Emerson SERIES 600T manual Battery Cabinets

Page 12

6.2 Battery Cabinets

Optional battery cabinets are available from Liebert and other qualified vendors. Consult your submittal package for details.

The same model battery cabinet may be paralleled in multiple cabinet strings for additional capacity. Battery capacity (in minutes) at your installation will depend on cabinet model, number of cabinets, and amount of critical load on the UPS.

1.Handling. The Battery Cabinet weighs up to 5100 pounds. Fork lift slots are provided in the base of 100-225 kVA cabinets for easy handling. Fork lift forks or a pallet jack can be used between the casters of the 65 and 80 kVA battery cabinets.

2.Cabinet Inspection. Remove all panels and visually inspect the batteries, bus connections, and cabinet for any damage. If any foam blocks were placed between shelves to restrain movement during shipment, remove them now.

Exercise caution; voltage is present within the Battery Cabinet even before installation. If there are signs of damage, do not proceed. Call Liebert Global Services at 1- 800-542-2378.

3.Battery Storage. The batteries used in the Battery Cabinet retain their charge well. The batteries can be stored for up to six months without any appreciable deterioration. Self- discharge rate of the batteries is approximately 3% per month when the batteries are stored in temperatures of 15°C to 25°C (59°F to 77°F). If the Battery Cabinet must be stored for longer than six months, contact Liebert Global Services.

4.Installation. The Battery Cabinet(s) can be located conveniently to the left side of the 65- 225 kVA UPS module. The front-access-only- design eliminates side and rear service clearance requirements.

5.Re-Installation.If it later becomes necessary to move the Battery Cabinet to another location, contact Liebert Global Services to inspect the internal battery hold-down straps.

6.Environment. Locate the Battery Cabinet in a clean, dry environment. Recommended temperature range for optimum performance and lifetime is 20-25°C (68-77°F).

7.Service Clearance. Allow front access to the Battery Cabinet at all times for maintenance and servicing. Electrical codes require that the Battery Cabinet be installed with no less than 3 feet (1 meter) of clearance at the front of the cabinet when operating. Side and rear panels do not require service clearance.

8.Side Panels. Remove protective side panels to connect battery cabinets together. Do not remove the shield plate, explained below.

9.Shield Plate. The shield plate in 125 kVA Battery Cabinets should be on the side toward the UPS system. Move the shield if required by your Battery Cabinet location.

10.Cables. Cables may be run between battery cabinets through cutouts in the top of the cabinets, eliminating the need for external conduit runs. Route cables before moving cabinets into final position for bolting together. Remove top panels for access. Refer to Figures 16 and 17 or your submittal drawings for instructions on wiring cabinets in parallel.

11.Grounding. The battery cabinets have ground studs near the bus bar connections. Use an equipment grounding conductor to connect the lugs of the cabinets together and to connect the cabinets to the ground bus bar in the UPS module.

CAUTION

Cables between batteries and modules should be run in matched pairs, positive- with-negative. Grouping like-polarity cables together (i.e. positive-with-positive and negative-with-negative) can cause stress or damage to the cables, conduit or buswork.

6

Installation Manual

DISCONTINUED

PRODUCT

Image 12
Contents   DIS Product Installation Manual Table of Contents Figures Product DIS Product Installation Installation Considerations External Inspections Internal InspectionsBattery Safety Precautions Equipment LocationBattery Safety Precautions in French PER CSA Requirements Battery Cabinets Configuring Your Neutral and Ground Connections Open-Rack Batteries8Installation Manual DIS Product 10Installation Manual Preferred Grounding Configuration, 208 VAC input and output Grounding Electrode Preferred Grounding Configuration, Power-Tie Systems Preferred Grounding Configuration, Battery Systems Preferred Battery Cabinet Grounding ConfigurationWiring Considerations Power WiringTypical One-Line Diagrams for SMS with Standard Dual Input Typical One-Line Diagrams of SMS with optional single input Abbreviations for Circuit Breakers Control Wiring Battery WiringWiring Connections Specific ConnectionsWiring Inspection Power Wiring Terminals Factory Supplied Torque SpecificationsField-Supplied Lugs ONE-HOLE LugsTypes TW= FEPW= TBS, SA Outline Drawing Single and Multi Module 65 & 80 kVA DIS Product DIS Product Bypass Transformer Cabinet, 65 & 80 kVA Bypass Transformer Cabinet, 100-225 kVA Battery Power Pack, 65 & 80 kVA Battery Power Pack, Size A, 100-225 kVA Outline Drawing, 3-Breaker MBC, 65 & 80 kVA DIS Product Outline Drawing, 3-Breaker MBC, 125-350 Amps Outline Drawing, 3-Breaker MBC, 450 to 800 Amps Outline Drawing, 3-Breaker MBC, 600-800 Amps DIS Product DIS Product DIS Product Line-up Detail, 65 & 80 kVA SMS with Battery Cabinets DIS Product DIS Product Line-up Detail, 65 & 80 kVA with 3-Breaker MBC DIS Product Line-up Detail, 100-225 kVA Space Saver with 3-Breaker MBC DIS Product Line-up Detail, 100-225 kVA with 3-Breaker MBC DIS Product Terminal Details, 65 & 80 kVA Single Module Systems Terminal Details, 100 & 125 kVA Space Saver Terminal Details, 150 & 225 kVA Standard SMS Terminal Details, 100 & 125 kVA Standard SMS DIS Product Control Connection Locations, 65 & 80 kVA Control Connection Locations, 100 through 225 kVA Standard Control Wiring, Single Module System Option Wiring, Alarm Status Contacts Option Wiring, Maintenance Bypass Interlock Option Wiring, Remote Status Panel Interface Option Wiring, Remote Terminal IFM RS-232 Communications Option Wiring, SiteScan Interface Option Wiring, Customer Alarm Interface Option Wiring, Battery Temperature Sensor Option Wiring, Snmp Interface Option Wiring, Internal Modem Option Wiring, Maintenance Bypass Cabinet Module Battery Disconnect, 65 through 125 kVA Module Battery Disconnect, 150 & 225 kVA Remote Status Panel, Surface Mount Circuit Breaker Schedule, 65 through 225 kVA Circuit Breaker Schedule, Battery Cabinets, 65 to 500 kVA DIS Product Appendix a Site Planning Data KVA Single Module Systems Series 600T Single Module Systems Volt Input 11,330 600 DIS Product       
Related manuals
Manual 168 pages 35.62 Kb

SERIES 600T specifications

The Emerson SERIES 600T, as part of the SERIES 600 line, is a sophisticated device designed to meet the demands of industrial automation and control systems. Renowned for its reliability and versatility, the SERIES 600T excels in various applications across multiple sectors, including oil and gas, chemical processing, and power generation.

One of the most significant features of the SERIES 600T is its advanced measuring capability. It offers exceptional accuracy, typically within ±0.1% of the full scale. This precision makes it suitable for critical applications where measurement integrity is paramount. The SERIES 600T is also equipped with intelligent diagnostics that can predict and monitor the health of the unit, enabling proactive maintenance and minimizing downtime. This technological advancement improves both operational efficiency and safety.

Another standout characteristic is the device's robust construction designed to withstand harsh environments. The SERIES 600T is made with durable materials that provide resistance to corrosion, vibration, and temperature extremes, making it an excellent choice for rugged industrial applications. Coupled with its IP67 rating, the device is fully sealed against dust and moisture, ensuring long-term reliability in challenging conditions.

The SERIES 600 line employs cutting-edge communication protocols, including HART and Foundation Fieldbus, facilitating seamless integration into various control systems. This capability ensures that users can easily access real-time data and manage devices remotely, significantly enhancing operational efficiency.

Additionally, the SERIES 600T supports a wide range of process connections and configurations, catering to diverse installation needs. This adaptability allows for quick deployments and minimizes the time required for system changes or upgrades.

With easy-to-read displays and user-friendly interfaces, operators can quickly interpret data and metrics from the SERIES 600T. This intuitive design helps reduce the learning curve for new users, further underlining the device's legacy of reliability and efficiency.

In essence, the Emerson SERIES 600T exemplifies cutting-edge technology in the realm of industrial measurement and automation. Its combination of accuracy, durability, diagnostic capabilities, and ease of integration makes it an ideal choice for industries that prioritize reliability and precision in their operations. As industrial processes continue to evolve, devices like the SERIES 600T will undoubtedly play a crucial role in advancing efficiency and productivity in various sectors.