SIG MMG 338 Program Series

Archive for April, 2020

Persistent Systems Unveils New L-Band Version Of Integrated Sector Antenna

Friday, April 24th, 2020

Easy-to-mount L-Band unit offers affordable, extended coverage networking in remote areas

NEW YORK, New York—Persistent Systems, LLC (“Persistent”) announced today the release an L-Band Integrated Sector Antenna, designed to support high-bandwidth network users on forward operating bases, test ranges, and other remote or sprawling military sites.

The L-Band Integrated Sector Antenna, a part of the Integrated Antenna Series line of products, directly incorporates the same highly scalable Wave Relay® mobile ad hoc network (MANET) as Persistent’s MPU5 tactical networking device. It encapsulates a 10W L-Band RF module within a 12 dBi sector antenna to provide 90° beam width of unprecedented range and performance. With the MPU5, military operators can share voice, video, text, location, and sensor data while on the move.

“The L-Band sector antenna, working in conjunction with a fixed directional antenna, as part of our Integrated Antenna Series, extends the reach of these MPU5 users,” said Louis Sutherland, VP of Business Development at Persistent Systems, “so they can connect all the way back to the enterprise network.”

This gives users access to additional sensors and software, making operators more effective in the field.

The weather-protected L-Band sector antenna can be mounted on a pole, tower or building and can blanket large areas. The combination of the antenna and the network in one device, plus a simple mounting bracket and single cable for power and data, makes it extremely fast and easy to deploy.

Sutherland expects the full range of the Integrated Antenna Series to be a game-changer. “When covering hundreds of miles, speed and simplicity of installation become the limiting factor. These antennas were purpose-built to reduce this time, cost, and complexity,” he said.

www.persistentsystems.com

L3 Harris Technologies Will Support The US Army For Next Generation Squad Weapon Fire Control Solution

Friday, April 24th, 2020

Highlights:

• Multi-million dollar contract includes 115 production prototype systems

• Next generation technology enables the soldier to decrease time to engage a threat

• Solution supports future weapon platforms including the Army’s Next Generation Squad Weapons

L3Harris Technologies (NYSE:LHX) has received a multi-million dollar contract from the U.S. Army to deliver 115 production prototypes for the Next Generation Squad Weapon Fire Control (NGSW-FC) targeting solution. The NGSW-FC will replace traditional direct view optics currently fielded by the Army.

The NGSW-FC provides an integrated approach to targeting by combining range-finding capability, ballistic computation and environmental sensors that increase the probability of accurate targeting while decreasing the time to engage a threat. The NGSW-FC will support many of the current and future weapon platforms used by the Army.

“L3Harris is proud to offer the U.S. Army a revolutionary fire control solution that will increase soldier lethality and enhance situational awareness,” said Lynn Bollengier, President, Integrated Vision Solutions, L3Harris. “Our solution leverages nearly 30 years of expertise in fire control technology, enabling faster identification and target acquisition, ensuring soldiers achieve overmatch capability on the battlefield. Additionally, we have teamed with Leupold & Stevens to integrate their superior optical assemblies and high volume, domestic manufacturing capabilities to ensure we meet the high quality and capacity requirements set forth by the Army to field this technology alongside the Next Generation Squad Weapons program.”

Propel I Sew Masks Kits

Friday, April 24th, 2020

“I Sew Masks” from Propel is live! With one of their kits you can make 4 masks for family and friends. Join the mask making movement.


isewmasks.com

National Molding Introduces Three New Shield Products

Friday, April 24th, 2020

National Molding has introduced three new Face Shield Products, the AP Face Shield a care givers / technicians shield which is hood compatible, the JR mask which is more of a disposable version and the Mask Bridge to relieve irritation from extended mask use.  

AP Face Mask

 

JR Face Mask

 

Mask Bridge

 

Email contactus@natmo.com

Blackhawk Introduces T-Series L2C Holster for Glock 20/21

Friday, April 24th, 2020

Level 2 Compact Holster Now Available for 10mm and 45 AUTO Pistols

VIRGINIA BEACH, Virginia – April 23, 2020 – Blackhawk, a leader in the law enforcement and military equipment realm for over 20 years, announced today that it has expanded its popular line of T-Series holsters with the introduction of a Level 2 Compact (L2C) model engineered to accommodate the Glock 20/21 pistols.

Like previously introduced Blackhawk models, the L2C holster has been specifically designed to assist with concealed carry. Each holster model is standard with a new speed cut to help with a faster draw and features a low-profile design for ease of concealment. The L2C holster is also RMR-compatible, enabling users the ability to add a red dot to their carry firearm.

The duty-rated holster is standard with an all-new Quick Dual Release (QDR) attachment method. Using an intuitive button release, the QDR allows the holster to be easily added and removed from a belt without weaving it through traditional belt loops. The QDR can easily accommodate belts ranging from 1.5 to 2.25 inches and allows the holster to be canted at various angles, depending on user preference. In addition to the QDR attachment, all T-Series L2C holsters come standard with a 2-slot belt loop. The 2-slot belt loop has been ergonomically designed to follow the body contour and help reduce offset.

The Blackhawk T-Series line is the world’s first thumb driven, dual-injected molded holster. The holster combines the company’s proven outer body strength made possible with a glass reinforced nylon along with a soft touch inner layer that is both super slick and sound-dampening. This durable and efficient, low-friction design translates into a smooth, quiet draw or when re-holstering the sidearm. Designed to follow Blackhawk’s Master Grip Principle, all T-Series holsters have been specifically developed to allow the user’s hand to land naturally where it should in order to deploy the sidearm.

All T-Series models are duty-rated and with their shared functionality, Blackhawk has helped solve the commonality of training with the same draw for every model holster. Whether going from Level 2, Level 2 Compact or Level 3 retention, the draw stroke remains the same even when the holster changes. This inherent design makes the T-Series the ideal holster to meet the needs of law enforcement and military professionals.

For more information on the new L2C holster for the Glock 20/21 or to view the complete line of T-Series holsters be sure to visit www.blackhawk.com.

New Design Could Make Fiber Communications More Energy Efficient

Friday, April 24th, 2020

RESEARCH TRIANGLE PARK, N.C. — Researchers say a new discovery on a U.S. Army project for optoelectronic devices could help make optical fiber communications more energy efficient.

The University of Pennsylvania, Peking University and Massachusetts Institute of Technology worked on a project funded, in part by the Army Research Office, which is an element of U.S. Army Combat Capabilities Development Command’s Army Research Laboratory. The research sought to develop a new design of optical devices that radiate light in a single direction. This single-sided radiation channel for light can be used in a wide array of optoelectronic applications to reduce energy loss in optical fiber networks and data centers. The journal Nature published the findings.

Light tends to flow in optical fibers along one direction, like water flows through a pipe. On-chip couplers are used to connect fibers to chips, where light signals are generated, amplified, or detected. While most light going through the coupler continues through to the fiber, some of the light travels in the opposite direction, leaking out.

A large part of energy consumption in data traffic is due to this radiation loss. Total data center energy consumption is two percent of the global electricity demand, and demand increases every year.

Previous studies consistently suggested that a minimum loss of 25 percent at each interface between optical fibers and chips was a theoretical upper bound that could not be surpassed. Because data centers require complex and interwoven systems of nodes, that 25-percent loss quickly multiplies as light travels through a network.

“You may need to pass five nodes (10 interfaces) to communicate with another server in a typical medium-sized data center, leading to a total loss of 95 percent if you use existing devices,” said Jicheng Jin, University of Pennsylvania doctoral student. “In fact, extra energy and elements are needed to amplify and relay the signal again and again, which introduces noise, lowers signal-to-noise ratio, and, ultimately, reduces communication bandwidth.”

After studying the system in more detail, the research team discovered that breaking left-right symmetry in their device could reduce the loss to zero.

“These exciting results have the potential to spur new research investments for Army systems,” said Dr. Michael Gerhold, program manager, optoelectronics, Army Research Office. “Not only do the coupling efficiency advances have potential to improve data communications for commercial data centers, but the results carry huge impact for photonic systems where much lower intensity signals can be used for the same precision computation, making battery powered photonic computers possible.”

To better understand this phenomenon, the team developed a theory based on topological charges. Topological charges forbid radiation in a specific direction. For a coupler with both up-down and left-right symmetries, there is one charge on each side, forbidding the radiation in the vertical direction.

“Imagine it as two-part glue,” said Bo Zhen, assistant professor, department of physics and astronomy at University of Pennsylvania. “By breaking the left-right symmetry, the topological charge is split into two half charges – the two-part glue is separated so each part can flow. By breaking the up-down symmetry, each part flows differently on the top and the bottom, so the two-part glue combines only on the bottom, eliminating radiation in that direction. It’s like a leaky pipe has been fixed with a topological two-part glue.”

The team eventually settled on a design with a series of slanted bars, which break left-right and up-down symmetries at the same time. To fabricate such structures, they developed a novel etching method: silicon chips were placed on a wedge-like substrate, allowing etching to occur at a slanted angle. In comparison, standard etchers can only create vertical side walls. As a future step, the team hopes to further develop this etching technique to be compatible with existing foundry processes and also to come up with an even simpler design for etching.

The authors expect applications both in helping light travel more efficiently at short distances, such as between an optical fiber cable and a chip in a server, and over longer distances, such as long-range Lidar systems.

This project also received funding from the Air Force Research Laboratory, MIT Lincoln Laboratory, Natural Science Foundation of China, and HPCP of Peking University.

By US Army CCDC Army Research Laboratory Public Affairs

FirstSpear Friday Focus – New FirstSpear Duffel

Friday, April 24th, 2020

Today we are getting a look at an all new duffel from FirstSpear. Minimalistic design utilizing just a few materials to accommodate around 2000 cu in of storage in an incredibly light and simple platform.

500D nylon construction with 2” webbing sewn into extra long carry handles allow this bag to carry heavy contents balanced and secure. Extra large zipper opening with premium hardware. The top features a webbing handle perfect for hanging the pack vertically in a locker. Another great all purpose bag you can use for anything from a rope or tool bag to a gym or range bag. 100% made in the USA . Available and now shipping.

Approximately 22”L x 10”W x 11xD

www.first-spear.com/duffle

Operation Eagle Claw – 40 Years On

Friday, April 24th, 2020

Today marks the 40th anniversary of Operation Eagle Claw. In the early morning hours of 25 April, 1980 President Carter announced to a stunned world that the United States had undertaken an ambitious raid into Iran to liberate 52 American hostages held illegally at our Embassy compound in Tehran. The assault force can be seen here, loading C141s.

Unfortunately, Operation Eagle Claw was unsuccessful and we lost eight American servicemen in a horrible aircraft ground collision.

20120424-214950.jpg

However, their deaths were not in vain. The hostages were eventually repatriated and the accident was the watershed event that created, over the next several decades, the world’s preeminent Special Operations capability; USSOCOM and its components. Forty years later, we wouldn’t be where are without the determination of that fledgling task force. Join me in remembering those that had the guts to try.