Document: NUREG-0800
Document ID: 9c20ec9e-fd1b-4e50-a8af-e8785949754b
Document Type: srp
Title: PHYSICAL SECURITY — REVIEW OF PHYSICAL SECURITY SYSTEM DESIGNS –
Source: NUREG-0800
Source URL: https://www.nrc.gov/docs/ML1414/ML14140A210.pdf
Revision Date: 2023-06
Chapter: 13
Section ID: 13.6.2
CFR Part: 
CFR Title: 

Content:
y power, and UPS; (6) redundancy for protection against DBT characteristics affecting availability of security communications; and (7) technical basis for and the specifications of DBT characteristics protected. C. Physical Barriers, Delay Systems, and Features Relied on for Interdicting and Neutralizing DBT: The descriptions of designs and specifications should be of sufficient detail to establish, but not be limited to, the following for engineered physical security systems providing minimum physical delays times: (1) design and configurations of active and passive engineered systems, types of material, their applications, and intended functions; (2) installations and locations of the engineered passive and active barrier systems; (3) configurations of major SSCs and their interfaces; (4) electrical power sources addressing primary power, secondary power, and UPS or primary and secondary mechanical or fluid motor forces for active engineered systems; (5) physical dimensions and topographical characteristics, including special distances, which are relied on as delay features; (6) safety/security interfaces for impact on nuclear operations and safety; and (7) technical basis and specifications of DBT characteristics protected. D. Physical Security Systems Relied on for Interdiction and Neutralization: The descriptions of designs and specifications should be of sufficient detail to establish, but not be limited to, the following for engineered physical security systems or features relied on for protection of security responders to provide tactical advantage over DBT adversaries for interdiction and neutralization: (1) design and configurations of active and passive engineered systems, types of material, their applications, and intended functions; (2) installations and locations of the engineered passive and active barrier systems; (3) configurations of major SSCs and their interfaces; (4) configurations and protection of electrical, alarm, data, and control signal