NEC EXPRESS800 manual Electrical Facilities, Uninterruptible Power Source UPS

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The air conditioner’s capacity must be larger than the sum of the above items. Use Table 2-3 to calculate calorific values – in BTUs.

Table 2-3. Calculating Total Calorific Values

Component

BTU/hr

Times Number

Equals

 

 

Installed

 

Basic System Unit (typical)

2048

 

 

Disk Expansion Unit (typical)

853

 

 

UPS

375

 

 

Monitor

 

 

 

8-Port Concentrator

410

 

 

 

 

 

 

Total

 

 

 

 

 

 

 

Electrical Facilities

Depending on whether data availability is critical to your application or not, when you configured your system, you chose either an uninterruptible power source or a power distribution unit to supply rack components with AC power. The AC supply lines required by each of these devices is specified in the following paragraphs.

Uninterruptible Power Source (UPS)

If you have purchased one or more UPSs to supply AC power to your system and your system is located in North America, each UPS requires a 3-wire

30-Amp single-phase 120 Volt receptacle within six feet of the rear of the system rack. The UPS power cord comes equipped with a NEMA L5-30P power connector.

If your system is located in Europe, it requires a 240 Volt receptacle. The UPS power cord comes equipped with an IEC-320-C20 power connector.

Power Distribution Unit (PDU)

If you have purchased one or more PDUs, each PDU requires a 3-wire 30-Amp single-phase 120 Volt (240 Volt in Europe) receptacle within 10 feet of the rear of the system rack. The UPS power cord comes equipped with a NEMA L5-30P power connector (US models).

2-10 Planning Your Site

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Contents EXPRESS5800/System Rack Page EXPRESS5800/System Rack Proprietary Notice and Liability Disclaimer Contents Installing Rack Components Iv ContentsUsing This Guide Using This GuideRelated Documents Vi Using This GuideText Conventions Safety Notices Safety Notices for Users Outside of the U.S.A. and CanadaViii Using This Guide Care and HandlingIntroduction System Rack Models Express5800 Configuration AssistantIntroduction Introduction42U System Rack Typical 42U System Rack Enclosure IntroductionTypical System Rack Components Component DescriptionMulti-Bay System Rack Multi-Bay System Rack IntroductionPage Planning Your Site Planning Your Site Equipment LocationSpace Requirements System Rack Space Requirements Planning Your Site Environmental Conditions Total Equipment WeightFloor Construction Planning Your Site System Rack Placement Distance Between Stabilizer Anchors Cooling Capacity Temperature and Humidity RequirementsAir Conditioning Component BTU/hr Times Number Equals Installed Uninterruptible Power Source UPSPower Distribution Unit PDU Electrical FacilitiesGrounding Requirements Page Planning Your System Rack Configuration Cable Summary Planning Your System Rack ConfigurationCabling Constraints Cable SummaryConcentrator Cable Lengths Vertical SpacingRAID Cable Restrictions Page Vertical Space Requirements Rack Components Space Requirements ApproximateConfiguration Guidelines System Rack Configuration Worksheet Inches ComponentCalculating Load and Determining UPS On-Battery Run Time Determining the Load on a Single Power Source Times Number Component Voltage Amps# Systems Load InstalledTotal Load Versus On-Battery Run Time Total Load Run Time MinutesInstalling the System Rack Installing the System Rack What You NeedUnpacking the System Rack and Components Rack Mounted on Shipping Pallet Installing the System Rack Accessing Door Handles Opening Front and Rear DoorsRemoving the Side Panels Installing the System Rack Removing Rack Side PanelsLeveling Foot Adjustment Leveling the System RackInstalling Rack Frame Link Kits Multi-Bayed Rack SystemRack Frame Link Kit Installation Installing the System Rack Attaching the Stabilizer to the System Rack Attaching the Front StabilizersInstalling Rack Components Inch System Rack Typical ConfigurationInstalling Rack Components Installing Rack Components Tools RequiredInstalling the UPS Recommendations and WarningsUPS Refer toInstalling the Interface Expander Accessory Installing the UPS Mounting UPS L-Channel Supports Location of UPS Rear Panel Components Connecting Your Master and Protected servers BSUs Page Installing a Power Distribution Unit Installing a Keyboard Tray 10. Securing the Keyboard Tray Installing Rack ComponentsInstalling the Concentrator 11. Assembling the Concentrator Rails Install the supporting cage-nuts in the rail. See Figure Installing Blank Panels 13. Installing a 1U Filler Panel Installing Rack ComponentsInstalling a Monitor Tray 14. Monitor Tray and Mounting HardwareConnecting the Console Monitor Connecting Servers BSUs to the ConcentratorPage Illustrated Parts Breakdown Field Replaceable Unit Locations Illustrated Parts Breakdown Field Replaceable Units Field Replaceable UnitsRack Frame Link Part Number Description OptionsOptions Page Index Index-1Page Page 456-01544-000

EXPRESS800 specifications

The NEC EXPRESS800 series is a robust line of high-performance servers designed to meet the demanding needs of enterprise environments. Known for its reliability and scalability, the EXPRESS800 series caters to a variety of applications, including database management, virtualization, and data-intensive workloads.

One of the main features of the EXPRESS800 series is its modular architecture, which allows organizations to customize their systems based on specific requirements. This modularity enables the integration of various components, including processors, memory, and storage, providing exceptional flexibility. The servers in this series support Intel's latest Xeon processors, which offer powerful performance and energy efficiency, making them ideal for compute-heavy applications.

In terms of memory, the NEC EXPRESS800 series supports large capacities and high-speed DDR4 RAM, ensuring that applications run smoothly even under heavy loads. This is particularly important for virtualization and large-scale data processing tasks that require rapid data access. The system also implements advanced error-correcting code (ECC) technology, which enhances data integrity and system reliability.

Storage is another key characteristic of the EXPRESS800 series. The servers feature a variety of storage options, including traditional HDDs and high-speed SSDs, allowing for optimized performance and flexibility in storage management. NEC’s implementation of high-performance RAID technology ensures data redundancy and enhances data access speeds, which is crucial for mission-critical applications.

Security features are also paramount in the design of the EXPRESS800 series. NEC incorporates Trusted Platform Module (TPM) integration, providing hardware-level security against unauthorized access. Additionally, the systems are designed to facilitate secure remote management, enabling IT administrators to monitor and control server performance from virtually anywhere.

Another notable technology integrated within the EXPRESS800 servers is virtualization support. With robust hypervisor capabilities, these servers permit efficient resource utilization, allowing multiple virtual machines to run concurrently without compromising performance. This is complemented by NEC’s advanced management software, which provides comprehensive tools for system monitoring and optimization.

Power efficiency is a critical consideration, and the NEC EXPRESS800 series is built with energy-efficient components and smart power management features. By optimizing power consumption, businesses can reduce their operational costs while minimizing their environmental impact.

In summary, the NEC EXPRESS800 series combines advanced technology, versatility, and high performance in a server solution that meets the diverse needs of modern enterprises. Its modular design, efficient processing power, superior memory capabilities, and robust security features position it as an ideal choice for organizations seeking reliable and scalable server solutions.