American Power Conversion SYMF800KH manual External Bypass Static Switch Wiring

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External Bypass Static Switch Wiring

WARNING!

Before starting installation, check and test that all AC and DC power source breakers are in open position.

WARNING!

Use only manual reset protection as input over-current protection.

WARNING!

Over-current protection required by national wiring rules.

WARNING!

The UPS has no internal manual disconnect devices to switch off external AC (Q1 and Q5) and DC (Q7 and Q8) input power. Ensure that disconnection devices are available as separate components for this installation.

CAUTION!

The External Bypass Static Switch is not provided with built-in backfeed protection. Use suitable breakers with a minimum of 0.8 in/20 mm air gap and trip function. The breaker is controlled from the External Bypass SSW and will be tripped in case of backfeed.

The installer must provide each external disconnection device for this UPS system with labels displaying the following text:

“Isolate the Uninterruptible Power Supply (UPS) as instructed in the Operation Manual Note before working on circuit.”

The installation of the External Bypass Static Switch must comply with local and national regulations.

Note

Run matched set of phase cables in the same cable run(s).

Do not separate phases into different cable runs.

Note

Use only copper conductors.

Note

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Contents Installation Page Contents Specifications IT Systems Page Safety Symbols used in this guideInstallation safety UPS Sections Serial numberInverter Section Control SectionConfigurations Configuration 1 Inverter Section placed to the leftConfiguration 2 Inverter Section placed to the right External Bypass Static Switch Electrical Installation Electrical Wiring PrincipleExternal disconnection switches Input/Output wiring precautionsPreparing for top cable entry Default Top Cable EntryBattery cable connections top cable entry Top view of Input/Output Section M6 Bolt Cable Entry PE and AC cable connections top cable entry Bottom Cable Entry Preparing for bottom cable entryElectrical Installation Bottom Cable Entry Battery cable connection bottom cable entry Bottom view of Input/Output Section PE and AC cable connections bottom cable entry External Bypass Static Switch Wiring Top cable entry Bottom cable entry Communication cable overview Connectionplane 0P0957Relay Board Optional Location of optional Relay BoardCommunication cables with optional Relay Board Relay Name Events that will trigger the alarm Mode Comment Relay Board functionsIN1 Page Specifications Low-Impedance/High-Impedance EarthingElectrical Specifications AC InputDC Input AC OutputAC Input External Bypass SSW Heat dissipationTorque specifications Torque specificationsRequired Breaker Settings 400 V Systems Input and upstream breakers minimum settingsOutput and downstream breakers -- minimum settings Specifications Required Breaker Settings 400 V Systems Appendix System and Protective EarthingCharacteristics TN SystemsReference to IEC 60364-4-41 Reference to IEC 60364-5-54Additional requirements for generating sets IEC 60364-5-55 Protective devices in TN systemsCondition TT Systems Protective devices in TT systemsAppendix TT Systems IT Systems Is the nominal a C RMS voltage between phase and neutral Protective devices in IT systemsSee IEC Legal in DK special cases See Breaker Box Q7 Battery Rack Battery Breaker IT installation Page 990-1510D

SYMF800KH specifications

American Power Conversion (APC), a subsidiary of Schneider Electric, is renowned for its expertise in providing reliable power solutions. Among its extensive product lineup, the SYMF800KH stands out as a cutting-edge uninterruptible power supply (UPS) designed to meet the demands of enterprise data centers and critical applications. This model is particularly valued for its impressive performance, adaptability, and advanced technologies.

One of the main features of the SYMF800KH is its capability to deliver an output power of 800 kVA, making it suitable for high-density loads. This UPS operates in a parallel configuration, allowing for scalability by connecting multiple units to provide increased capacity and redundancy. This adaptability ensures that organizations can grow their infrastructure without worrying about power limitations.

Another significant characteristic of the SYMF800KH is its high-efficiency operation that helps reduce energy costs and carbon footprint. With a near-unity power factor and up to 97% efficiency in double conversion mode, the SYMF800KH minimizes energy losses, benefiting both the environment and the organization's operational expenses.

The SYMF800KH is equipped with advanced technologies to ensure maximum reliability and performance. Its innovative SmartBoost and SmartTrim features enhance the UPS's ability to manage input voltage variations and optimize output voltage levels, safeguarding sensitive equipment from potential damage. The unit also boasts an intelligent battery management system, extending battery life and ensuring consistent performance during power outages.

Moreover, the SYMF800KH provides robust monitoring and management options. It is compatible with APC's software solutions, allowing users to monitor real-time data, receive alerts, and conduct remote management from a centralized interface. This feature is critical for maintaining operational reliability and ensuring timely response to any potential power issues.

In addition to its performance capabilities, the SYMF800KH is designed with ease of maintenance in mind. Its modular architecture allows for quick and straightforward replacement of components, minimizing downtime during service activities.

In conclusion, the American Power Conversion SYMF800KH is a high-performance UPS that brings together reliability, efficiency, and advanced technology, making it an ideal choice for organizations seeking to protect their critical infrastructure. By delivering scalable solutions with enhanced management features, the SYMF800KH stands as a top contender in the uninterruptible power supply market. As businesses continue to rely on technology for their daily operations, the importance of such robust power solutions cannot be overstated.