Most accurate system functionality for any A330 aircraft in the flight simulation world.
A330-900 specific features:
HUD – Head up display on both the pilot and co-pilot sides providing all relevant flight information in the pilot’s field of view during all flight phases
DRAIMS - Digital Radio and Audio Integrating Management System providing easier management of radio frequencies, transponder settings as well as backup radio navigation
ATSAW - Airborne Traffic Situation Awareness showing detailed information about surrounding traffic on the Navigation Display (ND)
ROW/ROPS - Runway overrun warning & Runway Overrun Prevention System alerting the crew if the available runway length becomes insufficient for a safe landing
TOS - take off surveillance alerting the crew if it attempts taking off from a taxiway or a runway different than selected in the FMS
ISCS is now available in the EFB also, but can also be used in a separate window
Detailed FMGS:
3 independent MCDUs providing real life FMGS programming capability
2 independent autopilots
SID/STAR and airways support in a fully custom FMGS backbone supporting all A424 leg types (Arc, course or heading to intercept, Radius to Fix, Holdings, etc.)
Support for all approach types present in real life A330-900s, including GLS, ILS, SLS, FLS, LOC backcourse, etc.
Full VNAV guidance with TOC, TOD, Deceleration point, speed limits, fuel prediction, etc.
Altitude and speed constraints as the real aircraft deals with them
Support for Go-Arounds and diversions
Nav Aid autotuning
Pilot item database, such as pilot fixes, pilot navaids etc.
Flight plan saving via the Pilot routes page
Equitime point computation and nearest airports page
Accurate systems:
Fly-by-wire system with reversion between normal law and alternate law 1, alternate law 2 and direct law as per real life logics.
Hydraulic model for flight control actuators computing hydraulic flow through the actuators, the control surface hinge moment, maximum feasible deflection etc. This gives realistic surface floating angles if a control surface is lost due to combinations of hydraulic and computer faults.
Quantitative hydraulic model considering the maximum hydraulic flows of the different pumps as a function of engine speed. This is most noticeable when flying on RAT or with wind milling engines
Quantitative bleed model considering the bleed mass flow for engine start, wing anti-ice air conditioning packs etc.
High fidelity fuel system including inflight CG control by pumping fuel to and from the tail tank, fuel jettison, manual and automatic transfers between the different tanks
Detailled model of each ADIRU including alignment, small pressure sensor differences between the units, switching of sources for PFDs and autopilot inputs
Fault injection system allowing to trigger over 250 system faults either at a specific point in flight or randomly during a flight phase
Cockpit display system simulating the dependency of the displays on the Display management computers resulting in real life display limitations
ECAM system with over 30 warning and over 200 caution messages including associated ECAM actions.
Backup Speed Scale (BUSS) to provide an estimated speed based on Angle of Attack data and an estimated altitude based on GPS data.
3d modelling
Detailed 3d cockpit with animated switches
Mouse gesture system for interaction with push-pull knobs emulating the motion on the knob with the mouse
Detailed cockpit lighting with reading lights, console light, tray table lights etc.
2 class passenger cabin
Custom particle effects for engine heat trail, Fuel jettison etc.
Situation loading and saving. It is possible to save the flight at any point in time and resume it another day. This can also be used, e.g., to save the position just before approach and practice just the approach many times
Autosaving allows recovering where you left off, should the X-Plane session end unexpectedly
Jumping waypoint-to-waypoint through the cruise phase: Shorten your flight to focus on the more interesting parts as you like
4 different startup configurations from Cold and Dark to engines running and ready to go
Ability to set each of the startup configurations at the click of a button without reloading the aircraft.
In-screen popup displays or use of x-plane windows for popups
Adjustable Wingflex via a slider in the ISCS
Adjustable sounds via a slider in the ISCS
Possibility to turn the screen reflections on and off
Ability to update the product with the Skunkcrafts updater
Requis
X-Plane only - not available for MSFS
Support for X-Plane 11 and X-Plane 12
Windows, Mac or Linux
4 GB VRAM Minimum - 8 GB+ VRAM Recommended
Download Size: 1.1GB
Not for commercial use. For any commercial use enquiries, please contact support@toliss.com