Eurocopter EC135
The Eurocopter EC135 is a light twin-engine multi-role helicopter developed by Eurocopter (now Airbus Helicopters) as a versatile utility aircraft in the 2.5- to 3-tonne class, featuring a hingeless, bearingless four-blade main rotor for enhanced maneuverability and reduced vibration.[1][2] It accommodates one pilot and up to six passengers in a standard configuration, with options for high-density seating up to seven, and is powered by either two Turbomeca Arrius 2B2 turboshaft engines or two Pratt & Whitney Canada PW206B engines, delivering a maximum takeoff weight of 2,980 kg, a cruise speed of 254 km/h, and a range of approximately 635 km.[3][2] Known for its low noise levels, compact dimensions (overall length of 12.26 m, main rotor diameter of 10.40 m, and height of 3.90 m), and advanced avionics including the Helionix suite in later variants, the EC135 excels in demanding environments while prioritizing safety and operational efficiency.[4][2] Development of the EC135 originated in the late 1980s as an evolution of the MBB Bo 108 technology demonstrator, which first flew in 1988, leading to the EC135 prototype's maiden flight on 15 February 1994 near Munich, Germany.[5][6] Certification by the European Joint Aviation Authorities followed in 1996, marking the start of production and entry into service, with the type quickly gaining popularity for its reliability and multi-mission adaptability.[7] As of 2025, more than 1,560 EC135/H135 helicopters have been delivered to over 300 operators across more than 67 countries, accumulating more than 7.6 million flight hours.[3] The EC135's defining roles span civil and military applications, including emergency medical services (EMS) for rapid patient transport, law enforcement and surveillance with provisions for electro-optical systems, military pilot training due to its stable handling and glass cockpit, VIP executive transport in a luxurious cabin layout, and utility tasks such as aerial filming, search and rescue, and offshore support.[8][9] Its quiet operation—certified among the lowest external noise levels for light helicopters—and full authority digital engine control (FADEC) systems contribute to its widespread adoption in noise-sensitive urban areas and high-altitude operations up to 6,000 m.[4][10]Development
Origins
The development of the Eurocopter EC135 traces its roots to the Messerschmitt-Bölkow-Blohm (MBB) Bo 108 technology demonstrator program initiated in the 1980s, which sought to advance light helicopter designs by building on the proven Bo 105 platform. The Bo 108 served as a testbed for innovative features, including advanced rotor systems and fly-by-wire controls, paving the way for a new generation of versatile light helicopters.[11] In 1992, the helicopter divisions of Germany's MBB and France's Aérospatiale merged to form Eurocopter, transforming the Bo 108 project into a collaborative effort that resulted in the EC135 as the company's inaugural civil helicopter.[12] This partnership leveraged combined expertise to meet growing demand for multi-role aircraft in civilian and light utility sectors.[13] The EC135 was designed as a lightweight, twin-engine utility helicopter capable of diverse missions, featuring a hingeless main rotor system inherited from the Bo 105 for enhanced maneuverability and reduced maintenance.[14] This bearingless rotor design, along with a compact airframe, emphasized performance efficiency and operational flexibility.[15] The first prototype took to the air on February 15, 1994, at Eurocopter's facility in Ottobrunn, Germany, with test pilot Helmut Rückert at the controls.[5] Following an intensive flight test program exceeding 1,600 hours, the EC135 achieved initial certification from the Joint Aviation Authorities (JAA) in June 1996, enabling entry into service later that year.[16]Evolution and Upgrades
The Eurocopter EC135 entered production in 1996 with the initial variants EC135 P1, powered by two Pratt & Whitney Canada PW206B engines, and EC135 T1, equipped with two Turbomeca Arrius 2B engines, marking the start of deliveries to civilian and government operators.[17] These early models featured pressure-carbureted engines for the P-series and FADEC-controlled systems for the T-series, establishing the helicopter's reputation for versatility in emergency medical services and training roles.[8] In 2001, the EC135 P2 variant was certified, followed by the T2 in 2002, introducing upgraded PW206B2 and Arrius 2B2 engines respectively, which enhanced power output and performance while maintaining the base maximum takeoff weight of 2,835 kg.[18] A further certification in 2006 increased the maximum takeoff weight to 2,910 kg across the P2 and T2 models, improving payload and operational flexibility without major airframe changes.[19] The P2+ and T2+ upgrades in 2006 incorporated refined rotor blades and engine optimizations for better high-altitude hover performance and reduced noise levels.[18] The EC135 P3 and T3 variants were introduced in 2010, featuring Turbomeca Arrius 2B2 or Pratt & Whitney Canada PW206B3 engines, which added approximately 200 kg to the payload capacity and integrated the Helionix avionics suite with a four-axis autopilot for enhanced situational awareness and single-pilot IFR operations.[17] In 2014, Eurocopter was rebranded as Airbus Helicopters, with the EC135 redesignated as the H135, continuing production under this name with ongoing enhancements.[20] In March 2025, Airbus announced the H140, an upgraded evolution of the H135 featuring a five-blade bearingless main rotor system for superior hover efficiency and noise reduction, an increased maximum takeoff weight of 3,100 kg, and other performance improvements, with entry into service planned for 2028.[21] Production milestones highlight the model's enduring success: the 1,000th unit was delivered to Germany's ADAC air rescue service in 2011, the 1,300th in 2018 to a multipurpose operator, and the 1,400th in 2020 to French HEMS provider Mont Blanc Hélicoptères.[22][23][24] The 1,500th was delivered to ADAC in 2023. As of November 2025, over 1,560 EC135/H135 helicopters have been delivered to over 300 operators across more than 60 countries, accumulating millions of flight hours.[25][4]Design
Airframe and Rotor System
The fuselage of the Eurocopter EC135 features a semi-monocoque construction primarily utilizing aluminum alloy sheet-stringer technology with metallic main frames, supplemented by composite panels to reduce weight while maintaining structural integrity. This design accommodates one pilot and up to seven passengers in a spacious, energy-absorbing cabin measuring approximately 1.91 m in length, 1.56 m in width, and 1.26 m in height.[26] The cabin includes large sliding doors on both sides for easy access, a modular interior configurable for roles such as emergency medical services or police operations, and crashworthy fuel tanks integrated beneath the seats to enhance occupant safety during impacts.[15][14][27][1] The main rotor system employs a bearingless and hingeless design derived from the earlier Bölkow Bo 105, featuring four composite blades in the Starflex configuration for improved performance and reduced maintenance. With a diameter of 10.2 meters, the rotor blades incorporate advanced fiber-reinforced composites and optimized tip geometry to minimize vibration and noise, achieving flyover noise levels below 85 dB EPNdB, making it one of the quietest helicopters in its class. An anti-resonance isolation system further dampens vibrations transmitted to the airframe.[14][18][28][29] The tail rotor utilizes a ten-blade Fenestron shrouded design with unequal blade spacing, providing enhanced safety, efficiency, and reduced noise compared to conventional exposed tail rotors, with a diameter of 1.00 m; later H135 variants offer an optional five-blade version for further noise reduction and performance gains.[4][14][18][1] The landing gear consists of a fixed skid-type system with cross-tubes and skid shoes, including options for ground-handling wheels and emergency flotation gear for overwater operations.[4][14][18][1]Powerplant and Avionics
The Eurocopter EC135 features a twin-engine powerplant configuration designed for redundancy and reliability, with options for either Turbomeca Arrius 2B or 2B2 turboshaft engines in P-series variants or Pratt & Whitney Canada PW206B or PW206B3 in T-series variants. The Arrius engines deliver approximately 473 to 504 shaft horsepower (shp) each, while the PW206 series provides 450 to 503 shp per engine, with all variants equipped with full authority digital engine control (FADEC) systems to optimize performance and ensure safe operation in the event of an engine failure.[14] This setup supports one-engine-inoperative (OEI) contingencies, maintaining flight capability through automatic power management.[1] The fuel system consists of two main crash-resistant tanks with self-sealing bladder construction, providing a total usable capacity of 712 liters to enhance safety during impacts. These tanks are integrated under the cabin floor, with fueling accessed via a single port on the left side, and the system includes pumps for balanced distribution to both engines.[30] Avionics on the EC135 vary by model, with earlier P1/P2 and T1/T2 variants featuring a 3-axis autopilot and analog instrumentation for basic flight management.[4] From the P3 and T3 models onward, the advanced Helionix suite is standard, incorporating a 4-axis autopilot, dual 10-inch multifunction glass cockpit displays, synthetic vision systems for enhanced situational awareness, and traffic collision avoidance capabilities.[31] This integrated digital architecture reduces pilot workload and supports instrument flight rules (IFR) operations.[32] The electrical system operates on 28V DC, powered by two 250A generators—one per engine—along with a backup battery, enabling compatibility with night vision goggles and auxiliary mission equipment such as forward-looking infrared (FLIR) or hoist systems for emergency medical services and law enforcement roles.[1] Maintenance is facilitated by a modular powerplant design allowing rapid engine swaps in under two hours, complemented by health and usage monitoring systems (HUMS) that track component performance and vibration data to predict failures and optimize scheduled inspections.[33]Operational History
Civilian Applications
The Eurocopter EC135, now known as the Airbus H135, serves a wide array of civilian roles, leveraging its compact size, twin-engine reliability, and advanced avionics for missions requiring precision and rapid response. Primarily utilized in emergency medical services (EMS), law enforcement, commercial transport, and training, the helicopter's versatility stems from its ability to accommodate specialized equipment while maintaining low noise levels and high maneuverability suitable for urban environments.[4] In emergency medical services, the EC135 excels as a primary air ambulance platform, configured with modular interiors for patient transport, including stretchers, oxygen systems, and medical monitoring equipment to facilitate rapid in-flight care. Operators such as Germany's DRF Luftrettung, which manages over 50 helicopters including multiple EC135 variants, rely on it for time-critical rescues across diverse terrains, performing thousands of missions annually. Similarly, the ADAC Luftrettung fleet incorporates EC135 models for medevac operations, enabling quick deployment to accident sites with a focus on patient stabilization during transit. The EC135 family is a dominant platform in the global EMS sector.[34][35][36] For police and law enforcement, the EC135 supports airborne surveillance and patrol duties, equipped with features like the Helicopter Observer Harness System (HOBS) for safe external observations, high-intensity searchlights, electro-optical/infrared cameras, and real-time data links to ground units. In the United Kingdom, the National Police Air Service (NPAS) integrates H135 variants into its fleet for monitoring large events and pursuits, enhancing situational awareness over populated areas, with an order for seven additional H135s placed in 2025. Australian forces, including Queensland's Polair, deploy the EC135 for traffic enforcement and search operations, benefiting from its low-vibration cabin that supports extended missions. Canadian provincial police, such as Ontario's, utilize the type for similar law enforcement tasks, including border surveillance and emergency response coordination, following acquisition of three H135s in 2024.[37][38][39] In commercial transport, the EC135 facilitates offshore support, executive shuttling, and tourism flights, capitalizing on its IFR capabilities and endurance for demanding routes. Norwegian operator Uni Fly employs the EC135 for maintenance and logistics to North Sea wind farms and oil platforms, completing over 18,000 turbine operations since 2002 with a focus on safe personnel transfers in harsh weather. Executive configurations seat up to six passengers in comfort, serving corporate shuttles across Europe, while tourism variants offer scenic flights with unobstructed views from its large windows.[40] The EC135 also plays a key role in pilot training and utility tasks, including ab initio instruction at flight schools equipped with its forgiving handling characteristics and simulator compatibility. FlightSafety International provides comprehensive EC135 training programs, covering type ratings and operational procedures for civilian pilots transitioning to light twins. In utility applications, it supports aerial surveying for environmental monitoring and infrastructure inspection, utilizing its stability and sensor mounts for data collection over remote areas.[41] As of 2025, the EC135/H135 fleet exceeds 1,700 units operated by more than 300 entities across 60 countries, amassing over 7 million flight hours that highlight its proven reliability in civilian operations. Its appeal is bolstered by competitive direct operating costs, estimated at approximately $861 per hour, which include fuel, maintenance, and crew expenses, making it economical for frequent-use missions compared to larger helicopters.[42][43]Military and Government Use
The Eurocopter EC135, now designated as the Airbus H135 in its military configurations, has been widely adopted for basic helicopter pilot training by various armed forces. The German Army has utilized the EC135 since the early 2000s at its Aviation School in Bückeburg, where eight aircraft train pilots, with the program extended through a seven-year agreement in 2014. Similarly, the UK's Royal Air Force operates 29 H135 helicopters, designated Juno HT1, for advanced training that prepares aircrew for maritime, mountain, and search-and-rescue roles, with the first deliveries occurring in 2017. In reconnaissance and light attack roles, militarized variants such as the EC635 have been acquired for surveillance and armed operations. The Iraqi Army acquired 24 EC635 helicopters in 2009, with initial deliveries in 2011, for use in hot and high environments. Government applications extend to VIP transport for dignitaries and heads of state. In Japan, the National Police Agency operates 14 H135/EC135 helicopters for personnel and VIP missions, complementing the Japan Maritime Self-Defense Force's fleet of 10 EC135s primarily for training but also supporting official transport needs. These configurations prioritize passenger comfort with seating for up to eight and advanced avionics for safe, low-level operations. The EC135 participates in multinational military exercises, enhancing interoperability among NATO allies. German Army EC135s joined the 2025 Griffin Lightning exercise in Lithuania, involving low-altitude maneuvers alongside NH90 and CH-53 helicopters to simulate collective defense scenarios. In the UK, the Ministry of Defence integrates H135 trainers into broader rotary-wing curricula that support transitions to search-and-rescue operations, though primary SAR duties have shifted to larger platforms. As of 2025, Airbus Helicopters had delivered over 1,700 H135 family units globally, with hundreds allocated to military operators for training and utility roles, including upgrades like enhanced engine performance for hot/high altitude operations.Variants
Civil Variants
The civil variants of the Eurocopter EC135, now known as the Airbus H135, encompass a series of light twin-engine utility helicopters designed primarily for non-military roles such as emergency medical services, law enforcement, and corporate transport. These models evolved progressively from the initial production versions in the mid-1990s, incorporating enhancements in engine power, weight capacity, rotor technology, and avionics to improve performance, noise levels, and operational efficiency. The "P" designation indicates Pratt & Whitney Canada engines, while the "T" denotes Safran (formerly Turbomeca) Arrius engines; both powerplants feature full authority digital engine control (FADEC) for optimized management. As of 2025, over 1,500 civil units have been produced, comprising the majority of the more than 1,560 total H135 family helicopters delivered worldwide.[3] The EC135 P1 and T1 were the inaugural civil production models, certified and entering service in 1996. The P1 utilized two Pratt & Whitney Canada PW206B turboshaft engines, each rated at 463 kW (621 shp), while the T1 employed two Turbomeca Arrius 2B engines with similar output; both shared a four-bladed Spheriflex main rotor system and a maximum takeoff weight (MTOW) of 2,720 kg. These variants emphasized versatility for missions requiring up to seven passengers or specialized equipment, with the FADEC systems enabling precise engine management and reduced pilot workload compared to earlier prototypes.[44][45][46] In 2001, the EC135 P2 and T2 variants introduced upgrades for enhanced hot-and-high performance, featuring PW206B2 engines on the P2 and Arrius 2B2 on the T2, both with increased power ratings up to 475 kW (637 shp). The MTOW rose to 2,850 kg, allowing greater payload capacity—up to 1,360 kg useful load—while maintaining the four-bladed rotor; these changes improved hover capabilities at altitudes over 3,000 m and in high temperatures, making them suitable for diverse civil applications like aerial surveying and search-and-rescue.[45][47][17] The EC135 P2+ and T2+ models, launched in 2006, further refined the design with a five-bladed main rotor for significantly reduced external noise levels (meeting ICAO Stage 2 standards) and improved lift efficiency. Powered by PW206B2 engines (498 kW/667 shp) on the P2+ and Arrius 2B2 on the T2+, they achieved an MTOW of 2,910 kg and a useful load of 1,455 kg, enhancing endurance and maneuverability without increasing overall dimensions. These variants became popular for urban operations, including police surveillance and medical evacuations, due to their quieter profile and better vibration damping.[1][48][49] Midway through the 2010s, the interim EC135 P2i and T2i variants served as bridges to advanced avionics integration, incorporating elements of the Helionix suite such as 4-axis autopilot and multifunction displays as optional previews. Retaining the P2+/T2+ airframe and engines but with software upgrades for better engine monitoring, they maintained the 2,910 kg MTOW while preparing operators for full digital cockpits, facilitating smoother transitions in civil fleets focused on instrument flight rules (IFR) compliance.[50] The latest civil evolution, the EC135 P3 and T3 (redesignated H135 in 2015), entered production around 2014 with more powerful engines: PW206B3 on the P3 and Arrius 2B2 on the T3, both delivering up to 632 kW (847 shp) takeoff power. These models feature the full Helionix avionics package, including synthetic vision and automated recovery modes, alongside an increased MTOW of 3,100 kg (with optional augmented gross weight certification) and retained five-bladed rotor for superior high-altitude performance. Widely adopted for demanding civil roles like helicopter emergency medical services (HEMS), they offer extended range up to 650 km and reduced operating costs through efficient fuel burn.[3][17]Military Variants
The military variants of the Eurocopter EC135, designated as the EC635 and later rebranded under Airbus Helicopters as the H135M, are specialized configurations optimized for light utility, reconnaissance, light attack, and training missions. These variants build on the core EC135 airframe but incorporate structural reinforcements and military-specific systems to support armed operations and enhanced survivability.[51] The EC635 serves as the primary military export version, derived from the civil P2 and T2 models, with a reinforced cabin structure designed to handle the stresses of mounting weapons and mission equipment. It features provisions for armaments including machine gun mounts, rocket pods, and guided missiles, along with electro-optical/infrared (EO/IR) sensors for target acquisition and surveillance. The EC635 T2+ subvariant further includes upgraded avionics and powerplants for improved performance in tactical environments. Military variants, including training configurations such as the UK's HT1, are designated under EC635 or H135M.[52][53] Distinguishing the military models from their civil counterparts are several key modifications, such as the MIL-STD-1553B databus for robust avionics integration, self-sealing fuel tanks to mitigate battle damage, and optional ballistic protection for the cockpit and critical areas. Weapon hardpoints on the fuselage and skids enable flexible payload configurations without compromising the helicopter's baseline agility. These enhancements allow the EC635 to operate in contested environments while maintaining the EC135's low noise signature and maneuverability.[51][53] The H135M, evolving from the EC635 P3 and T3 standards, introduces advanced avionics suites compatible with modern networked warfare, including provisions for manned-unmanned teaming where the helicopter can coordinate with drones for extended reconnaissance. This variant retains the modular design for rapid mission reconfiguration, emphasizing interoperability with NATO-standard systems.[42] By 2025, production of these military variants has reached approximately 108 units, reflecting their adoption for diverse defense roles worldwide.[54]Operators
Military Operators
The military variants of the Eurocopter EC135, designated as the EC635 and later rebranded under the Airbus Helicopters H135M family, serve primarily in pilot training, light utility, transport, and reconnaissance roles across numerous armed forces worldwide. These helicopters are valued for their advanced avionics, such as the Helionix suite, and adaptability to military missions, with many fleets undergoing upgrades to the five-bladed rotor configuration for improved performance and reduced maintenance by 2025.[55][3] Active military users span more than 20 countries, reflecting the platform's global adoption for basic and advanced rotary-wing instruction.[56] In Germany, the Bundeswehr's Army Aviation branch operates the EC635 T2+ variant for initial helicopter training and reconnaissance tasks, with aircraft entering service in 2006 at facilities like the International Helicopter Training Centre in Bückeburg.[55] The fleet supports rotary-wing pilot qualification and has integrated military-specific enhancements for tactical operations.[14] Iraq's armed forces utilize the EC635 (now H135M) variant, a militarized derivative of the EC135, for counter-insurgency and light utility missions, with deliveries commencing in 2011 and continuing through 2015 to bolster operational capabilities in challenging environments. 24 units were incorporated into the Iraqi Army Aviation command to replace older platforms.[57][58] The United Kingdom's Army Air Corps operates more than 10 H135 helicopters, designated Juno HT1, primarily for advanced pilot training as part of the UK Military Flying Training System; this includes a core fleet of 29 units shared with the Royal Air Force, plus five additional aircraft leased from surplus RAF stock starting in 2022.[59][60] Australia's Royal Australian Air Force and Army Aviation utilize 15 EC135 T2+ helicopters under the Helicopter Aircrew Training System (HATS) contract, delivered between 2014 and 2016 for basic and operational training of defense force pilots.[61] These aircraft feature glass cockpits and autopilot systems suited to military instruction.[62] Japan's Japan Maritime Self-Defense Force (JMSDF) operates 10 TH-135 training helicopters, a variant of the EC135 T2, acquired progressively from 2009 to 2013 to replace aging UH-60J trainers and support naval rotary-wing pilot development.[63] The fleet is based at JMSDF facilities for introductory flight instruction.[64] Other notable military operators include the Irish Air Corps, which maintains two EC135P2+ units for utility and training, planned for retirement and replacement by four H145M models starting in 2027.[65][66] In Canada, the Royal Canadian Air Force contracted for 19 H135 helicopters in 2024 under the Future Aircrew Training program, with initial deliveries supporting pilot training from 2027 onward.[67] Spain's armed forces completed acquisition of 36 H135 units as of September 2025, unifying army, air force, and navy training fleets with integrated uncrewed systems compatibility.[68] Additional users such as Switzerland, Jordan, Brazil, Morocco, and Gabon employ H135M variants for similar light military roles.[53]Civilian and Government Operators
The Eurocopter EC135, now marketed as the Airbus H135, serves a diverse array of civilian and government operators worldwide, with over 1,560 units delivered to more than 300 entities across 63 countries as of 2025. These operators primarily utilize the helicopter for emergency medical services (EMS), law enforcement, search and rescue, VIP transport, and commercial applications such as offshore support and tourism, leveraging its compact size, advanced avionics, and multi-role adaptability.[4] In the EMS sector, Germany maintains one of the largest concentrations of EC135/H135 helicopters, with ADAC Luftrettung operating approximately 60 units as part of its air rescue fleet and DRF Luftrettung managing over 50 Airbus helicopters, predominantly H135 models, across 37 bases in Germany, Austria, Switzerland, and Liechtenstein. In the United States, California Shock Trauma Air Rescue (CALSTAR) employs eight EC135 helicopters for rapid medical evacuations throughout California. Norway's Norsk Luftambulanse relies on around 14 H135 family helicopters to provide EMS coverage in challenging terrains across Norway and Denmark.[69][70][71][72] Law enforcement agencies favor the EC135/H135 for its surveillance capabilities and quick response times. The United Kingdom's National Police Air Service (NPAS) integrates 16 H135 helicopters into its operations, supporting 43 police forces with aerial patrols, search operations, and tactical support from 14 bases in England and Wales. In Australia, the Queensland Police Service has incorporated H135 helicopters into its PolAir fleet for crime prevention and pursuit missions, including a dedicated unit in Townsville that covers North Queensland. Canadian provincial forces, such as the Ontario Provincial Police, operate H135 models for airborne policing and emergency response duties. The Swedish Police operate approximately 6 EC135 helicopters for law enforcement duties.[73][74][75][76] Beyond policing, non-police government users include Japan's air ambulance services, where EC135 T2+ variants, such as those operated by Saga Aviation for Fukuoka Prefecture, facilitate medical transports under coordination with coastal authorities. In Brazil, H135 helicopters support VIP and utility missions for government agencies, including transport roles aligned with presidential security needs.[77][78] Commercially, the North Sea offshore sector features prominent use by Bristow Group, which maintains a fleet of EC135 P2+ and H135 helicopters for crew changes and logistics to oil and gas installations, with recent expansions including up to 15 additional H135 units ordered in 2024 for enhanced operations. In Europe, operators employ the EC135 for tourism, providing low-noise sightseeing flights over scenic areas like the Alps and coastal regions due to its spacious cabin and smooth ride characteristics.[79][80]Incidents and Accidents
Notable Incidents
On May 30, 2006, an EC135P1 helicopter, registration N601FH, operated by CJ Systems Inc. as an emergency medical services flight, collided with terrain near Warwick, New York, during a night visual flight rules approach in deteriorating weather conditions. The National Transportation Safety Board determined that the probable cause was the pilot's spatial disorientation resulting from the loss of visual references, leading to controlled flight into terrain; all four occupants—the pilot, flight nurse, flight paramedic, and patient—were fatally injured.[81] On December 8, 2020, an EC135T1, registration F-HJAF, operated by SAF Hélicoptères during a night mountain rescue training flight, collided with vegetation near Bonvillard in the French Alps while performing a helihoisting exercise. The Bureau d'Enquêtes et d'Analyses pour la sécurité de l'aviation civile (BEA) investigation concluded that the accident resulted from the crew's loss of external visual references in low-illumination conditions during the hover maneuver, compounded by the complexity of the training task; five of the six crew members—an instructor pilot, pilot under instruction, instructor hoist operator, hoist operator under instruction, and a mountain rescue specialist—were fatally injured, with the surviving pilot sustaining serious injuries.[82] On August 28, 2023, an EC135T1, registration N109BC, operated by the Broward County Sheriff's Office for an emergency medical services mission, experienced an inflight fire shortly after takeoff from Pompano Beach Airpark, Florida, resulting in tail boom separation and collision with an apartment building. The National Transportation Safety Board identified the probable cause as overheating in the No. 1 engine, which led to the fire outside the engine firewalls and subsequent loss of control; the pilot and flight medic were fatally injured, the flight nurse sustained serious injuries, and a ground resident received minor injuries.[83] On March 10, 2025, an EC135P2+, registration N835CS, operated by the University of Mississippi Medical Center as AirCare 3, crashed near Canton, Mississippi, shortly after departing from the University of Mississippi Medical Center helipad following a patient drop-off and refueling. The three crew members—the pilot, flight nurse, and paramedic—sustained fatal injuries in the accident, which occurred in instrument meteorological conditions with low ceilings and reduced visibility; the helicopter reported a flight control problem shortly before impact. The National Transportation Safety Board preliminary report notes the helicopter's brief flight path of approximately 0.25 miles south before impact, with the cause still under investigation.[84] On July 29, 2025, a Bundeswehr EC135P2+, registration D-HCDL, crashed into the Mulde River near Grimma, Saxony, Germany, during a low-altitude training flight. All three air force crew members sustained fatal injuries; initial reports indicate a loss of control during maneuvers, with the cause under investigation by German aviation authorities, and environmental factors such as the river's proximity complicating recovery.[85] On November 14, 2025, an EC135T2+, registration I-LASH, clipped a power line in thick fog and crashed in a field west of Casalromano, Mantua, Italy. The sole pilot sustained fatal injuries; the cause is under investigation by Italian authorities.[86]Safety Record
The global fleet of the Eurocopter EC135 (now Airbus H135) has accumulated over 7.5 million flight hours as of March 2025.[87] This extensive operational experience underscores its reliability across civilian, military, and government roles, with a safety record better than the broader industry average for light twin-engine helicopters in high-risk operations like emergency medical services.[88] Analysis of accident data reveals common contributing factors, particularly in high-risk operations like emergency medical services (EMS) and police missions. Controlled flight into terrain (CFIT) in instrument meteorological conditions (IMC) accounts for a significant portion of incidents, often linked to spatial disorientation or reduced visibility.[89] Loss of control represents another frequent cause, frequently exacerbated by operational pressures or environmental factors in these demanding environments.[89] Engine-related failures remain rare, attributable to the redundant twin-engine design that provides enhanced fault tolerance.[4] Safety enhancements have progressively mitigated these risks. The integration of Health and Usage Monitoring Systems (HUMS) since the early 2000s facilitates predictive maintenance by continuously tracking component health, thereby minimizing unexpected mechanical issues. [33] More recently, the Helionix avionics suite, introduced on later variants, incorporates advanced features such as the Terrain Awareness and Warning System (TAWS) and synthetic vision displays, which improve situational awareness and have contributed to substantial reductions in CFIT occurrences among equipped aircraft. [4] Regulatory measures by authorities like the European Union Aviation Safety Agency (EASA) and the Federal Aviation Administration (FAA) have reinforced these improvements through targeted airworthiness directives. For instance, a 2019 FAA directive mandated inspections and potential replacements for main rotor actuators on certain EC135 models to address potential control issues identified in service. [90] Overall, the EC135's twin-engine architecture and ongoing upgrades position it as safer than comparable single-engine light helicopters, with high survivability in non-CFIT events due to its robust airframe and systems redundancy. [91]Specifications
General Characteristics
The Eurocopter EC135 P2+/T2+ variant is certified for single-pilot operation under instrument flight rules (IFR), enabling efficient use in diverse civil and paramedical roles with a standard crew of one pilot. The P2+ is powered by two Pratt & Whitney Canada PW206B2 turboshaft engines, while the T2+ uses two Safran Arrius 2B2 turboshafts.[1] This configuration supports up to seven passengers in a standard transport setup or, in emergency medical services (EMS) arrangement, two crew members plus two stretchers for patient transport, with an overall payload capacity of 1,455 kg.[1] Key structural dimensions emphasize its compact yet spacious design, facilitating easy access and versatility for multi-role missions.| Dimension | Value |
|---|---|
| Fuselage length | 10.2 m |
| Main rotor diameter | 10.2 m |
| Height (overall) | 3.51 m |
| Cabin volume | 4.9 m³ |