APC ACRP501, ACRP500, ACRP100, ACRP101, ACRD500, ACRD501, ACRC501, ACRC500 FTP server, Related Topics

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Option

Description

 

 

access

You can configure up to four access control entries to specify which NMSs have access to this

control

device. The opening page for access control, by default, assigns one entry to each of the four user

 

profiles, but you can edit these settings to apply more than one entry to any user profile to grant

 

access by several specific IP addresses, host names, or IP address masks.

 

• If you leave the default access control entry unchanged for a user profile, all NMSs that use that

 

profile have access to this device.

 

• If you configure multiple access entries for one user profile, the limit of four entries requires that

 

one or more of the other user profiles must have no access control entry. If no access control

 

entry is listed for a user profile, no NMS that uses that profile has any access to this device.

 

To edit the access control settings for a user profile, click its user name.

 

Access: Mark the Enable checkbox to activate the access control specified by the parameters in

 

this access control entry.

 

User Name: Select from the drop-down list the user profile to which this access control entry will

 

apply. The choices available are the four user names that you configure through the "user profiles"

 

option on the left navigation menu.

NMS IP/Host Name: The IP address, IP address mask, or host name that controls access by the NMS. A host name or a specific IP address (such as 149.225.12.1) allows access only by the NMS at that location. An IP address mask that contains 255 restricts access as follows:

149.225.12.255: Access only by a NMS on the 149.225.12 segment.

149.225.255.255: Access only by a NMS on the 149.225 segment.

149.255.255.255: Access only by a NMS on the 149 segment.

0.0.0.0 (the default setting) which can also be expressed as 255.255.255.255: Access by any NMS on any segment.

FTP server

The FTP server settings enable (by default) or disable access to the FTP server and specify the TCP/IP port (21 by default) that the FTP server uses for communication with the cooling unit. The FTP server uses both the specified port and the port one number lower than the specified port.

You can change the Port setting to the number of any unused port from 5000 to 32767 to enhance the protection provided by User Name and Password settings. You must then use a colon (:) in the command line to specify the non-default port number. For example, for a port number of 5001 and the cooling unit IP address of 152.214.12.114, you would use this command:

ftp 152.214.12.114:5001

Note: FTP transfers files without encryption. For higher security, disable the FTP server, and transfer files with Secure CoPy (SCP). Selecting and configuring Secure SHell (SSH) enables SCP automatically.

Note: At any time that you want the cooling unit to be accessible for management by InfraStruXure Central, FTP Server must be enabled in the cooling unit interface.

Related Topics

See these related topics:

•“Console” on this page to configure SSH.

•“How to use FTP or SCP to retrieve the log files” on page 30 to obtain a text version of the event log.

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InRow RC/RD/RP (600 mm) User’s Guide

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Contents User’s Guide Page Contents Web Interface Administration Security Administration Notification Verifying Upgrades and Updates Page Features of the InRow RC/RD/RP 600 mm cooling unit Initial setupIntroduction Product DescriptionOverview Internal Management FeaturesAccess priority for logging on Types of user accounts How to Recover from a Lost Password Watchdog Features Display Interface LEDsControl Console How to Log OnRemote access to the control console Local access to the control console Main Screen Example main screenInformation and status fields Main screen status fields Control Console Menus Menu structureMain menu Device Manager optionSystem option Control Administrator and Device Manager accessNetwork option URL address formats Web InterfaceSupported Web browsers Common browser error messages at log on Error Message Browser Cause of the ErrorSummary Navigation tabsQuick status HelpSelect a tab to perform a task InRow RC/RD/RP 600 mm User’s Guide Alarm status Cooling Unit OperationHome GroupDehumid Deadband 2.0-10.0% ConfigurationSetpoints Unit Detailed statusRun hours Compressor drive status ACRD500 and ACRP100 cooling unitsIdentification Service intervals Air Filter-18 weeks Humidifier-26 weeksCondensate Pump-52 weeks ThresholdsConfiguration Logs EventsLog Reverse lookupInterval DataGraphing Parameter Description Hours specified as Delay hours between UploadsRotation Servers Setting DefinitionSyslog Settings Test How to use FTP or SCP to retrieve the log files Queries Modbus requests and Snmp GETs Administration Security Setting user accessLocal Users Permission levelsAuthentication Remote UsersInRow RC/RD/RP 600 mm User’s Guide Configuring the Radius Server Summary of the configuration procedureSupported Radius servers Inactivity TimeoutConfiguring a Radius server on UNIX, with shadow passwords Administration Network TCP/IP and communication settingsTCP/IP settings SettingConfiguration page1 DhcpAPC cookie. Tag 1, Len 4, Data 1APC Boot mode transition. Tag 2, Len 1, Data 1/2Dhcp response options Port speed DNS AdminstrationNetworkDNSservers Query Type Selected Query Question to UseOption Description EnabledWeb On this link to view the certificate’s contents StatusConsole AESIs loaded Snmp Option Description FTP server Related TopicsAdministration Notification Configuring event actionsEvent Actions Types of notificationInRow RC/RD/RP 600 mm User’s Guide InRow RC/RD/RP 600 mm User’s Guide Active, Automatic, Direct Notification Mail notificationSetting Description SmtpSnmp traps Date & time Administration General OptionsInformation about the Cooling Unit User configuration file ini Reset the interfaceUnit preference Action DefinitionSerial Modbus Quick linksAbout APC Device IP Configuration Wizard Capabilities, Requirements, and InstallationUse the Wizard to configure basic TCP/IP settings InstallationConfigure the basic TCP/IP settings remotely Use the WizardLaunch the Wizard Select Remotely over the network, and click NextConfigure or reconfigure the TCP/IP settings locally Select Locally through the serial port, and click NextHow to Export Configuration Settings Summary of the procedureContents of the .ini file Retrieving and Exporting the .ini FileDetailed procedures Exporting the file to multiple cooling units. T Upload Event and Error Messages Event and its error messagesErrors generated by overridden values Event text DescriptionHow to Upgrade Firmware File TransfersBenefits of upgrading firmware Firmware filesFirmware file transfer methods Use FTP or SCP to upgrade one cooling unit \cd\apcFtp open 150.250.6.10 Ftp put apchw03aosxxx.binUpgrade multiple cooling units Use Xmodem to upgrade one cooling unitInRow RC/RD/RP 600 mm User’s Guide Code Description Verifying Upgrades and UpdatesLast transfer result codes Page Page 990-2937A 2009
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ACRD501, ACRC501, ACRD500, ACRC500, ACRP500 specifications

The APC ACRP series, consisting of models ACRP100, ACRP101, ACRP102, ACRP501, and ACRP500, represents a significant innovation in power distribution and protection. These compact, reliable, and efficient solutions are designed specifically for critical applications in data centers, industrial environments, and commercial facilities.

The ACRP100 is the entry-level model, providing essential features for basic power monitoring and control. It incorporates advanced metering capabilities, enabling users to monitor voltage, current, and power consumption in real-time. The ACRP100's user-friendly interface allows for easy navigation, making it an ideal choice for small to medium-sized installations that require fundamental power management.

Stepping up, the ACRP101 enhances functionality with added remote monitoring capabilities. This model introduces smart connectivity features, allowing users to access critical data from anywhere through a secure mobile application or web-based platform. With its ability to integrate seamlessly with other APC systems, the ACRP101 is tailored for environments seeking improved operational visibility and proactive maintenance.

The ACRP102 takes a further leap by integrating advanced predictive analytics. This model uses machine learning algorithms to analyze data trends, predicting potential failures before they occur. By minimizing downtime and optimizing maintenance schedules, the ACRP102 becomes a vital tool for organizations focused on reliability and efficiency.

In the higher-end range, the ACRP501 offers robust power management features, including enhanced surge protection and redundancy capabilities. This model is ideal for mission-critical operations where every second counts. It supports a wide range of input voltages and can manage multiple power sources concurrently, ensuring uninterrupted power supply in fluctuating conditions.

Lastly, the ACRP500 combines all the leading features of the series, focusing on scalability and flexibility. This model is engineered to adapt to evolving infrastructure needs, supporting modular configurations that can grow with the organization. Its extensive reporting functions and customizable dashboards provide clear insights into power usage and performance metrics, empowering facility managers to make informed decisions.

In summary, the APC ACRP series provides a comprehensive suite of solutions for power management, tailored to meet diverse operational needs. From basic monitoring with the ACRP100 to the predictive capabilities of the ACRP102 and the advanced functionalities of the ACRP500, these models collectively offer enhanced reliability, efficiency, and scalability while ensuring optimal protection for critical applications.
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