Wireless advantages increase with IEEE 802.11n, say Rockwell Automation, Cisco
IEEE 802.11n wireless protocol has throughput up to six times existing wireless networks, better packet retry handling, and backward compatibility, according to Cisco and Rockwell Automation.
IEEE 802.11n wireless protocol offers industrial automation networking applications better performance for control and automation, with throughput up to 6x existing wireless networks, better packet retry handling, plus backward compatibility.
Wireless is about eliminating cost because cabling can be unreliable. Further, IEEE 802.11n wireless protocol has additional advantages, including up to six times the throughput of existing wireless networks, explained Paul Brooks, business development manager, networks portfolio, for Rockwell Automation.
Brooks and Dan Knight, Cisco industry solutions manager, during an Automation Fair presentation in November 2009, touted the benefits of wireless, saying that wireless makes people more efficient and effective. It helps locate people and equipment more quickly, and it makes video surveillance much more economical. And IEEE 802.11n is particularly well suited for industrial monitoring and control, especially in applications where cabling is impractical or might fail. Often, a combination of wired and wireless technologies can quickly provide the best possible implementation, Brooks said. In one of many examples provided, Knight explained how Metroline Greenhouses, with 5.8 million square ft, reduced inventory by 15%, improvement worker productivity, with same staffing.
Rockwell Automation has been working with Cisco on industrial Ethernet network, most recently using the Cisco unified wireless network. Brooks and Knight said the unified wireless network is architecturally flexible, can stand alone in an application, or can operate with a controller-based solution, with components, as needed, for the application.
IEEE 802.11n protocol has:
- Multiple input and multiple output (MIMO) capabilities, which increases fidelity.
- 40 MHz, packet aggregation (like carpooling), and multiple antennae capability, which can multiply throughput (more lanes on the highway);
- Fewer transmissions and acknowledgments, which helps with many control applications;
- Backward compatibility with IEEE 802.11a, b, and g in 2.4 and 5 GHz, for less interference and more channel operations; and
- Twice the reliability and predictability.
Enhanced testing, Brooks said, has demonstrated:
- Point to multi-point capability providing wire-speed performance through a wireless network;
- Packet aggregation of up to 19,000 packets per second;
- Zonal coverage to find non-overlapping channel. This is made possible with 21 channels using 5 GHz, compared to 3 channels in 2.4 GHz.
- Up to 300,000 packets/sec of data are possible using multiple radios and channels; and
- Radio frequency co-existence is possible, IEEE 802.11 b/g and n with IEEE 802.15.4. Four channels are available and the network will locate others as available in real time.
"For the right applications, this is very suitable technology," Brooks said.
Also read, from MBT :
IEEE 802.11n has benefits beyond speed
- Mark T. Hoske, online products editor, Manufacturing Business Technology , MBT, www.mbtmag.com
|Search the online Automation Integrator Guide|
Case Study Database
Get more exposure for your case study by uploading it to the Control Engineering case study database, where end-users can identify relevant solutions and explore what the experts are doing to effectively implement a variety of technology and productivity related projects.
These case studies provide examples of how knowledgeable solution providers have used technology, processes and people to create effective and successful implementations in real-world situations. Case studies can be completed by filling out a simple online form where you can outline the project title, abstract, and full story in 1500 words or less; upload photos, videos and a logo.
Click here to visit the Case Study Database and upload your case study.