used. This approach is ideal when the number of objects to be selected is small or when there are different kinds of objects to be edited simultaneously.
To select many objects, including over a number of schematic sheets, you can use the Find Similar Objects dialog. To open the dialog, right-click on one of the objects to be edited then select Find Similar Objects from the context menu.
Now we will walk through the process using an example. Let's say we need to change the name of a power net in the schematic from VCC to 3V3. The name of the power net is defined by the Name attribute of the Power Port object. To change the name, all of the VCC power ports on all of the schematic sheets need to have their Net attribute changed. The first step is to find a VCC power port on the schematic, right click on it then select Find Similar Objects from the context menu.
The image above shows the Find Similar Objects dialog after right-clicking on a schematic Power Port. It is important to note that the dialog lists the properties of the object you clicked on, and therefore, the contents of this dialog will be different if you clicked on a different object. You can see that the dialog has two columns: the column on the left shows the current properties of the object on which you clicked – near the bottom you can see that the net name Text is currently
The second column is where you configure how to match other objects. For each property of the object, you instruct it to match target objects when this property value is the
Same, match when the target has a
Different value, or set it to
Any when you are not interested in matching by this property.
Note that in in the image above, the matching will occur when the Object Kind is the
Same, and when the net name Text is the
Same. Or to say that another way, match when the other object is a Power Object with a net name of VCC.
The next step is to set the scope of the find action, should it be on the
Current Document only, all
Open Documents, or Project Documents. For the example, we will set the scope to
The final step is to define what should happen after all the Power Objects that have net name Text of VCC in all Open Documents have been found. The image below shows the settings that need to be set for this operation.
The key options to be set are:
Click the OK button to select the matching Power Ports. This will select the matching power ports and open the Properties panel in multiple object mode for Power Port.
Both the schematic and PCB editors include a multiple object mode of the Properties panel. The basic behavior is that it lists the properties of all currently selected objects. The image above shows the properties of two power ports.
Properties that are identical for all the selected objects have their value displayed, for example, both power ports currently have the same Rotation, Name, Style, Font, and Color.
For each power port property that has a different value, an * is displayed, for example, the (X/Y) location. This means that not all the objects have the same (X/Y) value, which means they each have a different location.
Editing the Objects
So far you have selected the Power Objects you want to edit and viewed their properties in the Properties panel. Now you are ready to edit them.
Click in the Name field then type in the new value. For this edit, we will be replacing all the text, so simply replace the entire contents of the cell with the new text '
The change you make to the text value is applied to all the selected objects as soon as you press Enter on the keyboard.
If you change your mind during the edit, press the Esc key on the keyboard to abort the edit. To Undo an edit that has been applied, select Edit » Undo from the menus. If the edit has been applied to multiple schematic sheets, you will need to perform an Undo action in each sheet.
You can use this approach to apply an edit globally to any type of object in the Schematic or PCB Editors.
The edit that we just performed was on a primitive object, that is, one of the basic objects used in the Schematic Editor. More complex objects, such as components, are called group objects. These are essentially a collection of primitive objects. For example, a component on a schematic is a collection of drawing objects, strings, parameters, pins, and references to models. The primitive objects that belong to a group object are sometimes referred to as the child objects and the group object is their parent object.
Let's look at a typical group object edit that you might want to perform. Your design includes several capacitors. Currently the voltage is specified as part of the components' comment string. You need to change this and specify the voltage as a component parameter instead and make this parameter visible on the schematic.
The steps we need to perform are (described in detail below):
While this might seem a complex set of edits to perform, it is actually quite straightforward.
To select all the 100uF 16V capacitors, right-click on the component symbol of one of them and select Find Similar Objects from the context menu.
We will use the approach covered in the previous example, except this time you want to match on components that have the same Comment and the same Current Footprint as shown in the image above.
Note that we can also match on components that have a designator starting with the letter C. This is done by changing the Component Designator to
H*. Click OK to select the matching capacitors.
After clicking OK, the Properties panel opens (if the Open Properties option in the Find Similar Objects dialog was enabled). Behind it will be the schematic sheet displaying the matching objects selected on that sheet. If the Zoom Matching and Mask Matching options were enabled, the view would be zoomed and all the objects that did not match are faded or masked out.
You can check the status line at the bottom of the Properties panel to see if the same capacitors exist on other sheets.
To change the comment string, delete the
16V from the string, then press Enter to apply the change.
The next change that we need to make is to add a new parameter. To do this, click Add on the Parameters tab in the Properties panel in Component mode. Enter the new parameter Name and Value. You can add as many parameters as you want using this approach.
We have now updated the comment string for all 100uF capacitors. We have also added a new parameter called Voltage, set its value to
16V, and made this parameter visible.
Design objects can be locked from being moved or being edited on the schematic document by enabling their Locked attributes. For instance, if the position or size of specific objects are critical, lock them. This Locked attribute is available in the SCH List panel.
To lock a group of schematic objects, use the SCH List panel to toggle the Locked option as shown in the image below.
If you attempt to move or rotate a design object that has its Locked property enabled, a dialog appears asking for confirmation to proceed with the edit.
If the Protect Locked Objects option is enabled on the Schematic – Graphical Editing page of the Preferences dialog and the design object is Locked, the object cannot be selected or graphically edited. Disable the Protect Locked Objects option to graphically edit this object.
If you attempt to select locked objects along with other objects, only those objects that are unlocked can be selected and moved as a group when the Protect Locked Objects option is enabled.
Altium Designer's schematic editor includes a powerful Footprint Manager. Launched from the Schematic Editor's Tools menu (Tools » Footprint Manager), the Footprint Manager lets you review all the footprints associated with every component in the entire project. Multi-select support makes it easy to edit the footprint assignment for multiple components, change how the footprint is linked, or change the current footprint assignment for components that have multiple footprints assigned. Design changes are applied through the ECO system, updating both the schematic and the PCB if required.
Altium Designer has a powerful query engine built into it that is used to precisely target design objects. A query is essentially a description of something that you would like to find in the design data.
You can query the design data in a number of different ways. One of these is to type the query in to the Filter panel. When you apply the query, you are filtering the design database. Each object is tested to see if complies with the query, and if it does, it is added to the result set.
The image below shows the Schematic Library SCHLIB Filter panel, with the query
IsPin entered. When this query is applied, every object in the library is checked (since the Whole Library option is enabled), any object that is a pin will comply and be added to the result set. All other objects are filtered out.
How the results are presented depends on the options on the right. In the image above, you can see that objects that pass the filter (pins in this case) will be selected and zoomed. All other objects that do not pass the filter will be de-selected and masked out (faded and made non-editable).
The pins will also be displayed in the SCH List panel, which presents design data in a tabular grid and makes it easy to compare and edit one or more objects at once.
Editing Design Objects in the Schematic Library List Panel
There are scope controls in both the SCHLIB Filter and the SCHLIB List panels; this is because you control filtering separately from the display of the results. You can use this to do things such as find all pins in the current library, then switch between looking at all the pins, or just those in the current component.
The tabular grid of the SCHLIB List panel is ideal for reviewing and editing objects. With the SCHLIB List panel set to Edit mode (shown below), you can use the keyboard to 'walk' around and edit settings. For example, use the arrow keys to move around the grid, F2 or Spacebar to edit the selected cell, Enter to apply a change, Spacebar to toggle a checkbox when that cell is active, etc.
The SCHLIB List panel is completely configurable. To add or remove columns or to change the order of columns, right-click on the column headings then select Choose Columns from the context menu.
Not only can you edit data directly in the SCHLIB List panel, you can also multi-select blocks of cells and copy them from the SCHLIB List panel into your preferred spreadsheet program and from the spreadsheet back into the SCHLIB List panel. For example, while creating a new component, you have copied the following pin data from the manufacturer's datasheet into a spreadsheet.
Rather than entering this data into the Schematic Library editor one pin at a time, you can:
IsPinin the Filter panel to load these pins into the List panel.
You might want to copy a block of data from the SCHLIB List panel to the spreadsheet first to see how the data is represented in the spreadsheet. Using this approach, you can quickly configure a large number of component pins in your new component.
You can also use the Smart Grid Paste tools to quickly update the design objects' attributes or to create a group of primitives quickly and easily. These tools are available by using the right-click menu in the Schematic or PCB Editor's List panel.
You can control the filtering process by writing a Query in the Filter panel, by configuring options in the Find Similar Objects dialog (which actually uses a query behind the scenes), or by selecting objects in the Navigator panel. The Highlighting engine determines how the filtered data will be presented.
As the user, you can access the filtered display data in the main graphical editing window in the List panel.
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