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  • Please see the most recent updates in the "Where did the .com name go?" thread. Posts number 16 and 17.

    Post 16 Update

    Post 17 Warning

Russian (Interceptor) Interpreter?

Hello!
<o:p> </o:p>
While you guys are having your romance with Sukhoi, I’m still waiting for the fourteenth part of the message to be deciphered. :kilroy:
 
Sorry it's taking so long, but I've managed to translate a fair portion of that list. Where my own knowledge wouldn't cut it, I've used Google Translate, which isn't all too coherent at times, so there are a few missing translations.

1. Radiotransparent radome

2. Phased array radar N011M

3. Power supply for radar control system?

4. Antenna feeder system?

5. ???

6. Angle of Attack Sensor

7. Refuelling probe

8. ???

9. OLS-27K IRST (Infrared Search & Track)

10. ???

11. ILS-31 Heads Up Display

12. Side stick/HOTAS

13. Throttle

14. Zvezda K-36DM Ejection Seat

15. ???

16. Rearview mirror

17. Reserve Pitot Tube

18. ???

19. Nose gear

20. Nose gear FOD cover/mud flap

21. Wing leading edge?

22. Canard

23. Canard pivot?

24. Canard hydraulic actuator

25. 150 round ammunition box

26. Google Translate wasn't very forthcoming with this one. I'd approximate it to either some sort of deicing panel, or plasma drag reduction unit. Probably the former.

27. Air intake dump door, similar to the spill doors on Concorde's Rolls Royce Olympus? I can't find it on the diagram, so I can't confirm.

28. Air intake

29. Suction relief door

30. Air intake FOD screen

The rest of the translation should follow shortly, hopefully. :ernae:
 
Thanks an-225, I hope you know my previous post was in jest. I'm adding all the translations to the diagram as they come and will post the translated image when done.
 
Filling in and correcting where possible AN-225's info....

5 is moved on some production variants, it's the pitot but is also seen missing and put as the normal 'spike' on the nosecone...

8 is the retractable spotlight (is on port and starboard)

10 i think is simply the windshield

15 is the canopy

18 is the Avionics Equipment Bay (99% certain on that one)

21 is the Leading edge Flush EW Aerial

23 you are correct :salute:

27 i think is the boundary layer bleed air louvres
 
plasma drasg reduction huh?? Some things are beginning to make a lot more sense... Although most likely a deicing panel, it would explain a lot if it was drag reduction.
Pam
 
dumb question...
Do the russian pilots that fly this bird wear the same kind of head and neck braces that race car drivers wear?? Seems to me this thing can pile on an awful lot of G's just doing a snap roll..
 
Pam, nope pretty bog standard kit... G-Suit etc...

37-extreme-manuevrability-demo.jpg
 
ok.. was a curiosity. I keep forgetting that the computer intervenes and disallows the plane from making maneuvers outside the safety limits..
 
If someone could write a gauge that monitored the control surface positions and the resulting G forces, then prevented the control surfaces from moving into positions that would cause the plane to exert G forces beyond proscribed limits for the speed the plane is traveling. Would that be what we need??
Pam
 
Do the russian pilots that fly this bird wear the same kind of head and neck braces that race car drivers wear?
Click to expand...

As I understand it from watching a documentary a few years back the brace is basically there in case of a sudden deceleration, it stops the head popping off the end of the spine with fairly terminal effects.
 
I was thinking about the rolls and the other oddball maneuvers this thing can do, and forgetting its flight control system. the nozzles act independently or together with 15* of movement in and out ( nope they wont bang the stinger ) and another 15* up and down, so basically the nozzles can roll their eyes. The canards like the nozzles can act manually or automatically and are also independent of each other. Since the canards are active and work in tandem with the elevons the plane can rotate in a 360*x360* arc around its CG, which is dead smack between the canards and the elevons, and it can do it instantaneously ( although flight model wise i'm having some difficulty with rotating it in a full 360* circle ). Without the flight control system, this plane could kill you in as heartbeat ( or sooner ).

PS.. Paul.. I got the canards working with the elevators in the flight model. Now to tie them into the ailerons as well.
 
I’m still trying to understand the relationship of the nozzles with the rest of the control surfaces. They seem to be intimately tied to the elevons but not 100%. I’m thinking in terms of the visual animation of the model and what I can and can not get away with. I’m also starting to think that there may be more restrictions of movement then just the rear radar. I need more videos!
 
videos can be decieving. I use them for pitch roll and yaw characteristics, but only because i've spent a great deal of time working with film and video over the last 40 years ( I used to be a projectionist ).
I did a lot of reading last night. Lots of digging on the Lyulka/Saturn AL37-FU and came across this page http://warfare.ru/?linkid=1607&catid=255&topics=true. I'm pretty confident it will answer many of your questions.

One thing that sticks out on that page is the thrust vectoring. There is a great deal of argument between many of us knowitalls about the movement of the nozzles. Most knowitalls will tell you straight out that the nozzles cant move sideways because of the radar housing. However, according to Yevgeny Frolov the nozzles move 15 degrees side to side to supplement rudder control and they do not touch the radar housing ( stinger ).

Like the canards, nozzle control can be either fully automatic, or manual ( pilot selectable with a switch ) and can function completely independently of each other. personally, even after a couple hours of sleep, my brain finds this staggering: almost incomprehensible. When combined with the independent and manual/automatic control of the canards, the maneuvering capabilities leave me asking

View attachment 57469

But, 15 degrees it is, up down in and out. As modelers, we look at three views and scratch our heads, but Robert pointed out one major fact about three views to me a while back ( and i still argue with myself over it ). Three views are an inaccurate interpretation. Perhaps they are generally to scale, but generally isnt to scale. Unless we can get the actual blueprints, we'll never see a true scale on this or any bird. The real bird may very well be able to cross nozzles on the planes equatorial line, and we'll never see the possibility in a three view because our drawings are inherently inaccurate.
Anyway, off to violate some scared cows ::lol::
Pam
 
Yeahhh, i'm having the same problem. Just goes to show that america isnt the only country that loves war. Oh well...
 
The interesting thing is, if you have TV, you don't need canards. It's also why this was just a development aircraft. It's the reason the advanced Flanker going into production, the Su-35, doesn't have canards. It's also why the F-22 didn't have canards. The pitch authority TV gives the aircraft at low speeds and it's ability to trim the aircraft for minimum drag at high speed negates the need for canards, unless you like extra weight, drag, and complexity.

Having said that, the Su-37 is definitely the coolest looking Flanker built.

BTW, you're probably having trouble figuring out how the TV works in conjunction with the rest of the flight controls, because they don't all work together in a linear fashion. The FCS is designed to optimize the flight control inputs in various phases of flight. If I was modeling this, at low speeds I would tie them in with the elevators, ailerons, and rudder (Pitch, roll, and yaw control) at subsonic speeds and at supersonic speeds I would have the thrust axis also adjusted by trim for minimizing trim drag in that regime.

Of course, if you really want to make accurate flight controls, don't forget to make the rudders control roll and the ailerons control yaw at high alpha. I've thought about how to do this, but you would probably have to control them through simconnect.
 
well, look at it this way sundog..
if the plane only has thrust vectoring, when the thrust angle deflects from the waterline, it pushes the back end up or down just like an elevator, taking most of the forward part of the plane with it. This gives you an amazingly tight turn radius. Now, lets add canards. When the thrust angle deflects from the waterline, the canard deflects from the waterline. so the thrust is pushing the back of the plane up or down, and the canards are pushing the nose up or down in a direct counter force to the thrust. this means that the plane can rotate around its CG without leaving the flight path. This allows maneuvers such as the somersault when the plane flips over on its back without changing elevation or flight path. This may not seem like much, but in a combat situation, with an enemy somewhere behind you, the ability to rotate and fire missiles may save your life. The radars range on the SU-37 is 160 miles. It knows your coming ( its the F-119 that cant be seen, all others are slightly visible ) It rotates, fires, and sets the rear radar to track anything incoming. since the plane can outmaneuver anything except maybe a real bird, it has no problem with tracking and dodging incoming missiles of any type.
Because of its control surface configuration, the Su-37 is singularly the most dangerous aircraft on the earth. Its a very good thing it costs so much..

As for the FCS. Your right, and thats exactly how i'm trying to set up the flight model. Its like re-inventing the world all over again because we're working in areas that FSX NEVER thought possible. However, dealing with it from Pitch roll and yaw perspectives makes it far easier ( relatively speaking of course )
Pam
 
OK, here's the rest of it.

31. I don't quite know how to interpret this one. It's translation is very similar to 27, 29 and 30, so I can't say for sure which aircraft part it's referring to.

32. Slat actuator?

33. Actuator for FOD door?

34. Main landing gear bay

35. Main gear hydraulic actuator

36. Main gear door

37. Omni directional radiocompass antenna

38. Airbrake

39. Airbrake hydraulic actuator

40. ???

41. ???

42. Fuel tank #1.

43. Radiocompass

44. Fuel tank #2.

45. Fuel system related, not too sure what "agregat" means in this context.

46. ???

47. Wing to fuselage join?

48. Wing cantilever/support beam?

49. Slat?

50. Main landing gear

51. ???

52. ???

53. Wing tank compartment, presumably for hydraulic fluids? There's no mention of fuel in the text, and I can't imagine an aeroelastic surface like the wing of a supermanoeuvrable fighter jet would hold such flammable substances.

54. Flaperon hydraulic actuators

55. Flaperon

56. Radio antenna

57. Static wicks/dischargers

58. Sorbitsya ECM Pods

59. Red navigation light

60. Tail/vertical stabiliser

61. Intake air cooler (I think this is similar to the bleed air heat exchanger air intake on the Panavia Tornado's tail)

62. Tail fuel tank compartment

63. Rudder

64. VHF Radio antenna

65. HF Radio Antenna

66. Radio antenna

67. White navigation light

68. Rudder hydraulic actuator

69. ???

70. Stabiliser

71. Stabiliser hydraulic actuator

72. AL-31F engine thrust vector control

73. Burner can/exhaust nozzle; maximum upward deflection

74. Burner can/exhaust nozzle; maximum downward deflection

75. ???

76. ???

77. Pneumatic exhaust nozzle actuator?

78. Hydraulic exhaust nozzle actuator?

NOTE: Of the two actuators referred to in 77 and 78, I'm guessing that one must deal with the thrust vector controls themselves, while the other actuator controls the "turkey feathers" of the burner can.

79. Seal between moving and fixed parts of the exhaust nozzle

80. Tail boom.

81. Stabiliser pivot

82. Ventral fins?

83. Drag chute compartment

84. I think this is describing the way the end of the tail boom lifts up to deploy the chute.

85. Fuel tank #3.

86. ???

87. ECCM

88. RWR

89. Antispin ballistic chute/rocket?

90. Guided close range missile R-73

91. Guided long range missile RVV-AE (also known as R-77)

92. Missile ejection unit AKU-170
93. Guided missile Kh-29L

94. Guided missile Kh-31A

95. Missile ejection unit AKU-58

97. GSh-301 cannon

98. Ammunition, caliber: 30mm
 
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