Double-tapping any leg on the flight plan line will bring up the RNP2 boundary line to assist with the easy calculation of user LSALTs.
To dismiss the border, double-tap the route line once again.
LSALT calculation tool
Pro Upgrade/Premium subscribers will also then have highlighted the height and position of the highest terrain and known obstacle within that boundary.
|Highest Known Obstacle is shown with a red obstacle icon with height AMSL listed next to it|
|Highest terrain is circled in orange, with a corresponding height AMSL alongside|
This user calculated LSALT is then easily selected and entered into the flight plan by tapping Accept. Ensure you have read and understood the disclaimer.
Tap the Setup button to reveal the other route calculation boundaries:
- RNP2 (5 nm either side of track)
- VFR (10 nm either side of track)
- RNP4 (15º splay to 8 nm with a 5 nm buffer)
- RNAV GNSS (15º splay to 7 nm with a 5 nm buffer)
- Non-GNSS RNAV (15º splay to 30 nm with a 5 nm buffer)
- Navaids/DR (varies depending on the strength of the navaid)
The selection you make will be stored and automatically entered in the flight plan table as a User LSALT. The same figure will then be used the next time you fly between those two waypoints.
If you calculate an LSALT on a Direct To leg, the figure is then viewable in the LSALT cell of the HUD.
Notes on Terrain & Obstacle Elevation calculation
You can select between two different calculation modes: a worldwide digital terrain database (known as a Digital Elevation Model, or DEM), or use the hypsometric tint from the map to determine heights. PRO users can select a preferred method by tapping Settings>User Settings and scrolling down to Advanced Settings at the bottom of the list.
The Digital Elevation Model
This is a model containing ‘Level 0’ Digital Terrain Elevation Data (DTED) as described here. Level 0 data has a spatial resolution of 30 arc seconds in both Lat and Long between the equator and ±60 degrees of Latitude. AvPlan samples the DEM to find the highest point within the LSALT boundary, adds the standard LSALT buffer of 1360’, then rounds this value up to the next nearest 100’.
AvPlan analyses the hypsometric colour bands within the LSALT boundary to determine the top of the highest elevation band (which will always be at least as high as any published spot height, but will typically be higher), adds the 1360’ buffer, and rounds up to the nearest 100’.
AvPlan uses a published obstacle database that contains approximately four times as many obstacle references as are marked on Australian charts. The obstacle that is determined to have the greatest elevation within the LSALT boundary may or may not therefore correspond to a charted object, but will always be the highest known obstacle.
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