Common use of Security Systems Clause in Contracts

Security Systems. The building has a security and access control system installed that would require connectivity to the BMS. This includes CCTV. For access control, Impro seems to be the preferred installer for the access control, systems. Most impro systems can be connected to the bms but remains the responsibility of the contractor to confirm this during detail design and installation. Fire Detection: There is a Fire Detection system installed in the building for the whole site. The main fire panel is a Ziton addressable fire panel that is not connected to a BMS system. Depending on the communication port fitted within the panel, an upgrade maybe required that a BMS interface card be installed for connectivity to the BMS. If the panel already has a TCP/IP port, then no upgrade is required. Server Room: There are two server rooms in this building already connected to a network. The BMS installation would run on the already existing network. There are two UPS’ installed. A 100kVA and 60kVA UPS that would require connectivity to a BMS. From the site inspection it would seem they are fitted with RS485 ports installed for this functionality. 46 Geyser: Not installed. Ground Water Systems: Not Installed. PV Systems: There is a PV system installed comprised of 3 x 12kVA inverters. These would require connectivity to the BMS. Building 15: This building does not have a BMS installed. The following equipment is installed: Mains Incomer The building is fed from the main substation located at Building 13. The mains circuit breaker is not BMS compatible and would require an upgrade for BMS compatibility. HVAC Systems: This building has several split units installed that would require connectivity to the BMS. Lifts: Not installed. Generator: This building is not fed from any standby electricity systems. Lighting The lighting is mostly comprised of fluorescent type of light fittings, both surface and recess mounted. The light fittings would require replacement to have control switchgear that can be connected to a control panel that would be monitored by the BMS. Water Meter: The water meter is manufactured by Sensus and is fitted with a High Resolution Interface (HRI) pulse and data device that can be connected to a pulse data logger for connectivity to a BMS. The water meter usage is currently being monitored by Zednet Water Monitoring Solutions company. Energy Meters: The mains incomer for the building is located at the main substation. The mains incomer is fitted with a ▇▇▇▇▇▇▇▇▇ Electrical meter PM3255 which is fitted with a modbus communication protocol. The main DB is fitted with an Enermax energy meter that can be connected to a BMS. There are also several PM3255 energy meters installed that monitor usage of the 48 building. The meters are compatible with connectivity to a BMS. From discussions with personnel on site, it would seem the meter is remotely monitored/connected from the Muckleneuk campus. Water Harvesting: Not installed.

Security Systems. The building has a security and access control system installed that would require connectivity to the BMS. This includes CCTV. For access control, Impro seems to be the preferred installer for the access control, systems. Most impro systems can be connected to the bms but remains the responsibility of the contractor to confirm this during detail design and installation. Fire Detection: There is a Fire Detection system installed in the building for the whole site. The main fire panel is a Ziton addressable fire panel that is not connected to a BMS system. Depending on the communication port fitted within the panel, an upgrade maybe required that a BMS interface card be installed for connectivity to the BMS. If the panel already has a TCP/IP port, then no upgrade is required. Server Room: There are two is a server rooms room in this building already connected to a network. The BMS installation would run on the already existing network. There are two UPS’ installed. A 100kVA and 60kVA UPS that would require connectivity to a BMS. From the site inspection it would seem they are fitted with RS485 ports installed for this functionality. 46 Geyser: Not installed. Ground Water Systems: Not Installed. PV Systems: There is a PV system installed comprised of 3 x 12kVA inverters. These would require connectivity to the BMS. Building 15▇▇▇▇ ▇▇▇▇▇▇▇▇▇: This building is quite new with modern systems for energy monitoring installed. It does not have a BMS installed. The extent of what the BMS monitors and controls would have to be verified during the detailed site inspection. The following equipment is installed: Mains Incomer The building is fed from a minisubstation that is installed externally to the main substation located at Building 13building. The mains circuit breaker is not BMS compatible and would require an upgrade for BMS compatibility. HVAC Systems: This building has several split HVAC systems installed comprising: • Chiller plants • Air handling Units • Split units installed that would require connectivity to the BMS. Lifts: Not installed. Generator: This building is not fed from any standby electricity systems. Lighting The lighting is mostly comprised of fluorescent type of light fittings, both surface chiller plants and recess mountedair handling units have their own BMS connectivity. The light fittings HVAC BMS would require replacement have to have control switchgear that can be configured to be able to be connected to a control panel new BMS system installation for the entire building if required. The HVAC system has a dedicated generator that would be monitored by the BMS. Water Meter: The water meter is manufactured by Sensus and is fitted with a High Resolution Interface (HRI) pulse and data device that can be connected to a pulse data logger for connectivity to a BMS. The water meter usage is currently being monitored by Zednet Water Monitoring Solutions company. Energy Meters: The mains incomer for the building is located at the main substation. The mains incomer is fitted with a ▇▇▇▇▇▇▇▇▇ Electrical meter PM3255 which is fitted with a modbus communication protocol. The main DB is fitted with an Enermax energy meter that can be connected to a BMS. There are also several PM3255 energy meters installed that monitor usage of the 48 building. The meters are compatible with connectivity to a BMS. From discussions with personnel on site, it would seem the meter is remotely monitored/connected from the Muckleneuk campus. Water Harvesting: Not installedrequire BMS monitoring.

Security Systems. The building has a security and access control system installed that would require connectivity to the BMS. This includes CCTV. For access control, Impro seems to be the preferred installer for the access control, systems. Most impro systems can be connected to the bms but remains the responsibility of the contractor to confirm this during detail design and installation. Fire Detection: There is a Fire Detection system installed in the building for the whole site. The main fire panel is a Ziton addressable fire panel that is not connected to a BMS system. Depending on the communication port fitted within the panel, an upgrade maybe required that a BMS interface card be installed for connectivity to the BMS. If the panel already has a TCP/IP port, then no upgrade is required. Server Room: There are two is a server rooms room in this building already connected to a network. The BMS installation would run on the already existing network. UPS: There are two UPS’ installedis a UPS installed in the server room. A 100kVA and 60kVA The UPS that would require connectivity have to a BMSbe incorporated into the building management system. From the site inspection it would seem they are fitted with RS485 ports installed for this functionality. 46 Geyser: Not installed. Ground Water Systems: Not Installed. PV Systems: There is a PV system sump pump installed comprised of 3 x 12kVA invertersfor the ground water. These This pump would require connectivity to the BMSa BMS for water flooding monitoring and control. Building 1510: This building does not have a BMS installed. The following equipment is installed: Mains Incomer The building is fed from the main substation located at Building 138. The mains circuit breaker is not BMS compatible and would require an upgrade for BMS compatibility. HVAC Systems: This The HVAC system at building has several 10 consists mainly of split units installed that in the offices known as (window shakers). These are mostly manufactured by Mitsubishi. They would require connectivity an upgrade for BMS connectivity. A heat pump was also observed during the site assessment. The HVAC equipment is currently not connected to the BMSa BMS system. Lifts: Not This building does not have a lift installed. Generator: This building is not fed from any standby electricity systemsthe generator that is located at building 8. Lighting The lighting is mostly comprised of fluorescent type of light fittings, both surface and recess mounted. The light fittings would require replacement to have control switchgear that can be connected to a control panel that would be monitored by the BMS. Water Meter: The water meter is manufactured by Sensus and is fitted with a High Resolution Interface (HRI) pulse and data device that can be connected to a pulse data logger for connectivity to a BMS. The water meter usage is currently being monitored by Zednet Water Monitoring Solutions company. Energy Meters: The mains incomer for the building is located at the main substation. The mains incomer is fitted with a ▇▇▇▇▇▇▇▇▇ Electrical meter PM3255 PM3250 which is fitted with a 37 modbus communication protocol. The main DB is fitted with an Enermax energy meter that can be connected to a BMS. There are also several PM3255 energy meters installed that monitor usage of the 48 building. The meters are compatible with connectivity to a BMS. From discussions with personnel on site, it would seem the meter is meters are remotely monitored/connected from the Muckleneuk campus. Water Harvesting: Not installedThe building has a rainwater harvesting system installed that would require connectivity to a BMS.

Security Systems. The building has buildings have a security and access control system installed that would require connectivity to the BMS. This includes CCTV. For access control, Impro seems to be the preferred installer for the access control, systems. Most impro systems can be connected to the bms but It remains the responsibility of the BMS contractor to confirm this connectivity of the security systems to a BMS during detail design and installation. Fire Detection: There is a Fire Detection system installed in the building for the whole on site. The main fire panel is a Ziton addressable fire panel that is not connected to a BMS system. Depending on the communication port fitted within the panel, an upgrade maybe required that a BMS interface card be installed for connectivity to the BMS. If the panel already has a TCP/IP port, then no upgrade is required. Server Room: There are two is a server rooms room in this building already connected to a network. The BMS installation would run on the already existing network. UPS: No UPS was observed during the site visit. Geyser: There are two UPS’ installed. A 100kVA and 60kVA UPS that would require connectivity to a BMS. From geysers installed on the site inspection it would seem they are fitted with RS485 ports installed for this functionality. 46 Geyser: Not installed. Ground Water Systems: Not Installed. PV Systems: There is a PV system installed comprised of 3 x 12kVA inverters. These would that will require connectivity to the BMS. Building 15One geyser for each of the buildings. Ground Water Systems There are no ground water systems on this site. Irrigation Systems There is an irrigation system that will require connectivity to the BMS. UNISA ▇▇▇▇▇ Campus: This building does not have a BMS installed. The following equipment is installed: Mains Incomer The building is fed from a pole mounted transformer installed on the main substation located at Building 13boundary of the development. The mains low voltage main circuit breaker is not will require a BMS compatible and would require an upgrade circuit breaker that will be monitored for BMS compatibilityon/off status. HVAC Systems: This building has several is fitted with YORK split units installed (manufacturer) that would will require connectivity to the BMS. The HVAC equipment is currently not connected to a BMS system. Lifts: Not This building does not have a lift installed. Generator: This building There is not fed from any standby electricity systemsa 50kVA diesel generator installed on the site complete with a SmartGen Controller. It will be the responsibility of the VBMS contractor during detail design to confirm it has the required modules for BMS connectivity. Lighting The lighting is mostly comprised of fluorescent type of light fittings, both surface and recess mounted. The light fittings would require replacement to have control switchgear that can be connected to a control panel that would be monitored by the BMS. Water Meter: The There is a water pump connected on the site that will require connectivity to the BMS. Currently, the meter is manufactured by Sensus and is fitted with a High Resolution Interface (HRI) pulse and data does not have any sensor monitoring device that can be connected to communicate with a pulse data logger for BMS. There is also a water reservoir tank on the site and the pump will require connectivity to a BMS. The water meter usage is currently being monitored by Zednet Water Monitoring Solutions companyBMS unless the reservoir belongs to the council. Energy Meters: The mains incomer for the building is located at the main substation. The mains incomer is fitted with a ▇▇▇▇▇▇▇▇▇ Electrical meter PM3255 which is fitted with a modbus communication protocol. The main DB is fitted with an Enermax energy meter that can be connected to a BMS. There are also several PM3255 No energy meters installed that monitor usage of were observed during the 48 building. The meters are compatible with connectivity to a BMS. From discussions with personnel on site, it would seem the meter is remotely monitored/connected from the Muckleneuk campussite visit. Water Harvesting: Not installedThere is a water harvesting system in place on the site. The pump will require a BMS compatible pump controller to monitor the pump’s operation.

Security Systems. The building has a security and access control system installed that would require connectivity to the BMS. This includes CCTV. For access control, Impro seems to be the preferred installer for the access control, systems. Most impro systems can be connected to the bms but remains the responsibility of the contractor to confirm this during detail design and installation. Fire Detection: There is a Fire Detection system installed in the building for the whole site. The main fire panel is a Ziton addressable fire panel that is not connected to a BMS system. Depending on the communication port fitted within the panel, an upgrade maybe required that a BMS interface card be installed for connectivity to the BMS. If the panel already has a TCP/IP port, then no upgrade is required. Server Room: There are two is a server rooms room in this building already connected to a network. The BMS installation would run on the already existing network. UPS: There are two UPS’ installedis a UPS installed in the server room. A 100kVA and 60kVA The UPS that would require connectivity have to a BMSbe incorporated into the building management system. From the site inspection it would seem they are fitted with RS485 ports installed for this functionality. 46 Geyser: Not installed. Ground Water SystemsSystem: Not Installed. PV Systems: There is a PV system installed comprised of 3 x 12kVA inverters. These would require connectivity to the BMSinstalled. Building 159: This building does not have a BMS installed. The following equipment is installed: Mains Incomer The building is fed from the main substation located at Building 138. The mains circuit breaker is not BMS compatible and would require an upgrade for BMS compatibility. HVAC Systems: This The building has several split units an HVAC plant room installed in the basement. The plant rooms consists of a chiller plant and pump systems. The chiller plant manufacturer is SCROLL and all the systems have a control unit that can be connected to a BMS system. In the Upper basement there are inverters, heaters, a fan and dampers installed. The systems installed have a ▇▇▇▇▇▇▇ control system that would require need to be checked for connectivity to the a BMS. The HVAC equipment is currently not connected to a BMS system. Lifts: Not This building does not have a lift installed. Generator: This building is not fed from any standby electricity systemsthe generator that is located at building 8. Lighting The lighting is mostly comprised of fluorescent type of light fittings, both surface and recess mounted. The light fittings would require replacement to have control switchgear that can be connected to a control panel that would be monitored by the BMS. Water Meter: The water meter is manufactured by Sensus and is fitted with a High Resolution Interface (HRI) pulse and data device that can be connected to a pulse data logger for connectivity to a BMS. The water meter usage is currently being monitored by Zednet Water Monitoring Solutions company. Energy Meters: The mains incomer for the building is located at the main substation. The mains incomer is fitted with a ▇▇▇▇▇▇▇▇▇ Electrical meter PM3255 PM3250 which is fitted with a modbus communication protocol. The main DB is fitted with an Enermax energy meter that can be connected to a BMS. There are also several PM3255 energy meters installed that monitor usage of the 48 building. The meters are compatible with connectivity to a BMS. From discussions with personnel on site, it would seem the meter is meters are remotely monitored/connected from the Muckleneuk campus. Water Harvesting: Not installedThe building has a rain water harvesting system installed that would require connectivity to a BMS.