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A mechanical tool called an electric actuator is used to transform electrical energy into motion, either in a single linear or rotational motion. It automates the damper or valve to improve the complexity and efficiency of the process.
Electric actuators come in a variety of shapes and sizes, and their designs are based on the specific functions they carry out inside the processes for which they are intended.
Due to the substantially expanded decentralisation occurring in automation technology, there are more uses for electric actuators currently. It is now possible to install brand-new process controllers on electric actuators from the previous generation, making it easier to comply with newly revised automation regulations.
The Italy EV Actuators Market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2026, registering a CAGR of XX% from 2022 to 2027.
For a large-scale project, the students at the University “La Sapienza” Rome in Italy engaged TiMotion to construct a prototype for an electric and driverless car with a heat engine that is similar to a Formula 1 race car.
The team decided to use electric actuators during the conception phase, particularly TiMOTION’s TA2P actuator. The actuator connects the brake pedal to the linear actuator through a rocker assembly, which is utilised to break the autonomous car when necessary.
An internal computer-connected microprocessor drives the actuator, which is housed inside a carbon fibre box beneath the brake pedal. The team decided on TiMOTION’s actuator to enhance the effectiveness of the vehicle’s braking system by replicating driver pressure on the brake pedal.