Quanser

Linear Flexible Joint (LFJ)

Challenge:

Design a control system to manipulate the position of a spring driven cart.

Description:

A solid aluminum cart is driven by a rack and pinion mechanism using a 6V DC motor, ensuring consistent and continuous traction. The cart slides along a stainless steel shaft using linear bearings. The cart position is measured using a sensor coupled to the rack via an additional pinion. The powered cart (input cart) is coupled to a non-powered cart (output cart) using a compression spring. Both cart positions are measured using encoders.

The ability to vary parameters is also available should you wish to change the cart mass and or spring length. The desired outcome is to design a controller such that the output cart tracks a command with minimum overshoot and maximum speed. The system is supplied with a state feedback controller. You may design any other controller you wish.

Difficulty:

Undergraduate - second course

Click here to view the Demonstration Video

Ready to buy?

Every customer requirement for the Quanser range is unique and we offer pre-sales support to ensure your purchase fully meets the project requirements.

For more information about Quanser Control Challenges and to discuss your project contact our Quanser team at your local office.

Featured Downloads

SRVO2-Series - Rotary Experiment 4: Flexible Joint Movie

Linear Flexible Joint (LFJ) Demo Movie

Latest Downloads

Formula for success - advantages of multi-disciplinary control labs

Quanser Solutions help establish the promise of rehab R&D early on at Rice University

Omni bundle Course Material sample

Quanser Case Study - Shake, rattle and roll to graduation at Cornell University

2DOF Serial Flexible Link Experiment Datasheet