30 AP limit is due to memory and processor constraints on the Wireless Domain Server (WDS), which is AP functionality to provide this enhanced roaming and security. This functionality is introduced into Cisco IOS Software Release 11.2(11)JA on the Cisco APs.

Deployments that do not require this functionality, or have a physical area that requires more than 30 APs of coverage, can disable the WDS or Secure Fast Roaming functionality on the APs. This eliminates the limitation of 30 APs in the subnet or VLAN.

In the future, as WDS functionality is migrated to faster processing devices within the network, the 30 AP per subnet limitation will be expanded or removed. For more information on this, refer to Cisco Structured Wireless Aware Network (SWAN) Overview.

Understanding Layer 2 and Layer 3 Roaming

One of the obvious benefits of WLAN IP phones over wired IP phones is the ability to physically move from place to place while having a conversation. However, unlike cellular phone services, where coverage areas are usually nationwide or international, WLAN IP phones have smaller coverage areas. In addition, administrators of WLAN IP phone networks need to understand and consider their IP addressing schemes before deploying WLAN IP phones. What needs to be considered is how WLAN IP phone coverage overlays with the Layer 2 and Layer 3 addressing within the IP network. An Layer 2 network is defined as being a single IP subnet and broadcast domain. An Layer 3 network is defined as the combination of multiple IP subnets and broadcast domains.

Understanding Roaming Terminology

When discussing the term roaming, it is often good to understand the audience and their understanding of the term. For people that mostly work with voice systems, they often associate roaming with the concept of physical movement and from where a call can be originated. For people that mostly work with 802.11 data networks, they also often associate roaming with the concept of physical movement, but they often associate this with data connectivity while physically moving.

To simplify the terminology, the following two terms are introduced:

Pre−Call Roaming ￿ This is when a user with a Cisco 7920 physically moves from place to place (within a campus or between sites) before making a voice call. This roaming may be within an Layer 2 VLAN, or across Layer 3 subnet boundaries. If this is within an Layer 2 VLAN, the IP address on the Cisco 7920 remains the same. If it is across an Layer 3 boundary, and Dynamic Host Configuration Protocol (DHCP) is enabled on the Cisco 7920, the Cisco 7920 recognizes that it is no longer in the previous subnet and uses DHCP to obtain a new IP address.

Note: The process by which the Cisco 7920 recognizes that it is no longer in the correct subnet works as follows:

1.The Cisco 7920 does not received SCCP keepalive messages from the Cisco CallManager that it is registered with (30 to 90 seconds).

2.It attempts to re−register with an alternate Cisco CallManager (30 to 60 seconds).

3.It realizes that it cannot reach the Cisco CallManager through the IP address and requests a new IP address using DHCP.

Mid−Call Roaming ￿ This is when a user with a Cisco 7920 physically moves from place to place (within a campus or between sites) while a voice call is active on the phone.

Cisco − Wireless IPT Design Guide for the Cisco 7920 IP Phone

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Cisco Systems 7920 IP manual Understanding Layer 2 and Layer 3 Roaming, Understanding Roaming Terminology

7920 IP specifications

The Cisco Systems 7920 IP phone represents a significant advancement in wireless communication technology, designed specifically for enterprises that require mobility and efficiency in their communication systems. This versatile device integrates seamlessly into a Cisco IP telephony network, allowing users to maintain connectivity while on the move, which is essential in fast-paced business environments.

One of the key features of the Cisco 7920 is its robust wireless capabilities. Operating on the IEEE 802.11b/g Wi-Fi standards, it provides a reliable connection to corporate networks, ensuring that users can access voice, data, and video services without being tethered to a desk. The phone supports dynamic call handling and features a responsive LCD display that enhances user interaction, making it easier to navigate menus and manage calls.

The Cisco 7920 also offers exceptional sound quality, thanks to its advanced audio technology. With Wideband audio support, users can experience clarity in conversations, which is particularly important in environments where clear communication is vital. The phone is equipped with noise-canceling capabilities that reduce background noise, allowing users to focus on their conversations without distractions.

Security is another critical aspect of the Cisco 7920. The device supports several security protocols, including WPA and WPA2, ensuring that all communications are encrypted and secure. This is crucial for organizations that handle sensitive information and need to comply with industry regulations.

Additionally, the Cisco 7920 features an extended battery life, enabling users to make calls throughout the day without frequent recharging. Its lightweight design and ergonomic build make it comfortable to use for extended periods.

In terms of integration, the Cisco 7920 IP phone is compatible with various Cisco Unified Communications Manager software versions, allowing for easy configuration and management within existing network infrastructures. Its support for multiple languages also makes it a suitable choice for international organizations, accommodating diverse user groups.

Overall, the Cisco Systems 7920 IP phone combines the necessary features, technologies, and characteristics to meet the demands of modern enterprise communication. Its blend of wireless capability, superior audio quality, security measures, and integration versatility makes it an excellent choice for organizations seeking efficient and reliable communication solutions.