3Dボディ

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Parent page: PCB Objects

A sphere, a cylinder and 4 extruded rectangles have been used to create the 3D body for an LED.
A sphere, a cylinder and 4 extruded rectangles have been used to create the 3D body for an LED.

Summary

A 3D body is a primitive polygonal design object that is used to represent the 3 dimensional shape of the physical component that is mounted on the assembled PCB. Any number of 3D body objects can be used together to create complex shapes. The available 3D body shapes include extruded polygon, cylinder and sphere. They can be placed into a PCB library component footprint. Their overall shape is displayed when the editor is switched to 3D display mode (press the 3 shortcut). 3D body objects can be placed on any mechanical layer.

Placing 3D Body objects to define the components' shape allows the designer to get a real sense of the arrangement and organization of the components on the assembled board. As well as being able to see what the finished board will look like, real-time 3D clearance checking can be performed. Working in the PCB Editor's 3D mode is greatly enhanced by using a 3D mouse, this makes the process of moving and turning the component or board very easy, it is much like holding that component or board in your hand.

The following 3D model formats can be used in Altium Designer:

  • Altium Designer 3D Body Objects, place these to build up the required component shape.
  • STEP models - *.Stp and *.Step
  • SolidWorks parts - *.SldPrt
  • Parasolid Models - *.x_t and *.x_b

Generic model support includes STEP, Parasolid, or SolidWorks format models when choosing a model from the 3D Body dialog.

For more information about using 3D bodies in a component Footprint, see the Creating the PCB Footprint page.

Availability and Placement

3D bodies are available for placement in the PCB and PCB Library Editors, by selecting Place » 3D Body.

After launching the command the 3D Body dialog will open. Placement is made by performing the following sequence of actions:

  1. In the 3D Body dialog select the 3D Model Type from the available shapes: Extruded, Cylinder or Sphere. Alternatively, enable the Generic 3D Model option, should you wish to embed an external 3D model.
  2. Each 3D body can be named, this helps identify each element when multiple 3D bodies are placed to create a complex shape. Enter a suitable name in the Identifier field.
  3. Each shape must have a defined size before it can be placed. If the chosen shape is Extruded then define the Height, if it is Cylinder define the Radius and Height, if it is Sphere define the Radius.
  4. Set the 3D Color and the 3D Color Opacity as required. Note that these can be edited later if needed.
  5. Click OK to close the dialog and return to the workspace.
  6. If the shape is Cylinder or Sphere, the cursor will be moving in the workspace with a rectangular shape attached. Click to place the 3D body.
  7. If the shape is Extruded the cursor will present, ready to define the the polygonal base shape of the extruded 3D body:
    1. Click to define the first vertex.
    2. Move the cursor ready to place the second vertex. The default behavior is to place 2 edges with each click, with a user-defined corner shape between them. Refer to the Placement Modes section.
    3. Continue to move the mouse and click to place further vertices.
    4. After placing the final vertex, right-click or press Esc to close and complete placement of the 3D body. There is no need to manually close the 3D body as the software will automatically complete the shape by connecting the start point to the final point placed.
  8. The 3D Body dialog will re-appear, ready to configure the next 3D Body for placement. Configure the dialog settings and continue placing 3D bodies, or click Cancel to exit placement mode.
While attributes can be modified during placement (Tab to bring up associated properties dialog), bear in mind that these will become the default settings for further placement unless the Permanent option on the PCB Editor – Defaults page of the Preferences dialog is enabled. When this option is enabled, changes made will affect only the object being placed and subsequent objects placed during the same placement session.

Referencing a Vault-based 3D Model Item from a 3D Body

During placement 3D model item revisions can be referenced from the Vault (If you are using Altum Vault 2.5 or newer).

The quickest, and easiest way to use a revision of a 3D Model Item is to place it directly from the vault into a PCB or PCB Library document, creating a 3D Body object that references that Item Revision. The 3D Body object can then be fine-tuned as required. To place:

  • Ensure a PCB Library (or PCB) document is open as the active design document.
  • Either right-click on the required revision of the 3D Model Item and choose the Place command from the context menu or, even faster, click on the revision, then drag and drop it onto the document.
Right-click and Place (or drag and drop) the top-level entry for an Item itself, to place an instance of the latest revision of that Item.

Conversely, if you are defining the 3D Body object, and want to reference a 3D model that is stored in an Altium Vault, this can be done from within the 3D Body dialog, when defining the properties for the body.

To do so:

  1. Set the 3D Model Type to Generic 3D Model.
  2. In the Generic 3D Model region of the dialog, choose the Vault option.
  3. Click the Choose button to the right of the Item Revision field. This gives access to the Choose Item dialog – essentially a trimmed incarnation of the Vaults panel. Use this dialog to browse to, and select, the revision of the required 3D Model Item. After clicking OK, a link will be created between the 3D Body and the target revision of the 3D Model Item. Evidence of this link can be seen back in the 3D Body dialog.

Manually linking the 3D Body object to a revision of a 3D Model Item, in the target vault.
Manually linking the 3D Body object to a revision of a 3D Model Item, in the target vault.

The 3D Model Item being used can be changed at any time - simply click Choose and select a revision of a different 3D Model Item.
The status of the linked 3D Model Item is reflected in the 3D Body dialog. If a newer revision of the linked Item is available, simply click the Update to latest button, to use that latest revision.

Placement Modes

While placing an extruded 3D body there are 5 available corner modes, 4 of which also have corner direction sub-modes. During placement:

  • Press Shift+Spacebar to cycle through the 5 available corner modes: 45 degree, 45 degree with arc, 90 degree, 90 degree with arc, and Any Angle.
  • Press Spacebar to toggle between the two corner direction sub-modes.
  • When in either of the arc corner modes, hold the  or  keys to shrink or grow the arc. Hold the Shift key as you press to accelerate arc resizing.
  • Press the 1 shortcut key to toggle between placing 2 edges per click, or one edge per click. In this second mode the dashed edge is referred to as the look-ahead segment (as shown in the last image in the set below).
  • Press the Backspace key to remove the last vertex.

Press Shift+Spacebar to cycle through the 5 available corner modes, press the 1 shortcut to toggle placement between 2
edges or 1 edge.

Graphical Editing

This method of editing allows you to select a placed 3D body object directly in the workspace and change its size, shape, or location, graphically.

Note that sphere and cylinder 3D body types can only be moved in the workspace. They cannot be modified graphically with respect to their size or shape.

For an extruded 3D body, click once on the object to select it, which puts it into edit mode. The outer shape of the 3D body object is defined by a series of edges: where each edge is represented by an end vertex at each end, and a center vertex in the middle, shown as a solid white squares. Each end vertex represents the location where 2 edges meet.

A selected extruded 3D body.

  • Click and drag A to move the applicable end vertex.
  • Click and drag B to move the applicable center vertex, effectively creating a new end vertex, and splitting the original edge into two.
  • Click anywhere along an edge, away from editing handles, and drag to slide that edge.
  • Ctrl+click anywhere along an edge, away from editing handles, to insert a new end vertex.
  • To remove an end vertex, click and hold on the vertex, then press the Delete key.
  • Click anywhere on the 3D body – away from editing handles – and drag to reposition it. While dragging, the 3D body can be rotated or mirrored:
    • Press the Spacebar to rotate the 3D body anti-clockwise or Shift+Spacebar for clockwise rotation. The Rotation Step size is defined on the PCB Editor – General page of the Preferences dialog.
    • Press the X or Y keys to mirror the 3D body along the X-axis or Y-axis respectively.

If attempting to graphically modify an object that has its Locked property enabled, a dialog will appear asking for confirmation to proceed with the edit. If the Protect Locked Objects option is enabled on the PCB Editor – General page of the Preferences dialog, and the Locked option for that design object is enabled as well, then that object cannot be selected or graphically edited. Double click on the locked object directly and disable the Locked property or disable the Protect Locked Objects option, to graphically edit the object.

Non-Graphical Editing

The following methods of non-graphical editing are available:

Via an Associated Properties Dialog

Dialog page: 3D Body

This method of editing uses the following dialog to modify the properties of a 3D body object.

The 3D Body dialog.
The 3D Body dialog.

The 3D Body dialog can be accessed during placement by pressing the Tab key.

After placement, the dialog can be accessed in one of the following ways:

  • Double-clicking on the placed 3D body object.
  • Placing the cursor over the 3D body object, right-clicking and choosing Properties from the context menu.

Quickly change the units of measurement currently used in the dialog between metric (mm) and imperial (mil) using the Ctrl+Q shortcut. This affects the dialog only and does not change the actual measurement unit employed for the board, as determined by the Measurement Unit setting in the Board Options dialog (Design » Board Options).

Via an Inspector Panel

Panel pages: PCB Inspector, PCBLIB Inspector

An Inspector panel enables the designer to interrogate and edit the properties of one or more design objects in the active document. Used in conjunction with appropriate filtering, the panel can be used to make changes to multiple objects of the same kind, from one convenient location. The Inspector panel is ideal for editing 3D body objects as the changes can be seen in the workspace without needing to close a dialog. For example, if you are aligning two body objects with the display in 3D mode, you can watch as you change the Model Z setting for one of the objects (there is a brief pause after changing a 3D Body setting in the Inspector panel).

Via a List Panel

Panel pages: PCB List, PCBLIB List

PCB List panel allows the designer 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, it enables the display of just those objects falling under the scope of the active filter – allowing the designer to target and edit multiple design objects with greater accuracy and efficiency.

Other 3D Body Editing Features

Including a Texture

Extruded objects can also include an image overlaid on the upper most surface. When a Texture File is added it is automatically stretched to fit to cover the entire upper surface of the 3D body, as shown in the image below. This can be adjust by altering the Center location, Size and Rotation settings in the 3D Body dialog. Note that the texture file is embedded in the Library or Board file.

Supported Texture File formats include: *.bmp;*.dds;*.dib;*.hdr;*.jpg;*.pfm;*.png;*.ppm;*.tga.

A texture or logo can be added to an extruded 3D Body object.

Snap Points and Axes

Snap points and lines of Axis can be added to a 3D body. Snap points define points at which the 3D body can be held. When the cursor is moved close to a snap point and a click and hold is performed, the cursor will jump to and hold the 3D body at the snap point. The image below shows a 3D body with 2 snap points defined. Axes can be added to provide a visual aid for positioning and orienting a 3D body.

Add Snap Points to a 3D Body to hold the object during positioning.

Maintaining Component Clearances

Add Component Clearance design rules to check for collisions between components that include 3D body objects in the X, Y and Z planes. This allows the designer to fit one component over another component. Multiple rules can be defined to handle different clearance requirements. Note that the Design Rule Check does not test for 3D body objects passing through the board.

 

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注記

利用できる機能は、Altium 製品のアクセスレベルによって異なります。Altium Designer ソフトウェア サブスクリプション の様々なレベルに含まれる機能と、Altium 365 プラットフォーム で提供されるアプリケーションを通じて提供される機能を比較してください。

ソフトウェアの機能が見つからない場合は、Altium の営業担当者に連絡して 詳細を確認してください。

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