This is a follow-up to my previous post “Using sketch-based laws in CATIA Kinematics.”

**Just to refresh your memory what this is all about…**

CATIA Law features can be used to link all commands in the mechanism to a single parameter – time. This enables the mechanism’s motion to be simulated by manipulating the time parameter alone, so multiple commands are varied simultaneously and, in a user-defined way. Also, this enables calculation of time-dependent quantities in the mechanism, such as velocities and accelerations.

There are two types of Laws in CATIA – sketched-based and equation-based. The sketch-based laws (explained in my above-mentioned post) require definition of the motion profile as a sketch, which works well in many cases. But – sketch-based laws have their limitations.

Consider this task: How do I simulate motion of a pendulum? From physics, we know that motion of the pendulum follows the sine-wave law, but – there’s no tool in the Sketcher workbench to draw a sine-wave!

In this post, I’ll explain how to use equation-based laws to work around such limitations.

The sample model is shown below. The model consists of the axis part and the pendulum part. The axis part is fixed, and the pendulum is linked with the axis with a ** Revolute** joint,

**-commanded. The goal is to simulate motion of the pendulum according to the sine-wave law, with 30-degree swing amplitude.**

*Angle*First, we need to write down the motion equation. The swing angle during the pendulum’s motion is described by the following equation:

Where ** A** is the swing amplitude,

**is time,**

*t***is cyclical frequency in radians per second,**

*ω***is frequency in cycles per second (Hertz), and**

*f***is phase in radians.**

*φ*For instance, if pendulum completes one full swing forth and back in 1 second, then frequency ** f **=1Hz. Assuming the maximum swing 30deg and the start of the motion at the leftmost swing position, the motion equation becomes:

Now we need to create the Law feature. Click the (Law) icon in the Knowledge toolbar to display the Law Editor dialog box. The right-hand side allows you to create formal parameters to be used in the law (“formal” in the sense that these are not actual parameters in a CATIA model, rather, they serve as the “input” and the “output” parameters in the law definition), the left-hand side is the law edition box.

Now we need to figure out the types of the formal parameters we need. In the ** Dictionary** section, scroll down to the

**chapter and examine the function**

*Law***– this is the function we will later use to link the angle command in the mechanism with the Law.**

*Evaluate*Note that the function requires input parameter of type ** Real** and produces output value of type

**too. Therefore, using the**

*Real***button, create two parameters of type**

*New parameter of type***, and rename them as**

*Real***and**

*y***.**

*t*Now, in the law edition section, type the following equation (the function **sin** can be found in chapter ** Math** and the constant

**PI**in chapter

**in the**

*Constant***section):**

*Dictionary***y = 30*sin(2*PI*t*1rad – PI/2*1rad)**

Note the use of units in the law code – this is quite important! If no units are specified, CATIA will interpret the values in international SI system of units. Click ** OK** to complete the law definition.

Next, we need to link the command in the mechanism to the law. Double-click ** Command.1** in the tree, right-click in the

**field, and select**

*Command value***in the contextual menu.**

*Edit formula*

In the Formula Editor, type the following formula:

Close the Formula Editor. Note that the ** Command value** is now controlled by the formula, and its start value is -30deg, which is the leftmost swing position of the pendulum. Click

**to close the Command Edition box.**

*OK*

We’re done! Now select the (Simulation with Laws) tool, select ** Maximum time bound** and

**, and run the simulation.**

*Number of steps*

The use of laws in Kinematics is covered in the Rand 3D DMU Kinematics Class. www.Rand3D.com