16610 Project No. 13-038 STATIC UNINTERRUPTIBLE POWER SUPPLY Belleville Fire Hall/Headquarters and Emergency Operations Centre Belleville, Ontario Page 1 of 6 1 1.1 GENERAL GENERAL REQUIREMENTS .1 The General Conditions of CCDC2-2008 , and the General requirements of Division 1, form part of this Section and must read in conjunction with the requirements of this Section, and all related Sections. .2 The Work of this Section and related Work specified in other Sections shall comply with all requirements of Division 1. .3 The Work of this Section and related Work specified in other Sections shall comply with all requirements of Division 16 section-16010 Electrical General provisions. 1.2 REFERRENCES .1 CAN/CSA-C813.1-01(R2006), Performance Test Method for Uninterruptible Power Supplies. 1.3 SUBMITTALS .1 Submit product data in accordance with section 16010. .2 Shop Drawings: Submit shop drawings for each product and accessory required. Include information not fully detailed in manufacturer’s standard product data, including, but not limited to, the following: 1. Installation information, including, but not limited to, weights and dimensions. 2. Information about terminal locations for power and control connections. 3. Drawings for requested optional accessories. 4. Wiring diagrams 5. .5 Description of system operation, referenced to schematic diagram, for: .1 manual control during initial start-up and load transfer to bypass and back to inverter output. .2 Inverter. .3 Bypass. 16610 Project No. 13-038 STATIC UNINTERRUPTIBLE POWER SUPPLY Belleville Fire Hall/Headquarters and Emergency Operations Centre Belleville, Ontario Page 2 of 6 .6 Full load kVA output, system efficiency at 25%, 50%, 75% and 100% rated load. .7 Battery: it’s Number of cells, type, size, weight, expected life and electrical data. .8 Rectifier : its type and capacity, electrical data, noise level, expected life, metering, and alarms. .9 Type of ventilation: natural or forced. .10 Inverter: Type and catalogue number. .11 Manufacturer's field experience with UPS of similar ratings including engineering expertise, manufacturing facilities and listing of UPS units manufactured and installed during last 5 years including model, customer, location and installation dates. .12 Heat losses at no load, 25%, 50%, 75% and 100% of rated output, in kW. .13 Cooling air required in m;/s. .14 List of recommended spare parts, tools and instruments with catalogue numbers and current prices. .15 Typical operation and maintenance manual. .16 Description of factory test facilities. .17 Manufacturer's maintenance capabilities including: Willingness to undertake maintenance contract, and location of trained personnel and repair facilities. 1.4 CLOSEOUT SUBMITTALS .1 Provide maintenance data for secondary switchgear for incorporation into manual. .2 Submit manufacturer's installation instructions and special handling criteria, cleaning procedures and product data sheet and specifications in the manual. 16610 Project No. 13-038 STATIC UNINTERRUPTIBLE POWER SUPPLY Belleville Fire Hall/Headquarters and Emergency Operations Centre Belleville, Ontario Page 3 of 6 1.5 QUALITY CONTROL .1 Provide quality control in accordance with Div-1 quality control procedures. .2 TESTING .1 Perform tests in accordance with Section CAN/CSA-C813.1, and in accordance with section 01450. Carry out the testing and start up in presence of electrical commissioning agent. .2 Inspect of electrical connections. .3 Demonstrate system start-up and shut-down. .3 START-UP .1 Run UPS for minimum period of 4 hours at full rated load to demonstrate proper operation with AC mains input, emergency generator input, no AC input. .2 Discharge battery by operating UPS with AC mains open for specified duration of full load. Record readings of temperature of each cell. .3 Recharge battery automatically with full rated load on UPS for 4 hours and record readings of voltage of each cell. .4 TRAINING Provide the services of a factory-authorized service representative of the manufacturer to provide start-up service and to demonstrate and train the Owner’s personnel. .1 Test and adjust controls and safeties. .2 Train the Owner’s maintenance personnel on procedures and schedules related to start-up and shutdown, troubleshooting, servicing, and preventive maintenance. .3 Review data in operation and maintenance manuals with the Owner’s personnel. 16610 Project No. 13-038 STATIC UNINTERRUPTIBLE POWER SUPPLY Belleville Fire Hall/Headquarters and Emergency Operations Centre Belleville, Ontario Page 4 of 6 .4 Schedule training with the Owner, through the Architect/Engineer, with at least seven day’s advanced notice. 2 PRODUCTS 2.1 SYSTEM DESCRIPTION: Provide uninterruptible power supply (UPS) power distribution unit (PDU) as required for the complete performance of the work, and as shown on the Drawings and as herein specified. The UPS shall be continuous duty, three-phase, solid state, static UPS. The UPS shall utilize an N+1 redundant, scalable array architecture. The system power train shall be comprised of hot swappable/Owner-replaceable 10 kW/10 kVA power modules, which shall operate in parallel, and shall be configured for N+1 redundant operation at rated load. Each 10 kVA/10 kW power module shall contain a full rated input rectifier/boost converter (hereafter referred to as input converter), full rated output inverter, and 10 percent battery charging circuit. The system shall also be comprised of a user-replaceable continuous duty bypass static switch module, hot swappable/user-replaceable battery modules, redundant control modules, redundant logic power supplies, and LCD interface display. System Capacity: The system shall be rated for full kW output in the following frame sizes: 10kVA/kW, can be configured with up to five 20 kW power modules for N+1 run time minimum 10 minutes. Input: AC Input Nominal Voltage: 208 volts three-phase, 4 wires, 60 hertz. Output: AC Output Nominal Output: 208 volts, three-phase, 4 wires, 60 hertz. System AC-AC Efficiency: Greater than 91.5 percent at 100 percent load. Output Power Factor Rating: The UPS output shall not require derating for purely resistive loads (Pf of 1). The output kW and kVA ratings of the UPS output shall be equal. For loads exhibiting a power factor of 0.9 leading to 0.8 lagging no derating of the UPS shall be required. 16610 Project No. 13-038 STATIC UNINTERRUPTIBLE POWER SUPPLY Belleville Fire Hall/Headquarters and Emergency Operations Centre Belleville, Ontario Page 5 of 6 2.2 ACCEPTABLE MANUFACTURERS .1 Product specified is “APC Symmetra ; 10 kW - 40 kW UPS/PDU/Distribution” APC by Schneider Electric. .2 Eaton- Power ware. .3 2.3 GE UPS MODES OF OPERATION Normal: The input converter and output inverter shall operate in an on-line manner to continuously regulate power to the critical load. The input and output converters shall be capable of full battery recharge while simultaneously providing regulated power to the load for all line and load conditions within the range of the UPS specifications. Battery: Upon failure of the AC input source, the critical load shall continue being supplied by the output inverter, which shall derive its power from the battery system. There shall be no interruption in power to the critical load during both transfers to battery operation and retransfers from battery to normal operation. Recharge: Upon restoration of the AC input source, the input converter and output inverter shall simultaneously recharge the battery and provide regulated power to the critical load. Static Bypass: The static bypass shall be used to provide transfer of critical load from the inverter output to the bypass source. This transfer, along with its retransfer, shall take place with no power interruption to the critical load. In the event of an emergency, this transfer shall be an automatic function. Maintenance Bypass: The system shall be equipped with an external make-before-break maintenance bypass cabinet (MBC) to electrically isolate the UPS during routine maintenance and service of the UPS. The MBC shall completely isolate both the UPS input and output connections. 2.4 ACCESSORIES Battery Disconnect Breaker: Each UPS system shall have a 250 volt DC rated; thermal magnetic trip molded case circuit breaker. Each circuit breaker shall be equipped shunt trip mechanisms and 1A/1B auxiliary contacts. The circuit breakers shall be 16610 Project No. 13-038 STATIC UNINTERRUPTIBLE POWER SUPPLY Belleville Fire Hall/Headquarters and Emergency Operations Centre Belleville, Ontario Page 6 of 6 located within the UPS enclosure or as part of a line-up-and-match type battery cabinet. PDU/System Bypass: The PDU/system bypass cabinet shall provide power to the critical load from the bypass source, during times where maintenance or service of the UPS is required. The PDU/system bypass shall provide a mechanical means of complete isolation of the UPS from the critical output distribution. Remote System Monitoring: The following three methods of remote UPS monitoring shall be available: Web Monitoring: Remote monitoring shall be available via a web browser such as Internet Explorer. RS-232 Monitoring: Remote UPS monitoring shall be possible via either RS-232 or contact closure signals from the UPS. Simple Network Management Protocol (SNMP): Remote UPS monitoring shall be possible through a standard MIB II compliant platform. 2.5 Software Compatibility: The UPS manufacturer shall have available software to support graceful shutdown and remote monitoring. 3 EXECUTION 3.1 INSTALLATION .1 Locate UPS cubicles, battery rack and battery as indicated. .2 Assemble and interconnect components to provide complete UPS as specified. .3 Connect AC mains to main input terminal. .4 Connect UPS output to load. .5 Start-up UPS and make preliminary tests to ensure satisfactory performance. END OF SECTION