We've sent you an email with a link to update your password.
Reset your password
We will send you an email to reset your password.
ROGER DIGITAL BRUSHLESS
Next-Gen Automation: Digital Brushless Motors Designed for Non-Stop Usage
We are proud to introduce a new type of gate automation in Australia, specifically designed for high-traffic gates, ideal for residential complexes and commercial sites.Explore the key benefits and differences from traditional systems below, and request the installation of a premium product today!
ITALIAN ENGINEERING
FULL METAL GEAR AND BRUSHLESS TECH
These motors are built to last, thanks to their fully metal mechanics, entirely made in Italy!
Additionally, the new generation BRUSHLESS motor offers numerous benefits. See below:
EXTENDED WARRANTY
Thanks to their reliability, we offer a 2+1 year warranty on Roger motors.
NEED for SPEED?
Product Features
Faster speeds and shorter waiting times!
All of the new HIGH SPEED line lets you quickly, powerfully, and reliably open a gate. They are 100% faster compared to the traditional speeds for motors with 230V AC or 24V DC technology.
Dynamic accelerations and decelerations!
Thanks to the new 24V or 36V digital controllers, it has become fast and simple to set different types of accelerations and decelerations during the opening and closing phases of your gate. And always guaranteeing maximum elegance and safety.
Digital obstacle detection!
The ultra-powerful Native Encoder onboard the digital technology and the brand-new motor power control in SENSORED technology make it possible to detect any type of obstacle with maximum safety. This allows for setting the speed, motor torque, sensitivity, and operator reaction time during the detection phase for possible obstacles.
Total safety from the point you want!
In order to guarantee maximum safety and maintain high-speed performance, the new digital controller offers the possibility of configuring door opening and closing from the point where you want to start deceleration. You can also set the type of deceleration, its speed, and the relative sensitivity you want.