Config Commands: 802.11

config 802.11-abgn

To configure dual-band radio parameters on an access point, use the config 802.11-abgn command.

config 802.11-abgn { cleanair { enable | disable} { cisco_ap band band} | { enable | disable} { cisco_ap}}

Syntax Description

cleanair

Configures CleanAir on the dual-band radio.

enable

Enables CleanAir for both 2.4-GHz and 5-GHz radios.

disable

Disables CleanAir for both 2.4-GHz and 5-GHz radios.

cisco_ap

Name of the access point to which the command applies.

band

Configures the radio band.

band

Radio band that can be 2.4-GHz or 5-GHz.

enable

Enables the dual-band radio on an access point.

disable

Disables the dual-band radio on an access point.

Command Default

None

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Usage Guidelines

Only Cisco CleanAir-enabled access point radios can be configured for Cisco CleanAir.

Examples

The following example shows how to enable Cisco CleanAir on an access point:

(Cisco Controller) >config 802.11-abgn cleanair enable AP3600 band 5

config 802.11a 11acsupport

To configure 802.11ac 5-GHz parameters, use the config 802.11a 11acsupport

config 802.11a 11acsupport { enable | disable | mcs tx mcs_index ss spatial_stream { enable | disable}}

Syntax Description

enable

Enables 802.11ac 5-GHz mode.

disable

Disables 802.11ac 5-GHz mode.

mcs tx

Configures 802.11ac 5-GHz Modulation and Coding Scheme (MCS) rates at which data can be transmitted between the access point and the client.

tx

Configures 802.11ac 5-GHz MCS transmit rates.

mcs_index

MCS index value of 8 or 9. MCS data rates with index 8 or 9 are specific to 802.11ac. When you enable an MCS data rate with index 9, the data rate with MCS index 8 is automatically enabled.

ss

Configures the 802.11ac 5-GHz MCS spatial stream (SS).

spatial_stream

Spatial stream within which you can enable or disable an MCS data rate.

Signals transmitted by the various antennae are multiplexed by using different spaces within the same spectral channel. These spaces are known as spatial streams. Three spatial streams are available within which you can enable or disable a MCS rate. The range is from 1 to 3.

Command Default

None

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Usage Guidelines

Disabling the 802.11n/ac mode applies only to access radios. Backhaul radios always have 802.11n/ac mode enabled if they are 802.11n capable.

Examples

The following example shows how to configure the MCS index for spatial stream 3:

(Cisco Controller) >config 802.11a 11acsupport mcs tx 9 ss 3

config 802.11-a antenna extAntGain

To configure the external antenna gain for the 4.9-GHz and 5.8-GHz public safety channels on an access point, use the config 802.11-a antenna extAntGain commands.

config { 802.11-a49 | 802.11-a58} antenna extAntGain ant_gain cisco_ap { global | channel_no}

Syntax Description

802.11-a49

Specifies the 4.9-GHz public safety channel.

802.11-a58

Specifies the 5.8-GHz public safety channel.

ant_gain

Value in .5-dBi units (for instance, 2.5 dBi = 5).

cisco_ap

Name of the access point to which the command applies.

global

Specifies the antenna gain value to all channels.

channel_no

Antenna gain value for a specific channel.

Command Default

Channel properties are disabled.

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Usage Guidelines

Before you enter the config 802.11-a antenna extAntGain command, disable the 802.11 Cisco radio with the config 802.11-a disable command.

After you configure the external antenna gain, use the config 802.11-a enable command to reenable the 802.11 Cisco radio.

Examples

The following example shows how to configure an 802.11-a49 external antenna gain of 10 dBi for AP1:

(Cisco Controller) >config 802.11-a antenna extAntGain 10 AP1

config 802.11-a channel ap

To configure the channel properties for the 4.9-GHz and 5.8-GHz public safety channels on an access point, use the config 802.11-a channel ap command.

config { 802.11-a49 | 802.11-a58} channel ap cisco_ap { global | channel_no}

Syntax Description

802.11-a49

Specifies the 4.9-GHz public safety channel.

802.11-a58

Specifies the 5.8-GHz public safety channel.

cisco_ap

Name of the access point to which the command applies.

global

Enables the Dynamic Channel Assignment (DCA) on all 4.9-GHz and 5.8-GHz subband radios.

channel_no

Custom channel for a specific mesh access point. The range is 1 through 26, inclusive, for a 4.9-GHz band and 149 through 165, inclusive, for a 5.8-GHz band.

Command Default

Channel properties are disabled.

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to set the channel properties:

(Cisco Controller) >config 802.11-a channel ap

config 802.11-a txpower ap

To configure the transmission power properties for the 4.9-GHz and 5.8-GHz public safety channels on an access point, use the config 802.11-a txpower ap command.

config { 802.11-a49 | 802.11-a58} txpower ap cisco_ap { global | power_level}

Syntax Description

802.11-a49

Specifies the 4.9-GHz public safety channel.

802.11-a58

Specifies the 5.8-GHz public safety channel.

txpower

Configures transmission power properties.

ap

Configures access point channel settings.

cisco_ap

Name of the access point to which the command applies.

global

Applies the transmission power value to all channels.

power_level

Transmission power value to the designated mesh access point. The range is from 1 to 5.

Command Default

The default transmission power properties for the 4.9-GHz and 5.8-GHz public safety channels on an access point is disabled.

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure an 802.11-a49 transmission power level of 4 for AP1:


(Cisco Controller) >config 802.11-a txpower ap 4 AP1

config 802.11 antenna diversity

To configure the diversity option for 802.11 antennas, use the config 802.11 antenna diversity command.

config 802.11{ a | b} antenna diversity { enable | sideA | sideB} cisco_ap

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

enable

Enables the diversity.

sideA

Specifies the diversity between the internal antennas and an external antenna connected to the Cisco lightweight access point left port.

sideB

Specifies the diversity between the internal antennas and an external antenna connected to the Cisco lightweight access point right port.

cisco_ap

Cisco lightweight access point name.

Command Default

None

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to enable antenna diversity for AP01 on an 802.11b network:

(Cisco Controller) >config 802.11a antenna diversity enable AP01

The following example shows how to enable diversity for AP01 on an 802.11a network, using an external antenna connected to the Cisco lightweight access point left port (sideA):

(Cisco Controller) >config 802.11a antenna diversity sideA AP01

config 802.11 antenna extAntGain

To configure external antenna gain for an 802.11 network, use the config 802.11 antenna extAntGain command.

config 802.11{ a | b} antenna extAntGain antenna_gain cisco_ap

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

antenna_gain

Antenna gain in 0.5 dBm units (for example, 2.5 dBm = 5).

cisco_ap

Cisco lightweight access point name.

Command Default

None

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Usage Guidelines

Before you enter the config 802.11 antenna extAntGain command, disable the 802.11 Cisco radio with the config 802.11 disable command.

After you configure the external antenna gain, use the config 802.11 enable command to enable the 802.11 Cisco radio.

Examples

The following example shows how to configure an 802.11a external antenna gain of 0.5 dBm for AP1 :

(Cisco Controller) >config 802.11 antenna extAntGain 1 AP1

config 802.11 antenna mode

To configure the Cisco lightweight access point to use one internal antenna for an 802.11 sectorized 180-degree coverage pattern or both internal antennas for an 802.11 360-degree omnidirectional pattern, use the config 802.11 antenna mode command.

config 802.11{ a | b} antenna mode { omni | sectorA | sectorB} cisco_ap

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

omni

Specifies to use both internal antennas.

sectorA

Specifies to use only the side A internal antenna.

sectorB

Specifies to use only the side B internal antenna.

cisco_ap

Cisco lightweight access point name.

Command Default

None

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure access point AP01 antennas for a 360-degree omnidirectional pattern on an 802.11b network:

(Cisco Controller) >config 802.11 antenna mode omni AP01

config 802.11 antenna selection

To select the internal or external antenna selection for a Cisco lightweight access point on an 802.11 network, use the config 802.11 antenna selection command.

config 802.11{ a | b} antenna selection { internal | external} cisco_ap

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

internal

Specifies the internal antenna.

external

Specifies the external antenna.

cisco_ap

Cisco lightweight access point name.

Command Default

None

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure access point AP02 on an 802.11b network to use the internal antenna:

(Cisco Controller) >config 802.11a antenna selection internal AP02

config 802.11b 11gSupport

To enable or disable the Cisco wireless LAN solution 802.11g network, use the config 802.11b 11gSupport command.

config 802.11b 11gSupport { enable | disable}

Syntax Description

enable

Enables the 802.11g network.

disable

Disables the 802.11g network.

Command Default

The default network for Cisco wireless LAN solution 802.11g is enabled.

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Usage Guidelines

Before you enter the config 802.11b 11gSupport {enable | disable} command, disable the 802.11 Cisco radio with the config 802.11 disable command.

After you configure the support for the 802.11g network, use the config 802.11 enable command to enable the 802.11 radio.


Note

To disable an 802.11a, 802.11b and/or 802.11g network for an individual wireless LAN, use the config wlan radio command.


Examples

The following example shows how to enable the 802.11g network:


(Cisco Controller) > config 802.11b 11gSupport enable
Changing the 11gSupport will cause all the APs to reboot when you enable 802.11b network.
Are you sure you want to continue? (y/n) n
11gSupport not changed!

config 802.11b preamble

To change the 802.11b preamble as defined in subclause 18.2.2.2 to long (slower, but more reliable) or short (faster, but less reliable), use the config 802.11b preamble command.

config 802.11b preamble { long | short}

Syntax Description

long

Specifies the long 802.11b preamble.

short

Specifies the short 802.11b preamble.

Command Default

The default 802.11b preamble value is short.

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Usage Guidelines


Note

You must reboot the Cisco Wireless LAN Controller (reset system) with save to implement this command.


This parameter must be set to long to optimize this Cisco wireless LAN controller for some clients, including SpectraLink NetLink telephones.

This command can be used any time that the CLI interface is active.

Examples

The following example shows how to change the 802.11b preamble to short:

  (Cisco Controller) >config 802.11b preamble short
  (Cisco Controller) >(reset system with save)

config 802.11h channelswitch

To configure an 802.11h channel switch announcement, use the config 802.11h channelswitch command.

config 802.11h channelswitch { enable { loud | quiet} | disable}

Syntax Description

enable

Enables the 802.11h channel switch announcement.

disable

Disables the 802.11h channel switch announcement.

Command Default

None

Command History

Release Modification

7.6

  • This command was introduced in a release earlier than Release 7.6.
  • The loud and quiet parameters were introduced.

Examples

The following example shows how to disable an 802.11h switch announcement:


(Cisco Controller) >config 802.11h channelswitch disable

config 802.11h powerconstraint

To configure the 802.11h power constraint value, use the config 802.11h powerconstraint command.

config 802.11h powerconstraint value

Syntax Description

value

802.11h power constraint value.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure the 802.11h power constraint to 5:


(Cisco Controller) >config 802.11h powerconstraint 5

config 802.11h setchannel

To configure a new channel using 802.11h channel announcement, use the config 802.11h setchannel command.

config 802.11h setchannel cisco_ap

Syntax Description

cisco_ap

Cisco lightweight access point name.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure a new channel using the 802.11h channel:


(Cisco Controller) >config 802.11h setchannel ap02

config 802.11 11nsupport

To enable 802.11n support on the network, use the config 802.11 11nsupport command.

config 802.11{ a | b} 11nsupport { enable | disable}

Syntax Description

a

Specifies the 802.11a network settings.

b

Specifies the 802.11b/g network settings.

enable

Enables the 802.11n support.

disable

Disables the 802.11n support.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to enable the 802.11n support on an 802.11a network:


(Cisco Controller) >config 802.11a 11nsupport enable

config 802.11 11nsupport a-mpdu tx priority

To specify the aggregation method used for 802.11n packets, use the config 802.11 11nsupport a-mpdu tx priority command.

config 802.11{ a | b} 11nsupport a-mpdu tx priority { 0-7 | all} { enable | disable}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

0-7

Specifies the aggregated MAC protocol data unit priority level between 0 through 7.

all

Configures all of the priority levels at once.

enable

Specifies the traffic associated with the priority level uses A-MPDU transmission.

disable

Specifies the traffic associated with the priority level uses A-MSDU transmission.

Command Default

Priority 0 is enabled.

Usage Guidelines

Aggregation is the process of grouping packet data frames together rather than transmitting them separately. Two aggregation methods are available: Aggregated MAC Protocol Data Unit (A-MPDU) and Aggregated MAC Service Data Unit (A-MSDU). A-MPDU is performed in the software whereas A-MSDU is performed in the hardware.

Aggregated MAC Protocol Data Unit priority levels assigned per traffic type are as follows:

  • 1—Background

  • 2—Spare

  • 0—Best effort

  • 3—Excellent effort

  • 4—Controlled load

  • 5—Video, less than 100-ms latency and jitter

  • 6—Voice, less than 10-ms latency and jitter

  • 7—Network control

  • all—Configure all of the priority levels at once.


    Note

    Configure the priority levels to match the aggregation method used by the clients.


Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure all the priority levels at once so that the traffic associated with the priority level uses A-MSDU transmission:


(Cisco Controller) >config 802.11a 11nsupport a-mpdu tx priority all enable

config 802.11 11nsupport a-mpdu tx scheduler

To configure the 802.11n-5 GHz A-MPDU transmit aggregation scheduler, use the config 802.11 11nsupport a-mpdu tx scheduler command.

config 802.11{ a | b} 11nsupport a-mpdu tx scheduler { enable | disable | timeout rt timeout-value}

Syntax Description

enable

Enables the 802.11n-5 GHz A-MPDU transmit aggregation scheduler.

disable

Disables the 802.11n-5 GHz A-MPDU transmit aggregation scheduler.

timeout rt

Configures the A-MPDU transmit aggregation scheduler realtime traffic timeout.

timeout-value

Timeout value in milliseconds. The valid range is between 1 millisecond to 1000 milliseconds.

Command Default

None

Usage Guidelines

Ensure that the 802.11 network is disabled before you enter this command.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure the A-MPDU transmit aggregation scheduler realtime traffic timeout of 100 milliseconds:


(Cisco Controller) >config 802.11 11nsupport a-mpdu tx scheduler timeout rt 100

config 802.11 11nsupport antenna

To configure an access point to use a specific antenna, use the config 802.11 11nsupport antenna command.

config 802.11{ a | b} 11nsupport antenna cisco_ap { A | B | C | D} { enable | disable}

Syntax Description

a

Specifies the 802.11a/n network.

b

Specifies the 802.11b/g/n network.

cisco_ap

Access point.

A/B/C/D

Specifies an antenna port.

enable

Enables the configuration.

disable

Disables the configuration.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure transmission to a single antenna for legacy orthogonal frequency-division multiplexing:


(Cisco Controller) >config 802.11 11nsupport antenna AP1 C enable

config 802.11 11nsupport guard-interval

To configure the guard interval, use the config 802.11 11nsupport guard-interval command.

config 802.11 { a | b} 11nsupport guard-interval { any | long}

Syntax Description

any

Enables either a short or a long guard interval.

long

Enables only a long guard interval.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure a long guard interval:


(Cisco Controller) >config 802.11 11nsupport guard-interval long

config 802.11 11nsupport mcs tx

To specify the modulation and coding scheme (MCS) rates at which data can be transmitted between the access point and the client, use the config 802.11 11nsupport mcs tx command.

config 802.11{ a | b} 11nsupport mcs tx { 0-15} { enable | disable}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

11nsupport

Specifies support for 802.11n devices.

mcs tx

Specifies the modulation and coding scheme data rates as follows:

  • 0 (7 Mbps)

  • 1 (14 Mbps)

  • 2 (21 Mbps)

  • 3 (29 Mbps)

  • 4 (43 Mbps)

  • 5 (58 Mbps)

  • 6 (65 Mbps)

  • 7 (72 Mbps)

  • 8 (14 Mbps)

  • 9 (29 Mbps)

  • 10 (43 Mbps)

  • 11 (58 Mbps)

  • 12 (87 Mbps)

  • 13 (116 Mbps)

  • 14 (130 Mbps)

  • 15 (144 Mbps)

enable

Enables this configuration.

disable

Disables this configuration.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to specify MCS rates:


(Cisco Controller) >config 802.11a 11nsupport mcs tx 5 enable

config 802.11 11nsupport rifs

To configure the Reduced Interframe Space (RIFS) between data frames and its acknowledgment, use the config 802.11 11nsupport rifs command.

config 802.11{ a | b} 11nsupport rifs { enable | disable}

Syntax Description

enable

Enables RIFS for the 802.11 network.

disable

Disables RIFS for the 802.11 network.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

This example shows how to enable RIFS:


(Cisco Controller) >config 802.11a 11nsupport rifs enable

config 802.11 antenna diversity

To configure the diversity option for 802.11 antennas, use the config 802.11 antenna diversity command.

config 802.11{ a | b} antenna diversity { enable | sideA | sideB} cisco_ap

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

enable

Enables the diversity.

sideA

Specifies the diversity between the internal antennas and an external antenna connected to the Cisco lightweight access point left port.

sideB

Specifies the diversity between the internal antennas and an external antenna connected to the Cisco lightweight access point right port.

cisco_ap

Cisco lightweight access point name.

Command Default

None

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to enable antenna diversity for AP01 on an 802.11b network:

(Cisco Controller) >config 802.11a antenna diversity enable AP01

The following example shows how to enable diversity for AP01 on an 802.11a network, using an external antenna connected to the Cisco lightweight access point left port (sideA):

(Cisco Controller) >config 802.11a antenna diversity sideA AP01

config 802.11 antenna extAntGain

To configure external antenna gain for an 802.11 network, use the config 802.11 antenna extAntGain command.

config 802.11{ a | b} antenna extAntGain antenna_gain cisco_ap

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

antenna_gain

Antenna gain in 0.5 dBm units (for example, 2.5 dBm = 5).

cisco_ap

Cisco lightweight access point name.

Command Default

None

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Usage Guidelines

Before you enter the config 802.11 antenna extAntGain command, disable the 802.11 Cisco radio with the config 802.11 disable command.

After you configure the external antenna gain, use the config 802.11 enable command to enable the 802.11 Cisco radio.

Examples

The following example shows how to configure an 802.11a external antenna gain of 0.5 dBm for AP1 :

(Cisco Controller) >config 802.11 antenna extAntGain 1 AP1

config 802.11 antenna mode

To configure the Cisco lightweight access point to use one internal antenna for an 802.11 sectorized 180-degree coverage pattern or both internal antennas for an 802.11 360-degree omnidirectional pattern, use the config 802.11 antenna mode command.

config 802.11{ a | b} antenna mode { omni | sectorA | sectorB} cisco_ap

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

omni

Specifies to use both internal antennas.

sectorA

Specifies to use only the side A internal antenna.

sectorB

Specifies to use only the side B internal antenna.

cisco_ap

Cisco lightweight access point name.

Command Default

None

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure access point AP01 antennas for a 360-degree omnidirectional pattern on an 802.11b network:

(Cisco Controller) >config 802.11 antenna mode omni AP01

config 802.11 antenna selection

To select the internal or external antenna selection for a Cisco lightweight access point on an 802.11 network, use the config 802.11 antenna selection command.

config 802.11{ a | b} antenna selection { internal | external} cisco_ap

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

internal

Specifies the internal antenna.

external

Specifies the external antenna.

cisco_ap

Cisco lightweight access point name.

Command Default

None

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure access point AP02 on an 802.11b network to use the internal antenna:

(Cisco Controller) >config 802.11a antenna selection internal AP02

config 802.11 channel

To configure an 802.11 network or a single access point for automatic or manual channel selection, use the config 802.11 channel command.

config 802.11{ a | b} channel { global [ auto | once | off | restart]} | ap { ap_name [ global | channel]}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

global

Specifies the 802.11a operating channel that is automatically set by RRM and overrides the existing configuration setting.

auto

(Optional) Specifies that the channel is automatically set by Radio Resource Management (RRM) for the 802.11a radio.

once

(Optional) Specifies that the channel is automatically set once by RRM.

off

(Optional) Specifies that the automatic channel selection by RRM is disabled.

restarts

(Optional) Restarts the aggressive DCA cycle.

ap_name

Access point name.

channel

Manual channel number to be used by the access point. The supported channels depend on the specific access point used and the regulatory region.

Command Default

None

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Usage Guidelines

When configuring 802.11 channels for a single lightweight access point, enter the config 802.11 disable command to disable the 802.11 network. Enter the config 802.11 channel command to set automatic channel selection by Radio Resource Management (RRM) or manually set the channel for the 802.11 radio, and enter the config 802.11 enable command to enable the 802.11 network.


Note

See the Channels and Maximum Power Settings for Cisco Aironet Lightweight Access Points document for the channels supported by your access point. The power levels and available channels are defined by the country code setting and are regulated on a country-by-country basis.


Examples

The following example shows how to have RRM automatically configure the 802.11a channels for automatic channel configuration based on the availability and interference:

(Cisco Controller) >config 802.11a channel global auto

The following example shows how to configure the 802.11b channels one time based on the availability and interference:

(Cisco Controller) >config 802.11b channel global once

The following example shows how to turn 802.11a automatic channel configuration off:

(Cisco Controller) >config 802.11a channel global off

The following example shows how to configure the 802.11b channels in access point AP01 for automatic channel configuration:

(Cisco Controller) >config 802.11b AP01 channel global 

The following example shows how to configure the 802.11a channel 36 in access point AP01 as the default channel:

(Cisco Controller) >config 802.11a channel AP01 36

config 802.11 channel ap

To set the operating radio channel for an access point, use the config 802.11 channel ap command.

config 802.11{ a | b} channel ap cisco_ap { global | channel_no}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

cisco_ap

Name of the Cisco access point.

global

Enables auto-RF on the designated access point.

channel_no

Default channel from 1 to 26, inclusive.

Command Default

None

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to enable auto-RF for access point AP01 on an 802.11b network:

(Cisco Controller) >config 802.11b channel ap AP01 global

config 802.11 chan_width

To configure the channel width for a particular access point, use the config 802.11 chan_width command.

config 802.11{ a | b} chan_width cisco_ap { 20 | 40 | 80 | 160 | best}

Syntax Description

a

Configures the 802.11a radio on slot 1 and 802.11ac radio on slot 2.

b

Specifies the 802.11b/g radio.

cisco_ap

Access point.

20

Allows the radio to communicate using only 20-MHz channels.

Choose this option for legacy 802.11a radios, 20-MHz 802.11n radios, or 40-MHz 802.11n radios that you want to operate using only 20-MHz channels.

40

Allows 40-MHz 802.11n radios to communicate using two adjacent 20-MHz channels bonded together.

80

Allows 80-MHz 802.11ac radios to communicate using two adjacent 40-MHz channels bonded together.

160

Allows 160-MHz 802.11ac radios to communicate.

best

In this mode, the device selects the optimum bandwidth channel.

Command Default

The default channel width is 20.

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.
8.3

This command was enhanced in this release with the inclusion of 160 MHz and best channel bandwidth modes.

Usage Guidelines

This parameter can be configured only if the primary channel is statically assigned.


Caution

We recommend that you do not configure 40-MHz channels in the 2.4-GHz radio band because severe co-channel interference can occur.


Statically configuring an access point’s radio for 20-MHz or 40-MHz mode overrides the globally configured DCA channel width setting (configured by using the config advanced 802.11 channel dca chan-width command). If you change the static configuration back to global on the access point radio, the global DCA configuration overrides the channel width configuration that the access point was previously using.

Examples

The following example shows how to configure the channel width for access point AP01 on an 802.11 network using 40-MHz channels:


(Cisco Controller) >config 802.11a chan_width AP01 40

config 802.11 rx-sop threshold

To configure the threshold values for Receiver Start of Packet Detection Threshold (RxSOP) for each 802.11 band, use the config 802.11 rx-sop threshold command.

config { 802.11a | 802.11b} rx-sop threshold { high | medium | low | auto} { ap ap_name | default}

Syntax Description

802.11a

Configures an RxSOP threshold value for the 802.11a network.

802.11b

Configures an RxSOP threshold value for the 802.11b network.

high

Configures the high RxSOP threshold value for 802.11a/b networks.

medium

Configures the medium RxSOP threshold value for 802.11a/b networks.

low

Configures the low RxSOP threshold value for 802.11a/b networks.

auto

Configures an auto RxSOP threshold value for 802.11a/b networks. When you choose auto, the access point determines the best RxSOP threshold value.

ap ap_name

Configures the RxSOP threshold value on an access point of an 802.11 network.

default

Configures the RxSOP threshold value on all access points of an 802.11 network.

Command Default

The default RxSOP threshold option is auto.

Command History

Release Modification
8.0

This command was introduced.

Usage Guidelines

RxSOP determines the Wi-Fi signal level in dBm at which an access point's radio demodulates and decodes a packet. Higher the level, less sensitive the radio is and smaller the receiver cell size. The table below shows the RxSOP threshold values for high, medium and low levels for each 802.11 band.

Table 1. RxSOP Thresholds
802.11 Band High Threshold Medium Threshold Low Threshold
5 GHz –76 dBm –78 dBm –80 dBm
2.4 GHz –79 dBm –82 dBm –85 dBm

Examples

The following example shows how to configure a high RxSOP threshold value for all access points in the 802.11a band:

(Cisco Controller) > config 802.11a rx-sop threshold high

config 802.11 txPower

To configure the transmit power level for all access points or a single access point in an 802.11 network, use the config 802.11 txPower command.

config 802.11{ a | b} txPower { global { power_level | auto | max | min | once } | ap cisco_ap}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

global

Configures the 802.11 transmit power level for all lightweight access points.

auto

(Optional) Specifies the power level is automatically set by Radio Resource Management (RRM) for the 802.11 Cisco radio.

once

(Optional) Specifies the power level is automatically set once by RRM.

power_level

(Optional) Manual Transmit power level number for the access point.

ap

Configures the 802.11 transmit power level for a specified lightweight access point.

ap_name

Access point name.

Command Default

The command default (global , auto ) is for automatic configuration by RRM.

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Usage Guidelines

The supported power levels depends on the specific access point used and the regulatory region. For example, the 1240 series access point supports eight levels and the 1200 series access point supports six levels. See the Channels and Maximum Power Settings for Cisco Aironet Lightweight Access Points document for the maximum transmit power limits for your access point. The power levels and available channels are defined by the country code setting and are regulated on a country-by-country basis.

Examples

The following example shows how to automatically set the 802.11a radio transmit power level in all lightweight access points:


(Cisco Controller) > config 802.11a txPower auto

The following example shows how to manually set the 802.11b radio transmit power to level 5 for all lightweight access points:


(Cisco Controller) > config 802.11b txPower global 5

The following example shows how to automatically set the 802.11b radio transmit power for access point AP1:


(Cisco Controller) > config 802.11b txPower AP1 global

The following example shows how to manually set the 802.11a radio transmit power to power level 2 for access point AP1:


(Cisco Controller) > config 802.11b txPower AP1 2

config 802.11 beamforming

To enable or disable Beamforming (ClientLink) on the network or on individual radios, enter the config 802.11 beamforming command.

config 802.11{ a | b} beamforming { global | ap ap_name} { enable | disable}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

global

Specifies all lightweight access points.

ap ap_name

Specifies the Cisco access point name.

enable

Enables beamforming.

disable

Disables beamforming.

Command Default

None

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Usage Guidelines

When you enable Beamforming on the network, it is automatically enabled for all the radios applicable to that network type.

Follow these guidelines for using Beamforming:

  • Beamforming is supported only for legacy orthogonal frequency-division multiplexing (OFDM) data rates (6, 9, 12, 18, 24, 36, 48, and 54 mbps).


    Note

    Beamforming is not supported for complementary-code keying (CCK) data rates (1, 2, 5.5, and 11 Mbps).


  • Beamforming is supported only on access points that support 802.11n (AP1250 and AP1140).

  • Two or more antennas must be enabled for transmission.

  • All three antennas must be enabled for reception.

  • OFDM rates must be enabled.

    If the antenna configuration restricts operation to a single transmit antenna, or if OFDM rates are disabled, Beamforming is not used.

Examples

The following example shows how to enable Beamforming on the 802.11a network:

(Cisco Controller) >config 802.11 beamforming global enable 

config 802.11h channelswitch

To configure an 802.11h channel switch announcement, use the config 802.11h channelswitch command.

config 802.11h channelswitch { enable { loud | quiet} | disable}

Syntax Description

enable

Enables the 802.11h channel switch announcement.

disable

Disables the 802.11h channel switch announcement.

Command Default

None

Command History

Release Modification

7.6

  • This command was introduced in a release earlier than Release 7.6.
  • The loud and quiet parameters were introduced.

Examples

The following example shows how to disable an 802.11h switch announcement:


(Cisco Controller) >config 802.11h channelswitch disable

config 802.11h powerconstraint

To configure the 802.11h power constraint value, use the config 802.11h powerconstraint command.

config 802.11h powerconstraint value

Syntax Description

value

802.11h power constraint value.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure the 802.11h power constraint to 5:


(Cisco Controller) >config 802.11h powerconstraint 5

config 802.11h setchannel

To configure a new channel using 802.11h channel announcement, use the config 802.11h setchannel command.

config 802.11h setchannel cisco_ap

Syntax Description

cisco_ap

Cisco lightweight access point name.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure a new channel using the 802.11h channel:


(Cisco Controller) >config 802.11h setchannel ap02

config 802.11h smart dfs

To enable or disable 802.11h smart-dfs feature, use the config 802.11h smart-dfs command.

config 802.11h smart-dfs { enable | disable}

Syntax Description

enable

Enables non occupancy time doubling for Radar interfere channel.

disable

Disables non occupancy time doubling and use legacy time (30 minutes) for Radar interference channel.

Use disable to match legacy DFS behavior.

Command Default

Enabled

Command History

Release Modification

8.2.141.0

This command was introduced.

Examples

The following example shows how to enable 802.11h smart-dfs:


(Cisco Controller) >config 802.11h smart-dfs enable

config 802.11 11nsupport

To enable 802.11n support on the network, use the config 802.11 11nsupport command.

config 802.11{ a | b} 11nsupport { enable | disable}

Syntax Description

a

Specifies the 802.11a network settings.

b

Specifies the 802.11b/g network settings.

enable

Enables the 802.11n support.

disable

Disables the 802.11n support.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to enable the 802.11n support on an 802.11a network:


(Cisco Controller) >config 802.11a 11nsupport enable

config 802.11 11nsupport a-mpdu tx priority

To specify the aggregation method used for 802.11n packets, use the config 802.11 11nsupport a-mpdu tx priority command.

config 802.11{ a | b} 11nsupport a-mpdu tx priority { 0-7 | all} { enable | disable}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

0-7

Specifies the aggregated MAC protocol data unit priority level between 0 through 7.

all

Configures all of the priority levels at once.

enable

Specifies the traffic associated with the priority level uses A-MPDU transmission.

disable

Specifies the traffic associated with the priority level uses A-MSDU transmission.

Command Default

Priority 0 is enabled.

Usage Guidelines

Aggregation is the process of grouping packet data frames together rather than transmitting them separately. Two aggregation methods are available: Aggregated MAC Protocol Data Unit (A-MPDU) and Aggregated MAC Service Data Unit (A-MSDU). A-MPDU is performed in the software whereas A-MSDU is performed in the hardware.

Aggregated MAC Protocol Data Unit priority levels assigned per traffic type are as follows:

  • 1—Background

  • 2—Spare

  • 0—Best effort

  • 3—Excellent effort

  • 4—Controlled load

  • 5—Video, less than 100-ms latency and jitter

  • 6—Voice, less than 10-ms latency and jitter

  • 7—Network control

  • all—Configure all of the priority levels at once.


    Note

    Configure the priority levels to match the aggregation method used by the clients.


Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure all the priority levels at once so that the traffic associated with the priority level uses A-MSDU transmission:


(Cisco Controller) >config 802.11a 11nsupport a-mpdu tx priority all enable

config 802.11 11nsupport a-mpdu tx scheduler

To configure the 802.11n-5 GHz A-MPDU transmit aggregation scheduler, use the config 802.11 11nsupport a-mpdu tx scheduler command.

config 802.11{ a | b} 11nsupport a-mpdu tx scheduler { enable | disable | timeout rt timeout-value}

Syntax Description

enable

Enables the 802.11n-5 GHz A-MPDU transmit aggregation scheduler.

disable

Disables the 802.11n-5 GHz A-MPDU transmit aggregation scheduler.

timeout rt

Configures the A-MPDU transmit aggregation scheduler realtime traffic timeout.

timeout-value

Timeout value in milliseconds. The valid range is between 1 millisecond to 1000 milliseconds.

Command Default

None

Usage Guidelines

Ensure that the 802.11 network is disabled before you enter this command.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure the A-MPDU transmit aggregation scheduler realtime traffic timeout of 100 milliseconds:


(Cisco Controller) >config 802.11 11nsupport a-mpdu tx scheduler timeout rt 100

config 802.11 11nsupport antenna

To configure an access point to use a specific antenna, use the config 802.11 11nsupport antenna command.

config 802.11{ a | b} 11nsupport antenna cisco_ap { A | B | C | D} { enable | disable}

Syntax Description

a

Specifies the 802.11a/n network.

b

Specifies the 802.11b/g/n network.

cisco_ap

Access point.

A/B/C/D

Specifies an antenna port.

enable

Enables the configuration.

disable

Disables the configuration.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure transmission to a single antenna for legacy orthogonal frequency-division multiplexing:


(Cisco Controller) >config 802.11 11nsupport antenna AP1 C enable

config 802.11 11nsupport guard-interval

To configure the guard interval, use the config 802.11 11nsupport guard-interval command.

config 802.11 { a | b} 11nsupport guard-interval { any | long}

Syntax Description

any

Enables either a short or a long guard interval.

long

Enables only a long guard interval.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure a long guard interval:


(Cisco Controller) >config 802.11 11nsupport guard-interval long

config 802.11 11nsupport mcs tx

To specify the modulation and coding scheme (MCS) rates at which data can be transmitted between the access point and the client, use the config 802.11 11nsupport mcs tx command.

config 802.11{ a | b} 11nsupport mcs tx { 0-15} { enable | disable}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

11nsupport

Specifies support for 802.11n devices.

mcs tx

Specifies the modulation and coding scheme data rates as follows:

  • 0 (7 Mbps)

  • 1 (14 Mbps)

  • 2 (21 Mbps)

  • 3 (29 Mbps)

  • 4 (43 Mbps)

  • 5 (58 Mbps)

  • 6 (65 Mbps)

  • 7 (72 Mbps)

  • 8 (14 Mbps)

  • 9 (29 Mbps)

  • 10 (43 Mbps)

  • 11 (58 Mbps)

  • 12 (87 Mbps)

  • 13 (116 Mbps)

  • 14 (130 Mbps)

  • 15 (144 Mbps)

enable

Enables this configuration.

disable

Disables this configuration.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to specify MCS rates:


(Cisco Controller) >config 802.11a 11nsupport mcs tx 5 enable

config 802.11 11nsupport rifs

To configure the Reduced Interframe Space (RIFS) between data frames and its acknowledgment, use the config 802.11 11nsupport rifs command.

config 802.11{ a | b} 11nsupport rifs { enable | disable}

Syntax Description

enable

Enables RIFS for the 802.11 network.

disable

Disables RIFS for the 802.11 network.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

This example shows how to enable RIFS:


(Cisco Controller) >config 802.11a 11nsupport rifs enable

config 802.11 beacon period

To change the beacon period globally for an 802.11a, 802.11b, or other supported 802.11 network, use the config 802.11 beacon period command.

config 802.11{ a | b} beacon period time_units


Note

Disable the 802.11 network before using this command. See the “Usage Guidelines” section.


Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

time_units

Beacon interval in time units (TU). One TU is 1024 microseconds.

Command Default

None

Usage Guidelines

In Cisco wireless LAN solution 802.11 networks, all Cisco lightweight access point wireless LANs broadcast a beacon at regular intervals. This beacon notifies clients that the 802.11a service is available and allows the clients to synchronize with the lightweight access point.

Before you change the beacon period, make sure that you have disabled the 802.11 network by using the config 802.11 disable command. After changing the beacon period, enable the 802.11 network by using the config 802.11 enable command.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

This example shows how to configure an 802.11a network for a beacon period of 120 time units:


(Cisco Controller) > config 802.11 beacon period 120

config 802.11 cac defaults

To configure the default Call Admission Control (CAC) parameters for the 802.11a and 802.11b/g network, use the config 802.11 cac defaults command.

config 802.11 { a | b} cac defaults

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

Usage Guidelines

CAC commands for video applications on the 802.11a or 802.11b/g network require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Gold.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable command.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

This example shows how to configure the default CAC parameters for the 802.11a network:

(Cisco Controller) > config 802.11 cac defaults

config 802.11 cac video acm

To enable or disable video Call Admission Control (CAC) for the 802.11a or 802.11b/g network, use the config 802.11 cac video acm command.

config 802.11{ a | b} cac video acm { enable | disable}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

enable

Enables video CAC settings.

disable

Disables video CAC settings.

Command Default

The default video CAC settings for the 802.11a or 802.11b/g network is disabled.

Usage Guidelines

CAC commands require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Platinum.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the config 802.11{a | b}  cac voice acm enable , or config 802.11{a | b}  cac video acm enable commands.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to enable the video CAC for the 802.11a network:


(Cisco Controller) > config 802.11 cac video acm enable

The following example shows how to disable the video CAC for the 802.11b network:


(Cisco Controller) > config 802.11 cac video acm disable

config 802.11 cac video cac-method

To configure the Call Admission Control (CAC) method for video applications on the 802.11a or 802.11b/g network, use the config 802.11 cac video cac-method command.

config 802.11 { a | b} cac video cac-method { static | load-based}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

static

Enables the static CAC method for video applications on the 802.11a or 802.11b/g network.

Static or bandwidth-based CAC enables the client to specify how much bandwidth or shared medium time is required to accept a new video request and in turn enables the access point to determine whether it is capable of accommodating the request.

load-based

Enables the load-based CAC method for video applications on the 802.11a or 802.11b/g network.

Load-based or dynamic CAC incorporates a measurement scheme that takes into account the bandwidth consumed by all traffic types from itself, from co-channel access points, and by collocated channel interference. Load-based CAC also covers the additional bandwidth consumption results from PHY and channel impairment. The access point admits a new call only if the channel has enough unused bandwidth to support that call.

Load-based CAC is not supported if SIP-CAC is enabled.

Command Default

Static.

Usage Guidelines

CAC commands for video applications on the 802.11a or 802.11b/g network require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Gold.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable command.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Video CAC consists of two parts: Unicast Video-CAC and MC2UC CAC. If you need only Unicast Video-CAC, you must configure only static mode. If you need only MC2UC CAC, you must configure Static or Load-based CAC. Load-based CAC is not supported if SIP-CAC is enabled.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

This example shows how to enable the static CAC method for video applications on the 802.11a network:

(Cisco Controller) > config 802.11 cac video cac-method static

config 802.11 cac video load-based

To enable or disable load-based Call Admission Control (CAC) for video applications on the 802.11a or 802.11b/g network, use the config 802.11 cac video load-based command.

config 802.11 { a | b} cac video load-based { enable | disable}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

enable

Enables load-based CAC for video applications on the 802.11a or 802.11b/g network.

Load-based or dynamic CAC incorporates a measurement scheme that takes into account the bandwidth consumed by all traffic types from itself, from co-channel access points, and by collocated channel interference. Load-based CAC also covers the additional bandwidth consumption results from PHY and channel impairment. The access point admits a new call only if the channel has enough unused bandwidth to support that call.

disable

Disables load-based CAC method for video applications on the 802.11a or 802.11b/g network.

Command Default

Disabled.

Usage Guidelines

CAC commands for video applications on the 802.11a or 802.11b/g network require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Gold.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable command.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Video CAC consists of two parts: Unicast Video-CAC and MC2UC CAC. If you need only Unicast Video-CAC, you must configure only static mode. If you need only MC2UC CAC, you must configure Static or Load-based CAC. Load-based CAC is not supported if SIP-CAC is enabled.


Note

Load-based CAC is not supported if SIP-CAC is enabled.


Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

This example shows how to enable load-based CAC method for video applications on the 802.11a network:

(Cisco Controller) > config 802.11 cac video load-based enable

config 802.11 cac video max-bandwidth

To set the percentage of the maximum bandwidth allocated to clients for video applications on the 802.11a or 802.11b/g network, use the config 802.11 cac video max-bandwidth command.

config 802.11{ a | b} cac video max-bandwidth bandwidth

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

bandwidth

Bandwidth percentage value from 5 to 85%.

Command Default

The default maximum bandwidth allocated to clients for video applications on the 802.11a or 802.11b/g network is 0%.

Usage Guidelines

The maximum radio frequency (RF) bandwidth cannot exceed 85% for voice and video. Once the client reaches the value specified, the access point rejects new calls on this network.


Note

If this parameter is set to zero (0), the controller assumes that you do not want to allocate any bandwidth and allows all bandwidth requests.


Call Admission Control (CAC) commands require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Platinum.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the config 802.11{a | b}  cac voice acm enable , or config 802.11{a | b}  cac video acm enable commands.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to specify the percentage of the maximum allocated bandwidth for video applications on the selected radio band:


(Cisco Controller) > config 802.11 cac video max-bandwidth 50

config 802.11 cac media-stream

To configure media stream Call Admission Control (CAC) voice and video quality parameters for 802.11a and 802.11b networks, use the config 802.11 cac media-stream command.

config 802.11 { a | b} cac media-stream multicast-direct { max-retry-percent retry-percentage | min-client-rate dot11-rate}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

multicast-direct

Configures CAC parameters for multicast-direct media streams.

max-retry-percent

Configures the percentage of maximum retries that are allowed for multicast-direct media streams.

retry-percentage

Percentage of maximum retries that are allowed for multicast-direct media streams.

min-client-rate

Configures the minimum transmission data rate to the client for multicast-direct media streams.

dot11-rate

Minimum transmission data rate to the client for multicast-direct media streams. Rate in kbps at which the client can operate.

If the transmission data rate is below this rate, either the video will not start or the client may be classified as a bad client. The bad client video can be demoted for better effort QoS or subject to denial. The available data rates are 6000, 9000, 12000, 18000, 24000, 36000, 48000, 54000, and 11n rates.

Command Default

The default value for the maximum retry percent is 80. If it exceeds 80, either the video will not start or the client might be classified as a bad client. The bad client video will be demoted for better effort QoS or is subject to denial.

Usage Guidelines

CAC commands for video applications on the 802.11a or 802.11b/g network require that the WLAN you are planning to modify is configured for Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Gold.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable command.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure the maximum retry percent for multicast-direct media streams as 90 on a 802.11a network:

(Cisco Controller) > config 802.11 cac media-stream multicast-direct max-retry-percent 90

config 802.11 cac multimedia

To configure the CAC media voice and video quality parameters for 802.11a and 802.11b networks, use the config 802.11 cac multimedia command.

config 802.11 { a | b} cac multimedia max-bandwidth bandwidth

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

max-bandwidth

Configures the percentage of maximum bandwidth allocated to Wi-Fi Multimedia (WMM) clients for voice and video applications on the 802.11a or 802.11b/g network.

bandwidth

Percentage of the maximum bandwidth allocated to WMM clients for voice and video applications on the 802.11a or 802.11b/g network. Once the client reaches the specified value, the access point rejects new calls on this radio band. The range is from 5 to 85%.

Command Default

The default maximum bandwidth allocated to Wi-Fi Multimedia (WMM) clients for voice and video applications on the 802.11a or 802.11b/g network is 85%.

Usage Guidelines

Call Admission Control (CAC) commands for video applications on the 802.11a or 802.11b/g network require that the WLAN you are planning to modify is configured for Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Gold.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable command.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure the percentage of the maximum bandwidth allocated to WMM clients for voice and video applications on the 802.11a network:

(Cisco Controller) > config 802.11 cac multimedia max-bandwidth 80

config 802.11 cac video roam-bandwidth

To configure the percentage of the maximum allocated bandwidth reserved for roaming video clients on the 802.11a or 802.11b/g network, use the config 802.11 cac video roam-bandwidth command.

config 802.11{ a | b} cac video roam-bandwidth bandwidth

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

bandwidth

Bandwidth percentage value from 5 to 85%.

Command Default

The maximum allocated bandwidth reserved for roaming video clients on the 802.11a or 802.11b/g network is 0%.

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Usage Guidelines

The controller reserves the specified bandwidth from the maximum allocated bandwidth for roaming video clients.


Note

If this parameter is set to zero (0), the controller assumes that you do not want to do any bandwidth allocation and, therefore, allows all bandwidth requests.


CAC commands require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Platinum.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11 {a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11 {a | b}  cac voice acm enable or config 802.11 {a | b}  cac video acm enable command.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Examples

The following example shows how to specify the percentage of the maximum allocated bandwidth reserved for roaming video clients on the selected radio band:


(Cisco Controller) > config 802.11 cac video roam-bandwidth 10

config 802.11 cac video sip

To enable or disable video Call Admission Control (CAC) for nontraffic specifications (TSPEC) SIP clients using video applications on the 802.11a or 802.11b/g network, use the config 802.11 cac video sip command.

config 802.11 { a | b} cac video sip { enable | disable}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

enable

Enables video CAC for non-TSPEC SIP clients using video applications on the 802.11a or 802.11b/g network.

When you enable video CAC for non-TSPEC SIP clients, you can use applications like Facetime and CIUS video calls.

disable

Disables video CAC for non-TSPEC SIP clients using video applications on the 802.11a or 802.11b/g network.

Command Default

None

Usage Guidelines

CAC commands for video applications on the 802.11a or 802.11b/g network require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Gold.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11 {a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable command.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

  • Enable call snooping on the WLAN on which the SIP client is present by entering the config wlan call-snoop enable wlan_id command.

Examples

The following example shows how to enable video CAC for non-TSPEC SIP clients using video applications on the 802.11a network:


(Cisco Controller) > config 802.11 cac video sip enable

config 802.11 cac video tspec-inactivity-timeout

To process or ignore the Call Admission Control (CAC) Wi-Fi Multimedia (WMM) traffic specifications (TSPEC) inactivity timeout received from an access point, use the config 802.11 cac video tspec-inactivity-timeout command.

config 802.11{ a | b} cac video tspec-inactivity-timeout { enable | ignore}

Syntax Description

a

Specifies the 802.11a network.

ab

Specifies the 802.11b/g network.

enable

Processes the TSPEC inactivity timeout messages.

ignore

Ignores the TSPEC inactivity timeout messages.

Command Default

The default CAC WMM TSPEC inactivity timeout received from an access point is disabled (ignore).

Usage Guidelines

CAC commands require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Platinum.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable commands.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Examples

This example shows how to process the response to TSPEC inactivity timeout messages received from an access point:


(Cisco Controller) > config 802.11a cac video tspec-inactivity-timeout enable

This example shows how to ignore the response to TSPEC inactivity timeout messages received from an access point:


(Cisco Controller) > config 802.11a cac video tspec-inactivity-timeout ignore

config 802.11 cac voice acm

To enable or disable bandwidth-based voice Call Admission Control (CAC) for the 802.11a or 802.11b/g network, use the config 802.11 cac voice acm command.

config 802.11{ a | b} cac voice acm { enable | disable}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

enable

Enables the bandwidth-based CAC.

disable

Disables the bandwidth-based CAC.

Command Default

The default bandwidth-based voice CAC for the 802.11a or 802.11b/g network id disabled.

Usage Guidelines

CAC commands require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Platinum.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable commands.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Examples

This example shows how to enable the bandwidth-based CAC:


(Cisco Controller) > config 802.11c cac voice acm enable

This example shows how to disable the bandwidth-based CAC:


(Cisco Controller) > config 802.11b cac voice acm disable

config 802.11 cac voice max-bandwidth

To set the percentage of the maximum bandwidth allocated to clients for voice applications on the 802.11a or 802.11b/g network, use the config 802.11 cac voice max-bandwidth command.

config 802.11{ a | b} cac voice max-bandwidth bandwidth

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

bandwidth

Bandwidth percentage value from 5 to 85%.

Command Default

The default maximum bandwidth allocated to clients for voice applications on the 802.11a or 802.11b/g network is 0%.

Usage Guidelines

The maximum radio frequency (RF) bandwidth cannot exceed 85% for voice and video. Once the client reaches the value specified, the access point rejects new calls on this network.

CAC commands require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Platinum.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable commands.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to specify the percentage of the maximum allocated bandwidth for voice applications on the selected radio band:


(Cisco Controller) > config 802.11a cac voice max-bandwidth 50

config 802.11 cac voice roam-bandwidth

To configure the percentage of the Call Admission Control (CAC) maximum allocated bandwidth reserved for roaming voice clients on the 802.11a or 802.11b/g network, use the config 802.11 cac voice roam-bandwidth command.

config 802.11{ a | b} cac voice roam-bandwidth bandwidth

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

bandwidth

Bandwidth percentage value from 0 to 85%.

Command Default

The default CAC maximum allocated bandwidth reserved for roaming voice clients on the 802.11a or 802.11b/g network is 85%.

Usage Guidelines

The maximum radio frequency (RF) bandwidth cannot exceed 85% for voice and video. The controller reserves the specified bandwidth from the maximum allocated bandwidth for roaming voice clients.


Note

If this parameter is set to zero (0), the controller assumes you do not want to allocate any bandwidth and therefore allows all bandwidth requests.


CAC commands require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Platinum.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable commands.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure the percentage of the maximum allocated bandwidth reserved for roaming voice clients on the selected radio band:


(Cisco Controller) > config 802.11 cac voice roam-bandwidth 10

config 802.11 cac voice tspec-inactivity-timeout

To process or ignore the Wi-Fi Multimedia (WMM) traffic specifications (TSPEC) inactivity timeout received from an access point, use the config 802.11 cac voice tspec-inactivity-timeout command.

config 802.11{ a | b} cac voice tspec-inactivity-timeout { enable | ignore}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

enable

Processes the TSPEC inactivity timeout messages.

ignore

Ignores the TSPEC inactivity timeout messages.

Command Default

The default WMM TSPEC inactivity timeout received from an access point is disabled (ignore).

Usage Guidelines

Call Admission Control (CAC) commands require that the WLAN you are planning to modify is configured for Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Platinum.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable commands.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to enable the voice TSPEC inactivity timeout messages received from an access point:



(Cisco Controller) > config 802.11 cac voice tspec-inactivity-timeout enable

config 802.11 cac voice load-based

To enable or disable load-based Call Admission Control (CAC) for the 802.11a or 802.11b/g network, use the config 802.11 cac voice load-based command.

config 802.11{ a | b} cac voice load-based { enable | disable}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

enable

Enables load-based CAC.

disable

Disables load-based CAC.

Command Default

The default load-based CAC for the 802.11a or 802.11b/g network is disabled.

Usage Guidelines

CAC commands require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Platinum.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command .

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable commands.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to enable the voice load-based CAC parameters:


(Cisco Controller) > config 802.11a cac voice load-based enable

The following example shows how to disable the voice load-based CAC parameters:


(Cisco Controller) > config 802.11a cac voice load-based disable

config 802.11 cac voice max-calls


Note

Do not use the config 802.11 cac voice max-calls command if the SIP call snooping feature is disabled and if the SIP based Call Admission Control (CAC) requirements are not met.


To configure the maximum number of voice call supported by the radio, use the config 802.11 cac voice max-calls command.

config 802.11{ a | b} cac voice max-calls number

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

number

Number of calls to be allowed per radio.

Command Default

The default maximum number of voice call supported by the radio is 0, which means that there is no maximum limit check for the number of calls.

Usage Guidelines

CAC commands require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Platinum.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command .

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable commands.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure the maximum number of voice calls supported by radio:


(Cisco Controller) > config 802.11 cac voice max-calls 10

config 802.11 cac voice sip bandwidth


Note

SIP bandwidth and sample intervals are used to compute per call bandwidth for the SIP-based Call Admission Control (CAC).


To configure the bandwidth that is required per call for the 802.11a or 802.11b/g network, use the config 802.11 cac voice sip bandwidth command.

config 802.11{ a | b} cac voice sip bandwidth bw_kbps sample-interval number_msecs

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

bw_kbps

Bandwidth in kbps.

sample-interval

Specifies the packetization interval for SIP codec.

number_msecs

Packetization sample interval in msecs. The sample interval for SIP codec is 20 seconds.

Command Default

None

Usage Guidelines

CAC commands require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Platinum.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable commands.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure the bandwidth and voice packetization interval for a SIP codec:


(Cisco Controller) > config 802.11 cac voice sip bandwidth 10 sample-interval 40

config 802.11 cac voice sip codec

To configure the Call Admission Control (CAC) codec name and sample interval as parameters and to calculate the required bandwidth per call for the 802.11a or 802.11b/g network, use the config 802.11 cac voice sip codec command.

config 802.11{ a | b} cac voice sip codec { g711 | g729} sample-interval number_msecs

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

g711

Specifies CAC parameters for the SIP G711 codec.

g729

Specifies CAC parameters for the SIP G729 codec.

sample-interval

Specifies the packetization interval for SIP codec.

number_msecs

Packetization interval in msecs. The sample interval for SIP codec value is 20 seconds.

Command Default

The default CAC codec parameter is g711.

Usage Guidelines

CAC commands require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Platinum.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable commands.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure the codec name and sample interval as parameters for SIP G711 codec:


(Cisco Controller) >  config 802.11a cac voice sip codec g711 sample-interval 40

This example shows how to configure the codec name and sample interval as parameters for SIP G729 codec:


(Cisco Controller) > config 802.11a cac voice sip codec g729 sample-interval 40

config 802.11 cac voice stream-size

To configure the number of aggregated voice Wi-Fi Multimedia (WMM) traffic specification (TSPEC) streams at a specified data rate for the 802.11a or 802.11b/g network, use the config 802.11 cac voice stream-size command.

config 802.11{ a | b} cac voice stream-size stream_size number mean_datarate max-streams mean_datarate

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

stream-size

Configures the maximum data rate for the stream.

stream_size

Range of stream size is between 84000 and 92100.

number

Number (1 to 5) of voice streams.

mean_datarate

Configures the mean data rate.

max-streams

Configures the mean data rate of a voice stream.

mean_datarate

Mean data rate (84 to 91.2 kbps) of a voice stream.

Command Default

The default number of streams is 2 and the mean data rate of a stream is 84 kbps.

Usage Guidelines

Call Admission Control (CAC) commands require that the WLAN you are planning to modify is configured for the Wi-Fi Multimedia (WMM) protocol and the quality of service (QoS) level be set to Platinum.

Before you can configure CAC parameters on a network, you must complete the following prerequisites:

  • Disable all WLANs with WMM enabled by entering the config wlan disable wlan_id command.

  • Disable the radio network you want to configure by entering the config 802.11{a | b}  disable network command.

  • Save the new configuration by entering the save config command.

  • Enable voice or video CAC for the network you want to configure by entering the 
config 802.11{a | b}  cac voice acm enable or config 802.11{a | b}  cac video acm enable commands.

    For complete instructions, see the “Configuring Voice and Video Parameters” section in the “Configuring Controller Settings” chapter of the Cisco Wireless LAN Controller Configuration Guide for your release.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure the number of aggregated voice traffic specifications stream with the stream size 5 and the mean data rate of 85000 kbps:


(Cisco Controller) > config 802.11 cac voice stream-size 5 max-streams size 85

config 802.11 cleanair

To enable or disable CleanAir for the 802.11 a or 802.11 b/g network, use the config 802.11 cleanair command.

config 802.11{ a | b} cleanair { alarm { air-quality { disable | enable | threshold alarm_threshold } | device { disable device_type | enable device_type | reporting { disable | enable} | unclassified { disable | enable | threshold alarm_threshold }} | device { disable device_type | enable device_type | reporting { disable | enable} | disable { network | cisco_ap} | enable { network | cisco_ap}}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

alarm

Configure 5-GHz cleanair alarms.

air-quality

Configures the 5-GHz air quality alarm.

enable

Enables the CleanAir settings.

disable

Disables the CleanAir settings.

threshold

Configure the 5-GHz air quality alarm threshold.

alarm_threshold

Air quality alarm threshold (1 is bad air quality, and 100 is good air quality).

device

Configures the 5-GHz cleanair interference devices alarm.

device_type

Device types. The device types are as follows:

  • 802.11-nonstd—Devices using nonstandard Wi-Fi channels.

  • 802.11-inv—Devices using spectrally inverted Wi-Fi signals.

  • superag—802.11 SuperAG devices.

  • all —All interference device types.

  • cont-tx—Continuous Transmitter.

  • dect-like—Digital Enhanced Cordless Communication (DECT) like phone.

  • tdd-tx—TDD Transmitter.

  • jammer—Jammer.

  • canopy—Canopy devices.

  • video—Video cameras.

  • wimax-mobile—WiMax Mobile.

  • wimax-fixed—WiMax Fixed.

reporting

Configures the 5-GHz CleanAir interference devices alarm reporting.

unclassified

Configures the 5-GHz air quality alarm on exceeding unclassified category severity.

network

5-GHz Cisco APs.

cisco_ap

Name of the access point to which the command applies.

Command Default

The default CleanAir settings for the 802.11 a or 802.11 b/g network is disabled.

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to enable the CleanAir settings on access point ap_24:


(Cisco Controller) > config 802.11a cleanair enable ap_24

config 802.11 cleanair device

To configure CleanAir interference device types, use the config 802.11 cleanair device command.

config 802.11{ a | b} cleanair device { enable | disable | reporting { enable | disable}} device_type

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

enable

Enables the CleanAir reporting for the interference device type.

disable

Disables the CleanAir reporting for the interference device type.

reporting

Configures CleanAir interference device reporting.

enable

Enables the 5-GHz Cleanair interference devices reporting.

disable

Disables the 5-GHz Cleanair interference devices reporting.

device_type

Interference device type. The device type are as follows:

  • 802.11-nonstd—Devices using nonstandard WiFi channels.

  • 802.11-inv—Devices using spectrally inverted WiFi signals.

  • superag—802.11 SuperAG devices.

  • all —All interference device types.

  • cont-tx—Continuous Transmitter.

  • dect-like—Digital Enhanced Cordless Communication (DECT) like phone.

  • tdd-tx—TDD Transmitter.

  • jammer—Jammer.

  • canopy—Canopy devices.

  • video—Video cameras.

  • wimax-mobile—WiMax Mobile.

  • wimax-fixed—WiMax Fixed.

Command Default

The default setting CleanAir reporting for the interference device type is disabled.

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to enable the CleanAir reporting for the device type jammer:


(Cisco Controller) > config 802.11a cleanair device enable jammer

The following example shows how to disable the CleanAir reporting for the device type video:


(Cisco Controller) > config 802.11a cleanair device disable video

The following example shows how to enable the CleanAir interference device reporting:


(Cisco Controller) > config 802.11a cleanair device reporting enable

config 802.11 cleanair alarm

To configure the triggering of the air quality alarms, use the config 802.11 cleanair alarm command.

config 802.11{ a | b} cleanair alarm { air-quality { disable | enable | threshold alarm_threshold } | device { disable device_type | enable device_type | reporting { disable | enable } | unclassified { disable | enable | threshold alarm_threshold }}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

air-quality

Configures the 5-GHz air quality alarm.

disable

Disables the 5-GHz air quality alarm.

enable

Enables the 5-GHz air quality alarm.

threshold

Configures the 5-GHz air quality alarm threshold.

alarm_threshold

Air quality alarm threshold (1 is bad air quality, and 100 is good air quality).

device

Configures the 5-GHz cleanair interference devices alarm.

all

Configures all the device types at once.

reporting

Configures the 5-GHz CleanAir interference devices alarm reporting.

unclassified

Configures the 5-GHz air quality alarm on exceeding unclassified category severity.

device_type

Device types. The device types are as follows:

  • 802.11-nonstd—Devices using nonstandard Wi-Fi channels.

  • 802.11-inv—Devices using spectrally inverted Wi-Fi signals.

  • superag—802.11 SuperAG devices.

  • all —All interference device types.

  • cont-tx—Continuous Transmitter.

  • dect-like—Digital Enhanced Cordless Communication (DECT) like phone.

  • tdd-tx—TDD Transmitter.

  • jammer—Jammer.

  • canopy—Canopy devices.

  • video—Video cameras.

  • wimax-mobile—WiMax Mobile.

  • wimax-fixed—WiMax Fixed.

Command Default

The default setting for 5-GHz air quality alarm is enabled.

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to enable the CleanAir alarm to monitor the air quality:


(Cisco Controller) > config 802.11a cleanair alarm air-quality enable

The following example shows how to enable the CleanAir alarm for the device type video:


(Cisco Controller) > config 802.11a cleanair alarm device enable video

The following example shows how to enable alarm reporting for the CleanAir interference devices:


(Cisco Controller) > config 802.11a cleanair alarm device reporting enable

config 802.11 disable

To disable radio transmission for an entire 802.11 network or for an individual Cisco radio, use the config 802.11 disable command.

config 802.11{ a | b} disable { network | cisco_ap}

Syntax Description

a

Configures the 802.11a on slot 1 and 802.11ac radio on slot 2. radio.

b

Specifies the 802.11b/g network.

network

Disables transmission for the entire 802.11a network.

cisco_ap

Individual Cisco lightweight access point radio.

Command Default

The transmission is enabled for the entire network by default.

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Usage Guidelines

  • You must use this command to disable the network before using many config 802.11 commands.
  • This command can be used any time that the CLI interface is active.

Examples

The following example shows how to disable the entire 802.11a network:

(Cisco Controller) >config 802.11a disable network

The following example shows how to disable access point AP01 802.11b transmissions:

(Cisco Controller) >config 802.11b disable AP01

config 802.11 dtpc

To enable or disable the Dynamic Transmit Power Control (DTPC) setting for an 802.11 network, use the config 802.11 dtpc command.

config 802.11{ a | b} dtpc { enable | disable}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

enable

Enables the support for this command.

disable

Disables the support for this command.

Command Default

The default DTPC setting for an 802.11 network is enabled.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to disable DTPC for an 802.11a network:


(Cisco Controller) > config 802.11a dtpc disable

config 802.11 enable

To enable radio transmission for an entire 802.11 network or for an individual Cisco radio, use the config 802.11 enable command.

config 802.11{ a | b} enable { network | cisco_ap}

Syntax Description

a

Configures the 802.11a radioon slot 1 and 802.11ac on slot 2.

b

Specifies the 802.11b/g network.

network

Disables transmission for the entire 802.11a network.

cisco_ap

Individual Cisco lightweight access point radio.

Command Default

The transmission is enabled for the entire network by default.

Usage Guidelines

Use this command with the config 802.11 disable command when configuring 802.11 settings.

This command can be used any time that the CLI interface is active.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to enable radio transmission for the entire 802.11a network:


(Cisco Controller) > config 802.11a enable network

The following example shows how to enable radio transmission for AP1 on an 802.11b network:


(Cisco Controller) > config 802.11b enable AP1

config 802.11 exp-bwreq

To enable or disable the Cisco Client eXtension (CCX) version 5 expedited bandwidth request feature for an 802.11 radio, use the config 802.11 exp-bwreq command.

config 802.11{ a | b} exp-bwreq { enable | disable}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

enable

Enables the expedited bandwidth request feature.

disable

Disables the expedited bandwidth request feature.

Command Default

The expedited bandwidth request feature is disabled by default.

Usage Guidelines

When this command is enabled, the controller configures all joining access points for this feature.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to enable the CCX expedited bandwidth settings:


(Cisco Controller) > config 802.11a exp-bwreq enable
Cannot change Exp Bw Req mode while 802.11a network is operational.

The following example shows how to disable the CCX expedited bandwidth settings:


(Cisco Controller) > config 802.11a exp-bwreq disable

config 802.11 fragmentation

To configure the fragmentation threshold on an 802.11 network, use the config 802.11 fragmentation command.

config 802.11{ a | b} fragmentation threshold


Note

This command can only be used when the network is disabled using the config 802.11 disable command.


Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

threshold

Number between 256 and 2346 bytes (inclusive).

Command Default

None.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

This example shows how to configure the fragmentation threshold on an 802.11a network with the threshold number of 6500 bytes:


(Cisco Controller) > config 802.11a fragmentation 6500

config 802.11 l2roam rf-params

To configure 802.11a or 802.11b/g Layer 2 client roaming parameters, use the 
config 802.11 l2roam rf-params command.

config 802.11{ a | b} l2roam rf-params { default | custom min_rssi roam_hyst scan_thresh trans_time}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

default

Restores Layer 2 client roaming RF parameters to default values.

custom

Configures custom Layer 2 client roaming RF parameters.

min_rssi

Minimum received signal strength indicator (RSSI) that is required for the client to associate to the access point. If the client’s average received signal power dips below this threshold, reliable communication is usually impossible. Clients must already have found and roamed to another access point with a stronger signal before the minimum RSSI value is reached. The valid range is –80 to –90 dBm, and the default value is –85 dBm.

roam_hyst

How much greater the signal strength of a neighboring access point must be in order for the client to roam to it. This parameter is intended to reduce the amount of roaming between access points if the client is physically located on or near the border between the two access points. The valid range is 2 to 4 dB, and the default value is 2 dB.

scan_thresh

Minimum RSSI that is allowed before the client should roam to a better access point. When the RSSI drops below the specified value, the client must be able to roam to a better access point within the specified transition time. This parameter also provides a power-save method to minimize the time that the client spends in active or passive scanning. For example, the client can scan slowly when the RSSI is above the threshold and scan more rapidly when the RSSI is below the threshold. The valid range is –70 to –77 dBm, and the default value is –72 dBm.

trans_time

Maximum time allowed for the client to detect a suitable neighboring access point to roam to and to complete the roam, whenever the RSSI from the client’s associated access point is below the scan threshold. The valid range is 1 to 10 seconds, and the default value is 5 seconds.

Note 

For high-speed client roaming applications in outdoor mesh environments, we recommend that you set the transition time to 1 second.

Command Default

The default minimum RSSI is -85 dBm. The default signal strength of a neighboring access point is 2 dB. The default scan threshold value is -72 dBm. The default time allowed for the client to detect a suitable neighboring access point to roam to and to complete the roam is 5 seconds.

Usage Guidelines

For high-speed client roaming applications in outdoor mesh environments, we recommend that you set the trans_time to 1 second.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure custom Layer 2 client roaming parameters on an 802.11a network:


(Cisco Controller) > config 802.11 l2roam rf-params custom –80 2 –70 7

config 802.11 max-clients

To configure the maximum number of clients per access point, use the config 802.11 max-clients command.

config 802.11{ a | b} max-clients max-clients

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

max-clients

Configures the maximum number of client connections per access point.

max-clients

Maximum number of client connections per access point. The range is from 1 to 200.

Command Default

None

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to set the maximum number of clients at 22:


(Cisco Controller) > config 802.11 max-clients 22

config 802.11 media-stream multicast-direct

To configure the media stream multicast-direct parameters for the 802.11 networks, use the config 802.11 media-stream multicast-direct command.

config 802.11{ a | b} media-stream multicast-direct { admission-besteffort { enable | disable} | { client-maximum | radio-maximum} { value | no-limit } | enable | disable}

Syntax Description

802.11a

Specifies the 802.11a network.

802.11b

Specifies the 802.11b/g network.

admission-besteffort

Admits media stream to best-effort queue.

enable

Enables multicast-direct on a 2.4-GHz or a 5-GHz band.

disable

Disables multicast-direct on a 2.4-GHz or a 5-GHz band.

client-maximum

Specifies the maximum number of streams allowed on a client.

radio-maximum

Specifies the maximum number of streams allowed on a 2.4-GHz or a 5-GHz band.

value

Number of streams allowed on a client or on a 2.4-GHz or a 5-GHz band, between 1 to 20.

no-limit

Specifies the unlimited number of streams allowed on a client or on a 2.4-GHz or a 5-GHz band.

Command Default

None

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Usage Guidelines

Before you configure the media stream multicast-direct parameters on a 802.11 network, ensure that the network is nonoperational.

Examples

This example shows how to enable a media stream multicast-direct settings on an 802.11a network:


> config 802.11a media-stream multicast-direct enable

This example shows how to admit the media stream to the best-effort queue:


> config 802.11a media-stream multicast-direct admission-besteffort enable

This example shows how to set the maximum number of streams allowed on a client:


> config 802.11a media-stream multicast-direct client-maximum 10

config 802.11 media-stream video-redirect

To configure the media stream video-redirect for the 802.11 networks, use the config 802.11 media-stream video-redirect command.

config 802.11{ a | b} media-stream video-redirect { enable | disable}

Syntax Description

802.11a

Specifies the 802.11a network.

802.11b

Specifies the 802.11b/g network.

enable

Enables traffic redirection.

disable

Disables traffic redirection.

Command Default

None.

Usage Guidelines

Before you configure the media stream video-redirect on a 802.11 network, ensure that the network is nonoperational.

Examples

This example shows how to enable media stream traffic redirection on an 802.11a network:


> config 802.11a media-stream video-redirect enable

config 802.11 multicast data-rate

To configure the minimum multicast data rate, use the config 802.11 multicast data-rate command.

config 802.11{ a | b} multicast data-rate data_rate [ ap ap_name | default]

Syntax Description

data_rate

Minimum multicast data rates. The options are 6, 9, 12, 18, 24, 36, 48, 54. Enter 0 to specify that APs will dynamically adjust the number of the buffer allocated for multicast.

ap_name

Specific AP radio in this data rate.

default

Configures all APs radio in this data rate.

Command Default

The default is 0 where the configuration is disabled and the multicast rate is the lowest mandatory data rate and unicast client data rate.

Usage Guidelines

When you configure the data rate without the AP name or default keyword, you globally reset all the APs to the new value and update the controller global default with this new data rate value. If you configure the data rate with default keyword, you only update the controller global default value and do not reset the value of the APs that are already joined to the controller. The APs that join the controller after the new data rate value is set receives the new data rate value.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to configure minimum multicast data rate settings:


(Cisco Controller) > config 802.11 multicast data-rate 12

config 802.11 rate

To set mandatory and supported operational data rates for an 802.11 network, use the config 802.11 rate command.

config 802.11{ a | b} rate { disabled | mandatory | supported} rate

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

disabled

Disables a specific data rate.

mandatory

Specifies that a client supports the data rate in order to use the network.

supported

Specifies to allow any associated client that supports the data rate to use the network.

rate

Rate value of 6, 9, 12, 18, 24, 36, 48, or 54 Mbps.

Command Default

None

Usage Guidelines

The data rates set with this command are negotiated between the client and the Cisco wireless LAN controller. If the data rate is set to mandatory , the client must support it in order to use the network. If a data rate is set as supported by the Cisco wireless LAN controller, any associated client that also supports that rate may communicate with the Cisco lightweight access point using that rate. It is not required that a client is able to use all the rates marked supported in order to associate.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to set the 802.11b transmission at a mandatory rate at 12 Mbps:


(Cisco Controller) > config 802.11b rate mandatory 12

config 802.11 rssi-check

To configure the 802.11 RSSI Low Check feature, use the config 802.11 rssi-check command.

config 802.11 {a | b}rssi-check {enable | disable}

Syntax Description

rssi-check

Configures the RSSI Low Check feature.

enable

Enables the RSSI Low Check feature.

disable

Disables the RSSI Low Check feature.

Command Default

None

Command History

Release Modification
7.5

This command was introduced.

Usage Guidelines

config 802.11 rssi-threshold

To configure the 802.11 RSSI Low Check threshold, use the config 802.11 rssi-threshold command.

config 802.11 {a | b} rssi-threshold value-in-dBm

Syntax Description

rssi-threshold

Configures the RSSI Low Check threshold value.

value-in-dBm

RSSI threshold value in dBm. The default value is –80 dBm.

Command Default

The default value of the RSSI Low Check threshold is –80 dBm.

Command History

Release Modification
7.5

This command was introduced.

Usage Guidelines

Examples

The following example shows how to configure the RSSI threshold value to –70 dBm for an 802.11a network:

(Cisco Controller) > config 802.11a rssi-threshold –70

config 802.11 tsm

To enable or disable the video Traffic Stream Metric (TSM) option for the 802.11a or 802.11b/g network, use the config 802.11 tsm command.

config 802.11{ a | b} tsm { enable | disable}

Syntax Description

a

Specifies the 802.11a network.

b

Specifies the 802.11b/g network.

enable

Enables the video TSM settings.

disable

Disables the video TSM settings.

Command Default

By default, the TSM for the 802.11a or 802.11b/g network is disabled.

Command History

Release Modification

7.6

This command was introduced in a release earlier than Release 7.6.

Examples

The following example shows how to enable the video TSM option for the 802.11b/g network:


(Cisco Controller) > config 802.11b tsm enable

The following example shows how to disable the video TSM option for the 802.11b/g network:


(Cisco Controller) > config 802.11b tsm disable

config 802.11b preamble

To change the 802.11b preamble as defined in subclause 18.2.2.2 to long (slower, but more reliable) or short (faster, but less reliable), use the config 802.11b preamble command.

config 802.11b preamble { long | short}

Syntax Description

long

Specifies the long 802.11b preamble.

short

Specifies the short 802.11b preamble.

Command Default

The default 802.11b preamble value is short.

Command History

Release Modification
7.6 This command was introduced in a release earlier than Release 7.6.

Usage Guidelines


Note

You must reboot the Cisco Wireless LAN Controller (reset system) with save to implement this command.


This parameter must be set to long to optimize this Cisco wireless LAN controller for some clients, including SpectraLink NetLink telephones.

This command can be used any time that the CLI interface is active.

Examples

The following example shows how to change the 802.11b preamble to short:

  (Cisco Controller) >config 802.11b preamble short
  (Cisco Controller) >(reset system with save)