APC AP9617 manual Converter Alarms Description

Page 55

USER’S GUIDE network management card

®

From the Converters sub-menu, type 2 for configurable Converter Alarms.

Converter Alarms

Description

 

 

1- High Voltage

The alarm action that occurs if the High Voltage Threshold has

Alarm

been violated. See Converter Parameters.

 

Allowed values: any standard alarm selectiona.

 

 

2- Low Voltage

The alarm action that occurs if the Low Voltage Threshold has

Alarm

been violated. See Converter Parameters.

 

Allowed values: any standard alarm selectiona.

 

 

3- Configuration

The alarm action that occurs if a new converter is detected.

Alarm

Allowed values: any standard alarm selectiona.

 

 

4- 1 of N Alarm

The alarm action that occurs if one converter fails in a DC Power

 

Plant with multiple converters.

 

Allowed values: any standard alarm selectiona.

 

 

5- 2 of N Alarm

The alarm action that occurs if two or more converters fail.

 

Allowed values: any standard alarm selectiona.

 

 

6- Diagnostic Alarm

The alarm action that occurs in response to a diagnostic alarm

 

for the converter controller.

 

Allowed values: any standard alarm selectiona or n of Nb.

 

 

7- Imbalance Alarm

The alarm action that occurs for converter imbalance.

 

Allowed values: any standard alarm selectiona or n of Nb.

 

 

a Standard alarm selections:

Major activates the major relay. Minor activates the minor relay.

Relay 1 through Relay 6 activates the relay specified. Ignore ignores the alarm.

b n of N activates the alarm setting for menu item 4 (1 of N) if one converter fails, or activates the alarm setting for menu item 5 (2 of N) if two or more converters fail.

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Contents USER’S Guide network management card ContentsSecurity Initial set-up FeaturesIntroduction Product DescriptionPlant Network management featuresAccess priority for logging on Internal Management FeaturesOverview Types of user accounts Front Panel Feature DescriptionIntroduction Status LEDs Link-RX/TX 10/100 LEDCondition Description Resetting the network timer Watchdog FeaturesNetwork interface watchdog mechanism Remote access to the control console How To Log OnControl Console To connect Type 1 equipment Local access to the control consoleTo connect Type 2 equipment How to Recover from a Lost Password Example main screen Main ScreenMain screen information fields Information and status fieldsMain screen status fields Main menu Control Console MenusDevice Manager option Menu structureSystem option Network optionIntroduction Web InterfaceWeb menu options Supported Web browsers How to Log On URL address formats Example Web SummaryHelp icon on quick status tab Summary page fieldsEvents menu Data menu Network menu System menu Navigation MenuTo do the following, see Data Menu Web Interface Only Selecting a menu to perform a taskHelp menu Links menu Menu options Network MenuTCP/IP Option SettingsDNS Ping utility control console FTP Server, and Telnet & Web options Snmp Setting DefinitionUSER’S Guide network management card System Menu Menu options User Manager Administrator and Device Manager UserIdentification Date & Time Weeks maximum. Use Update Using NTP Now toPreferences Web interface ToolsAction Definition About System Links Web interfaceAPC’s Web Site , Testdrive Demo , and Remote Monitoring Status Options System and battery statusWeb interface. The Web interface displays the DC Power Plant USER’S Guide network management card Management Options DC Power Plant optionsDC System DC System Parameters & OEM Parameters Menu Item Description Enabled. See Battery Thresholds Rectifier Parameters Description Power Modules Rectifiers and ConvertersViolated. See Rectifier Parameters Rectifier Alarms DescriptionUSER’S Guide network management card Status Field Description Converter Parameters Description Converter Alarms Description USER’S Guide network management card Status Field Description Distribution Breakers and Fuses Thresholds Batteries Status, Thresholds and AlarmsUSER’S Guide network management card USER’S Guide network management card USER’S Guide network management card USER’S Guide network management card Relays Output Relays and Input Relays Menu Item for LVD Description LVD Low Voltage DisconnectPower Plant Alarms/Internal Log About DC Power Plant System Event-Related Menus Menu options Logged events Event LogControl console Web interfaceHow to use FTP to retrieve log files Ftpget event.txt or Ftpget data.txt Event Actions Web Interface only Event log action Severity levelsSnmp traps action Email action Event Recipients Trap Receiver settingsEmail options DNS servers Mail FeatureSetting Description Smtp settingsEmail Recipients USER’S Guide network management card USER’S Guide network management card Code Description Severity How to Configure Individual EventsDetailed Event Action Configuration Event ListLog Option Data Menu Web Interface OnlyConfiguration Option Security Security FeaturesPlanning and implementing security features User names, passwords, community namesInterface Security Access Summary of access methodsAuthentication versus encryption AuthenticationFirewalls Management Card TroubleshootingManagement Card access problems Problem SolutionQuery the mconfigTrapReceiverTable PowerNet MIB Snmp issuesSETs to the mconfigTrapReceiverTable OIDs, or use Product Information Warranty and ServiceLimited warranty Warranty limitationsObtaining Service General policy Life-Support PolicyExamples of life-support devices USER’S Guide network management card Physical SpecificationsSpecification ElectricalNumerics IndexCompensation Method Email action, configuring for events Email Recipients Hardware Voltage Alarm NMS Guide management card TCP/IP Xmodem USA APC Worldwide Customer SupportCopyright
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AP9617 specifications

The APC AP9617 is a vital component for data center management and power management solutions, designed by APC by Schneider Electric. This intelligent network management card is engineered to provide enhanced monitoring and control of uninterruptible power supplies (UPS), ensuring consistent power availability and optimal performance in a variety of environments.

One of the main features of the AP9617 is its ability to connect via Ethernet, enabling remote monitoring and management of the UPS status through a web interface. This functionality allows users to access real-time data on power consumption, voltage levels, and overall system health from anywhere with internet connectivity. The card supports both SNMP (Simple Network Management Protocol) and web protocols, making it compatible with various network environments.

The AP9617 also comes equipped with advanced alerting capabilities. Users can configure email and SNMP traps to receive notifications about critical events, such as power outages, battery failures, or temperature fluctuations. This proactive alert system ensures that administrators can respond quickly to potential issues, minimizing downtime and protecting valuable equipment.

In terms of security, the AP9617 incorporates robust measures, including Secure Sockets Layer (SSL) for encrypted communications, ensuring that data transmitted over the network is protected from unauthorized access. Additionally, it supports user authentication and configurable access rights, allowing system administrators to maintain strict control over who can view or modify the UPS settings.

Physical characteristics of the APC AP9617 include a compact form factor that allows it to be easily integrated into existing UPS units without taking up excessive space. The installation process is straightforward, enabling users to deploy the device quickly and efficiently.

With its emphasis on reliability and performance, the AP9617 plays a critical role in power management strategies. By providing detailed analytics and reporting tools, it helps organizations analyze power usage trends, identify inefficiencies, and plan for future energy needs.

In summary, the APC AP9617 is more than just a network management card; it is an essential tool for ensuring the resilience and efficiency of power systems in data centers and other critical applications. Through its innovative features, technologies, and strong security protocols, it enables organizations to maintain power continuity while optimizing energy management practices.