This course is intended for all those who will be directly involved in positioning the concept of structured cabling as the 4th Building Utility with those responsible for building projects. Design specialists that will interface with the various Intelligent Building vendors and will plan and tailor a cabling infrastructure to support each system. The primary audience is for those already qualified in course SP3321 Design and Engineering, Partners, Consultants and Customers considering integration of Building Systems into a future project design.
Intelligent Buildings is a specialist topic and requires knowledge of Enterprise infrastructures, so the ideal pre-requisite for this course is to have taken the SP3321 SYSTIMAX Design and Engineering course in advance.
- Identify intelligent building infrastructure opportunities
- Understand building automation subsystem architecture
- List and describe connection requirements for the following building management systems:
- Heating, Ventilation and Air Conditioning systems (HVAC)
- Energy Management systems (EMS)
- Fire, Life, and Safety systems (FLS)
- Security and Access Control systems (SAC)
- Power over Ethernet (PoE)
- List the Intelligent Buliding application guides
- Describe the system design and engineering process
- Integration of Building Automated Systems (BAS) over a single infrastructure is increasingly becoming a project requirement. The motivations for integration have never been more apparent than today, it makes financial sense, standards have emerged and increasingly BAS vendors are looking to integrate to the IP/LAN environment. BAS shall be explained in terms of market, motivations, standards, Infrastructure design, connectivity, performance and products.
- The 4th Utility Concept – Intelligent building concept, motivation, investment protection, costs, energy saving support, BAS and Ethernet/IP, regulations, project opportunities, project cycles, decision makers, specification and BID, BAS applications.
- BAS Architecture and Design – BAS Architectures, BAS standards, BAS Design, Coverage Areas and Topologies, BAS channel design, BAS device connection, coverage area planning, using Data/Voice cabling for BAS, Equipment subsystems, definitions, TR, MER, HCP, bridging fields, centralised designs, containment and raceway support.
- Application Guides and Technical Specifications - BAS Applications, Lonworks, EIA interfaces, control applications, Device ID, analog and digital signaling distances, power tables, calculating distance, current limits for cables, maximum operating voltages, resistance circuits, voltage drops, power dissipation, fusing, connections to end devices, audio signals, BAS pinout assignments, shared sheath, BAS test configurations.
- Security & Access Control (SAC) Systems – CCTV, Access control, Elevator control systems, security design considerations, analog and digital video signals and transmission, analog and broadband video, Fixed and PTZ CCTV, IP/network CCTV, Remote camera power considerations, TIA and IBIS power specifications, Voltage drops, access, VGA, IPTV, broadband distribution.
- HVAC, EMS and FLS – Architectures, energy management systems, HVAC coverage areas, equipment, chiller plant, cooling tower, boiler, air handling, pumps and outside air wiring options, HVAC and EMS wire point interfaces, pinouts to RJ45, Lighting reduction control, Fire Life Safety standards, cabling, components, device functions, device interfaces.
- Power over Ethernet (PoE) systems – Power cabling today, motivation for PoE, drivers, standards IEEE802.3af and at, standard PD power classes, PSE, mode A and B, Power Interfaces (PI), PSE output, PoE channel designs, PoEPlus.
- LED Lighting - Motivation for LED lighting , solutions and design. Low voltage structured cabling, high density sensors with numerous applications, safety and security and energy savings.
- WiFi Solutions - WiFi standards and design. Increased demand equals higher density. BYOD Challenges. Backhaul cabling. Wireless access points locations and cabling. RF planning and recommendations
How will I learn?
You will study this course online in a self- paced format.
The course is made up of a number of webcast lessons and online multiple choice assessments giving immediate feedback. It is supported by a number of downloadable support documentation including IBIS design tools.
Successful completion will require:
Any level of pass in the accumulative overall assessment score.
Upon successful completion you will:
Receive a certificate and be added to the CommScope student base. CommScope PartnerPRO™ students who are already qualified in the SP3321 SYSTIMAX Authorized SYSTIMAX Engineering (ASE) ID badge will have this specialist course icon appended.
Certificate is valid for 4 years. BICSI CEC's are available for this course, please check the BICSI support document in your resources area for details.
Is this the right course for me?
If you are involved in positioning or designing BAS during the sales or specification phase or responsible for project managing and need to understand this complex specialist infrastructure topic, then this course is for you.
BICSI CECs: 5 Event ID: OV-COMMS-IL-0217-4
Certificate valid for 4 years
Estimated study time: 8h
Webcast duration: 5h:43m