Mesa, Arizona, October 11, 2023 – The newest version of the AH-64E Apache has successfully flown with an upgraded capabilities suite as Boeing (NYSE: BA) continues to modernize the platform. The upgraded E-model Apache, known as Version 6.5, or V6.5, is the next configuration of the world’s premier attack helicopter.
Building onto V6.5, the company is working with the U.S. Army to integrate the Improved Turbine Engine (ITE). The engine, a General Electric Company (NYSE: GE) Aerospace T901, will offer improvements in reach, available power, time on station and fuel efficiency, as well as sustainment improvements like health and usage monitoring, maintenance and engine lifespan.
V6.5, awarded by the U.S. Department of Defense in December 2021, includes software updates enhancing capabilities and improving the pilot interface. Some of those enhancements include:
Optimized route and attack planning
Enhanced Link 16 features
Integration of an Open Systems Interface, setting the stage for Modular Open Systems Approach for maximum interoperability, faster integration and advanced capabilities fielding.
Olathe, Kansas, August 23, 2023 — Garmin (NYSE: GRMN) today announced it has received Federal Aviation Administration (FAA) Supplemental Type Certification (STC) for the GFC™ 600 digital autopilot in Beechcraft King Air F90 aircraft. The GFC 600 digital autopilot is optimized for turbine aircraft, delivering superior in-flight characteristics that reduce workload and bring new operational capabilities such as Vertical Navigation (VNAV)1, automatic Course Deviation Indicator (CDI) switching when paired with a GTN Series navigator, enhanced go-around capabilities including missed approach sequencing — and much more.
The GFC 600 certification for the King Air F90 provides owners and operators with an autopilot upgrade that boasts superior integration potential with G600 and G600 TXi™ flight displays, the GI 275 electronic flight instrument, as well as the GTN™ and GTN Xi Series of navigators. The self-contained autopilot controller incorporates backlit keys and a bright, sunlight readable display that depicts autopilot status and mode selection. An intuitive built-in control wheel also provides convenient adjustment of aircraft pitch, airspeed and vertical speed modes. When the level button is selected, the aircraft automatically returns to straight-and-level flight.
Environmentally hardened autopilot servos designed for harsh operating conditions contain brushless DC motors offering improved performance and reducing maintenance requirements when compared to decades-old servo designs on the market today. In addition, these servos offer more torque to help pilots better respond to demands required of turbine aircraft.
Standard mark-width (6.25-inch) design of the GFC 600 mode controller ensures the autopilot controller allows for routine installation into the aircraft’s avionics stack. In King Air F90 aircraft, GFC 600 will require a G600 TXi or G600 flight display.
In addition to traditional autopilot capabilities such as altitude hold, vertical speed and heading modes, the GFC 600 includes:
Premium functions and advanced capabilities such as altitude pre-select2 and indicated airspeed hold mode.
Ability to select, couple and fly various instrument approaches, including GPS, ILS, VOR, LOC and back course approaches.3
Built-in GPS roll steering capability eliminates the need for external roll steering converters and allows for smoother navigation tracking when installed with a compatible navigator.
Level Mode button, which automatically engages the autopilot to restore the aircraft to straight and level flight.
Underspeed and overspeed protection.
Yaw Damping (YD) mode minimizes yawing oscillations while also helping to maintain coordinated flight.
Flight Director command bars can be displayed on a flight display such as the G600 and G600 TXi.
Coupled ‘go-arounds’ for pilots to fly during missed approach sequencing. A remotely installed go-around button commands the Flight Director to display the appropriate pitch attitude required for the missed approach procedure and activates a loaded missed approach when paired with a GTN 650/750 or GTN 650Xi/750Xi navigator.
Included pitch-trim servo adds automatic trim and improved manual electric trim.
Control wheel steering is available, which allows the pilot to adjust pitch, roll, altitude hold, vertical speed or airspeed references using the control yoke while the autopilot is engaged.
Tokyo, Japan – Mitsubishi Heavy Industries (OTC: MHVYF) announced that order intake rose 75.1% year over year to 1.6 billion Yen in the quarter ended June 30, 2023. Revenue rose 12.9%, resulting in profit from business activities (business profit) of 51.9 billion Yen, a 248.1% increase from the previous fiscal year, which represents a profit margin of 5.3%. Profit attributable to owners of parent (net income) was 53.1 billion Yen, an increase of 177.1% year-over-year, with a profit margin of 5.4%. EBITDA was 85.1 billion Yen, an 80.3% increase from Q1 FY2022, with an EBITDA margin of 8.7%, up 3.3 percentage points year-over-year.
Large orders growth in Energy Systems was driven by Gas Turbine Combined Cycle (GTCC), which continues to see strong demand for both new builds and after-sales services. Business profit in the segment increased by 27.0 billion Yen due to a reduction in one-time charges in the Thermal Power businesses as well as revenue growth and improved project margins.
In Plants & Infrastructure Systems, revenue increased by 33.8 billion Yen due to contributions from Metals Machinery and Engineering, while business profit improved by 5.0 billion resulting from increased revenue in Metals Machinery as well as positive developments in Engineering and Machinery Systems’ project mix.
In Logistics, Thermal & Drive Systems, successful passthrough of cost inflation to sales prices mainly in Logistics Systems and Heating, Ventilation & Air Conditioning (HVAC) led to 14.3% increases in order intake and revenue, respectively. Cost passthroughs in these businesses also helped to raise the segment’s business profit by 15.3 billion Yen.
Most notable this quarter is the striking growth in Aircraft, Defense & Space order intake, specifically in Defense & Space, which saw orders rise by 584.1 billion Yen. This is due to large orders for missile defense systems from Japan’s Ministry of Defense as the country seeks to improve its capabilities in this area.
West Des Moines, Iowa, July 20, 2023 /PRNewswire/ – Collins Aerospace, an RTX (NYSE: RTX) business, today celebrated the opening of a $14 million expansion of its additive manufacturing center in West Des Moines, Iowa. The 9,000-square-foot addition provides space for the site to house several new state-of-the-art 3D metal printers. The first printer installed has eight times the build volume of the facility’s existing printers, significantly increasing the center’s additive manufacturing capabilities.
The West Des Moines facility is a world leader in the design and production of engine components for commercial and military aircraft. The new printers will allow the site to explore additive production of these components, building on the multiple land-based turbine components it already has in production. Additionally, the facility is one of only eight in the U.S. to receive the National Aerospace and Defense Contractors Accreditation Program (NADCAP) certification for Additive Manufacturing.
Additive manufacturing is a critical focus area for Collins and the business maintains a global network of additive production centers in Iowa, Minnesota, North Carolina and Singapore, along with an additive research center in Connecticut.
An Airbus A330 operated by Air China takes off from Shanghai airport
OLATHE, Kansas/Business Wire – Garmin® International, Inc., a unit of Garmin Ltd. (NYSE: GRMN), has announced a long-term agreement with Heart Aerospace to provide the state-of-the-art Garmin G3000®integrated flight deck for the ES-19 electric airliner. Heart Aerospace is working to develop the new ES-19, a 19-seat electric airliner that has the potential to provide the regional air transport market with a more sustainable and environmentally friendly aircraft option as early as 2026. Additionally, United Airlines has conditionally agreed to purchase 100 ES-19 aircraft once the aircraft meets United’s safety, business and operating requirements.
The modular Garmin G3000 integrated flight deck boasts lightweight and vibrant high-resolution flight displays that support navigation, communication and flight sensor solutions and integrates seamlessly into the ES-19 aircraft systems. Specifically tailored to meet the needs of electric aircraft, the G3000 system that will be featured in Heart Aerospace’s ES-19 delivers enhanced capabilities to optimize the aircraft’s electric drive train and battery management systems. The G3000 is architected to provide the ability to efficiently facilitate future system upgrades as the electric aircraft industry continues to evolve.
Heart Aerospace is an electric airplane company headquartered in Gothenburg, Sweden, developing the ES-19, a nineteen-passenger regional aircraft driven entirely by batteries and electric motors. The first ES-19 is scheduled to enter into service by 2026. The first-generation aircraft will have a maximum range of up to 250 miles using lithium-ion batteries. The ES-19 will have zero operational emissions and offer significantly lower operating costs compared to similar sized gas-turbine aircraft. The ES-19 aircraft will also be quieter than its turboprop counterparts, with less vibration and noise, making it ideal for the development of short-range regional air travel.
Embraer (NYSE: ERJ) has announced a family of concept aircraft that it is exploring to help the industry achieve its goal of net zero carbon emissions by 2050. The details of the Energia family, the latest in the company’s Sustainability in Action initiative, were broadcast live via YouTube from Embraer’s manufacturing facility in São José dos Campos.
The company has partnered with an international consortium of engineering universities, aeronautical research institutes, and small and medium-sized enterprises to better understand energy harvesting, storage, thermal management and their applications for sustainable aircraft propulsionThe Energia Family is comprised of four concept aircraft of varying sizes that incorporate different propulsion technologies – electric, hydrogen fuel cell, dual fuel gas turbine, and hybrid-electric.
Energia Hybrid (E9-HE) – hybrid-electric propulsion • up to 90% CO2 emissions reduction • 9 seats • rear-mounted engines • technology readiness –2030
Energia Electric (E9-FE) – full electric propulsion • zero CO2 emissions • 9 seats • aft contra-rotating propeller • technology readiness – 2035
Energia H2 Fuel Cell (E19-H2FC) – hydrogen electric propulsion • zero CO2 emissions • 19 seats • rear-mounted electric engines • technology readiness – 2035
Energia H2 Gas Turbine (E50-H2GT) • hydrogen or SAF/JetA urbine propulsion • up to 100% CO2 emissions reduction • 35 to 50 seats • rear-mounted engines • technology readiness – 2040
Although the Energia airplanes are still on the drawing board, Embraer has already made advances in reducing emissions from its aircraft. It has tested drop-in sustainable aviation fuel (SAF), mixes of sugarcane and camelina plant-derived fuel and fossil fuel, on its family of E-Jets. The company is targeting to have all Embraer aircraft SAF-compatible by 2030. Last August, Embraer flew its Electric Demonstrator, a single-engine EMB-203 Ipanema, 100% powered by electricity. A hydrogen fuel cell demonstrator is planned for 2025 and the company’s eVTOL, a fully electric, zero-emissions vertical takeoff and landing vehicle, is being developed to enter service in 2026.
Garmin International Inc. (Nasdaq: GRMN), a unit of Garmin Ltd., today announced it has received Federal Aviation Administration Supplemental Type Certificate approval for the GFC 600 digital autopilot in select Pilatus PC-12/41 and PC-12/45 aircraft. The GFC 600 digital autopilot is optimized to meet the demands of turbine aircraft, delivering superior in-flight characteristics and operational capabilities such as Vertical Navigation (VNAV), automatic Course Deviation Indicator (CDI) switching when paired with a GTN Series navigator, enhanced go-around capability and much more.
The GFC 600 certification for the PC-12 boasts superior integration with a TXi flight display configured as a primary flight display (PFD) to provide owners and operators an advanced autopilot solution that considers the wide range of speed and performance characteristics of these turbine aircraft. Further, the GFC 600 incorporates solid-state attitude with robust self-monitoring capabilities to provide superior autopilot performance, greater reliability and renowned safety benefits. Environmentally hardened autopilot servos designed for harsh operating conditions contain brushless DC motors offering improved performance and reducing maintenance requirements when compared to decades-old servo designs on the market today. Standard mark-width (6.25-inch) design of the GFC 600 mode controller ensures the autopilot controller allows for routine installation into the aircraft’s avionics stack.
Going beyond traditional autopilot capabilities such as altitude hold, vertical speed and heading modes, the GFC 600 also includes altitude preselect, VNAV, Level Mode with the LVL button, underspeed and overspeed protection and more. Pilots can also select, couple and fly various instrument approaches, including GPS, ILS, VOR, LOC and back course approaches when paired with a compatible GPS navigator.
Additional benefits of the GFC 600 digital autopilot for turbine aircraft include:
Premium functions and advanced capabilities such as altitude pre-select on a TXi flight display configured as a PFD and indicated airspeed hold mode;
Built-in GPS roll steering capability eliminates the need for external roll steering converters, allowing for smoother navigation tracking when installed with a compatible navigator;
Yaw Damping (YD) mode minimizes yawing oscillations while also helping to maintain coordinated flight;
Flight Director command bars displayed on a TXi flight display configured as a primary flight display (PFD);
Coupled ‘go-arounds’ during missed approach sequencing with a remotely-installed go-around button that commands the Flight Director to display the appropriate pitch attitude required for the missed approach procedure and activates a loaded missed approach when paired with a GTN 650/750 or GTN 650Xi/750Xi navigator;
Control wheel steering allows the pilot to adjust pitch, roll, altitude hold, vertical speed or airspeed references using the control yoke while the autopilot is engaged.
OLATHE, Kan./Jan. 21, 2020/ – Garmin® International Inc., a unit of Garmin Ltd., today announced it has received Federal Aviation Administration (FAA) Supplemental Type Certificate (STC) approval for the GFC™ 600 digital autopilot in select Beechcraft King Air C90 aircraft and E90 aircraft1. The GFC 600 digital autopilot is optimized for turbine aircraft, delivering superior in-flight characteristics and new operational capabilities such as Vertical Navigation (VNAV), automatic Course Deviation Indicator (CDI) switching when paired with a GTN Series navigator, enhanced go-around capability and much more.
The GFC 600 certification for the Beechcraft King Air C90 and E90 provides owners and operators an autopilot upgrade that boasts superior integration potential with G600 and G600 TXi™ flight displays, the GI 275 electronic flight instrument, as well as the GTN™ and GTN Xi Series of navigators. The self-contained autopilot controller incorporates backlit keys and a bright, sunlight readable display that depicts autopilot status and mode selection. An intuitive built-in control wheel also provides convenient adjustment of aircraft pitch, airspeed and vertical speed modes. When the level button is selected, the aircraft automatically returns to straight-and-level flight.
Environmentally hardened autopilot servos designed for harsh operating conditions contain brushless DC motors offering improved performance and reducing maintenance requirements when compared to decades-old servo designs on the market today. In addition, these servos are optimized for turbine aircraft by offering more torque to help better command and respond to control demands required of turbine aircraft.
Standard mark-width (6.25-inch) design of the GFC 600 mode controller ensures the autopilot controller allows for routine installation into the aircraft’s avionics stack. Autopilot mode annunciation is available on the G600 TXi touchscreen glass flight display, as well as the G600 flight display. The addition of an optional autopilot annunciator panel also displays the selected autopilot mode in the pilot’s primary field of view and retains an identical footprint of third-party autopilot annunciators on the market.
– New courses include helicopter specific eLearning courses for G1000H NXi
Garmin® International Inc., a unit of Garmin Ltd., is pleased to announce two new eLearning training courses for the G1000® NXi, as well as two separate eLearning courses for the G1000H NXi integrated flight deck for helicopters. These training courses are available in a virtual eLearning format allowing pilots to learn at their own pace, with the G1000 NXi Fundamentals eLearning Course providing a foundational understanding of the system, while the G1000 NXi Essentials eLearning Course is focused on systems installed in high-performance piston and turbine engine aircraft. The two comprehensive eLearning courses for the G1000H NXi integrated flight deck titled G1000H NXi Fundamentals, and G1000H NXi Advanced-IFR, use scenario-based training to highlight helicopter-specific operations and are tailored for pilots new to the G1000H NXi system, in addition to those with experience wanting a deeper understanding of the system.
Core training topics All four training courses build on a common core of training topics. These topics are common to all G1000 NXi and G1000H NXi systems but are tailored to the audience for each course. The topics include:
Primary Flight Display (PFD) and Multifunction Display (MFD) function
Audio Panel Features
Automatic Flight Control System
Hazard Avoidance Features
Safety Features
Abnormal Operations
Managing Databases
Operational Flight Scenario
Learn best-practices for G1000 NXi operational use
For those that are new to Garmin avionics, transitioning to advanced avionics, or perhaps want to refresh their understanding of the system, the G1000 NXi Fundamentals eLearning Course provides comprehensive training on the system designed for piston engine equipped aircraft. This course describes features of the system in detail and use a scenario to demonstrate how particular features function in different phases of flight in order to see this advanced system in action. In order to practice what you learned during this course, the Garmin G1000 NXi PC Trainer software is available for purchase online.
G1000 NXi for high-performance piston and turbine aircraft
For those operating high-performance piston or turbine-engine equipped aircraft, the G1000 NXi Essentials course presents best-practices for the G1000 NXi integrated flight deck by providing detailed training for pilots wanting to get the most out of the system. In addition to describing features in detail and showing how they can be used effectively in flight, scenario-based training demonstrates typical high-performance piston and turbine-engine aircraft operations, providing an opportunity to see the G1000 NXi system in full effect. For your specific or similar aircraft, the Garmin G1000 NXi PC Trainer software is available for purchase online, and provides the opportunity to take what you learned throughout the course and apply it. In addition to the core training topics, the G1000 NXi Essentials eLearning Course includes additional instruction on:
Vertical Navigation
Automatic Flight Control System
Advanced Features
User Waypoints
Managing Databases
Multiple Operational Flight Scenarios with different performance profiles
Build helicopter-specific system knowledge
The G1000H NXi Fundamentals course is designed for VFR helicopter pilots who are new to Garmin avionics, transitioning to advanced avionics, or perhaps want a refresher on the G1000H NXi. This allows the pilot to be comfortable with the avionics and maximize learning during valuable flight time. Learn how to take full advantage of the capabilities of the G1000H NXi system while gaining experience with operational use best practices. This virtual course allows pilots to learn at their own pace, details system features and provides a VFR flight scenario to show how these features are used in various phases of flight. Those that sign up for this course receive an additional scripted scenario for more practice through the Bell 407GXi G1000H NXi PC Trainer software, available for purchase online. The core training topics in the G1000H NXi Fundamentals eLearning Course have been tailored to helicopter-specific features and functionality, including differences for:
PFD and MFD function
Audio Panel Features
Hazard Avoidance Features
Operational Flight Scenario
Scenario-Based Exercise
Enhance IFR helicopter skills with G1000H NXi
The G1000H Advanced-IFR course provides a detailed look at the G1000H NXi system and illustrates best practices for operational use of the flight deck, with a focus on Instrument Flight Rules (IFR). The course uses phase of flight scenarios to demonstrate typical IFR helicopter operation, and depicts common practices to maximize the benefits of system features and capabilities. For helicopter pilots who fly search-and-rescue missions, emphasis on user waypoints are included in the course scenarios. Pilots can further practice what they learned throughout the course with one of the additional scripted scenarios provided for use with the purchase of the Bell 407GXi G1000H NXi PC Trainer software. Some helicopter-tailored training topics covered in the Advanced IFR eLearning Course include:
PFD and MFD function
Automatic Flight Control System
Hazard Avoidance Features
Advanced Features
User waypoints
Operational Flight Scenarios
Proceed through the course at a pace that works best
Available immediately after purchase using a computer or tablet device with internet access, pilots can navigate through the virtual course at their own pace. Assessments throughout the course validate knowledge obtained of critical items while documenting the learning process. With the ability to pause lessons as needed to return to the lesson later, this is a convenient option for any pilot. Also, pilots can retake specific lessons or even the entire course during the subscription period.
The G1000 NXi Fundamentals eLearning course is available now for $94.95 USD, and the G1000 NXi Essentials eLearning Course is now available for $145.95 USD. Also available is the G1000H NXi Fundamentals eLearning Course for $74.95 USD, as well as the G1000H NXi Advanced IFR eLearning Course is available for $94.95 USD. For aviation training needs, including purchasing one of these eLearning courses, please visit www.fly.garmin.com/training.
This certificate confirms Kopter as a duly recognized Production Organization. It is attesting that Kopter has in place qualified personnel, the necessary methods, processes and procedures, as well as a reliable quality system. It is a major milestone for Kopter making it eligible to produce and ramp up its light single-engine SH09 helicopter.
The handover ceremony of the certificate took place today at the Kopter premises in Mollis with the participation of the Chief Operations Officer of Kopter, Dr. Jan Nowacki, the FOCA POA Team Leader for Kopter, Urs Frei, and Andreas Boss, national FOCA POA coordinator.
Jan Nowacki said, “We are extremely satisfied to receive this certificate, which acknowledges all the work we’ve done in building a well performing team and organization. We thank FOCA for their trust and strong support in reaching this key step and look forward to pursuing our close cooperation on our way to produce our new turbine engine helicopter.”
Andreas Boss and Urs Frei commented: “We are proud to handover this POA certificate to Kopter. It demonstrates that Kopter fulfills the highest aviation standards and possesses the capability, facilities, manpower, resources and quality assurance systems to produce and support the SH09 helicopter which is on its way to certification.”
