Rotax 915 iS
The Rotax 915 iS is a lightweight, turbocharged, four-cylinder, four-stroke piston aircraft engine manufactured by BRP-Rotax GmbH & Co KG, featuring redundant electronic fuel injection, ignition systems, and an intercooler for enhanced performance at high altitudes, with a maximum takeoff power of 141 horsepower (104 kW) and a continuous rating of 135 horsepower (99 kW).[1] Designed primarily for light sport aircraft, ultralights, gyrocopters, and helicopters, it incorporates liquid-cooled cylinders with air-cooling for the cylinder heads, dry sump forced lubrication, and a propeller speed reduction gearbox, achieving a displacement of 1,352 cm³ and a dry weight of approximately 82.2 kg including key components.[1] The engine supports a time between overhaul (TBO) of 1,200 hours and operates effectively up to a service ceiling of 23,000 feet, utilizing aviation fuels such as 100LL AVGAS or unleaded gasoline with a minimum AKI of 91.[1] Unveiled by BRP-Rotax on July 21, 2015, at the EAA AirVenture in Oshkosh, Wisconsin, the 915 iS was developed as an evolution of the proven Rotax 912 and 914 series to meet demand for higher power in larger airframes while maintaining low operating costs and ease of maintenance.[2] Serial production commenced in the second half of 2017, following the issuance of its European Aviation Safety Agency (EASA) Type Certificate for the 915 iSc3 A variant on 14 December 2017, which validated its compliance with stringent safety and performance standards for certified applications.[3][4] Key innovations include an eco mode for fuel efficiency, a 24V electrical system capable of delivering up to 800W, and stainless steel exhaust components, contributing to its reputation as one of the lightest and most powerful factory engines in its class for general aviation.[1] The engine's full takeoff power is available up to at least 15,000 feet, making it suitable for operations in diverse environments from sea level to high-altitude bases.[2]Development and certification
Design and development history
The Rotax 915 iS was announced on July 21, 2015, at the EAA AirVenture in Oshkosh, Wisconsin, by BRP-Rotax as a turbocharged advancement of the established Rotax 912/914 engine series, aimed at delivering increased power for light aircraft applications while minimizing additional weight.[2][5] This development responded to market demands for enhanced performance in the ultralight and light sport aircraft segments, where operators sought higher altitude capabilities and sustained power without significantly compromising the power-to-weight ratio that made the predecessor engines popular.[6] The engine retained the foundational horizontally opposed four-cylinder architecture of the 912/914 series, incorporating a 2.54:1 propeller speed reduction gearbox to ensure compatibility with existing airframe designs.[1][7] Development progressed with the first flight test occurring on March 12, 2016, in a prototype aircraft at Wels, Austria, marking a key milestone after ground testing phases.[8][9] Initial prototypes were delivered to selected original equipment manufacturers (OEMs) in August 2016 for integration and further evaluation in their aircraft platforms.[10][11] Central design goals included achieving 141 horsepower at takeoff, maintaining full power up to a critical altitude of 15,000 feet (4,570 meters), and supporting a service ceiling of 23,000 feet (7,010 meters), with an initial time between overhaul (TBO) target of 1,200 hours and long-term aspirations reaching 2,000 hours to balance performance with maintenance economics.[1][12][6] Key engineering decisions addressed challenges in integrating a turbocharger and intercooler into the compact four-cylinder layout, requiring reinforced internal components to handle boosted pressures while preserving the engine's lightweight profile and reliability.[13][9] During development, Rotax introduced redundant electronic fuel injection and ignition systems, managed by a dual-channel engine control unit, to improve fault tolerance and operational safety in demanding flight conditions.[1][6][5] These features enhanced the engine's suitability for high-altitude operations, ensuring consistent performance without sacrificing the proven durability of the base architecture.[14]Certification and production milestones
The Rotax 915 iSc variant received European Union Aviation Safety Agency (EASA) type certification on December 19, 2017, under Certification Specifications for Engines (CS-E), marking the approval for certified aircraft applications.[3] This certification applied initially to the 915 iSc3 A model, enabling its integration into EASA-approved aircraft. Shortly thereafter, in early 2018, the non-certified 915 iS variant achieved compliance with ASTM International consensus standards, specifically ASTM F2339 for continued airworthiness of light-sport aircraft engines, facilitating its use in experimental and light-sport aircraft markets.[15] Full serial production of the Rotax 915 iS series commenced in the second half of 2017 at the BRP-Rotax manufacturing facility in Gunskirchen, Austria, aligning with the EASA certification timeline. Initial engine deliveries followed in late 2017 and early 2018 to aircraft manufacturers, including Blackwing Aircraft for their BW-1 and Pipistrel for models like the Virus SW, supporting rapid adoption in the general aviation sector.[16][17] In December 2021, BRP-Rotax introduced a 24-volt electrical system option for the 915 iS and 915 iSc variants, designated as the 915 iS C24 and 915 iSc C24, providing up to 800 watts to accommodate advanced avionics, glass cockpits, and auxiliary systems in modern aircraft installations.[18] This update enhanced compatibility with higher-power electrical demands without altering the core engine performance. In 2025, the Federal Aviation Administration (FAA) validated EASA Emergency Airworthiness Directive (AD) 2025-0019-E, issued on January 16, 2025, which mandates inspection and potential replacement of the oil spray nozzle in the internal generator for affected 915 iSc A series models to prevent electrical power loss.[19] This followed the issuance of BRP-Rotax Alert Service Bulletin ASB-915 i-016 on December 20, 2024, requiring one-time inspections of the oil spray nozzle, which was reclassified as mandatory through the AD in early 2025.[20] Production has since expanded to meet growing demand, with the engine series earning the "Best Powertrain" award from Aerokurier magazine in 2017, 2018, and 2021, recognizing its innovation and reliability in the aviation powertrain category.[21][22]Technical description
Core engine configuration
The Rotax 915 iS is a four-cylinder, four-stroke, horizontally opposed piston engine featuring air-cooled cylinders and liquid-cooled cylinder heads. This configuration draws from the established layout of the Rotax 912 series, adapting it for enhanced performance through turbocharging while retaining a compact design suitable for light aircraft.[1][12] The engine has a displacement of 1,352 cm³ (82.5 cu in), achieved with a bore of 84.0 mm (3.31 in) and a stroke of 61.0 mm (2.40 in). It employs a compression ratio of 8.2:1 to balance efficiency and durability under boosted conditions. The turbocharging system utilizes a fixed-geometry turbocharger paired with an air-to-air intercooler, enabling sustained power output at higher altitudes by cooling the compressed intake charge.[12][23][24] A propeller speed reduction unit with a 2.54:1 gear ratio drives the propeller from the crankshaft, optimizing rotational speeds for efficient propulsion. The lubrication system is a dry sump forced type, incorporating a separate oil tank and a centrifugal oil pump to ensure reliable oil circulation and scavenging under varying flight attitudes. Fuel compatibility includes a minimum rating of MON 85 / RON 95 / AKI 91, accommodating leaded, unleaded automotive gasoline, AVGAS 100LL, and blends with up to 10% ethanol.[1][12][1]Auxiliary systems and components
The Rotax 915 iS features a fully redundant electronic multipoint fuel injection system and dual electronic ignition, both managed by an Engine Management System (EMS) that automatically adjusts mixture and ignition timing for optimal performance across varying altitudes and conditions.[1][25] The EMS employs dual-channel electronic control units (ECUs) to ensure continued operation even if one channel fails, with fuel injection delivering precise metering at pressures of 2.9–3.1 bar and supporting fuels such as RON 95 or AKI 91, including compatibility with AVGAS 100LL.[25] Ignition is provided by dual coils integrated into the EMS, enabling full power in alternate modes for enhanced reliability.[25] Cooling is achieved through a combined liquid and air system, with liquid cooling for the cylinder heads via a coolant pump and radiator, while the cylinders rely on air cooling; the turbocharger's wastegate is electronically controlled by the EMS to regulate boost pressure.[1][24] The coolant system operates at flow rates up to 70 liters per minute at 5800 rpm, with a maximum temperature of 130°C and pressure limited to 1.2 bar, ensuring efficient heat dissipation in demanding flight envelopes.[25] Electrical systems include a standard 12V electric starter (with 24V optional) for reliable cold starts, an external alternator in the 24V configuration delivering up to 800W at 28V to power onboard avionics, and an integrated water-cooled oil cooler as part of the dry sump lubrication setup.[1][26] The system requires a minimum 16 Ah battery with 350A cold cranking amps and includes grounding straps to the airframe for safety.[25] Key components enhance durability and integration, including a stainless steel exhaust system that withstands high temperatures and back pressures of 155–180 mbar at sea level, vibration dampers via an engine suspension frame to minimize structural stress, and dedicated mounting points for accessories such as air filters and propeller governors.[1][25] Maintenance is facilitated by a modular design allowing time between overhaul (TBO) servicing at 1200 hours, with diagnostic ports on the EMS for troubleshooting via CAN interfaces and sensors monitoring parameters like exhaust gas temperature and coolant levels. Operators must comply with the latest service bulletins and airworthiness directives, including Service Bulletin SB-912i-016_915i-016_916i-006 (issued December 16, 2024) for inspection and/or replacement of oil spray nozzles, and FAA Airworthiness Directive 2025-05852 (effective April 21, 2025) addressing potential lubrication issues in affected models.[1][25][27][28]Variants
Base models (915 iS and 915 iSc)
The Rotax 915 iS is the base non-certified variant designed for compliance with ASTM F2339 standards, making it suitable for light-sport aircraft (LSA), experimental, and ultralight applications in markets like the United States.[15][29] It features a standard 12V electrical system to support integration into homebuilt and ultralight aircraft.[18] In contrast, the Rotax 915 iSc is the certified counterpart, approved under EASA CS-E for use in commercial and type-certificated operations, particularly in European ultralight and light aircraft sectors.[12][30] While the 915 iSc shares identical mechanical specifications with the 915 iS, it incorporates enhanced documentation, traceability, and quality control measures to meet certification requirements.[12] Both models deliver a maximum takeoff power of 141 hp (104 kW) at 5,800 RPM, limited to 5 minutes, and a continuous power rating of 135 hp (99 kW) at 5,500 RPM, providing consistent performance across altitudes up to 15,000 feet.[12][14] The base dry weight is 82.2 kg (181 lb) including the propeller speed reduction gearbox, turbocharger, intercooler, and exhaust system.[1] These engines were initially positioned with the 915 iS targeting the U.S. LSA and homebuilt markets for its flexibility in non-certified setups, and the 915 iSc aimed at European certified ultralight applications requiring regulatory approval.[2] Later 24V upgrades serve as extensions of these base models for aircraft with advanced electrical demands.[18]Voltage and customization options
The Rotax 915 iS engine, building on its standard 12V electrical architecture, offers 24V variants to accommodate advanced avionics demands. Introduced in late 2021, the 915 iS C24 and 915 iSc C24 models provide a 24V electrical system with an alternator capable of delivering up to 800W of power, enabling support for digital displays, glass cockpits, and higher electrical loads without compromising engine performance.[31][18] The "C24" designation distinguishes these from the base 12V versions, with the iS C24 being non-certified for experimental use and the iSc C24 certified under EASA standards for certified aircraft.[1] These 24V variants maintain the same overall engine power output as the base models, ensuring no reduction in the 141 hp rating, while the upgraded alternator handles increased electrical demands efficiently.[7] They add no measurable weight to the engine assembly compared to the 12V configuration, preserving the Rotax 915 iS's favorable power-to-weight ratio.[31][18] Customization options for the Rotax 915 iS series are facilitated through the official Rotax engine configurator, an online tool that allows users to select and visualize accessories such as variable air intake systems, propeller shaft flanges for constant-speed or fixed-pitch propellers, and gearbox configurations.[32][33] The "A" suffix, as in 915 iS A or 915 iSc A, indicates OEM-tailored versions with neutral black covers and no branding, enabling aircraft manufacturers to apply custom designs or integrations.[1] All variants, including customized builds, are manufactured at the BRP-Rotax facility in Gunskirchen, Austria, with bespoke configurations typically requiring additional production lead time.[1]Applications
Fixed-wing aircraft
The Rotax 915 iS engine powers several certified fixed-wing aircraft, enhancing their performance in light-sport and ultralight categories. One notable example is the Blackwing BW635, a four-seat light-sport aircraft (LSA) with retractable gear, which received German DULV approval in 2021.[34] This turbocharged integration allows the BW635 to achieve high maneuverability and speeds suitable for touring and training, leveraging the engine's lightweight design. Another certified application is the Issoire APM 41 Simba 915iS, a French ultralight trainer that earned EASA certification in 2019 as the first such aircraft to incorporate the 915 iS.[35] The Simba benefits from the engine's electronic fuel injection and turbocharging, providing reliable power for four-seat operations in flight schools across Europe.[36] In experimental and LSA configurations, the Rotax 915 iS supports a range of high-performance designs and homebuilt kits. The Pipistrel Panthera, a sleek four-to-five-seat composite aircraft, utilizes the 915 iS in its high-performance variant, including hybrid-electric options that emphasize efficiency and speed for cross-country flights.[37] Similarly, the Slovakian Bristell B23 Turbo LSA employs the 915 iSc variant, marking it as the first EASA CS-23 certified aircraft with this engine, optimized for faster climbs and extended range in training roles.[38] Homebuilt enthusiasts have integrated the engine into kits like the Sonex Waiex-B, where installation kits facilitate its use in compact, aerobatic designs for recreational flying.[39] The 915 iS's dry weight of 82.2 kg contributes to significant integration advantages in fixed-wing LSAs, reducing overall aircraft mass to enable higher cruise speeds and service ceilings compared to heavier alternatives.[1] For instance, optimized designs like the JMB VL3 Evolution achieve cruise speeds exceeding 200 knots at altitude, demonstrating the engine's turbocharged performance for sustained power retention.[40] This lightweight profile also improves fuel efficiency and payload capacity, making it ideal for both training and touring missions. Adoption of the Rotax 915 iS in fixed-wing aircraft has grown steadily, particularly in European and U.S. markets, where it powers training and touring platforms due to its reliability and versatility in LSA and experimental categories.[1]Rotary-wing and experimental uses
The Rotax 915 iS engine has found application in various rotary-wing aircraft, particularly gyroplanes and autogyros, where its turbocharged design delivers consistent 141 hp output up to 15,000 ft density altitude, enhancing performance in hot-and-high conditions.[10] In gyroplanes, the engine's lightweight construction (82.2 kg dry weight) and fuel-injected efficiency contribute to improved climb rates and extended endurance without compromising low-speed handling.[1] For true helicopter configurations, the LaMana Escape ultralight helicopter integrates the 915 iS as its primary powerplant, leveraging the turbocharger and intercooler for reliable takeoff power at elevated altitudes.[41] In certified gyroplane models, the AutoGyro Cavalon employs the 915 iS to achieve a climb rate of up to 1,300 fpm and a cruise speed range of 55–115 mph, enabling a maximum endurance of 5.5 hours on 100 L of fuel while maintaining short takeoff distances of 360 ft for responsive low-speed operations.[42] Similarly, the Italian-certified Magni Gyro M24 Orion pairs the engine with a constant-speed propeller, resulting in enhanced climb and cruising speeds, greater stability at higher airspeeds, and smoother, quieter operation compared to non-turbo predecessors, with the turbo ensuring linear power delivery for high-altitude missions.[43] Experimental kits like the Argon 915, a successor to the Celier Aviation Xenon series produced by Manufaktura Lotnicza, utilize the 915 iS in a carbon fiber/Kevlar composite two-seater autogyro, providing 141 hp for agile handling and stability on rough terrain.[44][45] Beyond manned rotary-wing platforms, the 915 iS supports experimental innovations in hybrid propulsion and unmanned systems. In hybrid-electric tests, the engine has been coupled to an axial-flux generator in piston-based setups to quantify efficiency gains, demonstrating potential for reduced emissions in experimental rotorcraft configurations.[46] For UAV integrations, recent projects include Indonesia's Black Eagle drone, which uses the 915 iS (110–150 hp configuration) to achieve 24-hour endurance flights at 20,000 ft altitudes.[47] Iran's Ababil-5 reconnaissance UAV, tested in 2024 exercises, incorporates the engine for extended loiter times in combat roles, while Israel's Heron MK II MALE UAV relies on it for high-altitude, long-endurance operations carrying up to 1,000 kg payloads.[48][49] These adaptations highlight the engine's versatility in custom rotor drives and electrical redundancy setups for experimental reliability in demanding environments.[50]Specifications
General characteristics
The Rotax 915 iS is a horizontally opposed four-cylinder, four-stroke, turbocharged piston engine with liquid-cooled cylinder heads, ram-air-cooled cylinders, dry sump forced lubrication, and redundant dual-channel electronic fuel injection controlled by a full authority digital engine control (FADEC) system.[51] It features an integrated propeller speed reduction gearbox with a ratio of 2.5454:1 and is designed for light aircraft applications, incorporating a turbocharger with intercooler for enhanced high-altitude performance.[51][1] The engine has a displacement of 1,352 cm³ (82.5 cu in), achieved with a bore of 84.0 mm (3.31 in) and a stroke of 61.0 mm (2.40 in).[51]| Characteristic | Value |
|---|---|
| Dry weight (including gearbox, turbocharger, and intercooler) | 84.6 kg (186 lb)[51] |
| Length | 657 mm (25.9 in)[51] |
| Width | 578 mm (22.8 in)[51] |
| Height (without exhaust) | 398 mm (15.7 in)[51] |