Happy Holidays from Analynk Wireless

"Christmas gift suggestions: To your enemy, forgiveness. To an opponent, tolerance. To a friend, your heart. To a customer, service. To all, charity. To every child, a good example. To yourself, respect." — Oren Arnold

NEW! The AP414 Explosion Proof Access Point Enclosure for Cisco IW3702-2E

AP414 Explosion Proof Access Point Enclosure
Analynk AP414 Explosion Proof Access Point Enclosure

The Analynk AP414 is a hazardous area enclosure designed to house the Cisco IW3702-2E access point. The enclosure and antennas are rated for Class 1, Div 1, groups C & D Hazardous Locations. All hardware, mounting plate, and RF cables are provided to make installation of the access point quick and easy. The enclosure includes four patented hazardous area CTX series 2.4GHz/5GHz dual band antennas, the IW3702-2E is not included.

Ratings:
Cisco IW3702-2E
Cisco IW3702-2E

  • Class 1, Div 1 Groups, C & D
  • ATEX Zone 1 and NEMA 4 rating optional

Applications:
  • Pharmaceuticals
  • Oil refineries
  • Oil & Gas Platforms 
  • Chemical Plants

Ordering information:
  • AP414
  • AP414-ATEX AP414-NEMA4 
  • AP414-ATEX-NEMA4
Contact: Analynk Wireless
Phone: 614-755-5091

NEW! The AP415 Dual-Band Hazardous Area Access Point Enclosure for Cisco MR53

AP415
Analynk AP415 Dual-Band Hazardous
Area Access Point Enclosure
Analynk Wireless is pleased to introduce the AP415 Dual-Band Hazardous Area Access Point Enclosure for the Cisco MR53.

The AP415 hazardous area enclosure houses the Cisco MR53 dual band access point for use in the hazardous areas. The enclosure and antennas are designed for use in Class I, Division 1 group C & D areas. All hardware, mounting plate, antennas and RF cables are provided to make installation quick and easy. The enclosure utilizes our proprietary explosion proof CTX series of antennas and includes six 2.4GHz/5GHz dual band antennas. The access point is not included with the enclosure.
Cisco MR53
Cisco MR53 Access Point
(Not included with enclosure)




Ratings:

Class I, Div 1 Groups, C & D Optional: ATEX Zone 1

Applications:
  • Pharmaceuticals
  • Oil refineries
  • Oil & Gas Platforms
  • Chemical Plants
Ordering information:
  • AP415
  • AP415-N4 (NEMA 4X rating) 
  • AP-415-ATEX

Learn More About the AP415 Here

To contact Analynk Wireless, call (614) 755-5091 or visit their web site at https://analynk.com.

Happy Veterans Day to Those Who Serve and Protect Our Country

Veterans Day

Veterans Day is a day of observance and celebration for those who have served in the United States military. Veterans Day was originally called Armistice Day because of the November 11 Armistice that ended World War I. In 1954 it was officially changed to Veterans Day to include Veterans of all wars. This holiday honors those who took an oath to defend the United States and our Constitution, from all enemies, foreign and domestic. Through the observance of Veterans Day, we remind ourselves of our Veterans patriotism, love of country and willingness to serve and sacrifice for the common good.

Analynk Wireless thanks our Veterans, past and present, for serving our country and protecting our freedom.

New Article from NIST and IEEE on Wireless Network Design and IIoT

IIoT

A recently published article published by the IEEE and written by researchers at NIST titled "Wireless Network Design for Emerging IIoT Applications: Reference Framework and Use Cases" is available for reading and downloading at this US National Library of Medicine / National Institutes of Health / PMC site: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6760003/.

ABSTRACT

Industrial Internet of Things (IIoT) applications, featured with data-centric innovations, are leveraging the observability, control, and analytics, as well as the safety of industrial operations. In IIoT deployments, wireless links are increasingly used in improving the operational connectivity for industrial data services, such as collecting massive process data, communicating with industrial robots, and tracking machines/parts/products on the factory floor and beyond. The wireless system design for IIoT applications is inherently a joint effort between operational technology (OT) engineers, information technology (IT) system architects, and wireless network planners. In this paper, we propose a new reference framework for the wireless system design in IIoT use cases. The framework presents a generic design process and identifies the key questions and tools of individual procedures. Specifically, we extract impact factors from distinct domains including industrial operations and environments, data service dynamics, and the IT infrastructure. We then map these factors into function clusters and discuss their respective impact on performance metrics and resource utilization strategies. Finally, discussions take place in four exemplary IIoT applications where we use the framework to identify the wireless network issues and deployment features in the continuous process monitoring, discrete system control, mobile applications, and spectrum harmonization, respectively. The goals of this work are twofold: 1) to assist OT engineers to better recognize wireless communication demands and challenges in their plants, 2) to help industrial IT specialists to come up with operative and efficient end-to-end wireless solutions to meet demanding needs in factory environments.


For information on wireless instrumentation, explosion proof antennas, and explosion proof enclosures, contact Analynk Wireless. Call them at (614) 755-5091 or visit https://analynk.com.

Industrial 5G Communications

Industrial 5G Communications
Smartphone users aren't the only ones waiting for 5g. Industrial companies are patiently looking forward to the new 5G wireless mobile standard. Owners and operators see industrial 5G as key to making their production plants and operations more flexible, more autonomous, and more efficient than ever before.

Today, most industrial facilities still communicate via wires and cables. With the advent and adoption of the new 5G communications standard, that will all change. 

With 5G peak download speeds of 20 Gb/s (gigabits per second) and 5G peak upload speeds of 10 Gb/s, wireless data transmission for comprehensive factory networks and equipment will communicate at speeds comparable or better than cables. 

The potential of 5G implementation is truly mind boggling, particularly when you consider its huge effect on Industry 4.0, making factories much more productive and less costly to operate. 5G technology has the potential to integrate picking systems, industrial robots, quality control systems, warehousing and autonomous vehicles - harmoniously tying the entire manufacturing process together through a secure, ultrafast, and robust network.

All major industries, including chemicals, primary metals, water treatment, automobiles, aerospace, power generation and oil & gas production, are biding their time and evaluating the promise of 5G's features for their processes. For example, factories will be able to simultaneously transmit data for an astounding 1 million IIoT devices per square kilometer! This easily accommodates all the wireless field instruments for a production line or even an entire plant. Speeds for industrial 5G are at the lower end of the millisecond range. This means instant response to systems upsets or process abnormalities. With 5G, the virtues of augmented reality in the industrial environment will be fully realized, opening the door for a new level of interchange between man and industrial process.

There’s nothing new about wireless communication in industry. Private LTE (Long-Term Evolution) networks are already being used, and process control equipment companies have been successfully implementing Industrial WLAN for quite some time. But since 5G is not yet widely available, Industrial WLAN research and development continues in parallel. However, these networks are nowhere near 5G in terms of performance and speed. 

Even though the international mobile radio standards organization 3GPP (3rd Generation Partnership Project) published the commercial mobile wireless network standard for 5G in late 2018,  there still are no published standards for the industrial 5G. 3GPP expects to have that completed by the middle of 2020.

Analynk Wireless, LLC
(614) 755-5091

Wireless Process Control Networks


In order to promote data sharing and analysis in embedded control networks, industrial plants, factories and process automation systems are increasingly deploying information and communications technologies. Despite the severe process control environment, as well as loss of signal propagation and interference with radio frequency (RF), wireless connections provide quick and simple access to a multitude of field tools, reducing network installation expenses and continuing maintenance outlays. This serves as an incentive to adopt industrial wireless networks depending on industry norms such as ISA100.11a, a wireless networking technology standard established by ISA (International Automation Society) and WirelessHART, a wireless sensor networking technology based on the Highway Addressable Remote Transducer Protocol (HART). 

However, wide-ranging acceptance is tentative, as industrial environments differ extensively and process control systems have a variety of critical demands for wireless networking, such as:
  • Long-term durability.
  • Low-cost operation.
  • High reliability in the harsh radio propagation environment.
  • Deterministic transmissions in shared wireless bandwidth.
Wired connections have proved efficient in promoting reliable, point-to-point communication between controller and field tools. Wired links, however, have a difficult restriction - they are unable to meet the increasing demands and future requirements to support adaptive network topology and fast reconfiguration found in new process control systems. 

Instead of setting miles of wires to connect hundreds of field tools, industrial wireless communication networks provide tailored network topology wireless links, enable plug-and-play setup, and provide reduced installation and maintenance costs.

Compared to the demands of conventional Internet data services, the requirements of wireless service quality (QoS) in the process control environment are more stringent. In mobile use cases, these include more extremely reliable transmissions as well as centralized data analytics, tighter message latency, and reduced power consumption.

For more information about wireless networking in the industrial space, contact Analynk Wireless. Visit their website at https://analynk.com, or call them at 614-755-5091.