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Passive Stick Control Assembly

Technical Information

Catalogue No: C1485
Category: Flight Control
Object Type: Inceptor
Object Name: Passive Stick Control Assembly
Part No: 15-050-03
Serial No: 00001
Manufacturer: GEC-Marconi Avionics
Division: Unknown
Platform(s): Boeing JSF
Year of Manufacture: 1999
Dimensions:
Width (mm):
240 
Height (mm):
480 
Depth (mm):
460 
Weight (g):
14,360 
Location: Rack RAA04 [Main Store]
Inscription(s):

GEC Marconi Avionics Ltd.
Contract G940/855654
Controller Assy.
Passive Stick
Part No 15-050-03
Ser No 00001 date 27/11/99

Notes:

BAE Systems supplied an active rotary throttle, active and passive centre stick grips and rudder pedals for the Boeing X-32 a multi-purpose jet fighter in the Joint Strike Fighter contest. It lost to the Lockheed Martin X-35 demonstrator which was further developed into the F-35 Lightning II. This is the Passive Stick Controller Assembly, which was centre mounted in the cockpit, and at least three of these were made for this programme.

A Fly by Wire inceptor is defined as a device which translates the pilot’s control inputs into electrical signals. They can be divided into two basic types - passive and active. The passive type of FBW inceptor provides a fixed stick force-stick displacement relationship by means of a mechanical spring-box arrangement.

The active type of inceptor, in contrast, can provide a wide range of stick force-stick displacement characteristics by computer control of force motors which back drive the control stick. Active inceptors are a subject in their own right and are covered in a separate note.

A passive sidestick only provides back pressure forces when it is deflected, by mechanical phenomina such as springs, dampers, and friction. It is passive in that it cannot be made to move other than by pushing against it, it never moves by itself. Passive pilot controls use position sensors to send electrical signals to the fly-by-wire system.

A passive FBW inceptor can be a centrally mounted control stick as installed in the Eurofighter Typhoon or a side mounted stick as on the Lockheed F22 Raptor fighter.

The amplitude of the pilot's stick inputs are electrically measured and generated as control signals to the aircraft flight control computer. A complex spring/damper system, provides the pilot with force feel characteristics and ensures that the stick is reset to its neutral position without noteworthy overshoots when released by the pilot.
The stick has two-axes and provides both pitch and roll electrical command signals. Typically, four independent electrical pick-offs are provided for each axis of control in order to meet the failure survival requirements. The damper provides a smooth feel to the stick movement the spring and damper combination acting as a low pass filter on the stick movement. A small breakout force is required to displace the stick from the central position in pitch and roll. Roll control is a simple linear spring characteristic, Pitch, however requires a step increase in force at larger stick aft deflections and the spring rate is also increased so that larger forces have to be exerted when commanding high 'g' manoeuvres.

Traditional systems use mechanical inceptors, which cannot affect the feel of the stick in real time, so changes to the flight envelope of the aircraft cannot be fed back to the pilot as cues, leading to no situational awareness through the inceptor feel, such as excessive bank angle or stall.

 

 

 

 

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