Connect your laptop to port 1 using the RJ cable. Previous Page. Next Page. Wait for the power LED to start blinking about 5 seconds then release the connectivity. These are ports 1 through 4.
Amber reset button. Page 2: Installation Guide VPN client devices constitutes complete acceptance of liability by that individual or corporation for this action and indemnifies, in full, Aruba Networks, Inc. Print page 1 Print document 2 pages. Rename the bookmark. Delete bookmark? Cancel Delete. Delete from my manuals? Sign In OR. Corporate tech support seems to think this is absolutely necessary but that sounds like a lazy answer.
Kinda sucks for me, since I have to run all my other devices through the passthrough port, and seems to result in slower speeds and an intermittentent disconnection from some services XBOX live especially. Is there a better way to integrate this device into my home network? Would simply putting a switch between the RAP and the cable modem get me any closer to having everything play nicely? Thanks for any thoughts on this, and apologies if this question is a little non-technical for this forum EDIT: wanted to mention that everything here is connected over ethernet, no wireless is entering into the equation.
Since it works without the router it seems that your ISP does not block this service and you indeed need to check your router settings. You should allow this service from your LAN to the Internet the RAP initiates the connection - there is no need to port forward, etc on the local side. Now if you enter the master ip address or your girlfrined can you tell us what did appear on the rap 5 console?
I am not provisioning-- all this was setup by her employer's IT staff, she was sent home with a box that "will just work". Not behind my router, I guess.
Since you said it works fine without the router I am pretty sure the problem is with the router settings. If you open the UDP it should works just fine. At Aruba, we believe that the most dynamic customer experiences happen at the Edge. Our mission is to deliver innovative solutions that harness data at the Edge to drive powerful business outcomes. Skip to main content Press Enter.
Register Sign in. Skip auxiliary navigation Press Enter. The supported range of values is retries, and the default value is retries.
LED operating mode 11n APs only. RF Band. Double Encrypt. This parameter applies only to remote APs. Use double encryption for traffic to and from a wireless client that is connected to a tunneled SSID.
When enabled, all traffic is re-encrypted in the IPsec tunnel. When disabled, the wireless frame is only encapsulated inside the IPsec tunnel. All other types of data traffic between the controller and the AP wired traffic and traffic from a split-tunneled SSID are always encrypted in the IPsec tunnel. Bootstrap threshold. Number of consecutive missed heartbeats on a GRE tunnel heartbeats are sent once per second on each tunnel before an AP rebootstraps.
On the controller, the GRE tunnel timeout is 1. The supported range is , and the default value is 8. Request Retry Interval. Interval, in seconds, between the first and second retries of AP-generated requests. If the configured interval is less than 30 seconds, the interval for subsequent retries is increased up to 30 seconds. Maximum Request Retries. Maximum number of times to retry AP-generated requests, including keepalive messages.
After the maximum number of retries, the AP either tries the IP address specified by the bkup-lms-ip if configured or reboots. Dump Server. For debugging purposes. Specifies the server to receive a core dump generated when an AP process crashes.
SNMP sysContact. Specify the IP address and port number of the AeroScout server to which location reports should be sent. RF Band for AM mode scanning. Ortronics Walljack.
Ortronics LED off Time-out. Ortronics Low Temp. Temperature in degrees Celsius at which to restore configured power on Ortronics APs.
Ortronics High Temp. Temperature in degrees Celsius at which to decrease transmit power on Ortronics APs. You must specify the IP address and port number of the server to which location reports are sent, a shared secret key, and the frequency at which packets are sent to the server. This is the netmask used for the DHCP pool. The amount of days that the assigned IP address is valid for the client. A value of 0 indicates the IP address is always valid; the lease does not expire.
Remote-AP uplink total bandwidth. Session ACLs with uplink bandwidth reservation in kilobits per second. You can specify up to three session ACLs to reserve uplink bandwidth. The sum of the three uplink bandwidths should not exceed the Remote-AP uplink total bandwidth. Heartbeat DSCP. The supported range is , and the default value is 0.
Session ACL. Corporate DNS Domain. Name of domain that is resolved by corporate DNS servers. Use this parameter when configuring split tunnel. Maintenance Mode. This setting is useful when deploying, maintaining, or upgrading the network. If enabled, APs stop flooding unnecessary traps and syslog messages to network management systems or network operations centers when deploying, maintaining, or upgrading the network.
The controller still generates debug syslog messages if debug logging is enabled. In the Bootstrap threshold field , enter To configure the bootstrap threshold using the command-line interface, access the CLI in config mode and issue the following command:.
The configuration settings are displayed in Profile Details. Under Profile Details:. To prioritize AP heartbeats using the command-line interface, access the CLI in config mode and issue the following command:.
AP Redundancy. Remote APs also offer redundancy solutions via a backup configuration, backup controller list, and remote AP failback. If configured, the AP monitors the primary controller by sending probes every seconds by default.
If the AP successfully contacts the primary controller for the entire hold-down period, it will fail back to the primary controller. If the AP is unsuccessful, the AP maintains its connection to the backup controller, restarts the LMS hold-down timer, and continues monitoring the primary controller. Follow the procedure below to use the AP system profile to configure a redundant controller. For additional information on AP system profile settings, see Table Select the AP system profile you want to modify.
Click select LMS Preemption. This is disabled by default. AP Maintenance Mode. You can configure APs to suppress traps and syslog messages related to those APs. Known as AP maintenance mode, this setting in the AP system profile is particularly useful when deploying, maintaining, or upgrading the network.
If enabled, APs stop flooding unnecessary traps and syslog messages to network management systems or network operations centers during a deployment or scheduled maintenance. After completing the network maintenance, disable AP maintenance mode to ensure all traps and syslog messages are sent. AP maintenance mode is disabled by default. Under Profile Details, do the following:. To enable AP maintenance mode, check select the Maintenance Mode checkbox.
To disable AP maintenance mode, clear deselect the Maintenance Mode checkbox. On the local controller, you can also view maintenance mode status using the following commands:. AP LEDs can be configured in two modes: normal and off. Select the AP tab and then select the AP system profiles tab. From the drop-down list, select off. Managing RF Interference.
Each AP includes an RF Optimization profile that allows you to configure settings for detecting interference. The controller can detect interference near a wireless client station or AP is based on an increase in the frame retry rate or frame receive error rate. Select the profile you want to edit from the Profile Details window pane. Next, select that profile name from the profile list to edit its parameters. Configure your RF Optimization radio settings. Table 22 describes the parameters. Click Apply to save your settings.
Percentage increase in the frame retry rate or frame receive error rate before interference monitoring begins on a given channel. Amount of time the frame retry rate or frame receive error rate should be exceed by the threshold before interference is reported. Max Time, in seconds, the air monitor should learn the state of the link between the AP and client to create frame retry rate FRR and frame receive error rate FRER baselines.
Time, in seconds, to wait with decreasing RSSI before a de-authorization message is sent to the client. Use the following command to configure RF Optimization profiles. The parameters described in Table RF Event Configuration. When certain RF parameters are exceeded, these events can signal excessive load on the network, excessive interference, or faulty equipment.
This profile and many of the detection parameters are disabled value is 0 by default. To edit an existing RF Event profile, select the profile you want to edit from the Profile Details window pane.
To create a new profile, enter a new RF Event profile name in the field at the bottom of the Profile Details window, then click Add. Configure your settings as detailed in Table 23 and click Apply to save your settings.
Enable or disables detection of frame rate anomalies. This feature is disabled by default. If bandwidth in an AP exceeds this value, a bandwidth exceeded condition exists. The value represents the percentage of maximum for a given radio. For After a bandwidth exceeded condition exists, the condition persists until bandwidth drops below this value. If the frame error rate as a percentage of total frames in an AP exceeds this value, a frame error rate exceeded condition exists.
After a frame error rate exceeded condition exists, the condition persists until the frame error rate drops below this value. If the frame fragmentation rate as a percentage of total frames in an AP exceeds this value, a frame fragmentation rate exceeded condition exists. After a frame fragmentation rate exceeded condition exists, the condition persists until the frame fragmentation rate drops below this value.
If the rate of low-speed frames as a percentage of total frames in an AP exceeds this value, a low-speed rate exceeded condition exists. This could indicate a coverage hole.
After a low-speed rate exceeded condition exists, the condition persists until the percentage of low-speed frames drops below this value. If the non-unicast rate as a percentage of total frames in an AP exceeds this value, a non-unicast rate exceeded condition exists.
This value depends upon the applications used on the network. After a non-unicast rate exceeded condition exists, the condition persists until the non-unicast rate drops below this value. If the frame receive error rate as a percentage of total frames in an AP exceeds this value, a frame receive error rate exceeded condition exists.
After a frame receive error rate exceeded condition exists, the condition persists until the frame receive error rate drops below this value. If the frame retry rate as a percentage of total frames in an AP exceeds this value, a frame retry rate exceeded condition exists.
After a frame retry rate exceeded condition exists, the condition persists until the frame retry rate drops below this value. Use the following command to configure RF event profiles. The available parameters for this profile are detailed in Table AP Channel Assignments. With the implementation of the high-throughput IEEE Available 20 MHz and 40 MHz channels are dependent on the country code entered in the regulatory domain profile. A 20 MHz channel assignment consists of a single 20 MHz channel assignment.
This channel assignment is valid for A 40 MHz channel assignment consists of two 20 MHz channels bonded together a bonded pair. If high-throughput is disabled, a 40 MHz channel assignment can be configured, but only the primary channel assignment is utilized.
The 20 MHz clients can also associate using this configuration, but only the primary channel is utilized. The number entered becomes the primary channel and the secondary channel is determined by increasing the primary channel number by 4.
Entering a channel number with a minus - sign in the CLI, or entering a channel number and selecting the Below radio button in the WebUI, selects a primary and secondary channel for 40 MHz mode. The number entered becomes the primary channel and the secondary channel is determined by decreasing the primary channel number by 4. Example: represents as the primary channel and as the secondary channel. This will determine the available channels.
Configure a 40 MHz channel bonded pair for an Configure a 20 MHz channel for an If you want the channel assignments to utilize high-throughput, ensure that high-throughput is enabled within the radio profile. Click Edit for the AP group ht-corpnet-ap. Under the Profiles list, select RF Management to display the radio profiles.
Select the Enter 36 in the Channel text field and select the Above radio button. In this instance, channel 36 becomes the primary channel and the secondary channel is Enter 1 in the Channel text field and select the None radio button. In this instance, channel 1 is the assigned 20 MHz channel and 40 MHz mode is disabled and click Apply. If the disruption is long enough, the client may need to reassociate, reauthenticate, and re-request an IP address. This allows the clients, who support CSA, to transition to the new channel with minimal downtime.
Instead, it sends a number of beacons the default is 4 which contain the CSA announcement before it switches to the new channel. You can configure the number of announcements sent before the change. Clients must support CSA in order to track the channel change without experiencing disruption. Select RF Management in the Profile list. Select Enable CSA. You can configure a different value for CSA Count. Automatic Channel and Transmit Power Selection. To allow automatic channel and transmit power selection based on the radio environment, enable Adaptive Radio Management ARM.
Note that ARM assignments will override the static channel and power configurations done using the radio profile. AP Console Settings. These parameters are initially configured on the controller and then pushed out to the AP and stored on the AP itself. Connect a local console to the serial port on the AP. Establish a console communication to the AP, then power-cycle the AP to reboot it.
Once the AP boot prompt appears, you can issue any of the AP provisioning commands described in the Table Remember, though these commands may be useful for troubleshooting, they are all optional and are not necessary for normal AP provisioning.
Other AP console commands may be available when accessing an AP directly through its console port, but these commands can cause configuration errors if used improperly and should only be issued under the direct supervision of Aruba technical support.
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