APC AP9211, AP9218, AP9217, AP9212 manual Password that the NMS identified by the NMS IP option

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Menu Items

Network continued

SNMP, continued Access control. The Access Control section of the SNMP menu identifies the current settings for all four SNMP channels and provides the configurable values for a selected channel.

Item

Definition

 

 

 

The password that the NMS (identified by the NMS IP option)

Community Name

must use for SNMP access to the MasterSwitch PDU. The

allowed access type is defined by the Access Type option.

 

Maximum: 15 characters.

 

 

 

Limits access to the NMS or NMSs specified. You specify the

 

value as a specific IP address for one NMS or as an IP address

 

filter for multiple IP addresses. For example:

 

159.215.12.1 allows only the NMS with the specific IP address

 

of 159.215.12.1 to have access.

NMS IP

159.215.12.255 allows access for any NMS on the 159.215.12

segment.

 

 

159.215.255.255 allows access for any NMS on the 159.215

 

segment.

 

159.255.255.255 allows access for any NMS on the 159

 

segment.

 

0.0.0.0 or 255.255.255.255 allows access for any NMS.

 

 

 

Defines what actions the NMS that is identified by the NMS IP

 

option can perform:

Access Type

• Write: The NMS can use GETs and SETs.

 

• Read: The NMS can use only GETs.

 

• Disabled: The NMS can use neither GETs nor SETs.

 

 

Trap Receiver. The Trap Receiver section of the SNMP menu identifies the current settings for all four trap receivers and allows you to change the values for a selected trap receiver.

Item

Definition

 

 

 

The password that the MasterSwitch PDU uses when it

Community Name

sends traps to the NMS identified by the Receiver NMS IP

option.

 

Maximum: 15 characters.

 

 

 

The IP address of the NMS that will receive traps sent by

Receiver NMS IP

the MasterSwitch PDU.

Note: To send no traps to any NMS, set 0.0.0.0 as the

 

 

Trap Receiver IP.

 

 

 

Enables or Disables the ability of the MasterSwitch PDU

Trap Generation

to send traps to the NMS identified by the Receiver NMS

 

IP option.

 

 

 

Enables or Disables the ability of the MasterSwitch PDU

Authentication Traps

to send authentication traps to the NMS identified by the

 

Receiver NMS IP option.

 

 

MasterSwitch Power Distribution Unit User’s Guide

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Contents MasterSwitch Contents Contents Warranty Information SpecificationsObtaining Customer Support Life-Support Policy Introduction Product DescriptionFront panel LEDs IntroductionTable describes the conditions indicated by the LEDs Status DescriptionShown in the figures on this Rear panelInitial Setup Management Interfaces Managing the MasterSwitch PDUControl Console, SNMP, and WAP interfaces Locally through a serial connectionOnline, and MD5 authentication require that you enable Managing the MasterSwitch PDUAuthentication also requires that you have cookies enabled Web interfaceCommunication settings Control ConsoleInterface 123.456.78.9/wap.wml Password-Protected Accounts Account Type Menu Items AdministratorOutlet User Menu Items Terminology may differ from what is used hereIntroduction AccountsMenu Items OutletsDefinition MasterSwitch Configure Device SettingsOutlet Configuration Event Log Retrieving the Event Log by usingScreen displays information similar to the following When you import the event.txt file into a spreadsheet,Columns Digits instead of the four digits logged and displayed bySettings TCP/IP section of the Network menu displays settings forNetwork Client and the FTP ServerPort Menu Item Definition Telnet/WebPassword that the NMS identified by the NMS IP option Administrator Account SystemUser Manager Device Manager Account SystemOutlet User Configurable settings for Outlet User ManagerDate/Time IdentificationManaging file transfers File TransferLinks ToolsChanged Link Type DefinitionAbout Card HelpSerial number Hardware revisionConfiguring E-mail Recipients Configuring and Using E-mail NotificationConfiguring Smtp and DNS Settings Configuring and Using E-mail NotificationCTRL+L Event-Related Menus and OptionsLog Event-Related Menus and OptionsLog on To exit from FTP, type quitSeverity level. By default, all events are logged You cannot disable actions for those eventsActions Option Web Interface only Informational, warning, or severeRecipients Option Event occurs that has Snmp traps enabledTrap receivers Recipients option of the Events menuSetting Description Segment but not across a WAN Email OptionYou can configure individual events as follows How to Configure Individual EventsClick the link the current hexadecimal code for the event Event maskBits that control the actions for the event Receivers for the eventEvent mask configures the following bit settings You enter the hexadecimal code 3B0800 as an event maskExample Severity levels defined Management Card and MasterSwitch EventsCode Severity Description Management card eventsMasterSwitch Events Security Security FeaturesSecurity AuthenticationOn next MasterSwitch Power Distribution Unit User’s Guide Interface Security Access Summary of access MethodsProduct Information Warranty InformationObtaining Customer Support Product InformationLife-Support Policy Product specifications for AP9211 SpecificationsProduct specifications for AP9212 Product specifications for AP9217 Product specifications for AP9218 Index ConfigurationFTP IndexTraps APC Worldwide Customer Support Contact Information

AP9212, AP9217, AP9211, AP9218 specifications

The APC AP9217, AP9212, AP9211, and AP9218 are advanced power distribution units (PDUs) designed for efficient power management in data centers and IT environments. Each model is engineered to meet the needs of various applications, ensuring reliable power distribution while maximizing uptime and operational efficiency.

The APC AP9217 is a basic rackmount PDU that offers 24 outlets, making it ideal for distributing power in a server rack. Its robust design features built-in circuit protection to safeguard connected devices from overload, ensuring that power distribution is both safe and reliable. The AP9217 also includes a NEMA L6-30P plug input, making it compatible with a wide range of power supplies.

The AP9212 model builds upon this foundation, introducing advanced monitoring capabilities. With real-time local monitoring of voltage and current, users can ensure that power loads are within safe limits. Its LCD display provides clear visibility into status and performance metrics, assisting IT personnel in making informed decisions about power usage. The AP9212 is particularly suitable for environments that require precise power management, allowing users to optimize their power consumption and increase the lifespan of their equipment.

For users seeking enhanced management features, the APC AP9211 offers network management capabilities. This model supports SNMP, HTTP, and Telnet protocols, allowing for remote monitoring and control via a web interface. With customizable alerts and notifications, IT administrators can stay informed of power status and take proactive measures to prevent outages. The AP9211 is ideal for distributed IT environments where remote access to power management is critical.

Lastly, the APC AP9218 prioritizes flexibility and scalability. This model features a modular design that allows it to be easily integrated into existing infrastructure while supporting varying power requirements. Its capability to manage up to 30 devices ensures that it is a future-proof investment for growing data centers. The AP9218 is equipped with intelligent power distribution features that enable load balancing and phased monitoring, making it a top choice for advanced data center applications.

In summary, the APC AP9217, AP9212, AP9211, and AP9218PDUs offer a range of features designed to meet the diverse needs of power management in IT environments. From basic power distribution to advanced monitoring and management capabilities, these models enable organizations to ensure reliable power supply, optimize energy consumption, and enhance overall operational efficiency. With their robust design and advanced technologies, they stand as essential components in modern data center infrastructure.