Engineers can insert the NI 9795 C Series gateway into any available slot in a CompactRIO chassis to complement existing measurement and control systems with wireless I/O. With a similar software experience, combining wired CompactRIO monitoring and control systems with distributed WSN measurements is easier than ever. The new C Series gateway is a key addition to the existing programmable and non-programmable WSN gateways offering customers different choices in terms of cost and flexibility to communicate with deployed NI WSN measurement nodes.
The new NI WSN-3214 strain/bridge completion node brings waveform acquisition capabilities to the WSN product line and delivers the ideal product for wireless structural health monitoring of bridges, buildings and equipment. The node features four analog channels that support quarter-, half- and full-bridge completion, as well as two digital I/O channels for event detection and programmatic control. With the NI LabVIEW WSN Module Pioneer, engineers can process and analyze strain data on the node to determine or predict the presence of fault conditions. They can then choose to transmit the entire waveform or only meaningful, analyzed data, which reduces the amount of wirelessly transmitted data, thereby prolonging the battery-operated lifetime of the WSN measurement nodes.
“With NI wireless sensor networks, we can easily monitor critical structures without running excessive lengths of cables,” said Professor Sharon L. Wood, University of Texas at Austin, Department of Civil, Architectural and Environmental Engineering. “We use the LabVIEW-programmable WSN nodes to perform onboard analysis of strain data to achieve an in-depth understanding of the structural response.”
The new programmable NI WSN-3230 (one-port RS232) and NI WSN-3231 (one-port RS485) serial nodes can wirelessly control and interface with serial-based instruments, sensors and control boards. Using the LabVIEW WSN Module Pioneer, engineers can embed query and parse algorithms directly on the WSN nodes to create an autonomous, programmable interface to a variety of serial devices. These nodes also feature two digital I/O channels for event detection and programmatic control.
Engineers have long used wired systems for monitoring and control applications. As the adoption of wireless measurement technology continues, the ability to augment existing wired systems with wireless measurements is increasingly important. With these new devices, engineers can use a single software environment to create complete wired and wireless measurement and control systems, which are ideal for applications such as environmental monitoring, industrial measurements and control, energy monitoring and structural health monitoring.
Readers can visit www.ni.com/wsn/whatsnew to learn more about the new products and the NI WSN platform.
About National Instruments
National Instruments (www.ni.com) is transforming the way engineers and scientists design, prototype and deploy systems for measurement, automation and embedded applications. NI empowers customers with off-the-shelf software such as NI LabVIEW and modular cost-effective hardware, and sells to a broad base of more than 30,000 different companies worldwide, with its largest customer representing approximately 4 percent of revenue in 2010 and no one industry representing more than 15 percent of revenue. Headquartered in Austin, Texas, NI has approximately 6,100 employees and direct operations in more than 40 countries. For the past 12 years, FORTUNE magazine has named NI one of the 100 best companies to work for in America.
