Difference between revisions of "H-160/SL Features"

From
Jump to: navigation, search
(Created page with "<span class=sa-section>SECTION 9. SECOND LIFE FEATURES</span> ===General=== This section describes functions and features of the Shergood/VSD H-160 that are specific to SL. =...")
 
(REALISM MENU)
 
(14 intermediate revisions by the same user not shown)
Line 6: Line 6:
 
====Main HUD====
 
====Main HUD====
 
When you first wear the HUD it will be dark and "disconnected" will be displayed to indicate the HUD has not connected to an aircraft. When you sit in either the pilot (right) or co-pilot (left) seat, the HUD will connect and light up. The top part of the HUD is a duplicate of the PFD. The bottom half of HUD includes the following:
 
When you first wear the HUD it will be dark and "disconnected" will be displayed to indicate the HUD has not connected to an aircraft. When you sit in either the pilot (right) or co-pilot (left) seat, the HUD will connect and light up. The top part of the HUD is a duplicate of the PFD. The bottom half of HUD includes the following:
Sim Crossing Status - Small light in upper left corner that shows the sim crossing state. A green light indicates normal connectivity, while a yellow or red light indicates no connectivity. It is normal to see a yellow or red indication for one or two seconds during a sim crossing.
+
*Sim Crossing Status - Small light in upper left corner that shows the sim crossing state. A green light indicates normal connectivity, while a yellow or red light indicates no connectivity. It is normal to see a yellow or red indication for one or two seconds during a sim crossing.
Aircraft ID - Shows the tail number of the aircraft the HUD is connected to. "--" will be displayed when disconnected.
+
*Aircraft ID - Shows the tail number of the aircraft the HUD is connected to. "--" will be displayed when disconnected.
HOBBS meter - Shows total time on your aircraft in hours and tenths of hours. Accumulates time only while engine is running.
+
*HOBBS meter - Shows total time on your aircraft in hours and tenths of hours. Accumulates time only while engine is running.
Collective - This lever controls the total thrust the helicopter is producing. Drag the red dot with the mouse to move the thrust control. You can also use the Up/Down arrow keys in HUD mode or PgUp/Down keys in Keyboard mode. The red dot will show current collective position regardless of which method you use to manipulate it.
+
*Collective - This lever controls the total thrust the helicopter is producing. Drag the red dot with the mouse to move the thrust control. You can also use the *Up/Down arrow keys in HUD mode or PgUp/Down keys in Keyboard mode. The red dot will show current collective position regardless of which method you use to manipulate it.
Cyclic - Cyclic controls the direction that thrust is directed. Drag the red dot with the mouse to move the cyclic. In cruise flight, turns should be performed primarily with cyclic, with the pedals used for trim.
+
*Cyclic - Cyclic controls the direction that thrust is directed. Drag the red dot with the mouse to move the cyclic. In cruise flight, turns should be performed primarily with cyclic, with the pedals used for trim.
Directional Pedals - The pedals are used to control the yaw of the helicopter. Use the mouse in the horizontal bar to set pedal position, or use the Left/Right arrow keys to control them. The pedals should be used for turns during hovering flight, and for trim using the inclinometer while in cruise flight.
+
*Directional Pedals - The pedals are used to control the yaw of the helicopter. Use the mouse in the horizontal bar to set pedal position, or use the Left/Right arrow keys to control them. The pedals should be used for turns during hovering flight, and for trim using the inclinometer while in cruise flight.
  
 
====Mini-HUD====
 
====Mini-HUD====
Line 26: Line 26:
  
 
The types of failures that can occur are:
 
The types of failures that can occur are:
Failure Description Possible Causes Proper Response
+
 
Engine Engine fails or catchs fire. Overspeeding Engine. Operating with insufficient oil levels. Shut down engine and/or deploy fire suppression.
+
{| class=wikitable
Transmission Faults may manifest in the main or tail rotor transmission systems. Operating with insufficient oil levels. Land as soon as possible.
+
!Failure
Hydraulics Hydraulic pump failure or low system pressure. Operating with insufficient hydraulic fluid levels. Land as soon as possible.
+
!Description
Generator Generator fails to produce power. Overheating of oil cooled generators. Land as soon as possible.
+
!Possible Causes
Avioncs Individual avionics systems fail. Typically occur as random failures. Switch to backup system if possible. Land as soon as practical.
+
!Proper Response
 +
|-
 +
|Engine ||Engine fails or catches fire. ||Overspeeding Engine. Operating with insufficient oil levels. ||Shut down engine and/or deploy fire suppression.
 +
|-
 +
|Transmission ||Faults may manifest in the main or tail rotor transmission systems. ||Operating with insufficient oil levels. ||Land as soon as possible.
 +
|-
 +
|Hydraulics ||Hydraulic pump failure or low system pressure. ||Operating with insufficient hydraulic fluid levels. ||Land as soon as possible.
 +
|-
 +
|Generator ||Generator fails to produce power. ||Overheating of oil cooled generators. ||Land as soon as possible.
 +
|-
 +
|Avionics ||Individual avionics systems fail. ||Typically occur as random failures. ||Switch to backup system if possible. Land as soon as practical.
 +
|}
 +
 
 
Failure can only be corrected when on the ground with the engines stopped by either clicking on the affected component (or by using the Avionics Analyzer) Alternatively the "Repair" function from the @Cheat menu can be used to repair all failures.
 
Failure can only be corrected when on the ground with the engines stopped by either clicking on the affected component (or by using the Avionics Analyzer) Alternatively the "Repair" function from the @Cheat menu can be used to repair all failures.
 +
 
Some failures types have symptoms that can be observed through a visual inspection, or indications on the panel. Hard engine or transmission failures will normally be preceded by overtemp indications followed by CHIP indications.
 
Some failures types have symptoms that can be observed through a visual inspection, or indications on the panel. Hard engine or transmission failures will normally be preceded by overtemp indications followed by CHIP indications.
  
Line 38: Line 51:
  
 
For the purpose of access control, there are three classes of seats: pilot, crew and passenger. In the H-160, only the "co-pilot" seat is considered "crew" for access control purposes. All other seats besides the pilot and copilot seats are considered "passenger" and can be controlled through the passneger access class. When a class is set to "restricted", only the owner or avatars who have been added to the registered crew list can use that class of seat.
 
For the purpose of access control, there are three classes of seats: pilot, crew and passenger. In the H-160, only the "co-pilot" seat is considered "crew" for access control purposes. All other seats besides the pilot and copilot seats are considered "passenger" and can be controlled through the passneger access class. When a class is set to "restricted", only the owner or avatars who have been added to the registered crew list can use that class of seat.
 +
 
The access controls are found in the @Admin menu which is accessible only by the owner. Each of the three class will be shown with a preceding "R" to show it is in restricted mode or "G" for guest mode. Also in the @Admin menu are buttons to Add, Remove and List registered crew members.
 
The access controls are found in the @Admin menu which is accessible only by the owner. Each of the three class will be shown with a preceding "R" to show it is in restricted mode or "G" for guest mode. Also in the @Admin menu are buttons to Add, Remove and List registered crew members.
  
Line 43: Line 57:
 
====Main Menu====
 
====Main Menu====
 
Menus are only available to the owner and registered or guest pilots of the aircraft. In general button options beginning with an "@" are sub-menus, and options beginning with "( )" or "(*)" are options that can be toggled. The buttons on the main menu are:
 
Menus are only available to the owner and registered or guest pilots of the aircraft. In general button options beginning with an "@" are sub-menus, and options beginning with "( )" or "(*)" are options that can be toggled. The buttons on the main menu are:
Button Description
+
 
Park/Unpark Make the aircraft non-physical/physical. Normally this occurs automatically when you sit in the aircraft, but this option can be used to control this manually.
+
{|class="wikitable sa-buttontable"
Eject Select an occupant to eject
+
!Button
Safe Unsit Slide avatar outside aircraft before unseating them. Useful when aircraft is physical.
+
!Description
@Options Control various flight option settings.
+
|-
@Get Get various things include HUD and manual/help notecards
+
|<span>Park/Unpark</span> ||Make the aircraft non-physical/physical. Normally this occurs automatically when you sit in the aircraft, but this option can be used to control this manually.
HUD Connect Reestablish connectivity between helicopter and HUD if it becomes disconnected, or if you wear HUD while already seated.
+
|-
@Admin Access owner-only options
+
|<span>Eject</span> ||Select an occupant to eject
@Cheat Displays the "Cheat" menu with options to bypass various procedures. See "CHEATS" below for more details.
+
|-
@Realism Enable or disable "realism" features of the aircraft flight characteristics.
+
|<span>Safe Unsit</span> ||Slide avatar outside aircraft before unseating them. Useful when aircraft is physical.
@REGISTER Access the aircraft registration menu. This button will only appear on the main menu if an N number had not yet been assigned. (aircraft must be parked/non-physical)
+
|-
 +
|<span>@Options</span> ||Control various flight option settings.
 +
|-
 +
|<span>@Get</span> ||Get various things include HUD and manual/help notecards
 +
|-
 +
|<span>HUD Connect</span> ||Reestablish connectivity between helicopter and HUD if it becomes disconnected, or if you wear HUD while already seated.
 +
|-
 +
|<span>@Admin</span> ||Access owner-only options
 +
|-
 +
|<span>@Cheat</span> ||Displays the "Cheat" menu with options to bypass various procedures. See "CHEATS" below for more details.
 +
|-
 +
|<span>@Realism</span> ||Enable or disable "realism" features of the aircraft flight characteristics.
 +
|-
 +
|<span>@REGISTER</span> ||Access the aircraft registration menu. This button will only appear on the main menu if an N number had not yet been assigned. (aircraft must be parked/non-physical)
 +
|}
  
 
====ADMIN MENU====
 
====ADMIN MENU====
 
The admin menu contains options only available to the aircraft owner. Buttons/Options are:
 
The admin menu contains options only available to the aircraft owner. Buttons/Options are:
Button Description
+
 
Recal. W&B If you make any changes to the linkset, you should use this option to recalibrate the weight & balance for the scripts.
+
{| class="wikitable sa-buttontable"
(?) Pilot Set pilot seat to guest (G) or restricted (M)
+
!Button
(?) Crew Set copilot seat to guest (G) or restricted (M)
+
!Description
(?) Passenger Set passenger seats to guest (G) or restricted (M)
+
|-
Add Crew Add an authorized crew member. A maximum of 12 crew members can be registered. The crew member to be added should stand within 10m of aircraft to be recognized by the system.
+
|<span>Recal. W&B</span> ||If you make any changes to the linkset, you should use this option to recalibrate the weight & balance for the scripts.
Remove Crew Remove a crew member from the authorized crew member list.
+
|-
List Crew List the authorized crew members.
+
|<span>(?) Pilot</span> ||Set pilot seat to guest (G) or restricted (M)
@REGISTER Assign or changer your aircraft's registration. See "N-NUMBER ASSIGNMENT" in Section 1 for more details. (aircraft must be parked/non-physical)
+
|-
@Paint Change the color/markings of your aircraft. See "PAINTKIT SYSTEM" below for more details. (aircraft must be parked/non-physical)
+
|<span>(?) Crew</span> ||Set copilot seat to guest (G) or restricted (M)
 +
|-
 +
|<span>(?) Passenger</span> ||et passenger seats to guest (G) or restricted (M)
 +
|-
 +
|<span>Add Crew</span> ||Add an authorized crew member. A maximum of 12 crew members can be registered. The crew member to be added should stand within 10m of aircraft to be recognized by the system.
 +
|-
 +
|<span>Remove Crew</span> ||Remove a crew member from the authorized crew member list.
 +
|-
 +
|<span>List Crew</span> ||List the authorized crew members.
 +
|-
 +
|<span>@REGISTER</span> ||Assign or changer your aircraft's registration. See "N-NUMBER ASSIGNMENT" in Section 1 for more details. (aircraft must be parked/non-physical)
 +
|-
 +
|<span>@Paint</span> ||Change the color/markings of your aircraft. See "PAINTKIT SYSTEM" below for more details. (aircraft must be parked/non-physical)
 +
|}
  
 
====PAINTKIT SYSTEM====
 
====PAINTKIT SYSTEM====
Line 73: Line 114:
 
====OPTIONS MENU====
 
====OPTIONS MENU====
 
The options menu is accessed from the @Options button on the main menu and is available to any registered pilot.
 
The options menu is accessed from the @Options button on the main menu and is available to any registered pilot.
Button Description
+
 
(?) Failures Enabled/disable the random failure system.
+
{| class="wikitable sa-buttontable"
(?) Chat If enabled, information chat messages will be disaplayed. If disabled, all informational chat messages will be suppressed.
+
!Button
(?) Logging If enabeled, helicopter events will be written to the event log.
+
!Description
(?) Controls Select a control scheme. Control schemes are discussed in the CONTROLS section near the beginning of this document.
+
|-
(?) Fragile If enabled, a crash will cause helicopter to burst into flames and become non-responsive. Resets after a set time (or until ELT is turned off).
+
|<span>(?) Failures</span> ||Enabled/disable the random failure system.
(?) Copilot Enable or disabled copilot controls
+
|-
(?) Int-Menu Disables access to menu from clicks on the internal surface of the window.
+
|<span>(?) Chat</span> ||If enabled, information chat messages will be displayed. If disabled, all informational chat messages will be suppressed.
(?) Alerts If enabled, alert messages about collisions or other unsafe conditions will be given. If disabled, no alert messages will be issued.
+
|-
(?) Dust If enabled, dust effects are produced when the aircraft is near the ground, water, or over a prim.
+
|<span>(?) Logging</span> ||If enabled, helicopter events will be written to the event log.
 +
|-
 +
|<span>(?) Controls</span> ||Select a control scheme. Control schemes are discussed in the CONTROLS section near the beginning of this document.
 +
|-
 +
|<span>(?) Fragile</span> ||If enabled, a crash will cause helicopter to burst into flames and become non-responsive. Resets after a set time (or until ELT is turned off).
 +
|-
 +
|<span>(?) Copilot</span> ||Enable or disabled copilot controls
 +
|-
 +
|<span>(?) Int-Menu</span> ||Disables access to menu from clicks on the internal surface of the window.
 +
|-
 +
|<span>(?) Alerts</span> ||If enabled, alert messages about collisions or other unsafe conditions will be given. If disabled, no alert messages will be issued.
 +
|-
 +
|<span>(?) Dust</span> ||If enabled, dust effects are produced when the aircraft is near the ground, water, or over a prim.
 +
|}
  
 
====CHEATS MENU====
 
====CHEATS MENU====
 
The cheats menu accessed from the @Cheat button on the main menu allows you to access functions to bypass several of the normal procedures.
 
The cheats menu accessed from the @Cheat button on the main menu allows you to access functions to bypass several of the normal procedures.
Button Description
+
 
Rand. Fail Cause a random failure to occur.
+
{| class="wikitable sa-buttontable"
Charge Bat. Charge the battery to full.
+
!Button
Repair All Repairs all accumulated damage and failures.
+
!Description
Fill Fluids Sets all non-fuel fluids to full.
+
|-
Fast Start/Stop Use this button to start or stop your helicopter without going through the full procedure. You will still need to wait for the rotors to come to full speed when using Fast Start.
+
|<span>Rand. Fail</span> ||Cause a random failure to occur.
@Fuel Accesses a sub-menu that lets you set the fuel level to a specific level.
+
|-
 +
|<span>Charge Bat.</span> ||Charge the battery to full.
 +
|-
 +
|<span>Repair All</span> ||Repairs all accumulated damage and failures.
 +
|-
 +
|<span>Fill Fluids</span> ||Sets all non-fuel fluids to full.
 +
|-
 +
|<span>Fast Start/Stop</span> ||Use this button to start or stop your helicopter without going through the full procedure. You will still need to wait for the rotors to come to full speed when using Fast Start.
 +
|-
 +
|<span>@Fuel</span> ||Accesses a sub-menu that lets you set the fuel level to a specific level.
 +
|}
  
 
====REALISM MENU====
 
====REALISM MENU====
 
The realism menu lets you enable or disable some of the RL helicopter flight characteristics. The features that can be enabled/disabled are:
 
The realism menu lets you enable or disable some of the RL helicopter flight characteristics. The features that can be enabled/disabled are:
Button Description
+
 
Battery If disabled, the battery will not run out.
+
{| class="wikitable sa-buttontable"
Fluids If disabled, fluids (oil, etc.) will not be consumed as helicopter runs.
+
!Button
Density If enabled, density altitude will have an effect on aircraft performance. This comes in play when operating at high altitudes. At high altitudes hover height and climb rate will be reduced from their values at lower altitudes.
+
!Description
ETL If enabled, additional lift/performance is gained when forward airspeed goes above about 20 knots due to the main rotors constantly moving into clean air. When disabled, the additional performance is always available.
+
|-
Low RPM When enabled, pulling excessive collective can result in decay of main rotor RPM. Decay can occur when the MP gauge is above red line. If this effect is disabled, rotor RPM will not decay when pulling collective beyond the red line on the MP gauge.
+
|<span>Battery</span> ||If disabled, the battery will not run out.
Torque When enabled, torque effects from the main rotor will be experienced. Torque increases as collective is pulled and manifests as a left turning tendency. As a result, right pedal will need to be increased and maintained as collective is increased.
+
|-
Vortex When enabled, the helicopter can be subject to "vortex ring state" also known as "settling with power". This can occur when the helicopter is in a vertical descent of more than 300 feet/min with a forward speed of less than 30 knots while collective is at more than 50%. When vortex ring state occurs, the helicopter will experience a loss of lift and begin descending rapidly, even if additional collective is pulled.
+
|<span>Fluids</span> ||If disabled, fluids (oil, etc.) will not be consumed as helicopter runs.
Translate If disabled, the effects and compensation for translating tendency are disabled.
+
|-
 +
|<span>Density</span> ||If enabled, density altitude will have an effect on aircraft performance. This comes in play when operating at high altitudes. At high altitudes hover height and climb rate will be reduced from their values at lower altitudes.
 +
|-
 +
|<span>ETL</span> ||If enabled, additional lift/performance is gained when forward airspeed goes above about 20 knots due to the main rotors constantly moving into clean air. When disabled, the additional performance is always available.
 +
|-
 +
|<span>Low RPM</span> ||When enabled, pulling excessive collective can result in decay of main rotor RPM. Decay can occur when the MP gauge is above red line. If this effect is disabled, rotor RPM will not decay when pulling collective beyond the red line on the MP gauge.
 +
|-
 +
|<span>Torque</span> ||When enabled, torque effects from the main rotor will be experienced. Torque increases as collective is pulled and manifests as a left turning tendency. As a result, right pedal will need to be increased and maintained as collective is increased.
 +
|-
 +
|<span>Vortex</span> ||When enabled, the helicopter can be subject to "vortex ring state" also known as "settling with power". This can occur when the helicopter is in a vertical descent of more than 300 feet/min with a forward speed of less than 30 knots while collective is at more than 50%. When vortex ring state occurs, the helicopter will experience a loss of lift and begin descending rapidly, even if additional collective is pulled.
 +
|-
 +
|<span>Translate</span> ||If disabled, the effects and compensation for translating tendency are disabled.
 +
|}

Latest revision as of 15:26, 23 October 2021

SECTION 9. SECOND LIFE FEATURES

1 General

This section describes functions and features of the Shergood/VSD H-160 that are specific to SL.

2 HUDS

2.1 Main HUD

When you first wear the HUD it will be dark and "disconnected" will be displayed to indicate the HUD has not connected to an aircraft. When you sit in either the pilot (right) or co-pilot (left) seat, the HUD will connect and light up. The top part of the HUD is a duplicate of the PFD. The bottom half of HUD includes the following:

  • Sim Crossing Status - Small light in upper left corner that shows the sim crossing state. A green light indicates normal connectivity, while a yellow or red light indicates no connectivity. It is normal to see a yellow or red indication for one or two seconds during a sim crossing.
  • Aircraft ID - Shows the tail number of the aircraft the HUD is connected to. "--" will be displayed when disconnected.
  • HOBBS meter - Shows total time on your aircraft in hours and tenths of hours. Accumulates time only while engine is running.
  • Collective - This lever controls the total thrust the helicopter is producing. Drag the red dot with the mouse to move the thrust control. You can also use the *Up/Down arrow keys in HUD mode or PgUp/Down keys in Keyboard mode. The red dot will show current collective position regardless of which method you use to manipulate it.
  • Cyclic - Cyclic controls the direction that thrust is directed. Drag the red dot with the mouse to move the cyclic. In cruise flight, turns should be performed primarily with cyclic, with the pedals used for trim.
  • Directional Pedals - The pedals are used to control the yaw of the helicopter. Use the mouse in the horizontal bar to set pedal position, or use the Left/Right arrow keys to control them. The pedals should be used for turns during hovering flight, and for trim using the inclinometer while in cruise flight.

2.2 Mini-HUD

In addition to the standard HUD, there is also an alternative "Mini HUD". The mini HUD is essentially the same as the lower portion of the main HUD.

3 Failure System

The H-160 supports random or passive failures that can be turned on through the @Options menu using the "Failures" setting. There are five possible settings.

  • N - No Failures - No random failures, and no progression of partial failures.
  • P - Passive Only - Only failures caused by mishandling of the aircraft or progression of partial failures.
  • L - Low Random - Passive failures plus 50% chance of failure per hour.
  • M - Medium Random - Passive failures plus 50% chance of failure per 30 min.
  • H - High Random - Passive failures plus 50% chance of failure per 5 min.

The types of failures that can occur are:

Failure Description Possible Causes Proper Response
Engine Engine fails or catches fire. Overspeeding Engine. Operating with insufficient oil levels. Shut down engine and/or deploy fire suppression.
Transmission Faults may manifest in the main or tail rotor transmission systems. Operating with insufficient oil levels. Land as soon as possible.
Hydraulics Hydraulic pump failure or low system pressure. Operating with insufficient hydraulic fluid levels. Land as soon as possible.
Generator Generator fails to produce power. Overheating of oil cooled generators. Land as soon as possible.
Avionics Individual avionics systems fail. Typically occur as random failures. Switch to backup system if possible. Land as soon as practical.

Failure can only be corrected when on the ground with the engines stopped by either clicking on the affected component (or by using the Avionics Analyzer) Alternatively the "Repair" function from the @Cheat menu can be used to repair all failures.

Some failures types have symptoms that can be observed through a visual inspection, or indications on the panel. Hard engine or transmission failures will normally be preceded by overtemp indications followed by CHIP indications.

4 Seating Access Control

For the purpose of access control, there are three classes of seats: pilot, crew and passenger. In the H-160, only the "co-pilot" seat is considered "crew" for access control purposes. All other seats besides the pilot and copilot seats are considered "passenger" and can be controlled through the passneger access class. When a class is set to "restricted", only the owner or avatars who have been added to the registered crew list can use that class of seat.

The access controls are found in the @Admin menu which is accessible only by the owner. Each of the three class will be shown with a preceding "R" to show it is in restricted mode or "G" for guest mode. Also in the @Admin menu are buttons to Add, Remove and List registered crew members.

5 Menus

5.1 Main Menu

Menus are only available to the owner and registered or guest pilots of the aircraft. In general button options beginning with an "@" are sub-menus, and options beginning with "( )" or "(*)" are options that can be toggled. The buttons on the main menu are:

Button Description
Park/Unpark Make the aircraft non-physical/physical. Normally this occurs automatically when you sit in the aircraft, but this option can be used to control this manually.
Eject Select an occupant to eject
Safe Unsit Slide avatar outside aircraft before unseating them. Useful when aircraft is physical.
@Options Control various flight option settings.
@Get Get various things include HUD and manual/help notecards
HUD Connect Reestablish connectivity between helicopter and HUD if it becomes disconnected, or if you wear HUD while already seated.
@Admin Access owner-only options
@Cheat Displays the "Cheat" menu with options to bypass various procedures. See "CHEATS" below for more details.
@Realism Enable or disable "realism" features of the aircraft flight characteristics.
@REGISTER Access the aircraft registration menu. This button will only appear on the main menu if an N number had not yet been assigned. (aircraft must be parked/non-physical)

5.2 ADMIN MENU

The admin menu contains options only available to the aircraft owner. Buttons/Options are:

Button Description
Recal. W&B If you make any changes to the linkset, you should use this option to recalibrate the weight & balance for the scripts.
(?) Pilot Set pilot seat to guest (G) or restricted (M)
(?) Crew Set copilot seat to guest (G) or restricted (M)
(?) Passenger et passenger seats to guest (G) or restricted (M)
Add Crew Add an authorized crew member. A maximum of 12 crew members can be registered. The crew member to be added should stand within 10m of aircraft to be recognized by the system.
Remove Crew Remove a crew member from the authorized crew member list.
List Crew List the authorized crew members.
@REGISTER Assign or changer your aircraft's registration. See "N-NUMBER ASSIGNMENT" in Section 1 for more details. (aircraft must be parked/non-physical)
@Paint Change the color/markings of your aircraft. See "PAINTKIT SYSTEM" below for more details. (aircraft must be parked/non-physical)

5.3 PAINTKIT SYSTEM

The paintkit system allows you to change the appearance of your helicopter. It is accessed through the @Paint sub-menu found on the @Admin menu. On this menu there are several built-in colors, and a "Custom" button to load a paint set from a separate "paintkit" prim. For custom designs you can either use a paintkit from a 3rd party vendor, or load your own texture set into the paint kit that came with your helicopter. To apply a paintkit, simply rez the paintkit near your helicopter and select "*Custom" from the @Paint menu. The helicopter will search for nearby paintkits and allow you to choose which you want to apply. Instructions on how to create your own custom paintkits can be found in the paintkit object.

5.4 OPTIONS MENU

The options menu is accessed from the @Options button on the main menu and is available to any registered pilot.

Button Description
(?) Failures Enabled/disable the random failure system.
(?) Chat If enabled, information chat messages will be displayed. If disabled, all informational chat messages will be suppressed.
(?) Logging If enabled, helicopter events will be written to the event log.
(?) Controls Select a control scheme. Control schemes are discussed in the CONTROLS section near the beginning of this document.
(?) Fragile If enabled, a crash will cause helicopter to burst into flames and become non-responsive. Resets after a set time (or until ELT is turned off).
(?) Copilot Enable or disabled copilot controls
(?) Int-Menu Disables access to menu from clicks on the internal surface of the window.
(?) Alerts If enabled, alert messages about collisions or other unsafe conditions will be given. If disabled, no alert messages will be issued.
(?) Dust If enabled, dust effects are produced when the aircraft is near the ground, water, or over a prim.

5.5 CHEATS MENU

The cheats menu accessed from the @Cheat button on the main menu allows you to access functions to bypass several of the normal procedures.

Button Description
Rand. Fail Cause a random failure to occur.
Charge Bat. Charge the battery to full.
Repair All Repairs all accumulated damage and failures.
Fill Fluids Sets all non-fuel fluids to full.
Fast Start/Stop Use this button to start or stop your helicopter without going through the full procedure. You will still need to wait for the rotors to come to full speed when using Fast Start.
@Fuel Accesses a sub-menu that lets you set the fuel level to a specific level.

5.6 REALISM MENU

The realism menu lets you enable or disable some of the RL helicopter flight characteristics. The features that can be enabled/disabled are:

Button Description
Battery If disabled, the battery will not run out.
Fluids If disabled, fluids (oil, etc.) will not be consumed as helicopter runs.
Density If enabled, density altitude will have an effect on aircraft performance. This comes in play when operating at high altitudes. At high altitudes hover height and climb rate will be reduced from their values at lower altitudes.
ETL If enabled, additional lift/performance is gained when forward airspeed goes above about 20 knots due to the main rotors constantly moving into clean air. When disabled, the additional performance is always available.
Low RPM When enabled, pulling excessive collective can result in decay of main rotor RPM. Decay can occur when the MP gauge is above red line. If this effect is disabled, rotor RPM will not decay when pulling collective beyond the red line on the MP gauge.
Torque When enabled, torque effects from the main rotor will be experienced. Torque increases as collective is pulled and manifests as a left turning tendency. As a result, right pedal will need to be increased and maintained as collective is increased.
Vortex When enabled, the helicopter can be subject to "vortex ring state" also known as "settling with power". This can occur when the helicopter is in a vertical descent of more than 300 feet/min with a forward speed of less than 30 knots while collective is at more than 50%. When vortex ring state occurs, the helicopter will experience a loss of lift and begin descending rapidly, even if additional collective is pulled.
Translate If disabled, the effects and compensation for translating tendency are disabled.