Electromagnetic Integrated Solutions Press Releases
Marlborough, MA – June 15, 2018 - API Technologies Corp. (API), a leading provider of high performance RF and microwave signal conditioning and electromagnetic spectrum management solutions, announced its new series of DIN Rail Mounted EMI Filters for medical to metrology grade applications, featuring reduced installation complexity. API’s 62-STB series of DIN rail mounted, single phase power EMI filters eliminate both differential mode and common mode electromagnetic interference (EMI) and meet stringent Electromagnetic Compatibility (EMC) compliance specifications. They are ideal for reducing unwanted interference for industrial applications and high power office/medical equipment and instruments, such as:
Added Protection for Critical Facilities, Infrastructure, Aerospace and Land Mobile Electronic Systems
Marlborough, MA – March 6, 2018 - API Technologies Corp. (API), a leading provider of high performance RF and microwave signal conditioning and electromagnetic spectrum management solutions announced the expansion of its Electromagnetic Pulse (EMP) and High-Altitude Electromagnetic Pulse (HEMP) Filter product platform. These new solutions are designed to prevent damage to critical facilities, infrastructure, aerospace, and land mobile electronic systems caused by intentional electromagnetic interference (IEMI) attacks such as nuclear and cyber terrorism attacks, and unintentional electromagnetic interference (UEMI) events such as power surges, lightning strikes and solar flares.
Marlborough, MA — August 7, 2017 — API Technologies Corp. ("API" or the "Company"), a leading provider of high performance RF, microwave, millimeterwave, electromagnetic and security solutions, today announced that it will be exhibiting at the IEEE EMC+ SIPI International Symposium, in booth #440. The symposium is the industry’s leading event providing electromagnetic compatibility, signal conditioning and power integrity education and techniques to engineers of all levels and backgrounds. The show takes place August 8-10 at the National Harbor Gaylord National Resort and Conference Center in Oxon Hill, MD.
ORLANDO, Fla. – September 9, 2015 –API Technologies Corp. (NASDAQ:ATNY) ("API" or the "Company"), a leading provider of high performance RF, microwave, millimeterwave, and power solutions, today announced the expansion of its EMI/EMC filter family with the addition of EMI filters for high operating temperature environments.
API’s high temperature, epoxy sealed, bolt-in style EMI feedthrough filter is capable of continuous operation at 175˚C with an average temperature coefficient of -25% at max operating temperature. These filters are well-suited for the oil and gas industry’s high temperature instrumentation, engine controller, and other high temperature applications.
ORLANDO, Fla. – August 4, 2015 - API Technologies Corp. (NASDAQ:ATNY) ("API" or the "Company"), a leading provider of high performance RF, microwave, millimeterwave, and power solutions , today announced the expansion of its EMI/EMC power filter family to include two line, two stage power filters for use in ground-current-sensitive applications.
The API power filters feature a rated voltage of 250(50/60Hz) making them well-suited for medical, industrial, and gaming systems that requires very high noise attenuation. The products are also an ideal choice for use in test and measurement instrumentation.
More standard and custom products including high temperature
ORLANDO, Fla.– June 1, 2015 – API Technologies Corp. (NASDAQ:ATNY), a leading provider of high performance RF, microwave, millimeterwave, power, and security solutions, expands its cabling capabilities with standard and custom cables ranging from -60˚C to 538˚C and from 1100MCM to #40 AWG. These cables are ideally suited for the industrial, medical, military, and transit industries.
These cables offer a wide array of QPL approved part numbers and their effective non-QPL equivalents. The standard products include RG Style, MIL-C-17(equivalents available), MIL-W-22759, MIL-W-16878, and MIL-C-27500. Designs are available from a single insulated wire or coax to more than 100 conductor designs and composite/hybrid cables.
Custom Semi-rigid Coaxial Cables Offer Frequencies Ranging from 5 GHz to 50 GHz
Orlando, FL November 17, 2014 – API Technologies Corp. (NASDAQ:ATNY), a leading provider of high performance RF/microwave, power and security solutions for critical and high-reliability applications, now offers high-performance, custom semi-rigid coaxial cable assemblies that have a voltage standing wave ratio (VSWR) of less than 1.5:1 with frequencies ranging from 5 GHz to 50 GHz.
Using next generation software modeling and 3D printing technology, API Technologies can quickly and cost effectively create custom fixtures to suit customers’ specific requirement.
Orlando, FL & London, UK – (PR Newswire) - November 10, 2014 – API Technologies Corp. (NASDAQ:ATNY), a leading provider of high performance RF/microwave, power and security solutions for high-reliability applications, now offers its filtered circular connectors direct to the European market. These custom and specialty filtered connectors, which API has offered to the US market for over 20 years, will now be designed and manufactured in the UK, offering improved product access worldwide.
Ideal for use in commercial and military avionics, missile systems, communications systems as well as navigation and radar systems, these custom high reliability connectors offer superior quality and performance over a wide temperature range of -55°C to 125°C.
ORLANDO, Fla.– September 17, 2014 – API Technologies Corp. (NASDAQ:ATNY), a leading provider of high performance RF/microwave, power and security solutions for high-reliability applications, now offers high voltage HEMP (High-Altitude Electromagnetic Pulse) filters that protect sensitive electronic equipment from potentially destructive energy transients due to line surges, lightning, and electronic pulses.
Designed for use in military and telecommunications applications, these HEMP filters ensure the life and continued performance of critical communication, infrastructure, and defense systems.