A22LS Foxbat – ‘long leg’ option

long-leg-panel-01Aeroprakt Limited has recently announced the availability of a factory-installed option of a revised instrument panel with cut-outs along the bottom edge to help accommodate those pilots and passengers with long legs – see photos.

Although I am 1.88 metres (6′ 2″ in imperial) tall, I have never found a problem with the leg room in either the A22 Foxbat or A32 Vixxen aircraft. However, a friend, who is exactly the same height as me, has often complained about the lack of knee room for him in the A22 Foxbat. Apparently, I have a longer body and shorter legs; he has a shorter body and longer legs – one reason I advise all potential aircraft buyers to actually sit in the aircraft on their shortlist, to check knee/leg room and head clearance. A particular height or body weight does not guarantee a comfortable fit even if an apparently identical size friend fits perfectly!

long-leg-panel-03Many thanks to Aeroprakt, therefore, for introducing this ‘long leg’ option on the A22 Foxbat. The pictures clearly show the panel cut-out modification, which is only available on stick control versions of the aircraft. As yet, this option is not available for the A32 Vixxen, neither is it easy or inexpensive to retro-fit to existing aircraft as there is a significant change to the instrument panel support structure.

AVweb flies the Aeroprakt A22LS

avweb-dennisOur very own Dennis Long of Aeroprakt USA takes AVweb’s Geoff Rapoport for a flight in the A22LS at Sebring, Florida during the recent Sport Aircraft Expo.

Great video Dennis – not too sure about the colour scheme…

AVweb describes itself – rather modestly – as ‘the world’s premiere independent aviation news resource’ and they certainly have a wealth of interesting content and aircraft reviews. Have a browse.

One of my personal favourites is Paul Bertorelli’s rather sarcastic comment on the huge patterns – ‘circuits’ to us non-USA pilots – which instructors use when training. It’s one of my personal gripes at my home airfield, where sometimes club aircraft doing circuits seem to set out on scenic flights along the bay during the downwind leg. I was taught, admittedly by military instructors, to take-off, climb to 500 feet AGL, then make a turn and climb cross-wind to 1,000 feet AGL, then turn downwind. I fully accept that a Foxbat or Vixxen will get to these heights much quicker than a C150 or C172. However, even when I’m doing circuits in my relatively leisurely Interstate Cadet, the club Cessnas are usually way outside of me. It makes circuits a real chore as it’s very bad manners to cut inside. And, as Paul comments, it tends to train pilots to do long, straight in approaches, using engine to ‘drag’ the plane in to the threshold, which is not always possible in ‘real’ life.

As usual, either click the picture to take you to the A22LS video, or click here: AVweb flies the Aeroprakt A22LS

Analogue dials vs digital screens?

ad-panelI’m asked a lot about the pro’s and con’s of digital flat screen ‘glass’ cockpits for the Foxbat and Vixxen aircraft. The quality and reliability of LSA/recreational digital instruments has improved immensely over the last 5 years and, although they are not inexpensive, they actually represent reasonable value for money – particularly when compared with their GA-certified counterparts.

Personally, I am a great one for old ‘steam’ gauges – easy to see in all lights, relatively simple and usually reliable. Although I must agree that reliability of the current crop of ‘glass’ cockpits is not an issue. And digital screens do have some big benefits – visual and audible warnings if/when any set parameter is exceeded; an almost infinite number of ways to customise the look of the information; a high degree of modularity – meaning you can add bits like a fuel computer or an autopilot at a relatively reasonable cost at a later time; and, last but not least, most digital panels have a datalogger which enables you to review flight and engine information from previous flights. This can be particularly useful – as we have found – when analysing ‘incidents’ and ‘accidents’ which the aircraft may have experienced.

However, a particular question has been raised a couple of times recently, by pilots/buyers with quite different aviation backgrounds – one, a very experienced airline pilot, the other a novice student pilot. The question was: ‘Do digital screens tend to focus the pilot inside the aircraft?’ And, I suppose by implication, that if they do, this is a bad thing, where sport and recreational flying is so much about what’s going on outside the aeroplane – ‘see and be seen’ and all that.

The point made by the airline pilot was that what’s going on outside a commercial jetliner is almost (but not always!) irrelevant. The screens provide all the data you could possibly need to negotiate the aircraft from wheels up on departure from airport A to wheels down at airport B. If such a pilot decides to buy an LSA with a digital panel they will, so it goes, be more likely to be looking at the screen a much higher proportion of the time than looking outside.

The point being made by the ab initio pilot was that while you’re learning, you can become transfixed by the figures on the screen. Let’s take digital speed readouts – eg a pilot manual approach speed of 57 knots  is something you have to concentrate on much more than a wavering analogue needle, which points somewhere (on average) between 55 and 60 knots. So you try to stick to the magic digital 57 knots to the exclusion of some outward attention.

It’s all a far cry from the days when a slip ball was the most prominent instrument in the aircraft, and the only compulsory gauges were a compass, an airspeed indicator and an altimeter. With maybe engine rpm and oil pressure if you were lucky!

So having heard these points of view from pilots from very different perspectives – what’s your view? Do digital screens tend to focus the pilot inside the aircraft, to the detriment of good external observation?

Aeroprakt A32 incident at Moorabbin

a32-damaged-moorabbinOn Sunday 8th January 2017, an Aeroprakt A32 Vixxen – registered VH-VBQ – was involved in a much-publicised landing incident at Moorabbin Airport. The final landing was recorded on video by a Channel 9 helicopter, as well as by several people on the ground.

As I understand it, briefly, here is what happened.

The aircraft was on hire to a pilot, who was not an instructor, to go for a local flight with a friend. Conditions at Moorabbin Airport recorded an increasingly gusty cross wind. When the aircraft returned to land, a gust caught the aircraft and it landed heavily on the nose wheel and right side main gear. The plane bounced and, in my opinion correctly, the pilot initiated a go round. However, it quickly became obvious that the nose landing gear was bent and also, to a lesser extent, the right main gear.

An emergency was declared and the aircraft circled nearby while the airport was closed and a foam blanket laid at the end of runway 17R – the most into-wind runway and also the closest to apron and emergency services access. The pilot made a couple of trial approaches to this runway before making a final approach and successful landing. During the touch down, as might have been expected, the nose leg collapsed completely and the aircraft slid to a halt just beyond the end of the foam layer. The pilot and passenger were not injured and were able to exit the aircraft quickly. There was no fire and the aircraft is currently being assessed for damage before repair.

The pilot had relatively low flight time recorded on the A32 and is to be congratulated on making a successful emergency landing in the conditions, which not only included a gusty cross wind but also limited rudder control due to the damaged nose leg, which is control-rod connected to the pedals.

Afternote – news programs and publications variously reported the following: ‘the nose wheel failed to lock into position’; ‘the front wheels of the plane malfunctioned’; ‘the pilot circled the runway numerous times while he tried to fix the issue’  and ‘the aircraft made a nose landing’. I would like to re-assure customers and owners of the A32 Vixxen that (a) it is not built as a retractable gear aircraft, and (b) there is no inherent problem with the nose gear. But if you bang anything hard enough, it will bend, and it’s quite difficult to fix the bent gear while you’re flying the aircraft.

Aeroprakt A32 Y-stick arrives in Australia

a32-y-stickSome 15 months after the arrival of the first A32 ‘Vixxen’ aircraft in Australia, the first Y-stick control version has now landed and was handed over to its new owner on 24 December 2016.

This bright red aircraft with a chequerboard rudder design looks great – click on the photo or here for a short video explaining the controls: A32 Vixxen with Y-stick controls

Thanks to Mike Rudd for the video, which also shows a take-off of the ‘youngest’ P-51 Mustang in Australia.

How to land a Foxbat

jacobson-01Landing an aeroplane is potentially one of the trickiest aspects of flying and, if you get it right, one of the most rewarding. However, most of us learn to land through repetition and experience – I wonder how many countless ‘circuits and bumps’ I have done in my life, practising landings in all kinds of wind and weather… and still I get the occasional one wrong and end up going around.

What if you could land an aeroplane every time, right on the spot you picked? And had a process you could use which works on any type of aircraft?

jacobson-03Enter David Jacobson – discoverer/designer/inventor of the ‘Jacobson Flare‘* – a way to land an aircraft, based on simple mathematics. I first met David a few months ago when we were both making aviation related presentations at Box Hill Institute near Melbourne. And I must confess, not being much of a mathematician, I just could not follow David’s logic. All his references to angles and aim points left my head spinning and, because most of what he said seemed to be directed at pilots of passenger jets, I (wrongly) assumed it had no application to something as small and simple as an A22LS Foxbat. After his presentation, David asked me what I thought about his approach(!) to landing and I told him I hadn’t a clue.

Roll on a couple of months and David was kind enough to pay a visit to Foxbat Central at Tyabb Airport and take us – me and my Foxbat colleague Ido Segev, and friends Mike Rudd and Ross Porz – through the theory and practice of his Jacobson Flare. As it turns out, the Jacobson Flare is much simpler than I thought, consisting of (a) determining an aim point along the runway (based on approach angle, aircraft size/type etc), and (b) determining a flare point by coming back towards the threshold a further, aircraft based, distance. Although the maths behind it can seem incomprehensible (at least to me) the end result is very straightforward. I had already taken the precaution of loading David’s app on my iPad, and with a very short introduction, I was soon calculating aim points and flare points for all kinds of aircraft, including the A22LS Foxbat and A32 Vixxen – the process will work for anything from an A380 to a sailplane!

Before we go any further, on David’s advice, I have to slaughter one of aviation’s most sacred cows – that on approach to land, you control descent with throttle and speed with elevator – if you want to slow your descent, add throttle; if you want to add speed, push the nose down. This was drummed into me right from the start (is it was for David too, initially) and, generally speaking, it is an approach I have used all my life. David firmly believes this is complete rubbish on modern aircraft because it’s utilising the secondary effects of the controls. He unequivocally states you should use elevator to hold the aircraft pointing at your aim point and use the throttle to keep the speed in the required zone – thus utilising the primary effects of the controls. Once you get the old height/throttle – speed/elevator combo out of your mind (no easy task), the rest quickly falls into place. Indeed, this is how an ILS approach is flown and has been the mainstay of civil and military aircraft for decades.

Next, many bitumen runways have ready-made length markers painted on the runway. At most major airports (but certainly not all) the ‘keys’ are 100 feet long (about 30 metres) and the centre lines are each 100 feet long, with 100 foot spaces in between them. In these cases, it’s easy to calculate lengths along the runway from the threshold.

Here in simple terms are the distance points for the A22LS Foxbat and A32 Vixxen (there are slight differences between them but small enough to ignore at this stage). These figures assume a main wheels height of about 10 feet above the ground at the runway threshold and the pilot’s eye height above the wheels of between 4.5 and 5 feet:

jacobson-02
1. Work out where in the aircraft windscreen the horizon line lies in straight & level flight.
This is the height of the pilot’s eyes above the glare shield where it meets the windscreen. Either make a clear mental picture, or find some, non-permanent, way of marking the line on the windscreen. Tip: get a thin strip of white sticky tape and lay it on top of the instrument binnacle so it reflects in the windscreen, move the tape backwards or forwards until it coincides with the horizon in straight & level flight. Another way is to use white tape to mark one or both of the diagonal struts inside the A22LS windscreen. This line becomes your main reference marker for your initial aim point.

2. On final approach, line up your reference marker with an aim point about 60 metres down the runway from the threshold. Using elevator, keep the reference mark lined up with this aim point. Maintain 50 knots with throttle. Note: this is just your aim point, it is also the point of intended touchdown.

3. Determine a flare point about 20 metres closer to you than your aim point – ie about 40 metres down the runway from the threshold. Together with the pilot’s line of sight towards the aim point, the flare point creates a visual fix. In other words, the flare point is visible, rather than being a guess of height. When this point disappears from your sight below the glare shield, reduce power to idle if needed and begin a 4-second flare to land. An easy way to do this is to raise your eyes from the windscreen/instrument panel joint towards the far end of the runway and gently pull back on the elevator as you do so, mentally counting 1001 – 1002 – 1003 – 1004. The wheels should touch down on the count of 1004 about 60-100 metres from the runway threshold at a speed of about 35-40 knots. Hold off the nose wheel as long as possible and gently brake to walking pace before exiting the runway.

There are a few provisos:
– these figures only apply to A22LS and A32 Vixxen aircraft. Different aircraft will have different aim point and flare distances!
– if the runway has painted lines, be sure you know how long they are before using them for your calculations! For example, at Tyabb the distance between the start of the keys and the top of the runway heading numbers is 100 feet – about 30 metres.
– if there are no distance markers on the runway – for example if it’s a grass or dirt strip – you’re going to have to estimate aim and flare points based on experience. If it’s your own strip, you can white-paint rocks or other solid objects and place them to each side of the runway at the measured distances.
– it doesn’t matter whether you use flap or not, using this process the aim and flare distance points are the same.
– the distances in 1-3 above assume a 4 degree approach angle and no obstructions at the approach end of the runway. A sharper angle of approach will reduce the figures.
– this system applies to landings on runways which are level r have an up or down slope; if you can follow the maths, the aim and flare points remain the same.
– distances will change if you want to achieve a very short landing or want to 3-point a tail dragger.
– crosswind landings are easily accommodated.
– runway width is no longer a distracting factor, as you are not just relying on a guess of flare height.

We don’t currently have a Foxbat or Vixxen demonstrator, so I have only been able to try this system on a Glasair Sportsman. In three landings it was starting to work OK – even though the aircraft is a taildragger, so it has somewhat different distances from the Foxbat for aim and flare points. Hopefully, we will be able to try it on an A22 and/or A32 soon and will report back.

Meanwhile, if you own a Foxbat or Vixxen, give it a try – I’d be very interested to hear/read your feedback.

*The Jacobson Flare has been demonstrated, since 1985, to work well on a wide range of aircraft. Full details can be found in the Jacobson Flare App in App stores. Many thanks to David for his patience in talking to the mathematically unwashed! For more information, click here to see the Jacobson Flare website.

Aeroprakt A22LS ‘Kelpie’ launched in Australia

kelpie-lh-side-02Foxbat Australia is very pleased to announce the launch of an Aeroprakt A22LS specially developed for Australian farmers, landowners and mustering pilots – the Kelpie, called after the famous Australian farm working dog.

The Kelpie is basically an Australian ‘standard’ A22LS with the following additions:
– larger series 283 KievProp for even better take-off and climb, with little penalty on cruise
– 8.00×6 ‘tundra’ tyres x3 for that soft feeling on rough paddocks
– rubber mud flaps to keep the ‘mud’ off your wings and tail
– large 30kgs placarded metal luggage container with exterior door, to carry all those useful tools
– Australian Warning Systems 100W siren with ‘yelp’ and ‘wail’ settings
– GME 80-channel UHF/CB radio through the headsets; intercom & both pilot and co-pilot can use the UHF
– clear protective tape on the fronts of the main gear legs and stabiliser leading edge
To facilitate quick inspections before flight, we deleted the usual wing strut fairings.
kelpie-mudflaps-01-smallThe aircraft was displayed at the recent ‘Ozkosh’ event in Australia before it was delivered to its new owner in far north Queensland. So far, we have received a lot of interest and a couple of orders. Call now to book a production slot!
Click here for a link to the Kelpie Gallery for more information. We are also making a short YouTube video about the aircraft and are hoping this will be ready in the next couple of weeks – I’ll post a link when it’s uploaded.

Foxbat flight into bad weather

deteriorating-visHere’s a nice helpful video – experienced Foxbat pilot James Pearce sets out on a trip with his wife to a celebration fly-in in the UK.

Watch how the visibility deteriorates and what James decides to do.

The video is over 12 minutes long but worth sticking with as it shows the visibility gradually reducing in real time. These circumstances are similar to those almost all VFR pilots will experience at some time during their flying. Let James’ experience help you ensure you don’t become a statistic!

As usual, to view, click on the picture or here: Foxbat flies into bad weather

Side-slipping in the A32 Vixxen

Side slip limitsThe A32 Vixxen (and A22 Foxbat) can be freely side-slipped with or without flap. Pilots should read the Pilot Operating Handbook (POH) carefully, as the information on side-slipping speeds and bank angle limit is all there. In summary for the A32 Vixxen: the limit for full control deflection is 81 knots – this is the top speed limit for side slipping with no flap. The flap limiting speed is 79 knots and this is the top speed limit for side slipping with flap. Technically, there is no bottom speed limit for side slipping but be strongly aware of stalling at slow speeds with large control surface deflections. Stall speeds will be higher than in normal straight & level flight! Finally, the maximum bank angle for slips is 15 degrees.

Personally, my preference for side slipping speed is somewhere between 50 and 65 knots, with or without flap. Everything seems more comfortable and controllable at these speeds, which are well above the stall and don’t stress the airframe to its maximum limits.

Hope that’s helpful!

New Y-stick controls for A32 Vixxen

A32 Y-stick 01Aeroprakt has announced the optional availability of the popular Y-stick control system with twin throttles for the A32 Vixxen aircraft.

Various stick control systems have been tested and refined over the last 6-9 months resulting in what Yuriy Yakovlyev (Aeroprakt CEO and chief designer) says is probably ‘the most comfortable control configuration I have ever flown’.

As you can see from the picture, the Y-stick is centrally placed to make entry and rapid exit as easy as ever for the pilot and passenger – no need to contort yourself over a seat-front control stick. A32 Y-stick 02The throttles have been moved from the A22 positions beside the seats, familiar to so many Foxbat owners, to the bottom outboard end of the instrument panel. The throttles are now push-pull and have large, easy to grip handles. The Y-stick itself also has sleek new covers and handles, in keeping with the image of the A32.

A32 aircraft with Y-sticks are available for manufacture from September 2016. The cost is the same as for the (standard) twin control yokes.

A32 bottle pocketFinally, the small storage pockets on the sides of the instrument panel have been re-designed to enable safe carriage of a water bottle or can.