Cisco Systems 7920 manual Data Rate and Signal Strength Considerations

Models: 7920

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Chapter 1 Overview

Recommendations for Successful VoIP Surveys

Figure 1-4also illustrates the recommended overlap of 15 to 20 percent for WIPT cells (larger than the 10 to 15 percent for data cells). The reason for the increase in overlap is to provide enough capacity for quality calls, efficient roams, and better load balancing. With a 15% to 20% overlap the call capacity would be double that of a cell without overlap. However, it is important to avoid excess overlap because it can cause frequent roams by the WIPT clients which may result in lower quality calls.

Data Rate and Signal Strength Considerations

You should consider data rate and signal strength before beginning any WIPT site survey. Signal strength or transmitting power of the access point radio combines the configured transmit power of the access point and the antenna attached to it. If an additional antenna cable is placed between the access point and the existing antenna cable, there is a loss in transmitted power. Generally, the longer the cable between the access point and the antenna, the lower the transmitted signal strength will be. The combination of radio transmit power, antenna cable loss, and antenna gain is known as Effective Isotropic Radiated Power (EIRP). For example, if the 100mW transmit power of the radio equals 20 dBm, the loss of a 100-foot cable is 6 dB, and the gain of an antenna is 3 dBi, the result is an EIRP of 17 dBm. Using the EIRP value of 17 dBm from this example and considering the receiver sensitivity of the Cisco 7920 radio, the coverage area in an open office without noise would be about 140 feet from the access point at a data rate of 11 Mbps.

This example highlights the guidelines for surveying for the Cisco 7920 WIPT handset. Cisco recommends an access point data rate configuration of 11 Mbps for WIPT cells. The faster data rate means that packets take less time to be received and results in higher call quality. The 1-Mbps data rate has a theoretical throughput of 650,000 bits per second for 256-byte packets. The codec used by the Cisco 7920 has a packet size of 236 bytes. The data rate of 11 Mbps has a theoretical throughput of 2,000,000 bits per second for 256-byte packets. This means the Cisco 7920 packets require almost 4 times more time at the 1 Mbps than at the11-Mbps data rate. Another important reason for using the

11-Mbps data rate is the reduced cell size. At 11 Mbps, the 802.11b/g radio of the access point has an open office cell size with a radius of 160 feet. The 1-Mbps cell size for the same radio has a radius of over 400 feet. The larger the cell size, the more clients that can be active in the cell. For the Cisco 7920, we recommend only 7 handsets in a cell, which results in better quality calls.

The data rates configured on the access point depend on the other types of client devices used at the customer site. The customer might have an installed base of legacy 802.11 clients that require support of a 2-Mbps data rate. It is highly unlikely that any 802.11b network would need support for a data rate of 1 Mbps. This rate should be disabled because it uses long headers, and the slowest required data rate is the data rate used by the access point to send 802.11 control and management packets. Other configuration parameters that could have negative impact on legacy 802.11 performance are short headers and beacon rates. The 350 series access point, the 1100 series access point, and 1200 series access point running Cisco IOS software default to short headers, as do the Cisco 7920 handsets.

Note Older clients might require long headers. The Cisco 7920 works correctly with long headers, as should all client devices.

802.11b might use a long 144-bit preamble or a shorter 72-bit preamble. The short preamble cuts 96 ms off the transmission time of every packet. It can significantly improve performance, especially for smaller-sized voice packets. There is a throughput hit with long headers of about 500,000 kbps with a 256-byte packet at the 11-Mbps data rate.

Note An 802.11 transmission channel is simplex only. Only one device can transmit at a time, exactly like shared Ethernet.

Site Survey Guide for Deploying Cisco 7920 IP Phones

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Cisco Systems 7920 manual Data Rate and Signal Strength Considerations

7920 specifications

Cisco Systems, a leading player in the global networking and communications technology sector, designed the Cisco 7920 Wireless IP Phone for mobile professionals seeking seamless connectivity in various environments. Primarily aimed at enhancing communication within enterprise settings, this wireless device offers a plethora of features that cater to the specific needs of businesses.

At the core of the Cisco 7920 is its robust wireless functionality. It operates on IEEE 802.11b/g wireless protocols, allowing users to connect effortlessly to Wi-Fi networks. This flexibility enables employees to communicate effectively from various locations within an office space, promoting mobility and collaboration without being tethered to a desk.

The ergonomic design of the Cisco 7920 prioritizes user comfort. Its lightweight casing and intuitive button layout ensure that users can navigate the interface with ease. The device is equipped with a vibrant color display, allowing for clear visibility of caller ID, call status, and menu options, enhancing the user experience further. Additionally, the handset supports a wide variety of languages, making it suitable for global teams.

In terms of features, the Cisco 7920 is loaded with advanced capabilities. It supports voice over IP (VoIP), delivering high-quality audio and ensuring reliable communication. Users benefit from features like a contextual menu, call hold, transfer, conference calling, and voicemail access on the go. The phone also offers a wide range of ringtones, allowing customization to suit personal preferences or company branding.

Security is a crucial aspect of modern telecommunications, and the Cisco 7920 does not fall short. It incorporates industry-standard security protocols such as Wired Equivalent Privacy (WEP) and Wi-Fi Protected Access (WPA), safeguarding communications from potential threats.

Moreover, the Cisco 7920 integrates seamlessly with Cisco Unified Communications Manager, enabling centralized management and control. This integration ensures that IT departments can deploy, manage, and troubleshoot devices efficiently, streamlining operations while ensuring optimal performance.

In conclusion, the Cisco 7920 Wireless IP Phone stands out as a versatile communication tool designed for the fast-paced workplace. Its combination of wireless connectivity, ergonomic design, advanced features, and robust security makes it an essential accessory for businesses looking to elevate their communication strategies. With its established reputation, Cisco continues to support companies in achieving seamless connectivity and effective collaboration.