Eaton Electrical SPI9000 user manual Inverter Supply and Motor Cables 380 500V AC

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SPI9000 Inverter Unit FI9 – FI14 User Manual

September 2006

Inverter Supply and Motor Cables — 380 – 500V AC

Table 3-4: Cable Sizes for 380 – 500V AC

Nominal

 

 

Module Supply (DC)

Motor Cable

Current

Frame

IL [A]

(per terminal Cu [mm2]

[mm2]

 

 

 

 

 

140

FI9

170

2x(1x24)

Cu: 3x95+50

 

 

 

 

Al: 3x120+70

 

 

 

 

 

170

 

205

2x(1x24)

Cu: 3x150+70

 

 

 

 

Al: 3x240Al+72Cu

205

 

261

3x(1x24)

Cu: 3x185+95

 

 

 

 

Al: 2x(3x120+70)

 

 

 

 

 

245

 

300

6x(1x24)

Cu: 2x(3x120+70)

 

 

 

 

Al: 2x(3x185Al+57Cu)

 

 

 

 

 

300

FI10

385

5x40

Cu: 2x(3x120+70)

 

 

 

 

Al: 2x(3x185Al+57Cu)

385

 

460

5x40

Cu: 2x(3x150+70)

 

 

 

 

Al: 2x(3x240Al+72Cu)

 

 

 

 

 

460

 

520

6x40

Cu: 2x(3x185+95)

 

 

 

 

Al: 2x(3x300Al+88Cu)

 

 

 

 

 

520

FI12

590

5x40

Cu: 2x(3x240+120)

 

 

 

 

Al: 4x(3x120Al+41Cu)

590

 

650

5x40

Cu: 4x(3x95+50)

 

 

 

 

Al: 4x(3x150Al+41Cu)

 

 

 

 

 

650

 

730

5x40

Cu: 4x(3x120+70)

 

 

 

 

Al: 4x(3x185Al+57Cu)

 

 

 

 

 

730

 

820

5x40

Cu: 4x(3x150+70)

 

 

 

 

Al: 4x(3x185Al+57Cu)

820

 

920

5x40

Cu: 4x(3x150+70)

 

 

 

 

Al: 4x(3x240Al+72Cu)

 

 

 

 

 

920

 

1030

6x40

Cu: 4x(3x185+95)

 

 

 

 

Al: 4x(3x300Al+88Cu)

 

 

 

 

 

1030

FI13

1150

5x40

Cu: 4x(3x240+170)

 

 

 

 

Al: 6x (3x185Al+57Cu)

1150

 

1300

5x40

Cu: 6x(3x150+70)

 

 

 

 

Al: 6x (3x240Al+70Cu)

 

 

 

 

 

1300

 

1450

6x40

Cu: 6x(3x185+95)

 

 

 

 

Al: 6x (3x240Al+70Cu)

 

 

 

 

 

1600

FI14

1770

5x40

Cu: 2x 4x(3x240+170)

 

 

 

 

Al: 2x 6x (3x185Al+57Cu)

1940

 

2150

5x40

Cu: 2x 6x(3x150+70)

 

 

 

 

Al: 2x 6x (3x240Al+70Cu)

 

 

 

 

 

2300

 

2700

6x40

Cu: 2x 6x(3x185+95)

 

 

 

 

Al: 2x 6x (3x240Al+70Cu)

 

 

 

 

 

Flexible conductor. Minimum temperature endurance for isolation 70°C.

Copper busbar.

The modules require symmetrical parallel cable with minimum length 40m or dU/dt- or sinus filter.

Table valid for enclosure class IP20 cabinets.

Motor cables — EN 60204-1, IEC 60364-5-2/2001

PVC insulation

40°C ambient temperature

70°C surface temperature

MN04004002E

For more information visit: www.EatonElectrical.com

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Contents SPI9000 Inverter Unit FI9 FI14 Page Important Notice Please Read Contents List of Figures SPI9000 Inverter Unit Block DiagramList of Tables 25 HMI Acknowledge TimeoutHazardous High Voltage SafetyDefinitions and Symbols September Vii Motor and Equipment Safety Grounding and ground fault protectionFI9 FI14 Inverter Unit Catalog Numbering System OverviewI 0 1 6 a 0 4 a 1 N Receiving and InspectionStorage MaintenanceTechnical Data Standard Features of SPI Inverter UnitsSPI9000 Inverter Unit Block Diagram Supply Voltage 465 800V DC, Motor Voltage 380 500V AC Power Ratings380 500V AC, 50/60 Hz, Three-Phase Inverters Ratings Supply Voltage 640 1100V DC, Motor Voltage 525 690V AC 525 690V AC, 50/60 Hz, Three-Phase Inverters RatingsMotor Connection Control CharacteristicsTechnical Information Description Specification Supply ConnectionControl Connections EMC at Default SettingsSafety Description Specification Ambient ConditionsStructure Inom Output Motor COS IDC Input DC Currents for 465 800V DC Supply VoltageDC Currents for 640 1100V DC Supply Voltage Mounting DimensionsApproximate Dimensions in Inches mm Inverters Voltage Dia SPI9000 FI10 Inverter Dimensions SPI9000 FI12 Inverter Dimensions Frames FI9 to FI14 Fan CoolingInstallation Space Required Cooling Air Power LossesApproximate Dimensions in Inches mm Frame Voltage Mounting Space RequirementsFI9/FI10 Basic Wiring Diagram with Charging Power WiringFI9/FI10 Basic Wiring Diagram without Charging FI12 Basic Wiring Diagram with Charging FI12 Basic Wiring Diagram without Charging FI13 Basic Wiring Diagram with Charging FI13 Basic Wiring Diagram without Charging FI14 Basic Wiring Diagram with Charging FI14 Basic Wiring Diagram without Charging Fuses, 465 800V DC Inverters Power ConnectionsDC Supply and Motor Cables Cable Types Required to Meet StandardsInformation about fuses Fuses, 640 1100V DC InvertersFuses Used in 640 1100V DC Inverters Cable Sizes for 380 500V AC Inverter Supply and Motor Cables 380 500V ACTerminal Sizes for 380 500V AC Terminal Sizes 380 500V ACCable Sizes for 525 690V AC Inverter Supply and Motor Cables 525 690V ACTerminal Sizes for 525 690V AC Terminal Sizes 525 690V ACDistance Between Cables Shielded Inches m Cable in Feet m Installation InstructionsCable Distances Frame Sizes Tightening Torque Cable Installation and the UL StandardsCable and Motor Insulation Checks Terminal Tightening TorquesSeptember Control Board Control WiringInverters Connected in Parallel Control Wiring DetailsOption Board A9 Wiring Diagram Terminal Screw Tightening Torque Lb-in Control CablesTightening Torques of Option Board Terminals Galvanic Isolation Barriers Galvanic Isolation BarriersTerminal Signal Technical Information Control I/O Terminal Signals on Option Board A9Control I/O Terminal Signals on Option Board A3 Digital Input Signal InversionsControl I/O Terminal Signals on Option Board A2 10 Jumper Blocks on Option Board A9 Jumper Selections on Option Board A911 Jumper Selection for Option Board A9 September Keypad Operation Indicators on the Keypad DisplayMenu Information Control Place Indicators Drive Status IndicatorsDrive Status Indicators Control Place IndicatorsText Lines Keypad PushbuttonsStatus LEDs Green Green Red Status LEDs Green Green RedButton Descriptions Keypad Display Data Menu NavigationKeypad Navigation Chart Monitoring Menu Monitoring Menu M1Parameter Menu M2 Monitored SignalsKeypad Control Menu M3 Parameter Value Change ProcedureSelection of Control Place Keypad Reference Selection of Control PlaceStop Button Activated Active Faults Menu M4Keypad Direction Fault Type Symbol Meaning Fault Time Data RecordData Units Description Fault Time Recorded DataFault History Menu M5 Real Time RecordSystem Menu M6 10 Fault History Menu10 System Menu Functions Code Function Min Max Unit Default Cust Selections10 System Menu Functions 11 Selection of Language Application Selection Selection of LanguageUpload parameters to keypad To keypad, S6.3.2 Copy ParametersParameter Sets S6.3.1 Download parameters to drive From keypad, S6.3.3 Automatic Parameter Backup P6.3.415 Parameter Comparison Parameter ComparisonPassword S6.5.1 SafetyStart-Up Wizard P6.5.3 Parameter Lock P6.5.2Multimonitoring Items P6.5.4 Default Page P6.6.1Backlight Time P6.6.5 Default page in the operating menu P6.6.2Timeout Time P6.6.3 Contrast Adjustment P6.6.4Internal Brake Resistor Connection P6.7.1 Hardware SettingsFan Control P6.7.2 HMI Acknowledge Timeout P6.7.311 Counter Pages Number of retries to receive HMI acknowledgement P6.7.4System info Total Counters13 Software Information Pages 12 Resettable CountersTrip Counters Software S6.8.315 Hardware Information Pages Applications S6.8.414 Applications Information Pages Hardware S6.8.5Expander Board Menu M7 Expander Boards S6.8.6Further Keypad Functions Code Parameter Min Max Default Cust SelectionsSeptember Start-Up Safety PrecautionsSequence of Operation September September Fault Code Possible Cause Solution Appendix a Fault CodesTable A-1 Fault Codes Eeprom Programmable Faults only Table A-1 Fault Codes September MN04004002E September Page Company Information

SPI9000 specifications

The Eaton Electrical SPI9000 is a cutting-edge power management system designed to enhance efficiency and reliability in electrical distribution. This state-of-the-art solution integrates advanced technologies to optimize performance, making it an ideal choice for various industrial and commercial applications.

One of the standout features of the SPI9000 is its scalability. Businesses can easily adapt the system to meet their unique power needs, whether for a single facility or multiple sites. This flexibility is crucial in today's fast-paced environment, where operational demands can shift rapidly. The system is engineered to grow alongside your business, providing robust power management as requirements evolve.

At the heart of the SPI9000 is its intelligent monitoring capability. The system utilizes real-time data analytics to monitor energy consumption, detect anomalies, and predict maintenance needs. This proactive approach not only helps in reducing downtime but also cultivates a culture of energy efficiency within organizations. By leveraging insights derived from data, companies can make informed decisions that lead to significant cost savings.

The SPI9000 incorporates advanced communications technology, allowing seamless integration with existing building management systems. This interoperability is vital for creating smart grids and enhancing overall control of electrical networks. Additionally, the system supports various communication protocols, including Modbus, BACnet, and Ethernet, ensuring compatibility with a wide range of devices and applications.

Safety is paramount in any electrical system, and the SPI9000 excels in this regard. It features enhanced protective measures, including overcurrent protection, short-circuit protection, and arc flash detection, ensuring the safety of both personnel and equipment. These safety features not only safeguard investments but also contribute to creating a safer working environment.

Energy efficiency is another cornerstone of the SPI9000 design. The system is equipped with advanced power quality monitoring features, which help identify and mitigate issues related to harmonics, voltage sags, and swells. By maintaining optimal power quality, the SPI9000 ensures that equipment operates efficiently, extending its lifespan while reducing energy costs.

In summary, the Eaton Electrical SPI9000 is a versatile and efficient power management solution that brings together scalability, intelligent monitoring, advanced communication capabilities, enhanced safety features, and energy efficiency. Thanks to its innovative technologies and characteristics, the SPI9000 serves as an indispensable tool for modern businesses seeking to streamline their electrical operations and enhance their energy management strategies.