APC ACSC100, ACSC101 manual Cooling group status, About the cooling unit, Model

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Cooling group status

Path: Main > View Group Status

View information about the cooling group.

Cool Output. The combined output of the cooling group.

Cool Demand. The cooling output required to meet the current heat load of the conditioned space. Cool Setpt. The temperature you set to maintain the room environment.

Air Flow. The combined airflow output of the cooling units in the cooling group.

Max Rack. The highest rack temperature reported by any cooling unit in the cooling group. Min Rack. The lowest rack temperature reported by any cooling unit in the cooling group. Max Return. The highest return temperature reported by any cooling unit in the cooling group. Min Return. The lowest return temperature reported by any cooling unit in the cooling group.

About the cooling unit

Paths: Main > About InRow SC

View identifying information that is helpful when obtaining service:

Model

S/N Number (Serial Number)

F/W (Firmware Version)

H/W (Hardware Version)

Made (Date of Manufacture)

SC App (Application Version)

AOS Ver (APC NMC Operating System Version)

22

InRow SC Operation

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Contents Operation 동봉된 CD 안에 한국어 매뉴얼이 있습니다 Contents Network Management Card Maintenance American Power Conversion Legal Disclaimer Symbols used in this manual Cross-reference symbol used in this manualGeneral Information OverviewSafety Inspection Checklists Initial inspection checklistCommissioning Ensure thatElectrical inspection checklist Mechanical inspection checklistUser interface inspection checklist Start-up inspection checklistFinal inspection checklist While the cooling unit is operating, ensure thatOperation Display InterfaceUsing the Display Interface Scrolling status screensStatus Screen Name Status Information Displayed Main menu screensNavigating the main menu Navigating the sub-menusUsing the Path statement Password entryStart the cooling unit Stop the cooling unitGeneral Configuration Cooling unit configurationView the state of input and output contacts ContactsEdit the normal state of input and output contacts Cooling Group Configuration Configure the cooling groupConfigure Modbus Identify the cooling unitSetpoints Control the EnvironmentSupply Air Run hours ThresholdsService intervals Password & time-out Display SettingsDate and time Configure display Display unitsNetwork Configuration Configure networkView Status Readings Cooling unit statusAbout the cooling unit Cooling group statusModel Respond to Alarms Event LogAlarm messages and suggested actions Displayed Alarm Message Severity Action RequiredThreshlds screen Configure Unit Discrete I/O screen. See page 17 for more Quick Configuration TCP/IP configuration methodsNetwork Management Card OverviewBootp & Dhcp configuration APC Device IP Configuration WizardIni file utility NetworkTCP/IPBoot ModeDHCP onlyAdvancedDHCP Cookie Is Local access to the control console Remote access to the control consoleControl console Choose Network from the Control Console menuAccess a Configured Network Management Card Web interfaceTelnet and SSH Simple Network Management Protocol Snmp ModbusRecover From a Lost Password Maintenance Monthly Preventive MaintenanceCleanliness EnvironmentMechanical ElectricalQuarterly Preventive Maintenance Functional testsSemi-Annual Preventive Maintenance Troubleshooting Problem Possible Cause Corrective ActionProblem Possible Cause Warranty One-Year Factory WarrantyTerms of warranty Non-transferable warranty ExclusionsWarranty claims Page Page 990-2684A-001 2009

ACSC101, ACSC100 specifications

The APC ACSC100 and ACSC101 are power distribution units designed to manage and protect electronic equipment in data centers and critical infrastructure environments. Known for their reliability and efficiency, these models provide an essential solution for organizations that depend on constant power supply and equipment availability.

One of the main features of the APC ACSC100 and ACSC101 is their modular design. This flexibility allows for tailored configurations based on the user's unique requirements, making them suitable for diverse environments, from small server rooms to large-scale data centers. The units can accommodate a variety of input and output configurations, which helps in optimizing space and enhancing power management strategies.

These models are equipped with advanced technologies that enhance their performance. For instance, the ACSC100 and ACSC101 incorporate intelligent monitoring systems that provide real-time insights into power usage and distribution. This allows system administrators to monitor the performance remotely, ensuring that any potential issues can be addressed promptly before they escalate into more significant problems.

Another prominent characteristic of these power distribution units is their high level of protection. They come with built-in surge suppression and fault protection, safeguarding critical equipment against power surges and electrical faults. This feature is especially vital in environments where sensitive electronic components are in operation.

Moreover, the APC ACSC series incorporates energy-efficient designs. These models comply with various industry standards aimed at reducing energy consumption while maximizing output, contributing to a lower carbon footprint. Their efficiency not only helps in cutting operational costs but also aligns with sustainability goals that many organizations are striving to achieve.

User-friendly interfaces are a highlight of the ACSC100 and ACSC101. They feature intuitive LCD screens that simplify configuration and monitoring processes. This ease of use reduces the likelihood of human error during setup and operation, making them accessible even for those with limited technical expertise.

In summary, the APC ACSC100 and ACSC101 are cutting-edge power distribution solutions built for reliability, efficiency, and protection. Their modular design, advanced monitoring technology, robust safety features, energy efficiency, and user-friendly interface make them ideal choices for businesses seeking dependable power management systems in critical environments. With these models, organizations can ensure that their electronic assets are well-protected and efficiently managed, leading to enhanced operational continuity.