Showing posts with label RF communications. Show all posts
Showing posts with label RF communications. Show all posts

Expand Industrial Wireless I/O Capacity With A16000

industrial wireless communications equipment
The A16000 increases the I/O capacity of a dedicated
transmitter and receiver.
Modern industrial radio frequency (RF) communications gear enables the establishment of process signal connections across very small or very large distances. The advantages of implementing cost effective connections within a very short time frame makes wireless connections a popular option in industrial settings. A misconception arises, from time to time, that it is necessary to have a dedicated transmitter and receiver for each process signal. Analynk has a solution that provides for delivery of up to sixteen process signals over a single transmission path.

Analynk provides hardware that easily allows the transmission and reception of up to 16 I/O points using single transmission and reception point devices. The A16000 Expansion Module can be configured with up to four internal cards that accommodate various types of input and output signals. The configuration process is similar to setting up the I/O on a PLC. Connect the process signals to the A16000, and the A16000 to one of Analynk's transmitter or receiver devices. Setup is straight forward and allows the installation to be operable in a very short time frame. The A16000 can also be used to expand existing installations as process I/O points increase.

Share your wireless communications and signal transmission challenges with the experts at Analynk and get recommendations on how to best implement workable solutions.



One Transmitter, One Receiver, Multiple Process Signals

Multiple input output module connects to single receiver or transmitter
A16000 Multiple I/O Module
Analynk
Radio frequency (RF) communications can enable the establishment or cost effective, quick, process signal connections across very small or very large distances. A misconception arises, from time to time, that it is necessary to have a dedicated transmitter and receiver for each process signal. Analynk has a solution that provides for delivery of up to sixteen process signals over a single transmission path.

Wireless transmission of process control signals is steadily increasing in prevalence throughout commercial, institutional and industrial settings. The ease of implementation, with no long cable runs to plan, layout, install, protect, and maintain, allows wireless installations to fulfill application niches that may have been considered impractical in the past.

Analynk provides hardware that easily allows the transmission and reception of up to 16 I/O points using a single transmitter and receiver. The A16000 Expansion Module can be configured with up to four internal cards that accommodate various types of input and output signals. The process is similar to setting up the I/O on a PLC. Connect the process signals to the A16000, and the A16000 to one of Analynk's transmitter or receiver devices. Setup is straight forward and allows the installation to be operable in minimal time.

Share your wireless communications and signal transmission challenges with the experts at Analynk and get recommendations on how to best implement workable solutions.


Wireless Transmitters In Process Measurement and Control

power plant with wireless process control
Opportunities for cost effective wireless process control
connections are everywhere
In process control, different devices produce signals which represent flow, temperature, pressure, and other measurable elements of the control process. In order to travel from the measurement point to the point of decision, also known as the controller, systems have traditionally relied on wires. More recently, wireless networks used in industry have evolved, especially since point-to-point systems were introduced to process environments. The standard operating procedure today is known as the Wireless HART™ protocol, which features the same hallmarks of control and diagnostics featured in wired systems without an accompanying wire.

Wireless devices and wired devices can cohabitate the same network. The installation costs of wireless networks is vastly lower than wired networks due to the fact wireless networks need much less hardware. Wireless networks are also more efficient than their wired peers in regards to auxiliary measurements, involving measurement of substances at several points. Adding robustness to wireless, self-organizing networks is easy, because when new wireless components are introduced to a network, they can link to the existing network without needing to be reconfigured manually. Gateways can accommodate between 50 and 100 devices, allowing a very elastic range for expansion.

In a coal fired plant, plant operators walk a tightrope in monitoring multiple elements of the process. They calibrate limestone feed rates in conjunction with desulfurization systems, using target values determined experientially. The difficult process environment results from elevated slurry temperatures, and the associated pH sensors can only last for so long under such conditions. Thanks to the expandability of wireless transmitters, the incremental cost is reduced thanks to the flexibility of installation of new measurement loops. In regards to maintenance, the status of wireless devices are consistently transmitted alongside the process variables. Fewer manual checks are needed, and preventative measures are infrequent compared to wired networks. The minimization of overtime and staff instruction correlates with a maintenance of precise process control.

Time Synchronized Mesh Protocol (TSMP) ensures perfect timing for individual transmissions, which lets every transmitter’s radio and processor ‘rest’ between either sending or receiving a transmission. To compensate for the lack of a physical wire, in terms of security, wireless networks are equipped with a combination of authentication, encryption, verification, and key management. The amalgamation of those fail-safes makes for the security of wireless networks equal to that of a wired system. The multilayered approach, anchored by gateway key-management, presents a defense sequence. Thanks to the advancements in modern field networking technology, interference due to noise from other networks has been minimized to the point of being a rare concern. Even with the rarity, fail-safes are included in Wireless HART™.

All security functions are handled by the network autonomously, meaning manual configuration is unnecessary. In addition to process control environments, power plants will typically use two simultaneous wireless networks. Transmitters allow both safety showers and eyewash stations to trigger an alarm at the point of control when activated. Thanks to reduced cost, and their ease of applicability in environments challenging to wired systems, along with their developed performance and security, wireless instrumentation is altering process control environment monitoring for the better.

Analynk Wireless specializes in making wireless connections among process measurement and control equipment in the industrial arena.

Hazardous Area RF Antenna Opens Up Installation Possibilities

Analynk Hazardous Area Antenna
Many industrial process control operations can benefit from wireless connections between measuring and control devices. The absence of cables saves space, reduces potential for damage, and simplifies modifications to the process equipment layout. Implementing wireless communications in hazardous areas, whether through WiFi or other radio frequency channels, presents a particular set of challenges to successful implementation. Points of network access and other transmission and receiving equipment can require a level of isolation and hardening appropriate for the hazardous environment. Specialized enclosures can house the needed equipment, but antennas must extend outside metal enclosures and into the hazardous environment in order to function. This imposes rigorous requirements on antenna design and construction.

Analynk Wireless provides patented hazardous area explosion proof antennas for industrial installations.  Their CTX and CTM series antennas carry an array of third party approvals and are suitable for use in a broad range of hazardous environments. Models can accommodate WiFi and other RF communications across frequency bands commonly utilized in industrial settings, as well as cellular and satellite communications.

Data sheets for the CTX and CTM Series antennas are included below for more detail. Share your wireless communication challenges and application questions with the experts at Analynk and work together to produce the best solutions.


Hazardous Area Wireless Equipment Enclosures Ease the Path to Implementation

hazardous area wireless equipment enclosure with explosion proof antenna
Analynk hazardous area wireless equipment enclosures
are preconfigured for antenna connection.
Extending or establishing wireless connections in hazardous industrial environments presents a unique set of challenges. The equipment must be housed in an enclosure appropriately rated for the environment. Additionally, the antenna must extend outside the hazardous area rated equipment enclosure in order to properly function. The antenna must also carry a suitable rating for the hazardous area and provide an approved mating to the enclosure to preserve the safety integrity of the installation.

Analynk Wireless, innovators in the industrial wireless arena, provide a series of enclosures suitable for Class 1 Division 1 Groups C&D locations, as well as Class 1 Zone 1 applications. The enclosures are preconfigured to accommodate Analynk's hazardous area antenna, which provides access to a range of frequencies that include radio, cellular, and satellite communications.

The company also provides hazardous area rated enclosures for many popular industrial WiFi access points, preconfigured with antennas, equipment mounting bracket, and connection cables.

Share your industrial wireless communications challenges with the experts at Analynk Wireless. Combining your process expertise with their knowledge of wireless communications will produce the best solution.



Transmitting Multiple I/O Points Along A Single Signal Path

Industrial wireless 900 MHz or 2.4 GHz multiple I/O transmitter/receiver
Analynk A16000 Expansion Module provides up to
16 I/O points for wireless transmission or reception.
Wireless transmission of process control signals is steadily increasing in prevalence throughout many industrial environments. The ease of implementation, with no long cable runs to plan, layout, install, protect, and maintain, allows wireless installations to fulfill application niches that may have been considered impractical in the past.

Analynk provides hardware that easily allows the transmission and reception of up to 16 I/O points using a single transmitter and receiver. The A16000 Expansion Module can be configured with up to four internal cards that accommodate various types of input and output signals. The process is similar to setting up the I/O on a PLC. Connect the process signals to the A16000, and the A16000 to one of Analynk's transmitter or receiver devices. Setup is straight forward and allows the installation to be operable in minimal time.

Share your wireless communications and signal transmission challenges with the experts at Analynk and get recommendations on how to best implement workable solutions.