Good component selection underlies the success of every electronic product - so just how does the designer go about choosing the most appropriate component? Gone are the days of the design engineer thumbing through their dog-eared component data book, jotting down a part number on a paper parts list, and throwing that parts list over the wall to purchasing for the first production run.
Not only are the components chosen to fulfill the necessary technical requirements, the designer must also consider the price, the availability and lead time, as well as the requirements of that component during the assembly and testing phases. Choosing the wrong component can be costly, not just in terms of the final unit price, it can also impact the product delivery schedule, or even the ultimate success or failure of the product in the market!
While the highly compressed design/test/manufacture product development cycle means the designer has very little room for error as they select the components, the tightly enmeshed nature of the component information stream - from the manufacturer, to the supplier, to the search aggregator portal, means that accurate component-choice information can be placed right on the designer's screen, as she scrolls through a list of potential components. Altium recognizes the critical role that component selection plays in the design process, and develops software technologies, products and teams that help deliver easy-to-use, detailed and accurate component data and component selection systems, directly in to the designer's workspace.
In the design process, the project BOM is one of the first documents created, as the key components are costed for the first project pricing estimate, and it is one of the last documents to be finalized as the project is handed over for fabrication, assembly and test. And that BOM is much more than a list of the electronic components fitted to the board - it must also detail every screw, standoff, sticker, heatsink and tube of glue required to finish the sub-assembly that the PCB becomes a part of.
ActiveBOM, a powerful Bill of Materials management editor, helps the designer manage this unique set of challenges.
Solving the Component Management Challenge
Ultimately, every single part used in the design must have detailed supply chain information. In the past, designers had to add this information into each component during library creation or design capture, or post-process their design BOM to add the supply chain details in later. With the release of the new ActiveBOM this constraint is removed - the designer can now add supply chain information to the components at any time during the design cycle, entering it directly into the BOM instead of the schematic components, if they choose.
This ability to inject supply chain details directly into the BOM changes the role of the BOM document in the PCB project. No longer a simple output file, ActiveBOM raises the component management process to sit alongside the schematic capture and PCB design processes, where ActiveBOM's BomDoc becomes the source of all Bill Of Materials data for the PCB project, for all BOM-type outputs. ActiveBOM is now the recommended approach to BOM management.
As well as the components placed in the schematic, additional components and BOM-specific data can be added directly in ActiveBOM, for example; yet-to-be-detailed parts, fasteners, the blank board, or the mounting glue. Custom columns can also be added, including a specific Line number column, which supports both auto and manual numbering, with full copy/paste support.
For design components that include manufacturer information, ActiveBOM can use the Altium Cloud Services to access detailed and up-to-date supply chain information. Components not placed from a managed content server are also supported - ActiveBOM can search for supply chain solutions for supplier-linked parts, and also for parts that have suitable manufacturer details available in their parameters.
ActiveBOM presents the list of Items in the grid at the top, with the supply chain status of the selected Item shown below. Creating the BOM Document
ActiveBOM's working BOM document is referred to as a BomDoc. Add a new BOM to the project via the
File » New sub-menu, or right-click on the project in the Projects panel. Note that each PCB project can only include one BomDoc.
When you add a new BomDoc to your project, the schematic is automatically compiled and all of the existing components are listed in the BomDoc. If there is supply chain data available, suitable manufacturer parts are detailed in the lower region of the interface, as explained in
The Supply Chain section below.
As additional components are placed on the schematic they are automatically added into the BomDoc. Additional BOM Items and additional parameters can also be manually added directly in ActiveBOM, via the
Add new button, located above the component list. Refer to the Custom BOM Items and Columns section to learn more. The BOM Items List
The upper region of the BomDoc is a tabular list of all of the components detected in the PCB design project, as well as additional BOM Items you have added directly into the BomDoc. This region is referred to as the BOM Items list.
The components, or BOM Items list, displayed in Base view.
There are 3 view modes available to the display the BOM Items. Select the required mode using the buttons located above the list:
Flat view - a row for every component.
Base view - a row for each unique component in the project, the Designator column lists the designators of all components of this type. Multiple presentation options are available for grouped designators. Select the required Designator Grouping mode in the Properties panel.
Consolidated view - used when the project includes variants, to display a consolidated BOM for all variants.
Custom BOM Items and Columns
BOM management for a PCB design project requires the management of components and BOM Items beyond those placed in the schematic and PCB. There are many cases when custom BOM Items or parameters will be used in the PCB design project. For these situations, ActiveBOM supports adding additional BOM Items and columns (parameters), which can then be included in the generated BOM:
Custom row - an easy way to add a custom BOM Item that needs to be accounted for in the design (bare board, glue, etc). All fields in a custom row are user-defined. Custom rows are not managed by ActiveBOM, for example if the quantity is set to 3, there will not be 3 separate items displayed in Flat view. Supply chain searching is also not supported for custom rows.
Custom column - additional BOM column, managed in ActiveBOM, that can contain any user-defined text.
Custom Item - an additional BOM Item, this is typically for those items that will be needed but are as yet not fully known or do not yet exist in the library. This allows these items to have their cost included in the overall board costing estimation.
Vault Item - an additional BOM Item, that is managed manually in the BOM document. An initial Vault Item is chosen when adding this item to the BOM, but can be changed to a different Vault Item at any time via the right-click menu. Data Sources
The default data sources available in ActiveBOM are the schematic component parameters (
), the server component parameters for managed Items ( ), and data added directly into the BOM ( ). From these sources, ActiveBOM generates the main project BOM Item grid. Data sources are enabled and their display controlled in the Columns tab of the ActiveBOM panel. Properties
By enabling the
Sources buttons, the BOM can also include information taken from the following additional data sources:
From the PCB - enable these to include PCB location / rotation / side of board data in the available Columns, for the each of the components.
From a Database - to load additional component parameters from an external database (via *.DbLib, *.SVNDbLib, or *.DbLink).
Altium Cloud Services - enable this to access a broad range of additional component data, for those BOM Items that have been identified by the Altium Parts Provider and show a supply chain solution.
Document Parameters - enable this to include all detected schematic document parameters, across all schematics in the PCB project, in the available Columns.
The source of each parameter is indicated by the icon in the list of columns.
If the same parameter is present in more than one data source, the following priorities are applied in ActiveBOM (highest to lowest):
Line Number Column
For PCB designs with assembly drawings, or for BOM data exchange between design engineers, cost engineers or purchasing specialists, the BOM line number (BOM Item position No) is a simple method used to individually distinguish BOM lines, which can then be used to explicitly identify or
find the corresponding callout, component and depiction in the design.
As the project BOM data source, ActiveBOM supports user-defined Line #’s for the project BOM, and has both manual and automatic Line # (BOM Item position No) management features.
To automatically set the position number for the all project BOM Items (components), click the
Set Line # button. Line numbers are displayed in the Line # column, in the Item Details group of columns. Click the dropdown icon on the right of the button to open the dialog, where the start and increment values can be defined. Line # Options To manually change Line #'s, switch to Base view mode then select the required cell(s) in the Line # column and:
press Delete on the keyboard to clear the cells, then
manually type in new values, or
paste a range of values from Windows clipboard.
To renumber or continue numbering from a custom added number, click on the required item Line #, then click the Set Line # button to open the
Line Numbering dialog, where you can Continue numbering or Renumber all. The base and increment values last defined in the Line # Options dialog Enter and select a seed value in a Line # cell to control the number format. The Column Groups
The ActiveBOM components list has distinct groups of columns that present in each view mode, the image above shows the Base view.
The BOM Items grid is clustered into the following major groups:
Item Details (orange highlight in the image) - these columns display parametric component details, such as the Designator, Description, Library Reference and other component parameters.
Solutions (cyan highlight in the image) - the highest ranked manufacturer + supplier(s) from the Supply Chain. The number of solutions (manufacturer parts), and the number of suppliers of each solution, are configured in the ActiveBOM Properties panel - these are indicated by a solid, colored banner in the supplier tile. Ranking is automatic, and can also be manually defined, as discussed in The Supply Chain section below.
BOM Status (green highlight in the image) - an indication of the current risk associated with each component. Hover over an icon for a description, or alternatively, enable the detailed BOM Status column in the Properties panel to display the description.
Variant Details - in Consolidated View, an additional Group, titled Variants, is added just before the BOM Status column. This group includes a column for the base design, and one for each variant, displaying the quantity (per unit) of each component. Refer to the Working with Variants section for more information. Configuring and Saving the Display of the BOM Items Grid
Like any good spreadsheet application, the BOM Items grid can be configured to suit your requirements. As well as the traditional column ordering and sorting features, the current configuration can be saved as a BOM Set.
Display / hide any column - via the Columns feature in the
Properties panel. Use the Search field at the top of the panel to quickly locate a column. Change the order of columns - click and hold on the column title and drag and drop.
Change the width of a column - hover over the column edge in the title region and click and drag (look for the
cursor), or double click at that location to auto-size to suit the column's contents. Sort the entire grid by a column:
Click the column title to alpha-numerically sort the grid by that column's contents.
Click a second time to sort in the reverse direction.
Hold Shift and click on another column title to subsort by that column's contents.
Filter the grid by a specific value - click the Filter icon
to filter the grid by a value used in that column. Store the configuration as a BOM Set - more on this below.
Working with BOM Sets
Any number of BOM Item grid configurations can be saved - each of these is referred to as a BOM Set. After configuring the grid to your requirements, click the
Add button in the BOM Sets region of the ActiveBOM Properties panel to add a BOM Set to the list.
Click the eye icon to enable a BOM Set. BOM Verification
ActiveBOM includes a comprehensive set of BOM checks, that are automatically performed each time the BOM is updated.
Each BOM Item is checked for violations, and its status displayed in the
BOM Status column. This column is always visible on the right side of the BOM Items list, displaying an icon that indicates that item's status. Note that a BOM Item can fail more than one of the BOM checks, the icon indicates the most severe failure.
BOM Status Icons:
Clear - component has solutions, these solutions have suppliers with sufficient stock, and at least one solution has been ranked.
Hover over the icon for a summary of that part's status. Alternatively, enable the display of the detailed
BOM Status column to display detailed information. The column can be enabled either via the ActiveBOM Properties panel, which includes a handy search box, or by right-clicking in the column header area of the BOM Items list and choosing the Select Columns command. Configuring the BOM Checks
The BOM Items are automatically checked for:
Violations associated with Design Items: this includes tests such as parts whose BOM parameters do not match the library parameters (ambiguous parameters), and duplicate designators.
Violations associated with Part Choices: this includes tests such as an unranked MPN (system assigned ranking only), no suppliers, or a missed target price.
The severity level (report mode) of each BOM check is configured in the
dialog. Click the Gear icon BOM Checks below the BOM Checks detected violations list in the Properties panel (as shown in the image below) to open the dialog. Filtering the BOM Items List by BOM Status
Properties panel displays a list of detected BOM check violations that are present in the current BomDoc. Click the Filter icon (as shown below) to filter the main BOM Items list so that it only displays those BOM Items that fail that BOM check. Note that a BOM Item can fail multiple BOM checks.
Click to filter out all BOM Items except those that fail this BOM check.
Click the Gear icon to configure the BOM Checks. The Supply Chain
Component selection is often a process of juggling availability, unit price, and manufacturing volume. One of the great strengths of ActiveBOM is its ability to bring detailed, up-to-date supply chain information right into the design environment. Having access to this information means the designer can easily monitor their component choices, and adapt these as required.
If a design component includes a recognized manufacturer's part number (MPN), ActiveBOM can access the Altium Cloud Services and attempt to locate supply chain information about the part. A key feature of the cloud services is the Altium Parts Provider, which aggregates live parts information from an
extensive list of external suppliers, funneling back information such as price, stock levels, minimum order quantities, into ActiveBOM. The Solution
Within ActiveBOM, when a design component has access to this supply chain information, it is presented in the lower region of the ActiveBOM interface. The manufacturer part is shown on the left, with available suppliers detailed to the right.
Each of these rows is referred to as a
Solution. Each solution is a specific manufacturer part, often referred to as the MPN (Manufacturer Part Number), with details of one or more suppliers that can deliver that part.
Each row represents a Solution - a manufacturer part and the available suppliers of that part.
Refer to the
Including Supply Chain Information in the Parts section to learn more.
Manufacturer Part Number (linked to the part on the Manufacturer's website)
Priority of solution (Primary, Secondary 1, Secondary 2, etc.,)
Stock total: sum of the stock available from the favorite suppliers (global availability). Red if stock < order quantity.
Minimum unit price. Red if no prices or price = 0
Manufacturer Lifecycle: data from Altium cloud services, where:
Gray = Default, unknown or no information
Green = New or Volume production states
Orange = Not Recommended For New Designs
Red = Obsolete or EOL
Link to datasheet (Octopart)
Quantity of available favorite Suppliers
User Rank, click to set
Interpreting the Lifecycle State
Use the lifecycle status to help select the most suitable part.
The current lifecycle status is displayed for each solution (as shown in the image above).
The lifecycle status is designed to be used as an
indicator, for a number of reasons:
Altium maintains a database of many millions of components, produced by thousands of component manufacturers. Since there is no single, consistent method used by those manufacturers to reflect a component's lifecycle state, the status is based on information aggregated from manufacturers, global distributors and global sales analysis.
A part is only reported as
EOL or Obsolete when there is at least one authorized distributor or manufacturer that has confirmed this status. Determining the
Not Recommended for New Design (NRND) status is more complex. Manufacturers sometimes just report if a part is active or not, and may not give advance warning that a part is to be discontinued or replaced. Therefore this lifecycle status does not always concur with the status provided by the manufacturer. The status algorithm uses various information, including real time and historical stock availability from all distributors, to try to determine the availability of the part. Parts which have consistently poor availability (when they have been generally available in the past), or cannot be sourced over a period of time after having previously having good availability, will eventually be flagged as NRND (if they are not already EOL or Obsolete). The idea of the lifecycle status indicator is to provide simple-to-understand information that helps you to make more informed decisions about a part, by highlighting those parts which may be problematic. However, due to the sheer volume of data and number of components that are managed, there is always a chance that the Altium status lags behind the instantaneous manufacturer status, and is therefore not up-to-date. It is not possible for Altium to guarantee the accuracy of the lifecycle status, it is recommended that if there is any doubt that you double-check with the manufacturer for authorized lifecycle information.
Ranking the Solutions
If multiple manufacturer parts are available - meaning there are multiple solutions - the solutions are automatically ranked from highest to lowest, based on the part's availability, price and manufacturer lifecycle state.
If you prefer to use a lower ranked solution, for example to use a specific manufacturer, you can override the automatic ranking by defining a User Rank, using the star feature, as shown in the image below.
Click on a star to define a user ranking for a solution. The Suppliers
To the right of the manufacturer part details are the available suppliers, with each supplier detailed on a separate tile. These tiles are also referred to as the SPNs (Supplier Part Numbers).
The SPNs are automatically ranked by availability and price. Each SPN tile includes a colored banner, the color reflects the risk associated with choosing that SPN (detailed below). Because the availability and price data can be refreshed at any time from the Altium Parts Provider, the order of the SPN tiles can change.
The SPN tile includes detailed information about the part and its availability.
Tile banner, including: locking pin, supplier name, tile sequence dropdown, where the banner color indicates:
Green = Best
Orange = Acceptable
Red = Risky
(solid banner indicates a used solution, configured in the Properties panel) Supplier part number (linked to the part on the Supplier's website)
Last updated icon with details displayed in the tooltip, color indicates:
Gray = Default, updated less than one week ago
Orange = 1 week < last update < month ago
Red = last update > 1 month ago
Part source, details displayed in the tooltip, possible values includes: Altium Parts Provider, Custom Parts Provider, Manual Solution
Stock, red if available stock < order quantity
Order quantity, orange if Minimum Order Quantity (MOQ) > order quantity, information on any surplus displayed in the tooltip
Unit price, red if no price available or price = 0. Unit price includes currency icon, currency is set in the ActiveBOM
Properties panel Order price, red if 0 (meaning no stock or no unit price)
Available price breaks, with MOQs
Ranking the Suppliers
The default state for a new BOM Item is that the Suppliers are ranked automatically. Note that this ranking can change over time, as the price and availability of a particular part changes. If required, you can lock an SPN tile to a specific position by clicking the pin icon on the left of the SPN tile banner. The automatic ordering of the SPNs can also be manually overridden, use the drop down on the right of the tile banner to set the required position. If you use the dropdown to manually set the position of an SPN tile, the locking pin is automatically applied.
To learn how to apply supplier-priority to the ranking, refer to the
Configuring the Available Suppliers section. Including Supply Chain Information in the Parts
Through a tightly coupled set of services and teams, Altium maintains a vast catalog of components and component supply chain data. This data is delivered as part of the Altium Cloud Services, coupling into your software installation through the Altium Parts Provider extension.
As well as supporting managed components that already include supply chain information, such as those placed from an Altium
Managed Content Server, the new ActiveBOM is also able to search for supply chain data for other components.
To summarize, the components you use in your design can access supply chain data in the following ways:
Parts placed from the Altium Content Vault or a company - Parts placed from the Altium Content Vault or a company Managed Content Server are already linked to comprehensive supply chain data, via their Parts Choice List. Managed Content Server (managed parts)
Parts placed from local libraries that include supply chain information (unmanaged parts) - For parts that already include the manufacturer name and part number, for example parts placed from a company Database Library which includes this information, ActiveBOM can search for that part through the Altium Parts Provider. To do this, ActiveBOM needs to know which component parameters hold those manufacturer details. Click the Manufacturer Link button in the ActiveBOM Properties panel to open the Define Manufacturer Link Fields dialog, where you define the part parameters that hold the manufacturer details, then click the ActiveBOM button to initiate the search. Note that this search process can take some time when there are many parts. Refer to the Configuring the Manufacturer Link Fields section for more information.
Parts placed from local libraries that have no supply chain information (unmanaged parts) - These parts can have supply chain information added:
During design capture - using the Part (Supplier) Search feature, which can be performed from the
panel. Part Search Directly in the BOM - by
adding a manual solution in ActiveBOM. The advantage of this approach is that it uncouples the supply chain definition process from the schematic capture process. Configuring the Available Suppliers
Supply chain data is delivered through the Altium Parts Provider. The Altium Parts Provider can access details for a vast number of component suppliers, distributed all over the globe. The set of available suppliers is configured at two levels:
For this software installation - configure the suppliers in the
page of the Data Management - Parts Provider Preferences dialog. For the current project - click the
Favorite Suppliers List button in the ActiveBOM Properties panel to define the suppliers you want to be available in this project. Refer to the dialog page for more information. Favorite Suppliers Configuring the Manufacturer Link Fields
If you have unmanaged parts (parts that have not been placed from a Managed Content Server or the Altium Content Vault), ActiveBOM can search for suitable suppliers automatically if the components include manufacturer and part number details somewhere in their parameters. For ActiveBOM to be able to query the Altium Parts Provider for suitable supply chain details for these unmanaged parts, it needs to know which of the part's parameters hold the Manufacturer Name and the Manufacturer Part Number. These are configured in the
Define Manufacturer Link Fields dialog, click the Manufacturer Link button to open the dialog. Multiple Name / Part Number parameter pairs can be defined.
Refer to the
dialog page for more information. Define Manufacturer Link Fields Adding a New Solution
Each combination of manufacturer + manufacturer part number, along with the details of the suppliers that can deliver that part, is called a solution, the image below shows 2 solutions for a BOM Item.
Additional solutions can be manually added. Adding a Manual Solution
As well as the solutions automatically detected by ActiveBOM, you can also add manual solutions to any BOM Item.
To add a manual solution, click the
button located above the Supply Chain solutions, and select the Add Manual Solution command. The dialog will open, where you can search the available suppliers, and add a suitable part. Add New Parts Choice
In ActiveBOM, manual solutions are supplier-centric. That is, when you add a part, only the chosen supplier is added. Additional SPNs can be added to the same solution, by adding an another solution and choosing the same MPN, as shown in the image below. In this image, two different MPNs have been added to create two solutions, then a second supplier of each MPN has been added to each of them.
Manual solutions are indicated by the Manual solution string in the MPN region, and also by the icon on each SPN tile. Editing or Deleting a Manual Solution
A manual solution can be deleted or its properties edited, by clicking the triangle icon in the SPN, as shown in the image below. Selecting the
Edit command will reopen the same dialog that was used to add the manual solution, where you can perform a new search to locate a new MPN and supplier.
An existing manual solution can be deleted or edited. Create / Edit Part Choice List
For managed components (components sourced from a
Managed Content Server), the solutions are detailed in each Item's Parts Choice List (PCL). Additional solutions can be added to a managed part by adding them into the PCL, via the ActiveBOM » Create/Edit PCL command.
This command opens the
dialog, where you can: Part Choices
Search for and add additional manufacturer parts using the fields on the left of the dialog.
Remove an existing solution from the Part Choice List using the
Remove button located at the bottom of the Manufacturer Part Choices list on the right of the dialog. Working with Variants
ActiveBOM supports PCB projects that include Design Variants. The Design Variants feature allow a single base PCB design to be created, which is then populated (loaded) in different ways. Each different loading of the assembled board is called a
. design variant
Working with Design Variants:
Design variants are configured in the
dialog ( Variant Management Project » Variants). To examine a variant, double-click on its name in the project's Variants folder in the
Projects panel, as shown in the image below.
ActiveBOM supports variants in the following ways:
Display the BOM for a specific variant in Base view mode or Flat view mode
Option to include the Not Fitted items in the BOM Items list
Display a consolidated list of all parts used in all variants, in Consolidated view mode
Define manual solutions for both base components and varied components
Variants in Base View Mode
For the selected variant, enable the
Show Not Fitted option in the Properties panel to include these parts in the BOM Items grid. When this option is enabled, the Fitted column is automatically displayed in the Item Details.
In Base view mode the
Fitted column will display either
Not Fitted. If a part is varied (an alternate part was chosen in this variant), the details of the alternate part are automatically displayed for that BOM Item.
Note that the current variant is displayed in the ActiveBOM status line. Variants in Consolidated View Mode
The Consolidated view mode displays all components used in all variants. The Consolidated view offers the following features:
If a component is varied, there will be a BOM Item for each alternate component that is used, with each of these BOM Items having the same designator. For example, in the image below components DS1 and DS2 are each list twice, as the BGA variant uses a different colored LED from the TSOP variant. Component R1 appears three times, because both the BGA and TSOP variants use a different resistor than the original in the base design.
In Consolidated view mode, when the
Show Not Fitted option is enabled the Fitted column will display
Varied. Because the Consolidated view shows all components used in all variants, every component displayed is fitted in either the base or a variant.
For each variant, there is a
<VariantName> - Qty column (indicating how many of this component are used in this variant) and a <VariantName> - Price column, which is the unit price times the value in the quantity column. Because some designers create build documentation off the base design as well as the variants, there is also a
Quantity column, reflecting the number of instances of this component used in a build of the base design. Hide this column if you do not generate build documentation off the base design. The grid in Consolidated view mode uses color to indicate a cell whose value is different from that cell's value in the base design, as shown below.
Color in a cell indicates that the value in this cell is different from the value for that cell in the base design.
To learn more about variants, refer to the
Design Variants page. Working Between the BomDoc, the Schematic and the PCB
There are two features available to help you work between the BomDoc, the schematic and the PCB design: Cross Select and Cross Probe. The behavior of these features is configured in the
page of the System - Navigation Preferences dialog.
Both of these features can be used to locate the same component in other documents. The difference between Cross Select and Cross Probe is that Cross Select Mode selects the component in the target document but does not actively present that document, whereas Cross Probe actively presents the target document, and can also switch and make the target document's editor the active editor.
You can Cross Select or Cross Probe from the BomDoc to the schematic and PCB, you can not Cross Select or Cross Probe from the schematic or PCB, to the BomDoc.
Cross Select Mode
Cross Select Mode must be enabled in each editor in which you wish to use it. Select the
Tools » Cross Select Mode command ( Shift+Ctrl+X). When Cross Select Mode is enabled the menu icon will be highlighted with an outline .
Cross Select Mode requires the target document to be open. When you select a component in the BOM Items list of the BomDoc, that component will be selected and centered in the target schematic and PCB documents (if Zooming is enabled in the Cross Select Mode options in the
Preferences dialog). Note that the target document will not present as the active document.
If the BomDoc is in Base view mode, then all instances of that part are selected on the schematic and PCB, as shown in the image below.
Use the Cross Select feature to locate and select the component chosen in the BOM Item list, in the schematic and on the PCB. Cross Probing
Where Cross Select is simply a mode, which when enabled, displays the result each time you click in the BOM Items list, Cross Probe is a deliberate action.
Right-click on a BOM Item and select
Cross Probe from the context menu to cross probe to that component on the schematic, the PCB component will also be cross probed to if the board file is open.
A key feature of Cross Probe is the ability to switch to the target document's editor. To Cross Probe and switch editors, hold the
Ctrl key as you select the Cross Probe command.
Right-click to access the Cross Probe command, there will be an entry for the designator of each component present in that BOM Item. Generating a BOM
The BOM can be generated directly from the ActiveBOM editor. Select the
Reports » Bill of Materials command to open the dialog and generate the BOM. Report Manager
The Report Manager presents the BOM data as it will be output. From ActiveBOM it is used to configure the output format and select a template.
The Report Manager is the standard BOM output setup dialog, the same dialog that is opened when Bill of Materials is selected from the schematic or PCB editor's
Report menu, or when a BOM is configured in an OutputJob.
The Report Manager will automatically open with the same configuration of columns that are currently displayed in the BomDoc, when:
the Report Manager is opened from a BomDoc, or
the Report Manager is opened from the schematic or PCB editor's Reports menu, and there is a BomDoc in the project, or
if the OutputJob Data Source is set to
To learn more about configuring the Report Manager, refer to the page
BOM Configuration in the Report Manager. Mapping Design Data into the BOM
Design data can be passed from from the board design process into an Excel Bill Of Materials, by including
Field and Column declarations in the Excel template that is applied to the BOM during creation.
Fields - Field declarations are used to pass system, document and project parameters into the BOM, such as: filenames, quantity, currency, and so on, that need to be displayed once in the BOM. The Field declaration is replaced by the passed value, as shown in the image below.
Columns - Column declarations are used to pass information that appears in all BOM Items, such as the: designator, description, user-defined parameters, and so on. This can also include: line numbers, PCB location data, and custom column data entered into the BomDoc. The Column declaration is replaced by the ColumnName string, with each row below being populated by that column value for a BOM Item, as shown in the image below.
Design data mapped into an Excel spreadsheet, by defining them in the Excel template.
To learn more, refer to the page
Including Design Data in the Excel BOM.