ANSI/BICSI 007-2020 serves as the seminal standard for the design and implementation of ICT infrastructure necessary for all network enabled building systems, from traditional, smart, IoT, emerging and everything in between. Within this 50 page expansion, requirements, recommendations and guidance has been expanded to cover additional systems and the latest methods and trends within building design, providing for flexibility and longevity in designs, even for those system and cabling concepts which have not yet made it to market. And as these systems become commonplace, information on reliability, network design and security, and cloud support was also added. In addition to infrastructure, material for common building systems and powering methods (e.g., PoE) was also reviewed and expanded, with the following systems being covered in greater detail: Building automation systems (BAS) Building management systems (BMS) Energy management systems (EMS) Low voltage / PoE Lighting Electronic security systems (ESS) Video surveillance Access control Intrusion detection Class N fire alarm Intercom, paging and mass notification Sound masking Digital signage and wayfinding Asset management (RFID) Vertical transportation (e.g., elevators)

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PDF Pages	PDF Title
20	1 Introduction 1.1 General 1.2 Purpose 1.3 Categories of Criteria 2 Scope
22	3 Required Standards and Documents
24	4 Definitions, Acronyms, Abbreviations, and Units of Measurement 4.1 Definitions
28	4.2 Acronyms and Abbreviations 4.3 Units of Measurement
30	5 Communications Infrastructure 5.1 Overview 5.2 Topology 5.2.1 Introduction 5.2.2 Requirements Figure 5-1 Hierarchical Star Topology
31	Figure 5-2 Examples of Non-star Topologies 5.2.3 Recommendations 5.3 Spaces 5.3.1 Equipment Rooms
33	5.3.2 Telecommunications Rooms and Telecommunications Enclosures Table 5-1 Recommended Cross-Connect Color Codes
34	Figure 5-3 Example Layout of a Mixed Cabinet and Rack Row
36	Figure 5-4 Example TR Supporting Multiple Systems
37	Figure 5-5 Example TR Providing Supporting Restricted Access 5.4 Cabling 5.4.1 Backbone Cabling
38	5.4.2 Horizontal Cabling Figure 5-6 Building System Horizontal Cabling Elements within a Star Topology
39	Table 5-2 Horizontal Balanced Twisted-Pair Cabling for Intelligent Buildings Applications
40	5.4.3 Additional Cabling Considerations 5.5 Cabling Pathways 5.5.1 Overview
41	5.5.2 Requirements 5.5.3 Recommendations 5.5.4 Pathway Separation from Power and EMI Sources
42	Table 5-3 EMI Separation Tables 5.5.5 Pathway Bonding and Grounding 5.5.6 Enclosures, Pull Boxes and Splice Boxes
43	5.5.7 Special Considerations 5.5.8 Secure Areas
44	5.6 Outlets and Connectors 5.6.1 Overview 5.6.2 Requirements 5.6.3 Recommendations
45	Figure 5-7 Types of Outlets Within a Building 5.7 Horizontal Connection Point (HCP) 5.7.1 Introduction Figure 5-8 Example of an HCP Mounted in a Ceiling Enclosure
46	5.7.2 Requirements 5.7.3 Recommendations 5.8 Direct Connections 5.8.1 Introduction 5.8.2 Requirements Figure 5-9 Example of a Direct Connection
47	5.8.3 Recommendations 5.9 Cabling and Infrastructure Installation 5.9.1 Requirements 5.9.2 Recommendations 5.9.3 Transmission Performance Field Testing
48	Figure 5-10 Field Test Configuration for Modular Plug Terminated Link 5.10 Administration 5.10.1 Requirements 5.10.2 Recommendations
49	5.10.3 Automated Infrastructure Management (AIM) 5.11 Other Transmission Architectures and Methods 5.11.1 Wireless LAN and Distributed Antenna Systems
50	5.11.2 Wireless Mesh 5.11.3 Passive Optical Networks
51	5.11.4 Single Pair Ethernet 5.12 General Site Conditions
52	6 Design Considerations for Building Systems 6.1 Horizontal Cabling Configuration 6.1.1 Star Topology Without HCPs Figure 6-1 Example of a Star Topology Deployment for PoE Lighting
53	6.1.2 Zone Cabling Figure 6-2 Example of a Zone Cabling Deployment for PoE Lighting
54	Figure 6-3 Example of Grid and Hexagonal SO Coverage Area Patterns with Circular Device Coverage Areas Shown
55	Figure 6-4 Example of Grid and Hexagonal Pattern Coverage Area Zones Table 6-1 Typical Building Device Density
56	6.1.3 Tree Topology Figure 6-5 Example of a Tree Topology Cabling Deployment for PoE Lighting
57	6.2 Electrical Power 6.2.1 Overview 6.2.2 Power Supply Units 6.2.3 Uninterruptible Power Supplies
58	6.2.4 Electrical Conductors
59	6.3 Simultaneous Data and Power Transmission 6.3.1 Introduction Table 6-2 PoE and HDBaseT Power Specifications 6.3.2 Power Injectors
60	6.3.3 Cabling and Installation 6.4 Device Mounting Heights 6.4.1 Requirements
61	6.4.2 Recommendations 6.5 Special Building Area Requirements 6.5.1 Water, Wet and Damp Areas 6.5.2 Hazardous Areas 6.6 Building Systems Equipment 6.6.1 Introduction
62	6.6.2 Recommendations 6.7 Network Convergence 6.7.1 Overview
63	6.7.2 Network Protocols and Gateways 6.7.3 Network Convergence Challenges Table 6-3 Example Infrastructure Provisions for Phased Development
64	Table 6-4 Demarcation of Systems
66	7 Building and Facility Systems 7.1 Building Automation Systems 7.1.1 Introduction Figure 7-1 Functional Model of a BAS
67	7.1.2 Requirements 7.1.3 Recommendations
68	7.1.4 Structured Cabling Infrastructure 7.1.5 Planning
69	7.1.6 Power 7.1.7 BAS Interfaces with ESS Systems
70	7.2 Building Management 7.2.1 Introduction Figure 7-2 Common Building Subsystems Incorporated into a BMS
71	7.2.2 Requirements 7.2.3 Recommendations
72	7.2.4 Power 7.2.5 Controllers and Devices 7.2.6 Structured Cabling Infrastructure 7.3 Energy Management System (EMS) 7.3.1 Introduction 7.3.2 Strategies
73	7.3.3 EMS Integrations
74	7.3.4 Example of Reducing Energy Costs 7.4 Utility Metering 7.4.1 Introduction
75	7.4.2 Connection and Protocols
76	8 Lighting 8.1 Overview 8.2 Lighting Control Systems 8.2.1 Overview 8.2.2 Topologies
77	Figure 8-1 Modular LCM Lighting Control Topology Figure 8-2 Hardwired DALI Lighting Control Topology
78	8.3 Task Tuning / Fixed Power Reduction 8.3.1 Overview Figure 8-3 DC Lighting Power Supply and Control Topology
79	8.3.2 Multilevel Lighting 8.3.3 Scheduling or Occupancy-Based, Time of Day, and On/Off Control 8.3.4 Vacancy-Based On/Off Control 8.3.5 Daylight Harvesting 8.3.6 Demand Limiting or Load Shed
80	8.3.7 Trimming or Lumen Depreciation Compensation 8.4 Controller Connectivity and Cabling Infrastructure 8.4.1 Introduction 8.4.2 Requirements 8.4.3 Recommendations
81	Table 8-1 Recommended Maximum Bundle Sizes for Low-Voltage Lighting Systems Over 0.5A per Conductor 8.5 Lighting and A/V Integration 8.5.1 Overview 8.5.2 Strategies
82	Figure 8-4 Example of an BMS Integration with Lighting and A/V Elements 8.6 Energy Reduction and Lighting Guidelines 8.6.1 Recommendations
84	9 Electronic Safety and Security Systems 9.1 Overview 9.2 Smart Building Security 9.2.1 Access Categorization and Risk Analysis Table 9-1 Example of an Asset Security Categorization 9.2.2 Selecting and Tailoring Security Controls
85	Table 9-2 Example Physical Security Control 9.2.3 Security Profiles Table 9-3 Example of a Security Profile for a Building
86	Figure 9-1 Example of a Security Profile Floor Plan 9.3 ESS System Requirements 9.4 Intrusion Detection Systems 9.4.1 Overview
87	9.4.2 Developing an IDS 9.4.3 System Connectivity 9.4.4 Sensors
88	Table 9-4 Detection Sensor Technology and Application 9.4.5 Notification Devices
89	9.4.6 Control Panel 9.4.7 Keypads and Annunciators 9.4.8 Optional Integrated Equipment
90	9.5 Video Surveillance 9.5.1 Overview 9.5.2 VSS Elements
91	9.5.3 Design Recommendations
92	9.5.4 Testing 9.5.5 Deployment Process
93	9.5.6 Authentication of Network Video Cameras for Improved ESS Network Security 9.5.7 Use Cases
95	9.6 Access Control Systems 9.6.1 Overview 9.6.2 System Structure 9.6.3 Peripheral Devices
96	9.6.4 Fail-Secure/Fail-Safe/Fail Latched
97	9.6.5 Power
98	9.6.6 Other System Considerations
99	9.7 Fire Detection and Alarm Systems 9.7.1 Introduction Figure 9-2 Basic Fire Alarm System
100	9.7.2 Regulatory 9.7.3 Requirements
101	9.7.4 Recommendations 9.7.5 Fire Alarm Pathways and Circuits
103	9.8 Emergency Communications Systems 9.8.1 Overview 9.8.2 Requirements
104	9.8.3 Recommendations 9.9 Integration 9.9.1 Overview 9.9.2 Requirements 9.9.3 Physical Security Information Management System
105	Figure 9-3 Sample Physical Security Information Management System
106	10 Audio and Visual Systems 10.1 Introduction 10.2 Sound, Notification and Acoustical Systems 10.2.1 Purposes of Sound Systems: 10.2.2 Sound Systems
107	10.2.3 Design Considerations
108	10.3 Sound Masking/Privacy Systems 10.3.1 Overview 10.3.2 Requirements 10.3.3 Recommendations 10.4 Intercom System 10.4.1 Overview 10.4.2 Components
109	10.4.3 Operation 10.4.4 Integration 10.4.5 Wireless Intercoms 10.5 Emergency Communication Telephone 10.5.1 Overview 10.5.2 Components
110	10.5.3 Location 10.6 AV Over IP 10.6.1 Introduction 10.6.2 Requirements 10.6.3 Recommendations 10.7 Digital Signage 10.7.1 Overview 10.7.2 Digital Displays
111	10.7.3 Usage Conditions
112	10.7.4 Design Considerations
113	10.8 Wayfinding 10.8.1 Introduction 10.8.2 Stationary Wayfinding 10.8.3 Mobile Wayfinding
116	11 Other Systems 11.1 Asset Tracking 11.1.1 Introduction 11.1.2 Asset Tracking with RFID
117	Figure 11-1 Typical UHF RFID System Block Diagram
118	11.1.3 Implementation of Asset Tracking
119	11.2 Vertical Transportation Interfaces in Intelligent Building 11.2.1 Building Management 11.2.2 Changes in Operational Movement
120	11.2.3 Fire Detection and Alarm System 11.2.4 Security and Passenger Communications Systems 11.3 Proximity Detection
121	11.4 Global Positioning System 11.4.1 Overview 11.4.2 Requirements
122	12 System Integration 12.1 Overview Figure 12-1 Simplified Example of a Transit Center Concourse with Multiple System Integration
123	Figure 12-2 Example of Integrated Systems in a Building
124	Table 12-1 Matrix of Common System Integrations
125	12.2 Network Service Integration 12.2.1 Introduction Figure 12-3 Logical Diagram of Network Service Provider Connectivity
126	12.2.2 Requirements 12.2.3 Recommendations 12.3 Integration Considerations 12.3.1 Expandability
127	12.3.2 Time Synchronization
128	12.3.3 Software
129	12.3.4 Maps and Icons 12.3.5 System Response Times
130	12.4 Integration Process 12.4.1 Overview 12.4.2 Integration Process Team Members 12.4.3 Step 1: Develop a Requirements Traceability Matrix
131	12.4.4 Step 2: Develop an Integration Plan
132	12.4.5 Step 3: Develop a Testing and Commissioning Plan
134	13 Commissioning 13.1 Overview 13.2 Plans 13.2.1 Commissioning Plan 13.2.2 Preliminary Testing and Calibration Plan 13.2.3 Acceptance Testing Plan
135	13.3 Documentation 13.3.1 Overview 13.3.2 Requirements 13.3.3 Record Drawings 13.3.4 Operation and Maintenance Manuals 13.4 System Testing 13.4.1 General
136	13.4.2 Preinstallation Testing 13.4.3 Preliminary Testing and Calibration 13.4.4 Burn-in Period 13.4.5 Acceptance Testing
137	13.4.6 Retesting Equipment and Systems 13.5 Additional Commissioning Tasks
138	13.5.1 Cleaning 13.5.2 Labeling Components 13.5.3 Training
140	Appendix A Reliability for ICT Infrastructure (Informative) A.1 Introduction A.2 Class C0 and C1 Telecommunications Infrastructure Figure A-1 Class C0 or C1 Concept Diagram
141	A.3 Class C2 Telecommunications Infrastructure Figure A-2 Class C2 Concept Diagram A.4 Class C3 Telecommunications Infrastructure Figure A-3 Class C3 Concept Diagram
142	A.5 Class C4 Telecommunications Infrastructure Figure A-4 Class C4 Concept Diagram
144	Appendix B Network Design and Security (Informative) B.1 Introduction B.2 Network Design Considerations
147	B.3 Cyber Security and Data Protection
148	B.4 Network Risks and Control Measures
151	Figure B-1 Stand-Alone Network Figure B-2 Enterprise Network
152	Figure B-3 Example of Security Zones
155	B.5 Network Security for Facility and IT Networks
156	B.6 Network Security Recommendations
160	Appendix C Cloud Computing for Intelligent Building Systems (Informative) C.1 Overview C.2 Services
162	C.3 Infrastructure Management of Cloud Services
163	C.4 Selecting an Infrastructure Management Model C.5 Cloud Deployment Models
164	C.6 Delivering Secure Services
165	C.7 Trends
166	Appendix D System Training (Informative) D.1 Overview D.2 Sessions D.3 Position or Task Training
168	D.4 Training Schedules
170	Appendix E Light Fidelity Technology (Informative) E.1 What is Li-Fi E.2 Li-Fi Model
171	E.3 Implementation
172	Appendix F Related Documents (Informative)

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BICSI	2020


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Standard Title	ANSI/BICSI 007-2020, Information Communication Technology Design and Implementation Practices for Intelligent Buildings and Premises
Published Code	BICSI
Publication Date	2020

BICSI 007 2020

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