Translational Mechanical to Electrical System Conversion Example
Now that correlations between mechanical and electrical systems have been made, converting systems with a single set of translational, rotational or RLC elements is pretty straight forward. However, when systems have multiple sets of elements a few additional analogies have to be taken into consideration:
- Similar to how elements in series in electrical systems have the same current flowing through them, in mechanical systems, elements with the same velocity are considered to be in series
- Each Mass block (Node) in mechanical systems correspond to a closed loop in an electrical system
- Elements connected between two masses in mechanical systems correspond to elements common between two meshes in electrical systems
Let us consider the following two-mass-block translational system
The two mass blocks imply the electrical system must have two closed loops in the electrical system, and the spring [Tex]K_{12} [/Tex] is converted to a common capacitor [Tex]C_{12} [/Tex] between the two loops.
Force Voltage Analogy
In this Article, We will be going to Know what is Force Voltage Analogy, We will go through the Mathematical Model of the Mechanical System Which is Classified into Two types Translational and Rotational Systems. Then we go through the Mathematical Model of the Electrical System, Then we go through the Force Voltage Analogy, At last, we will Conclude our Article With its Applications and Some FAQs.
Table of Content
- What is the Force Voltage Analogy?
- Mathematical Model of Mechanical Systems
- Mathematical Model of Electrical Systems
- Force-Voltage Analogy
- Translational Mechanical to Electrical System Conversion Example