Powerware 9335 operation manual AC Input to Phase a #6-250 kcmils Cooper 42.4 375

Page 82

7.Terminals are UL rated at 90o C. Table D for conduit requirements. terminals inside the UPS.

Refer to Table C for power cable terminations and Figure A–1 shows the location of power cable

Table C. UPS Cabinet Power Cable Terminations for Powerware 9335 (80 kVA & 120 kVA)

Terminal

Terminal

Function

Size of Pressure

Vendor

Tightening Torque

Int.Hex

Function

 

 

Termination

 

N-M (lb-in.)

Size (in.)

AC Input to

A

Phase A

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

UPS

B

Phase B

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

Rectifier

C

Phase C

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

 

N

Neutral

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

AC Input to

A

Phase A

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

Bypass

B

Phase B

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

(Dual

C

Phase C

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

Input)

N

Neutral

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

AC Output

A

Phase A

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

to Critical

B

Phase B

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

Load

C

Phase C

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

 

N

Neutral

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

DC Input

+

Battery(+)

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

from

N

Mid-point

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

Battery to

-

Battery (-)

1 - #6-250 kcmils

Cooper

42.4

(375)

3/8

UPS

 

 

 

 

 

 

 

Customer

Protective

Protective

4 - #6-250 kcmils

Cooper

As Required

 

Ground

Ground

Ground

 

 

 

 

 

8.Per NEC article 300-20 (a), all three-phase conductors must be run in the same conduit. Neutral and ground must be run in the same conduit as the phase conductors.

9.Conduit is sized to accommodate one neutral conductor the same size as the phase conductor and one protective ground wire of the same size.

10.Conduit sizes were chosen from NEC Table C1, type letters RHH, RHW, RHW-2, TW, THW, THHW, and THW-2.

Table D. Power Cable Conduit Requirements Powerware 9335 (80 kVA & 120 kVA)

Powerware

Terminal

Wires in

Minimum Conduit

No. of

Product Model

 

Conduit

Size (in.)

Conduits

9335–80 kVA

Rectifier Input (A,B,C,N,G)

5

2.0 inches

1

Bypass Input (A,B,C,N,G)

5

2.0 inches

1

 

Ext. Battery Source (+,N,-,G)

4

2.5 inches

1

 

Output (A,B,C,N,G)

5

2.0 inches

1

9335–120 kVA

Rectifier Input (A,B,C,N,G)

5

2.5 inches

1

Bypass Input (A,B,C,N,G)

5

2.5 inches

1

 

Ext. Battery Source (+,N,-,G)

4

2.5 inches

1

 

Output (A,B,C,N,G)

5

2.5 inches

1

A-4

Powerware 9335 (80 kVA and 120 kVA) Installation and Operation

 

 

 

164201396 REV A 07/11/2003

Image 82
Contents Uninterruptible Power Supply 80 kVA 120 kVA Page Important Safety Instructions Table of Contents Using the Control Panel Operational Controls and FeaturesUnderstanding UPS Operation UPS Operating Instructions Product SpecificationsAppendix a Customer Information Warranty Responding to System EventsList of Figures Main Elements of the UPS SystemList of Tables Introduction Basic System Configurations Conventions Used in This Manual Safety Considerations Getting HelpSection Installation This page left intentionally blank Creating an Installation Plan Installing the UPSGetting Started Preparing Your Site Preparing for Wiring the UPS SystemEnvironmental Considerations Powerware 9335 80 kVA and 120 kVA UPS Packaging Inspecting and Unpacking Each CabinetDo not tilt cabinets more than ±10 degrees from vertical Installing the UPS System Preliminary Installation InformationUPS Cabinet Installation Installing External Battery Power Wiring Installing Customer Connections Completing the Installation Checklist Battery Cabinet InstallationInitial Startup Installation Checklist Installing and Connecting Batteries Important Safety InstructionsThis page left intentionally blank Installation Procedures Installing a Remote EPO ControlTo Install a Remote EPO Remote EPO Wire Terminations To Operate a Remote EPOSection Operation This page left intentionally blank Understanding UPS Operation Looking Inside the UPS SystemREV a Normal, Battery and Bypass Modes Normal Mode Normal ModePage Bypass Mode Static BypassPage Battery Mode Battery ModePage Maintenance Bypass Mode Maintenance Bypass ModeInput Rectifier Batteries and Battery ChargerFunctional Description Boost ConverterMaintenance Bypass Static BypassOperational Controls and Features GeneralControl Panel UPS Operational ControlsSystem and Load ON/OFF UPS Standard Features Battery Cabinets Options and AccessoriesRemote Emergency Power OFF CommunicationsSafety Considerations Symbols, Controls, and Indicators Protective Grounding TerminalUsing the Control Panel DescriptionPower Management Display Using the Control PanelLED Indicators Pushbutton Functions 4 ON/OFF Startup and Shutdown PushbuttonsDescription of the LCD Screen Status ScreensLCD Display Structure and Navigation Load OFFEvent Log Screen Main Menu ScreenMeasurements Screen Commands Screen UPS Data Set-Up UserSet-Up Service SET-UP Service PasswordOFF Line Mode Bypass or Economy Mode On Line Mode Inverter ModePerating Modes Maintenance Bypass Mode Line INVParallel Isolator IA2 UPS Operating Instructions Start-Up Procedure for the UPSOperation LED Indicator Color Complete Shutdown Procedure for the UPS Load Transfer to Maintenance Bypass Line OFF Bypass Inverter BatteryRed This page left intentionally blank Menu, Commands, Event Log, and Measurements AlarmsResponding to System Events Fault Identification and Correction Alarm Condition Meaning Suggested SolutionCommunications10 Slot Communication ModulesX-Slot Location on Front of Powerware 9335 UPS Cabinet Single-Port Serial CardCommunication Port on the Single Port Serial Card 10-4 Options Generator on Facility11-2 Maintaining the UPS System Important Safety InstructionsGeneral Performing Preventive Maintenance Perform the following checks DailySystem Information Product SpecificationsUPS System Input Environmental Specifications UPS System OutputAppendix a Customer Information Powerware 9335 80 kVA Powerware 9335 120 kVA AC Input to Phase a #6-250 kcmils Cooper 42.4 375 Table E. Maximum Input Circuit Breaker Ratings Amperes Table F. Maximum Output Circuit Breaker Ratings AmperesTable G. Customer Interface Inputs and Outputs Terminal Name DescriptionAlarm MNS REV a 07/11/2003 Powerware 9335 80kVA and 120 kVA Table J. Equipment WeightAmbient Temperature Range Table K. System ClearancesElements Figure A-2. Powerware 9335 80 kVA and 120 kVA Label 2A, 2B, 2C, 2N 1A, 1B, 1C, 1N3A, 3B, 3C, 3N Electrical Diagram 120 kVA S06-0001ULA Powerware NW4007 Figure A-7. UPS Cabinet Dimensions Rear View 750 mm .6 inches 700 mm .6 inches 1800 mm Page Page Page Page Limited Factory Warranty for THREE-PHASE Powerware Products This page left intentionally blank

9335 specifications

The Powerware 9335 is a robust and efficient uninterruptible power supply (UPS) designed to deliver reliable power protection for critical applications. Expanding upon Eaton's tradition of offering advanced power management solutions, the Powerware 9335 is tailored for environments that demand high availability and uptime.

One of the standout features of the Powerware 9335 is its double-conversion online topology, which ensures a continuous supply of clean and regulated power. This design operates without any transfer time to battery power, effectively protecting sensitive equipment from all types of power disturbances, including surges, sags, and outages.

The UPS is available in a range of power ratings, from 8 kVA to 40 kVA, making it versatile enough to support a variety of applications ranging from small server rooms to larger data centers. The modular architecture of the Powerware 9335 allows for seamless scalability, enabling users to add additional capacity or redundancy as their power needs evolve. This feature is particularly beneficial in dynamic environments where equipment and loads can frequently change.

Another significant characteristic of the Powerware 9335 is its high efficiency, often exceeding 94% in normal operation. This efficiency not only reduces energy costs but also minimizes heat generation, leading to lower cooling requirements. The UPS employs advanced technologies such as Intelligent Power Management and Smart APM (Adaptive Power Management) to optimize power usage, further enhancing its overall performance and reducing the total cost of ownership.

The user-friendly LCD display furnishes real-time data regarding UPS status, battery condition, and power settings, facilitating proactive management and monitoring. In addition, the unit can be monitored and managed remotely, ensuring that administrators can access critical information even when they are not on-site.

The Powerware 9335 also comes equipped with various connectivity options, including USB, serial, and SNMP for seamless integration into existing IT infrastructure. Additionally, advanced communication capabilities allow for integration with building management systems, ensuring comprehensive power management and reporting.

Safety is paramount, and the Powerware 9335 incorporates numerous features designed to protect both the UPS and connected equipment. This includes overload protection, battery health monitoring, and environmental monitoring, which collectively contribute to a resilient power protection strategy.

In summary, the Powerware 9335 is an exceptional UPS offering from Eaton, featuring high availability, scalability, efficiency, and robust management options. With its advanced technologies and features, it stands out as a premier choice for organizations seeking to safeguard their critical systems and data.