Securing REX detectors is critically important when it comes to designing access control systems to ensure the integrity of a high security space. Sequential logic can be implemented to enhance the security of these detectors.
By employing sequential logic, a system can be engineered where a series of specific events or conditions must occur in a pre-defined order before a request to exit is granted. For instance, before the REX detector activates the door release, it might first require a valid card swipe followed by a motion detection event within a specified time frame. This approach not only ensures that the exit request is legitimate but also significantly reduces the chances of false activations or unauthorized access. Proper implementation of sequential logic helps in thwarting tailgating and piggybacking attempts, ensuring a tighter and more effective security regime for controlled areas.
Key discussion points in this video:
- 0:00 - Introduction 0:37 - Unsecure Side of the Door
- 1:29 - Secure Side of the Door
- 2:50 - DS160 Request to Exit (REX) Detector
- 5:48 - Sequential Logic Solution for High Security Applications
- 7:49 - Application Examples
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About the Presenter
Keegan Kinslow is the Regional Marketing manager for Intrusion Detection Detectors at Bosch Security and Safety Systems. He is extremely technical with vast security industry experience who can simplify complex concepts. Keegan focuses on the big picture, and uses data to implement initiatives and make forward-thinking business decisions.