SR22
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The X-Aviation Take Command! brand of products represents the very best of flight simulation immersion, and assures you this TorqueSim product is one of the most sophisticated, study sim level aircraft available for X-Plane! Real world pilots test and assist in the development of these products, and real world procedures are followed. It tells you these products are unlike any other product you've seen outside of the ever growing X-Aviation catalog! Want to feel like a real captain? Take Command!

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TorqueSim, RealSimGear, and X-Aviation are excited to announce the Entegra Edition of the renowned SR20 for X-Plane is coming soon! The SR20 is the product of thousands of hours of work, creating the highest quality rendition of a piston aircraft for X-Plane to date: everything is simulated! The custom Avidyne Entegra R8 avionics will provide a unique immersive flying experience unparalleled in flight simulation.

These aircraft are our most complex simulations to-date. Brand-new custom avionics, the TorqueSim physics engine, our maintenance and wear system, all paired with a gorgeous 3D model and a phenomenal sound pack. And that is just the beginning!

Be prepared to have a new favorite plane in your X-Plane hangar!

For personal, non-commercial, non-certified, home use only. For any other use, please inquire for a commercial license. Learn more about the TorqueSim SR2X Commercial Edition.

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The Entegra Avionics also are designed for RealSimGear’s new Entegra Desktop Console which features backlit buttons and knobs and 10.4″ IPS displays. More details can be found at RealSimGear’s website.

Full X-Plane 12 Support!

Features:

Advanced Custom Avionics

The TorqueSim/RealSimGear Entegra simulation is setting the bar for X-Plane GA Avionics. The custom developed avionics suite accurately replicates the Entegra avionics, both with PFD and MFD functions. This project has been a massive undertaking in developing our first fully-custom avionics package. Simulating the Entegra R8 flight deck will provide the ultimate platform for flying and learning. Also, new to the aircraft, a popup Angle of Attack indicator!

The Entegra PFD features a proper boot sequence, simulated avionics modules, and more. The altimeter of course can be switched between InHg and Mb units. The CDI can show (and drive the autopilot) from either GPS 1, GPS 2, NAV 1, or NAV 2!

The Entegra MFD has many different distinct modes in which it operates. The main mode, “MAP” features a gorgeous terrain rendering system. This is based on a short-term caching tiling system to optimize performance. Tiles are regenerated on-the-fly throughout flight, on a separate thread from the simulator. Airports, runways, VORs, NDBs, FIXs, traffic, and the flight plan are all overlaid on top of the terrain base map. Engine indications, as well as a brief flight plan overview are also shown. The Terrain Awareness and Warning System (TAWS) depicts the terrain relative to the current altitude, indicating areas of terrain conflicts on a graduating scale. This helpful mode removes all irrelevant info and lets the pilot focus on safely navigating their aircraft around terrain. “TRIP” and “NRST” are very handy for knowing your flight plan and surroundings. The TRIP page shows your waypoints from the GPS and provides helpful details including the distance, ETA, and estimated fuel at each waypoint. The NRST page shows the nearest Airports, VORs, NDBs, and FIXs. There is also a detailed airport view that shows the runway layout, frequencies, and elevation! The checklists for the aircraft are also fully integrated into the MFD. The proper procedures for normal flight, emergencies, and system malfunctions can all be viewed and followed. Of course, the Entegra Engine page is also intricately modeled. It features custom gauges, Lean-assist functionality, and the ability to set the onboard fuel via the fuel-totalizer.


The Entegra pairs perfectly with multiple GPS options. The GPS stack options are:

  • 2x Default/RealityXP GNS 430
  • 1x RealityXP GTN 750 + RealityXP GTN 650
  • 2x RealityXP GTN 650

(RealityXP Avionics sold separately)

Note: The default GNS 430 avionics do not expose approach waypoint information. SIDs, STARs, and enroute flight plans will show up on the Entegra MFD, but approaches will not, due to this Laminar Research limitation. If this changes, we will integrate full waypoint drawing. This does not affect the HSI and flying approaches, just the depiction on the MFD. RealityXP avionics show waypoints from all phases of flight without issue.

Also simulated, the GTX 330 transponder and STEC-55X Autopilot!

3D Model and Sounds

The TorqueSim SR20 has been meticulously detailed to provide for the most in-depth visual model as possible. The aircraft makes full use of 4K PBR textures, ensuring the highest level of visual fidelity. All the different materials are accurately represented from samples from the actual aircraft! The many differences between the Entegra and G1000 versions of the SRs have been integrated, clearly separating the aircraft from each other.

The FMOD sound pack has been the result of hundreds of hours of source audio, carefully recorded from the real aircraft. Recordings of the engine on the ground, and in-flight have provided for a highly-accurate and immersive sound pack replicating the real aircraft. Every switch, knob, lever, and button have been modeled in the sound-pack.

Engine Model

The SR20 is equipped with a normally aspirated Continental IO-360-ES capable of 200 HP. The TorqueSim custom physics model is the most accurate simulation of a piston engine for X-Plane! The simulation models the mass flows of air and fuel through every part of the engine in real time. Air enters the engine through the air filter, flows through ducts, passes obstacles like the throttle plate, burns the fuel and leaves the engine as exhaust gas. Pressures and temperatures are calculated in every section independently, all contributing to the different segments of the simulation. All engine parameters are tuned against a huge database of real engine log data to ensure maximum possible accuracy in all phases of flight. The entire engine simulation runs on a separate thread from the main simulator. This allows for the timing necessary for proper simulation, independent of sim frame-rate, but also ensures that the model has a near-zero performance impact on the simulator!

  • Mass flows of air and fuel, pressures and temperatures calculated in every section of the engine independently
  • Torque generation algorithm based on air-fuel ratio closely reflects engine performance graphs and enables highly accurate leaning behavior
  • All engine parameters are tuned against a huge database of real engine log data to ensure maximum possible accuracy in all phases of flight
  • Normal, cold, hot, flooded and false starts simulated employing the custom fuel system
  • Engine temperatures calculated per cylinder depending on numerous internal and environmental factors, all components take their real times to cool down
  • Custom Percent Power algorithm based on sensed engine parameters and not actual engine power output
  • Custom oil system with oil cooler, filter, degradation and consumption
  • Custom prop governor with propeller control linked to throttle
  • Real engine set screw for maximum fuel flow can be turned
  • Cylinder detonation (engine knock), low engine temperatures increase friction and wear, spark plug fouling, improper magneto grounding and numerous other custom failures

Electrical System

The SR20 electrical system has also been intricately detailed, ensuring every last breaker and switch is modeled. The dual-batteries are simulated with a custom lead-acid battery simulation. The dual-alternator setup and Master Control Unit have been intricately tuned to interface with the rest of the simulation. All electrical busses and circuit breakers are individually simulated to provide for the most in-depth of simulation. All the intricacies of the SR20 electrical system including alternator drop at low RPM are modeled.

Fuel System

The SR20 fuel system has all been custom simulated, providing for unparalleled accuracy in-flight. It models all the details down to the fuel lines and injector nozzles! Fuel temperature is calculated and vapor is formed in the lines under the right environmental circumstances. This also allows for the recreation of all engine starting characteristics usually found on an aviation piston engine like normal, cold, hot, flooded and false starts. So be sure to understand the importance of your boost pump both on ground and in flight! The complex behavior of the engine driven and electric fuel pumps as well as the fuel manifold and metering unit are simulated. Changing bank and attitude of the aircraft affect sloshing in the tank, thus causing the indicated fuel quantity to differ.

  • Main and Collector Tanks
    • Collector tanks prevent fuel starvation during uncoordinated maneuvers
    • Fuel sloshes depending on sideslip angle, affecting float-sensed quantity and strainer coverage
  • Every component in the fuel delivery path simulated and contributing to overall system behavior
    • Boost and engine-driven fuel pumps and pressures
    • Fuel metering unit and spring-loaded fuel manifold
  • Vapor Lock
    • Fuel vaporizes after shutdown depending on engine temperatures and requires special startup procedures
    • Hot fuel can cause vapor formation and power fluctuations at high altitude in flight, suppressed by use of the boost pump

Maintenance and Failure Model

The SR20 also features an engaging and beneficial maintenance, wear, and failure model. This aspect of the simulation makes sure that the plane is flown safely and without damage. Excessive wear will be affecting airframe performance and safety, addressed through a realistic concept of runtime-based and annual inspections. The entire wear and failures logic is built on top of the physics model for engine, airframe, and fuel systems. This also includes truly unique features like cylinder detonation driven by the physics engine. Tires flatten, brakes fade when hot, the propeller experiences FOD on unprepared surfaces and much more to discover. Probability distributions tuned with real-world data are used to reflect the increasing likelihood of failures with component runtime.

High-Fidelity Flight Model

The flight model is designed with unparalleled accuracy. The tuning of the aerodynamic profile required hundreds of hours of careful tuning to accurately match the real-world characteristics. The base model was created by X-Aerodynamics, and further built upon to match the aerodynamic quirks of the real aircraft to the limit of the simulator!

  • Custom airfoils and highly accurate fuselage shape
  • Stall strips and cuffed wing design with unique stalling characteristics
  • Accurate control surface areas and deflections for realistic turn rates

Tail Number Livery Customizer

The tail number can be dynamically changed on the aircraft! There are many configuration options to make the plane yours - from changing the tail number color, placement, outlines, drop shadows, all the way to painting it on the wings!

Persistent and Performance Tuned

The countless systems are all designed with persistence in mind - when you shut down the aircraft, you will return to it in the state in which it was left, the engine components will take their real times to cool. This encourages the proper care and handling of the aircraft, and shows the consequences of reckless flying. These systems are also designed to run on computers of many different specs.

All the systems are programmed in C/C++ using the X-Plane SDK. No compromises were made for simplicity. The plugins make significant use of multithreading to have the absolute minimum processes running on the main simulator thread, thus helping keep X-Plane performance at its maximum! The Entegra simulation is also very performance cautious. The avionics engine runs on threads separate from the main simulator and caches data as appropriate. Through our testing, performance exceeds that of the G1000 variants of the same aircraft.



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System Requirements

  • • Windows 10/11 or MacOS 13+
  • • Modern CPU with 8+ Threads (6+ Cores recommended)
  • • 16+ GB RAM
  • • NVIDIA or AMD Graphics Card with 6+ GB VRAM (6+ GB recommended)
  • • 3+ GB free storage space
  • While the aircraft may operate on computers below this specification, we do not guarantee it.


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