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Translational Multibody Interface

Interface between mechanical translational networks and Simscape Multibody joints

Since R2021a

  • Translational Multibody Interface block

Libraries:
Simscape / Foundation Library / Mechanical / Multibody Interfaces

Description

The Translational Multibody Interface block implements an intuitive way to connect Simscape™ blocks that have mechanical translational ports with Simscape Multibody™ joints that have prismatic primitives. Simscape blocks that can be connected to a Translational Multibody Interface block include:

  • Blocks from the Foundation > Mechanical > Translational Elements library, such as Translational Friction or Translational Damper.

  • Blocks with mechanical translational ports from other Foundation libraries, such as Translational Mechanical Converter (G) or Translational Mechanical Converter (IL).

  • Blocks with mechanical translational ports from add-on products, such as hydraulic actuators from the Simscape Fluids™ libraries.

The Translational Multibody Interface block matches the force and relative velocity across the interface. You can connect it to any Simscape Multibody joint that has a prismatic primitive:

  1. Enable the velocity sensing port v and the force actuation port f on the joint. If the joint has multiple degrees of freedom, make sure that the selected velocity sensing and force actuation correspond to the same degree of freedom.

  2. Connect physical signal ports v and f of the Translational Multibody Interface block to ports v and f of the Simscape Multibody joint.

  3. Connect ports C and R of the Translational Multibody Interface block to a Simscape mechanical translational network.

Block diagram showing how to connect the Translational Multibody Interface block

For detailed step-by-step instructions, see Connecting Simscape Networks to Simscape Multibody Joints.

Blocks like Translational Friction and Translational Damper do not require position information, and for these blocks the interface based on force and relative velocity is sufficient. Other blocks, like hydraulic actuators, require information on relative position between their ports. To connect these blocks to a Simscape Multibody joint:

  1. Use the Translational Multibody Interface block. Enable the velocity sensing port v and the force actuation port f on the joint, and connect the ports as described above.

  2. Additionally, enable the position sensing port p on the joint. If the joint has multiple degrees of freedom, make sure that the position and velocity sensing and force actuation all correspond to the same degree of freedom.

  3. On the actuator block, enable the position input port p, by setting the Interface displacement parameter to Provide input signal from Multibody joint. Connect the position input port p on the actuator block to the position sensing port p of the Simscape Multibody joint.

Block diagram showing how to connect the Translational Multibody Interface block and pass the position information

Assumptions and Limitations

For models with Translational Multibody Interface or Rotational Multibody Interface blocks, it is recommended that you use Simscape Multibody blocks to model masses and inertias. The reason is that Simscape networks need to have a ground (reference) node, with all the masses and inertias in the network accelerating with respect to this node. In a Simscape Multibody joint, both the base and follower frames may be accelerating. Therefore, a mass or inertia in the Simscape network connected to a joint may not have the correct inertial reference.

Ports

Input

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Physical signal input port that accepts the relative velocity sensing output from the joint primitive. Connect this port to the velocity sensing port v of the Simscape Multibody joint.

Output

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Physical signal output port that provides the force actuation input to the joint primitive. Connect this port to the force actuation port f of the Simscape Multibody joint.

Conserving

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Mechanical translational conserving port with the same force and relative velocity as the joint primitive. Connect this port to ports R of other blocks in the mechanical translational network.

Mechanical translational conserving port with the same force and relative velocity as the joint primitive. Connect this port to ports C of other blocks in the mechanical translational network.

Version History

Introduced in R2021a