Schneider Electric 5000 specifications Inverter, Static Bypass 100% Rated, Continuous Duty

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Incoming AC power shall be converted to a regulated DC output voltage by an IGBT (insulated gate bipolar transistor) power factor correction (PFC) rectifier. The PFC rectifier shall provide high quality DC power to charge the batteries and power the inverter and shall have the following characteristics:

1.Input Power Factor Correction (PFC): The PFC rectifier shall be power factor corrected so as to maintain an input power factor of 0.98 lagging to unity at 75% or above load levels to ensure generator compatibility and avoid reflected harmonics from disturbing loads sharing the utility power.

2.Input Harmonic Current Suppression: The PFC rectifier shall produce a sinusoidal input AC current on each phase with low harmonic content, limiting THD on the UPS input to below 5%.

3.Battery Charger Current Limiting: The UPS shall be equipped with a system designed to limit the battery recharge current (from 0.05 C10 to 0.1 C10).

4.Charging Levels: The battery charging circuitry shall be capable of being set for automatic battery recharge operation, float service, manual battery charge service, and equalizing or commissioning operation.

5.Intermittent Charging: The battery charge level shall be maintained by an intermittent charging technique between two values Vfmin and Vfmax very close to the floating voltage. This technique shall be based on a cycle made up of a short charge period (a few seconds) from Vfmin to Vfmax followed automatically by a slow discharge period (a few minutes) from Vfmax to Vfmin. This cycle shall be repeated continuously to maintain the battery charge level. In this way the battery shall actually be charging only for a small part of the time, which considerably increases its service life.

6.Temperature Compensated Charging: The battery charger shall be equipped with a temperature probe to enable temperature compensated charging and adjust the battery float voltage to compensate for the ambient temperature using a negative temperature coefficient of 3 mV per cell per degree Celsius at a nominal temperature of 25°C.

7.Battery Capacity: The battery charger shall have sufficient capacity to support a fully loaded inverter and fully recharge the battery to 95% of its full capacity within 6-8 hours up to 4 battery cabinets..

B.Inverter

The UPS output shall be derived from a Variable Frequency Pulse Width Modulated (PWM) IGBT inverter design. The inverter shall be capable of providing the specified precise output power characteristics while operating over the battery voltage range.

C.Static Bypass – 100% Rated, Continuous Duty

The static bypass transfer switch shall be solid-state, rated for 100% continuous duty without mechanical contactor device in parallel for higher reliability and consistent response time and shall operate under the following conditions:

APC – MGE Galaxy 5000 Specification (60Hz) 6

Effective: June 1, 2008 REV X0 JJG

Parallel Module

 

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Contents Standards MGE GalaxyGeneral Summary SubmittalsQualifications & Quality Assurance TemperatureFinal Submittals DELIVERY, STORAGE, and HandlingWarranty Service and Spare PartsMAINTENANCE, Accessibility and Self Diagnostics System Description AC Input CharacteristicsAC Output Characteristics UPS Design RequirementsModes of Operation BatteryPFC Rectifier and Battery Charger Component DescriptionInverter Static Bypass 100% Rated, Continuous DutySystem Controls and Indicators Output Static Switch 100% Rated, Continuous DutyMeasurements Status Indications and Events Cabinet Weights and Dimensions The width of the UPS is Mechanical Design and VentilationBattery Optional AccessoriesExternal Control and Communications Devices Page Maintenance Training Maintenance & Service ContractsSpare Parts END of Section 111 150 182 Configuration Battery 100 130 KVA40 KVA 50 KVA 60 KVA 80 KVA 100 130 120 15680 KVA 100 KVA 130 KVA Entry BatteryWeight 109 137 164 219 273 355300 lbs 700 lbs
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