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1. The fuel system of the SportStar MAX airplane is composed of integral fuel tanks, fuel line, fuel selector, fuel filter, mechanical fuel pump - located on the engine (auxiliary electrical fuel pump can be installed), a distribution pipe for delivery of fuel to the engine, with a fuel return branch, fuel gauges and fuel tank drain valves.
2. AB Flight is also proud to represent the Evektor SportStar and Harmony line of Light Sport Aircraft! Be sure to check out this fantastic line of aircraft above and see which is right for you! If you should have any questions, please don't hesitate to contact us.
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AB Flight went above and beyond just teaching me how to fly. From the moment I sat down in the plane with the instructor, I felt like I had made a lifelong friend. Thanks AB Flight, I now have my wings!

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This absolutely immaculate Sportstar Plus was purchased new in early 2009, and has less than 60 hours on it. Hangared in Northern Illinois, the aircraft has never been used as a trainer and is damage free. The owner added an electric Directional Gyro for traffic pattern positional awareness. The aircraft presents as a new plane - estate sale.

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Welcome to AB Flight LLC

Has learning to fly been a passion of yours? Have you always thought that it was out of reach due to finances, health, etc? Are you a pilot that has been away from it for a while and is in need of a refresher course? Come find out what AB Flight has to offer with their Sport Pilot program. Unlike a private pilot's license where a medical certificate is necessary and the costs can be out of reach for some, the Sport Pilot program could be right up your alley! Give us a call today and get flying in no time!

AB Flight is also proud to represent the Evektor SportStar and Harmony line of Light Sport Aircraft! Be sure to check out this fantastic line of aircraft above and see which is right for you! If you should have any questions, please don't hesitate to contact us.

Affiliations

Screen shots by FSD International

The SportStar Max is a two-seat, light-sport aircraft (LSA) manufactured by Evektor-Aerotechnik of the Czech Republic. The manufacturer advertises it as 'offering comfort for business travel and handling ease of a great trainer.' It touts handling qualities, stability, low operational costs, supreme cockpit comfort, excellent flight characteristics, and elegant and sporty styling.

Powered by a 100-horsepower Rotax 912ULS engine with a three-bladed fixed-pitch propeller, the SportStar was designed for towing sailplanes up to 1,544 pounds (700 kilograms) gross weight and banners up to 1,479 square feet (140 square meters). Evektor says the pop-riveted and bonded all-metal frame and its anodized aluminum skin minimize inflight noises, extend service life by minimizing fatigue, and enable better crashworthiness by the eliminating rivet zippering and 'oil canning' in a crash.

PHYSICAL SPECIFICATIONS Length 19 FT 7 IN 6 M Wingspan 28 FT 4 IN 9 M Height 8 FT 2 IN 2 M Fuel Capacity 15.85 USG 60 L Source: FSD International

FSD International's SportStar Max

Several features are touted by FSD International:

• Cutting-edge 3D model with advanced animation and precise detail
• Accurate virtual cockpit with smooth, clean modeling and precise attention to realism and detail
• Accurate flight model
• Three-dimensional cockpit instrumentation
• Garmin GNS 480 GPS
• Ten color schemes
• Eighty-page documentation

SAMPLING OF MODELS
Screen shots by Bill Stack

SportStar Max's Visual Features

FSD International's SportStar Max appears true in size, dimensions, and shapes. Its liveries are difficult to verify because there are so many real-world liveries of this aircraft. I found some that resembled those offered by FSD. The interior of FSD's SportStar Max seems consistent with the few real-world photos I found on the Internet. I found nothing to question visually about any of the ten models.

SPORTSTAR MAX INTERIORS
Screen shots by Bill Stack

SportStar Max Instruments

This instrument panel looks like traditional mechanical panels at first glance, but closer examination reveals significant differences.

• The large empty spaces in front of the left seat reveal the lack of mechanical navigation instruments. There is no omni-bearing indicator, no automatic direction finder, and no glide-slope indicator. These instruments are 'simulated' in the Garmin 480 GPS/WAAS device.
• The attitude indicator contains a turn/slip coordinator and a digital heading indicator.
• A balance indicator shows whether the aircraft is balanced or imbalanced forward/aft. If imbalanced, the indicator shows whether the aircraft is heavy in front or rear.
• The GPS is a Garmin 480 GPS/WAAS, which is an advanced version of the default Garmin GPS used in some FSX aircraft. WAAS is an acronym for 'Wide Area Augmentation System.' Pilots rely on it for all flight phases, including precision approaches to any airport in the device's coverage area.
• The Garmin GPS and the KA155 radio must be turned on separately. They don't come on automatically when the master avionics switch is turned on.

The only popup window displays the Garmin GPS. Clarity of the instruments is good. It's better with zoom in, of course, but instruments are still easily readable from a normal distance. There is no 2D panel. Some flight simmers like 2D panels, and others don't use them.

SPORTSTAR MAX INSTRUMENTS
Screen shots by Bill Stack

SportStar Max Performance Specifications

Performance specifications are provided in the manuals, the checklists, the reference sheets, and the details section of the aircraft-selection menu.

PERFORMANCE CHARACTERISTICS
Occupants	1 Pilot 1 Passenger
Power	100 HP
Normal Operating Speeds	38 - 115 KIAS
Max Speed	146 KIAS
Stall Speed (max weight, flaps in landing position)	37 KIAS
Range	638 NM 1,181 KM
Ceiling	13,000 FT
Max Weight	1,320 LBS 599 KG
Empty Weight	665 LBS 1,002 KG
Useful Load	655 LBS 297 KG
Source: FSD International

There's a lot of variation in performance specifications among the documents, however. As examples: The manual says maximum weight is 1,320 pounds while the aircraft-selection menu file says it's 2,550 pounds. The manual says ceiling is 13,000 feet, and the aircraft-selection menu says it's 14,000 feet. The manual says maximum speed is 146 knots, while the aircraft-selection menu says it's 126 knots. It looks as though a configuration file for a different aircraft was used as a template for this aircraft and that not all data were changed accordingly. In response to my question, the developer said: 'Actual MTOW is 1,320 lbs. The correct maximum speed is 146 kts, and 13,000 ft. is the correct service ceiling.'

The Documents

FSD International provides more than adequate written instruction on flying this aircraft.

• Manuals: Three manuals in portable document format (PDF) are included. An 83-page Pilot Operating Handbook provides detailed information about the aircraft's physical and performance characteristics and flight procedures, replete with technical drawings and many data tables. A 75-page manual provides detailed instruction on using the Garmin 480 GPS device. A six-page manual provides instruction on using the KA155 Nav/Com radio receiver.
  
• Checklists: Comprehensive checklists available in the pilot kneeboard provide step-by-step instruction on all flight phases from engine start to engine shutdown. These instructions include power levels, airspeeds, flap positions, and more.
  
• Reference Sheet: The reference sheet, also available in the pilot kneeboard, provides detailed data in tabular format on V speeds, flaps settings, take-off and landing distances, and more.

SportStar Pilot Handbook	Garmin GNS 480 Manual	KA155 Nav/Com Manual
Screen shots by Bill Stack

SportStar Max Performance

For my flight tests, I used Kunovice Airport (LKKU) in the Czech Republic. This is listed as Evector's home airport on its official website. Its runway 3C/21C is 6,555 feet (1,999 meters) of concrete. Its other two runways are grass. Elevation is 581 feet (177 meters). I used standard atmosphere (29.92 inches and 59 degrees Fahrenheit). And I used FSD's default weight of 1,289 pounds (585 kilograms), which is 31 pounds (14 kg) lighter than maximum gross take-off weight.

One striking distinction of the Rotax 912 engine in this aircraft is its high speed. It produces 100 horsepower at 5,800 RPMs, while the Textron Lycoming IO-360-L2A engine in the FSX Cessna 172 produces 180 HP at 2,700 RPMs.

Starting: Following the startup sequence in the checklist is ordinary &#8212 fuel selector, throttle, choke, and so forth. The checklist says to turn on the beacon 'if installed.' I couldn't find a beacon switch on the instrument panel, so apparently this aircraft has no rotating beacon. Starting the engine is more easily done with the CTRL/E keyboard command, which is a marvelous luxury of home flight simulation. The engine idles at about 900 RPMs.

Taxiing: With the checklist saying nothing about taxi power, I pushed advanced the throttle gradually until movement began, which happened at 3,500 RPMs. At this power level, taxi speed steadily increases to faster than 40 KTS. This acceleration requires the pilot to reduce power after initial movement to control taxi speed. It requires wide arcs for turning, even at normal taxi speeds, so I had to reduce speed dramatically to keep the aircraft on the taxiways while turning. I don't have this much trouble controlling other light aircraft on the ground.

Taking Off: The checklist calls for flaps in 15-degree position, but the lever doesn't indicate degrees of deflection, and there's no instrument on the panel that indicates flaps position. The flaps lever simply shows 'take off,' and 'landing.' The position that shows nothing must be 'full up.' In response to my question, the developer said: 'This is how the cockpit we photographed actually appears. This is also how the actual aircraft checklist is printed.'

The checklist calls for maximum power, but maximum throttle raises the tachometer past its red line at 6,000 RPMs. I adjusted the throttle just to keep the tachometer under its red line. The aircraft gained airspeed quickly and lifted off around 57 KIAS, which is the specified take-off speed. It seemed to use about one-third of the runway, which at this airport would be about 2,000 feet (610 meters). The checklist calls for flaps up at 150 feet, presumably above the runway. This happens soon after liftoff. The recommendation for flaps on take-off seems unnecessary, as the aircraft lifted off just fine without them in my trials. Remember that I used the nearly full default weight for my trials.

Climbing: The checklist and manual call for airspeeds between 56 KIAS for best angle of climb and 65 KIAS for best rate of climb. The best I was able to attain was 400 feet per minute at 60 KIAS, even with power at the tachometer's red line. Lowering the nose to gain airspeed reduced the vertical speed to about 50 FPM. Pitching up increased vertical speed but decreased airspeed to below 50 KIAS. The propeller and gear are fixed, the flaps were full up, and the carburetor heat was off, so those weren't the causes. At this low vertical speed, the SportStar Max would take about 45 minutes to reach cruising altitude. It reached 8,500 feet after about 20 minutes. I tested again with half the fuel and passengers, and results were the same. In response to my questions, Tim Dickens of FSD said: 'We are having no problem at all getting 800 to 1,000 fpm rate of climb, which are the known best climb rates of this aircraft,' and 'this is not a problem we are hearing from the people who have purchased this title from us.'

Cruising: Unwilling to wait 45 minutes to reach cruise altitude, I tested cruising at lower altitudes. I was able to get the SportStar to 88 KIAS at 4,000 feet.

Turning: The aircraft turns very easily when aloft, which is what I expected of this light, aerodynamic aircraft. It doesn't hold a bank, however. It will return to level flight if the yoke is let go.

Descending: The checklist merely says 'as necessary' regarding throttle, airspeed, and trim for descending. I reduced throttle to zero and glided for a while at 80 KIAS. With throttle at zero (pulled all the way out), RPMs were 4,500, presumably because of wind against the propeller. But when I pitched up to reduce vertical speed, the aircraft lost airspeed quickly. Before I knew it, the SportStar had decelerated to approach airspeed of 60 KIAS as specified in the 'Before Landing' checklist.

Approaching: Maintaining a glide toward the runway is a tricky maneuver in this aircraft, which is the opposite of what I expected. It respond slowly to throttle adjustments compared with other small aircraft such as a Piper Cub or a Cessna 172, presumably because of the wide range of RPMs necessary to fly it. Deflection of flaps even one notch causes an immediate and substantial loss of airspeed, which induces a downward pitch and loss of altitude. Power must be increased to compensate.

Landing: After several trials, I was able to approach final at 50 KIAS with a desirable glide slope. When I came over the threshold, I cut power to zero and pulled the nose up slightly. The aircraft settled on the runway at 45 KIAS. Then it stopped by itself, without wheel brakes, about one-third the runway distance. At this airport, that would be about 2,000 feet. Specified stopping distance without brakes is specified at 1,320 feet (403 meters). Since I touched down faster than specified, my stopping distance seems about right.

The full-flaps recommendation for landing doesn't seem necessary. Deflecting flaps even one position (from none to 'Take-off' for example) causes the aircraft to immediately lose considerable airspeed and to pitch downward. With full flaps as recommended for landing, more power is needed to overcome the dramatic loss of airspeed and lift from added drag. I don't see the sense to that since the aircraft glides nicely without flaps and under less power. It landed just fine in my trials with partial flaps, i.e. in the take-off position, and even with no flaps.

Overall: I found this aircraft more challenging to fly than I expected. It responds slowly to throttle changes compared with other aircraft its size. It climbed slowly in all my tests under various conditions. It turns easily airborne, but not on the ground. After the developer insisted that they had not experienced the problems I was experiencing, I uninstalled and reinstalled the aircraft, but the performance results were the same. I am operating FSX in Windows 7 64 bit. The developer gave me no suggestions about correcting these performance problems.

Having never flown any real-world SportStar, I cannot personally attest to how closely FSD International's modeling resembles the real-world aircraft's performance. Neither can I say how it compares to other LSAs that might be available for home flight simulation.

SPORTSTAR MAX IN FLIGHT
Screen shots by Bill Stack

Animations

The product description promises 'advanced animations.' I found that the canopy opens, as do two small windows at the left and right of the canopy, and the pilot's visor moves forward and backward. The pilot's visor is a unique animation. It's a curtain that's folded behind and above the pilot and that unfurls across the canopy above the pilot. Simmers can move it with their mouse into any position between extended and retracted. I had not seen an animation that can be made to move to any position within a range at the will of the user. All others I have seen move from one position to another and back again, such as open to close, but that's all. I didn't find anything in the manuals about these animations, however. I found them by searching for the sorts of things that are often animated in add-on aircraft.

SPORTSTAR MAX ANIMATIONS
Visor Extended	Canopy Open
Screen shots by Bill Stack

Technical Matters

This product is for FSX with SP2. Complete system requirements are listed in the manufacturer's product description.

X Plane Evektor Sportstar

The installation program produced error messages saying it could not access my computer registry, which is necessary for installing the aircraft software, and warning that instruments might not work properly. An installation log file in ordinary text format documented these messages. As examples: 'Windows failed to retrieve the path to your critical Flight Simulator configuration files directory,' and 'Windows will not allow the installer access to your system registry.' Before seeking assistance from the developer, however, I launched FSX and checked out the SportStar installation. All ten models appeared in the Aircraft Selection menu, and they loaded without a hitch and flew normally. And the instruments worked properly. About these error messages, the developer said the following:

These are diagnostics we perform so that if in-use problems arise later, they may offer important information. They mean that you are running the installer from a location that does not have full Windows permissions levels, or that you have a security program running that really should be shut off when running installers. These usually have to do with how your security profiles are set up in Windows, which in Windows Vista or Windows 7 can be very complex. They are not critical errors.

All 10 versions of this aircraft are shown in the Aircraft Selection menu under Evektor (the manufacturer) and KC Pilot Shop (the developer).

Frame rates are good. I found nothing about this aircraft to diminish frame rates.

The Sounds folder contains 45 distinct sound files that seem realistic for this type of aircraft. Some of them include 'Mooney' in their file names, such as 'Mooney_Shutdown.wav' and Mooney_Prop2A.wav.' The developer said: 'Most of them are from default Flight Simulator aircraft, and a few of the mechanical sounds were recorded from an actual SportStar.'

Technical support is through an email form on the FSD website. Response to my questions was within a reasonable period. The developer answered some of my questions right away and answered others within a few days after researching them.

Readers with technical questions not answered in this review should ask the developer, who is in the best position to answer such questions. Using the links below, go to the Pilot Shop page where the product is listed and described, then click on 'Manufacturer Tech Support' in the right column.

TECHNICAL & PURCHASE FEATURES
MSFS Version	FSX
Instant download from the Pilot Shop	Yes
Installation program	Yes
License key required	Yes
Copyright acknowledgment required	Yes
Manual included	Yes
Uninstall program included	No
Frame Rates	Good
Price	$19.95 US

More Information

Evektor Sportstar Plane

More information about the real-world SportStar Max aircraft by Evektor Aerotechnik is available from:

• Evektor Aerotechnik
  
• Plane and Pilot Magazine
  

REAL-WORLD IMAGES

Source: Wikipedia

The Developer

Evektor Sportstar X Planes

FSD International makes aircraft for Microsoft Flight Simulator 2004 and 2009 (a.k.a. FS9 and FSX). Other products include the Beechcraft 35B Bonanza, and the Turban Toucan. I reviewed their Bonanza 35B in August 2011.

Bill Stack
[email protected]
Learn more about the Evektor SportStar Max for FSX by FSD International.

Bill Stack is author of several books about flight simulation, a regular author in flight-sim magazines, and a contributor to Flight Sim Com. His website is www.topskills.com

Evektor Sportstar X Planet