Estimated life-cycle cost of military's Cyclone choppers rises to $15.9B | CBC News

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  May 21, 2019 | Local, C4ISR

  Reflex Photonics will be able to pursue its growth

  The Government of Canada awards $500,000 in funding to this highly innovative Greater Montréal business May 21, 2019 – Kirkland, Quebec – Canada Economic Development for Quebec Regions (CED) Reflex Photonics is a leader in the design, manufacturing and marketing of electronic optics and photonic products for the defence, aerospace and telecom sectors, and for data centres. It supplies rugged embedded transceivers for interconnection in harsh environments. This highly innovative company has posted impressive growth in recent years; in 2018, it invested over $2 million in research and development. To help it maintain its momentum, the company has been awarded a $500,000 repayable contribution from Canada Economic Development for Quebec Regions. This financial assistance will allow Reflex Photonics to acquire specialized state-of-the-art equipment, including an error rate tester and analysis software, as well as process automation equipment. The funding was announced today by the Member of Parliament for Lac-Saint-Louis, Francis Scarpaleggia. Specifically, this Government of Canada assistance will allow Reflex Photonics Inc. to meet the growing demand of prime contractors, increase its production and ensure better quality control of its products. With a total investment of almost $2 million, this project will also result in the creation of high-value jobs that will help increase economic opportunities for the middle class. The Government of Canada is committed to supporting innovative Canadian businesses. A driving force of the economy, innovation is the key to success because it generates growth that benefits both businesses and communities. This is why we are committed to ensuring that businesses are able to rely on adequate resources to create and market innovative products. Quotes “Support for high-tech companies helps strengthen the Canadian economy, maintain our international competitiveness and generate wealth. High-performing and forward-looking, Reflex Photonics unquestionably contributes to the economic growth of both Montréal and Canada as a whole, and creates jobs for the middle class.” Francis Scarpaleggia, Member of Parliament for Lac-Saint-Louis “Our government gives Canadians the means to become more competitive and to thrive in the global economy. The funding announced today for Reflex Photonics is in line with Canada's competitive advantages generated through this company's expansion project, and will boost economic growth.” The Honourable Navdeep Bains, Minister responsible for CED “We are privileged to have loyal, passionate and dedicated employees that have contributed immensely to the success of Reflex in the recent years. Certainly, our strategic partners, both clients and suppliers have also been a source of continuous motivation to develop new products and technology with high added value. I am also very honoured to lead Reflex, which is now recognized internationally as a leader in its industry. The investments from our financial partners, as well as the expansion of our head office, allow the company to continue its growth while adapting to the needs of the markets that we service.” Noël Dubé, President and CEO, Reflex Photonics Inc. https://www.canada.ca/en/economic-development-quebec-regions/news/2019/05/reflex-photonics-will-be-able-to-pursue-its-growth.html

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  October 25, 2018 | Local, Aerospace

  An Investment in Capability

  If you're planning to become hopelessly lost, my advice is to do it in Norway. That was the author's conclusion after Skies was invited to the Leonardo Helicopters facility in Yeovil, England, to fly the latest variant of the AW101 search and rescue (SAR) helicopter. The machine was brand new, pending delivery to Norway, but represented a configuration that Leonardo has proposed to the Royal Canadian Air Force (RCAF) as an upgrade for Canada's fleet of CH-149 Cormorant SAR helicopters. AN OPPORTUNITY FOR THE RCAF The CH-149 Cormorant entered RCAF service in 2002. While not an old airframe by Canadian standards, the subsequent evolution of the model has left our version somewhat dated, and Leonardo maintains that obsolescence issues are beginning to adversely affect operational availability Team Cormorant is an industry consortium composed of Leonardo Helicopters, IMP Aerospace & Defence, CAE, GE Canada and Rockwell Collins Canada. The group's unsolicited proposal to the Air Force is intended to guard against creeping obsolescence and ultimately to reduce the cost of operating the helicopter. Under Team Cormorant's proposal, the RCAF would also acquire a training facility with a modern full-mission simulator, likely to be installed at 19 Wing Comox, B.C. The machine on offer to Canada is an extensively upgraded version of the RCAF's existing airframe, based upon the AW101-612 configuration; 16 of which are destined for Norway under its Norwegian All-Weather SAR Helicopter (NAWSARH) program. Team Cormorant's proposal to Canada also seeks to take advantage of nine former VH-71 Kestrel airframes from the cancelled U.S. presidential helicopter program, acquired by the RCAF in 2011. These would be used to augment the Cormorant fleet from the current 14–widely acknowledged as inadequate for Canadian SAR requirements–up to potentially 21 machines. Enhanced fleet size would allow the RCAF to base the Cormorant at 8 Wing Trenton, Ont.; a move that would improve SAR capability in the vast Trenton SAR region. Compared to in-service CH-149 Cormorants, the upgrades on offer include new, more powerful, full-authority digital electronic-controlled (FADEC) General Electric CT7-8E turboshaft engines; a more modern Rockwell Collins cockpit and avionics suite; improved aircraft management system; and a newly designed, four-axis dual-duplex digital automatic flight control system (AFCS). The sensor package promises the biggest capability upgrade, and includes an electro-optical surveillance system; a multi-mode active electronically-scanned array (AESA) radar; cell phone detection and tracking system; and marine automatic identification system (AIS) transponder receiver. AN OPPORTUNITY FOR COMPARISON In 2016, Skies dispatched me to fly the CH-149 Cormorant with RCAF's 442 Squadron at CFB Comox. It was an opportunity for this former Air Force CH-113/A Labrador SAR pilot to see first-hand how the Cormorant had changed the job I did decades ago in those same mountains. I recall that the Cormorant brought a lot of new technology to the SAR business, but the basic mission, like the mountains around us, was unchanged. After that flight, I reported: “Flying SAR was still a matter of cautious and skillful flying, using maps and looking out the window.” That experience left me with great regard for Air Force SAR crews and for the operational capability of the Cormorant, but also bemused to find that the business of searching still basically relied upon the “Mark 1 eyeball.” A flight in the latest variant of the AW101 was a terrific opportunity for a more contemporary comparison. The experience would demonstrate that leading-edge systems–particularly electro-optic sensor technologies–offer SAR capabilities that are as much a generational improvement over the current Cormorant as the Cormorant was over my beloved ol' Labrador. A CANADIAN FLIES A NORWEGIAN HELICOPTER IN ENGLAND Leonardo Helicopters test pilot Richard “Russ” Grant kindly offered me the right seat for our demonstration flight. Veteran flight test engineer (FTE) Andy Cotton served as sensor operator. Conditions were ideal, under a clear sky with a warm (24 C) gentle breeze along the century-old former-Westlands grass runway. Our test helicopter was the sixth production machine destined for Norway, operated by Leonardo under U.K. Ministry of Defence registration ZZ015. The helicopter's empty weight was 11,039 kilograms with much of its SAR interior yet to be fitted. Adding 2,000 kilograms of fuel (roughly half its 4,150-kilogram capacity) and three crewmembers brought the takeoff mass to 13,517 kilograms, which was well below the maximum allowable gross weight of 15,600 kilograms. The Cormorant that Skies flew with RCAF's 442 Squadron, although fully equipped for SAR with a standard fuel load of 2,400 kilograms and a crew of six, had a gross takeoff mass of 13,800 kilograms, which was below the maximum allowable gross weight of 14,600 kilograms. Direct comparison is difficult to establish, but the Norwegian machine is both heavier with installed systems and has more installed power than the CH-149, so the net result may be expected to be about the same operational power margin. Rapid dispatch can be facilitated by starting the auxiliary power unit (APU) while strapping in. Grant talked me through the engine starting procedure from memory. Air Force crews will use a checklist, but the procedure was quick and straightforward Engine controls consisted of three rotary knobs on the overhead panel in place of engine condition levers. I monitored the start, but Grant advised that in the event of a start-up malfunction the FADEC would shut down the engine faster than the pilots could react. We started the No. 1 engine first to power the accessory drive, providing hydraulic and electric power and bleed air. Starts of engines No. 2 and No. 3 were done simultaneously. Pre-flight checks and initialization of the aircraft management system (AMS, but think “master computer”) took Grant only minutes. Despite the functional similarity of the cockpit to the CH-149, the impression that I was amidst unfamiliar new technology was immediate. As ground crews pulled the chocks and busied themselves around the helicopter, the onboard Obstacle Proximity LIDAR System (OPLS, where LIDAR is light detection and ranging, since I needed to ask, too) annunciated their presence around the turning rotors. This system, which Grant described as being like the parking sensors in a car, provided a pop-up display and discretely-pitched audio cues depicting the range and azimuth to obstacles around the helicopter. Having come from a generation where we squinted into a landing light beam to guesstimate rotor clearance from obstacles, all I can say is, I want one! Full article: https://www.skiesmag.com/features/an-investment-in-capability

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  December 21, 2023 | Local, Aerospace

  Government of Canada Orders the MQ-9B SkyGuardian RPAS from GA-ASI

  Canada’s investments in the RPAS Project and Team SkyGuardian Canada are a direct reflection of Canada’s vested domestic interest in pursuing leading-edge RPAS technologies.