Automatic Systems has unveiled three new access control innovations at ISC West 2026, reflecting their ongoing commitment to secure pedestrian and vehicle entrance control systems. These new introductions include the SlimLane EVO optical turnstile, the AS1 series of gates, and the latest RevLock revolving door model.
The SlimLane EVO optical turnstile stands out with its sleek design, advanced detection capabilities, and a flexible electronic and software platform. The turnstile’s modular security architecture is designed to meet a variety of applications, from handling high-traffic areas with advanced tailgating features to fulfilling the cybersecurity demands of technology and finance sectors.
The EVO model is engineered to be future-proof, providing an adaptable ecosystem to incorporate emerging biometric technologies and third-party access control systems. Its efficient brushless motor optimises energy use, catering to high-traffic environments with minimal maintenance requirements. Accompanied by a five-year warranty, the SlimLane EVO is suitable for continuous security operations.
The new AS1 series includes the AS1 Park and AS1 Guard gates. The AS1 Park caters to parking facilities with options for standard or articulated boom arms, optimising for sites with constrained vertical space. Optional LED lighting enhances visibility and safety. The AS1 Guard offers robust perimeter security, supporting passage widths up to 23 feet with a secure motor and locking system for reliable access control.
Furthermore, the AS1 Toll is tailored for demanding toll settings, featuring the impact-absorbing Carbon Protecta® boom arm to minimise vehicle damage during collisions.
The latest addition, the RevLock R20-4S revolving door, combines transparency and elegance with high security. This all-glass, four-wing door fits seamlessly into modern architectural designs, offering high throughput and a compact footprint. Enhanced motion-control technology and bespoke safety algorithms ensure smooth and reliable operation, safeguarding users throughout
