Grumman F-14 Tomcat: Difference between revisions

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{{Infobox aircraft
{{:{{PAGENAME}}/info}}
|image = F-14.jpg
|alt = External view
|image2 = F-14b cockpit.jpg
|alt2 = Cockpit view
|name = Grumman F-14 Tomcat
|type = Interceptor, air superiority and multirole combat aircraft
|liverydbid = 42
|authors = Richard Harrison, Alexis Bory and Enrique Laso
|status-fdm = 5
|status-systems = 5
|status-cockpit = 5
|status-model = 5
|fdm = [[JSBSim]]
|fgname = f-14a
f-14b
f-14bs
|ready = dualcontrol/airrefuel/rembrandt
|download = http://www.flightgear.org/download/aircraft-v3-2/
}}
 
The '''Grumman F-14 Tomcat''' is a fourth-generation, supersonic, [[:Category:Twinjets|twinjet]], two-seat, [[:Category:Variable-sweep wing aircraft|variable-sweep wing]] [[:Category:Fighter aircraft|fighter]] aircraft. The Tomcat was developed for the United States Navy's Naval Fighter Experimental (VFX) program following the collapse of the {{Wikipedia|F-111B}} project. The F-14 was the first of the American teen-series fighters, which were designed incorporating the experience of air combat against [[:Category:Mikoyan and Gurevich|MiG]] fighters during the Vietnam War.
The '''Grumman F-14 Tomcat''' is a fourth-generation, supersonic, [[:Category:Twinjets|twinjet]], two-seat, [[:Category:Variable-sweep wing aircraft|variable-sweep wing]] [[:Category:Fighter aircraft|fighter]] aircraft. The Tomcat was developed for the United States Navy's Naval Fighter Experimental (VFX) program following the collapse of the {{Wikipedia|F-111B}} project. The F-14 was the first of the American teen-series fighters, which were designed incorporating the experience of air combat against [[:Category:Mikoyan and Gurevich|MiG]] fighters during the Vietnam War.


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The Tomcat was retired from the U.S. Navy's active fleet on 22 September 2006, having been supplanted by the Boeing F/A-18E and F Super Hornets. As of early 2015, the F-14 is in service with only the Islamic Republic of Iran Air Force, having been exported to Iran in 1976, when the U.S. had amicable diplomatic relations with Iran.
The Tomcat was retired from the U.S. Navy's active fleet on 22 September 2006, having been supplanted by the Boeing F/A-18E and F Super Hornets. As of early 2015, the F-14 is in service with only the Islamic Republic of Iran Air Force, having been exported to Iran in 1976, when the U.S. had amicable diplomatic relations with Iran.


There are two variants modeled in FlightGear and included as part of the base package, which means that it comes preinstalled with FlightGear.
There are two variants modeled in FlightGear, both available in FGADDON.
 
* '''F-14A''' with the {{Wikipedia|Pratt & Whitney TF30|PW-TF30-414}} engines which are susceptible to compressor stall and underpowered for the airframe)  
* '''F-14A''' with the {{Wikipedia|Pratt & Whitney TF30|PW-TF30-414}} engines which are susceptible to compressor stall and underpowered for the airframe)  
* '''F-14B''' with the {{Wikipedia|General Electric F110|GE F110-GE400}} engines improving power and reliability.   
* '''F-14B''' with the {{Wikipedia|General Electric F110|GE F110-GE400}} engines improving power and reliability.   


== Primary Instruments ==
== Primary Instruments ==
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== Keyboard controls ==
== Keyboard controls ==
=== Flight controls ===
=== Flight controls ===
{|  
{| class="keytable"
! Key
! Function
|-
|{{Key press|Home}}
|{{Key press|Home}}
|Increase elevator trim
|Increase elevator trim
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=== Automatic flight controls ===
=== Automatic flight controls ===
{|
{| class="keytable"
! Key
! Function
|-
|{{Key press|Ctrl|a}}
|{{Key press|Ctrl|a}}
|Toggle autopilot altitude mode
|Toggle autopilot altitude mode
|-
|-
|{{Key press|a}}
|{{Key press|Ctrl|s}}
|Toggle APC (Landing Automatic Power Control)
|Toggle APC (Landing Automatic Power Control)
|-
|-
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|Engage AFCS Altitude Mode
|Engage AFCS Altitude Mode
|-
|-
|{{Key press|Ctrl|s}}
|{{Key press|Ctrl|y}}
|Toggle ground spoilers armed
|Toggle ground spoilers armed
|}
|}


=== HSD - radar and RWR ===
=== HSD - radar and RWR ===
{|
{| class="keytable"
! Key
! Function
|-
|{{Key press|h}}
|{{Key press|h}}
|Cycles through HSD modes: radar - compas - ECM (RWR)
|Cycles through HSD modes: radar - compas - ECM (RWR)
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=== Carrier operations ===
=== Carrier operations ===
See also [[Howto:Carrier]] and [[Carrier over MP]]
See also [[Howto:Carrier]], [[Carrier over MP]] as well as a detailed [[Howto:Carrier_Landing|carrier landing howto for the F-14 Tomcat]].
{|
{| class="keytable"
! Key
! Function
|-
|{{Key press|Shift|o}}
|{{Key press|Shift|o}}
|Lower the hook
|Lower the hook
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=== Weapons ===
=== Weapons ===
{|
{| class="keytable"
! Key
! Function
|-
|{{Key press|Ctrl|w}}
|{{Key press|Ctrl|w}}
|Cycle through master arm switch modes (see master arm switch in cockpit).
|Cycle through master arm switch modes (see master arm switch in cockpit).
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The F-14 has three different types of lift augmentation on the wings. Flaps, Auxiliary Flaps and Slats.
The F-14 has three different types of lift augmentation on the wings. Flaps, Auxiliary Flaps and Slats.


Maneuvering flaps and slats are automatically activated by the CADC to improve performance at high AoA and lower speeds. The  
Maneuvering flaps and slats are automatically activated by the CADC to improve performance at high AoA and lower speeds. The maneuvering flaps are disabled when wings are swept outside of the permissible region for flap or slat deployment.
 
Maneuvering flaps are disabled when wings are swept outside of the permissible region for flap or slat deployment.


In the picture the slats are at the front, the spoilers on the top, and the flaps at the back. The auxiliary flaps are next to the fuselage and the main flaps are behind and below the spoilers.
In the picture the slats are at the front, the spoilers on the top, and the flaps at the back. The auxiliary flaps are next to the fuselage and the main flaps are behind and below the spoilers.
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[[File:F14-glareshield.jpg|thumb|F14-glareshield]]
[[File:F14-glareshield.jpg|thumb|F14-glareshield]]


Full aerodynamic affects of wing sweep are modelled. The Wing Sweep can be controlled via the keyboard or by using the Sweep gauge in the cockpit. Use the mousewheel to over the sweep angle indication to adjust the required angle of sweep. The legends to the right of the wing sweep gauge can be clicked to any of the possible modes.
Full aerodynamic affects of wing sweep are modelled. The Wing Sweep can be controlled via the keyboard or by using the Sweep gauge in the cockpit. Use the mousewheel over the sweep angle indication to adjust the required angle of sweep. The legends to the right of the wing sweep gauge can be clicked to any of the possible modes.


The CADC will provide automatic wing sweep based on Mach number. The wings cannot be swept further forwards than the CADC automatic value (to protect the airframe).
The CADC will provide automatic wing sweep based on Mach number. The wings cannot be swept further forwards than the CADC automatic value (to protect the airframe).
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The main flaps operate until the wings are swept to 55 degrees; the auxiliary flaps are only available with the wings swept to 22 degrees. Interlocks operate to prevent flap deployment with unsuitable wing sweep.  
The main flaps operate until the wings are swept to 55 degrees; the auxiliary flaps are only available with the wings swept to 22 degrees. Interlocks operate to prevent flap deployment with unsuitable wing sweep.  


It is possible to land with fully swept wings; however this should only be used in emergency situations as the landing speed is significantly increase.
It is possible to land with fully swept wings; however this should only be used in emergency situations as the landing speed is significantly increased.


{|
{|
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* Ensure that external air is connected (Tomcat Controls menu, Ground Services dialog)
* Ensure that external air is connected (Tomcat Controls menu, Ground Services dialog)
* Ensure that the fuel shut off values are pulled out for the engine to be started. (Upper left and right of the glareshield)
* Ensure that the fuel shut off valves are pulled out for the engine to be started. (Upper left and right of the glareshield)
* On the Engine Controls panel (left console next to the throttles) select Engine Crank (L or R)
* On the Engine Controls panel (left console next to the throttles) select Engine Crank (L or R)
* As the engine spools up the hydraulically powered emergency electrical generator will provide backup power
* As the engine spools up the hydraulically powered emergency electrical generator will provide backup power
* When the engine reaches 18% RPM push in the appropriate fuel shutoff valve.
* When the engine reaches 18% RPM push in the appropriate fuel shutoff valve.
* Monitor EGT and if the value goes above 1200 Degrees C shutdown the engine using the fuel shutoff value (this will never happen with the current engines model)
* Monitor EGT and if the value goes above 1200 Degrees C shutdown the engine using the fuel shutoff valve (this will never happen with the current engines model)
* Repeat the process for the left engine.
* Repeat the process for the left engine.


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Pull both of the fuel shutoff valves on the glareshield. These are the yellow and black striped items on the glareshield picture.
Pull both of the fuel shutoff valves on the glareshield. These are the yellow and black striped items on the glareshield picture.


One the fuel shutoff value is pulled the appropriate engine will spool down and stop. When both engines are stopped there will be no hydraulic and electrical power and the cockpit will become dark.
Once the fuel shutoff valve is pulled the appropriate engine will spool down and stop. When both engines are stopped there will be no hydraulic and electrical power and the cockpit will become dark.


=== On Shore Takeoff ===
=== On Shore Takeoff ===
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* Use the Tomcat Controls menu, Fuel and Payload dialog to set the required fuel load and payload
* Use the Tomcat Controls menu, Fuel and Payload dialog to set the required fuel load and payload
* Select up to 25 degrees of flaps depending on the aircraft weight.
* Select up to 25 degrees of flaps depending on the aircraft weight.
* Release parking brakes ({{Key press|Shift-B})
* Release parking brakes ({{Key press|Shift-B}})
* Select MIL thrust; or afterburners if conditions dictate. It is usual operating procedure on an F-14B to not use afterburners on take off unless heavily loaded as in the event of engine failure after rotation the resulting yaw moment is likely to result in an uncontrolled departure.
* Select MIL thrust; or afterburners if conditions dictate. It is usual operating procedure on an F-14B to not use afterburners on take off unless heavily loaded as in the event of engine failure after rotation the resulting yaw moment is likely to result in an uncontrolled departure.
* At around 145 knots pull back on the stick until the nose raises at which point maintain stick pressure and when 250 feet AGL raise the gear. By 200 knots the flaps should be fully retracted. Note that as the flaps are retracted the longitudinal balance of the aircraft changes and it will tend to pitch down slightly which should be corrected by using the pitch trim.  
* At around 145 knots pull back on the stick until the nose raises at which point maintain stick pressure and when 250 feet AGL raise the gear. By 200 knots the flaps should be fully retracted. Note that as the flaps are retracted the longitudinal balance of the aircraft changes and it will tend to pitch down slightly which should be corrected by using the pitch trim.  
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The F-14 has two separate hydraulic systems; identified as the '''Flight System''' and the '''Combined System'''. The flight system powers the primary flight controls and surfaces, and the combined powers everything else.
The F-14 has two separate hydraulic systems; identified as the '''Flight System''' and the '''Combined System'''. The flight system powers the primary flight controls and surfaces, and the combined powers everything else.


Both hydraulic systems are powered by engine driven pumps. There are two backup systems for the hydraulics in case of an engine (primary) pump malfunction. The first of these is a Bi-Directional transfer pump that can powered one system from the other system. The second method is an electrically powered pump. The electrically powered pump has its own small reservoir - so once powered on the electrically powered pump should not be powered off as the hydraulic fuel expands and is lost - so there may not be enough fluid remaining in the reservoir to allow the pump to start.
Both hydraulic systems are powered by engine driven pumps. There are two backup systems for the hydraulics in case of an engine (primary) pump malfunction. The first of these is a Bi-Directional transfer pump that can powere one system from the other system. The second method is an electrically powered pump. The electrically powered pump has its own small reservoir - so once powered on the electrically powered pump should not be powered off as the hydraulic fuel expands and is lost - so there may not be enough fluid remaining in the reservoir to allow the pump to start.


When there is insufficient hydraulic power the powered items will no longer function; so in the even of a dual engine flameout the flight controls will be inoperable.
When there is insufficient hydraulic power the powered items will no longer function; so in the event of a dual engine flameout the flight controls will be inoperable.


Sufficient  hydraulic  pressure  for smooth flight control inputs should be available with one engine windmilling  at 18% rpm  or  two engines at windmilling at 11% rpm.
Sufficient  hydraulic  pressure  for smooth flight control inputs should be available with one engine windmilling  at 18% rpm  or  two engines at windmilling at 11% rpm.
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[[File:F-14b-sas-switches.png|thumb|270px|SAS Panel.]]
[[File:F-14b-sas-switches.png|thumb|270px|SAS Panel.]]
* Autopilot needs '''SAS''' channels to be engaged, which is the default . '''SAS''' Pitch and Roll channels may be disengaged by actuating switches located on the '''AFCS''' ('''Automatic/Analog Flight Control System''') panel.
* Autopilot needs '''SAS''' channels to be engaged, which is the default. '''SAS''' Pitch and Roll channels may be disengaged by actuating switches located on the '''AFCS''' ('''Automatic/Analog Flight Control System''') panel.


=== Approach Power Compensator (APC) ===
=== Approach Power Compensator (APC) ===
* The '''APC''' is a closed loop system that automatically regulates basic engine thrust to maintain a specific indicated airspeed - which is usually used to maintain the correct approach angle of attack for landing.  
* The '''APC''' is a closed loop system that automatically regulates basic engine thrust to maintain a specific indicated airspeed - which is usually used to maintain the correct approach angle of attack for landing.  
* The APC can be used at any time to maintain the current airspeed.
* The APC can be used at any time to maintain the current airspeed.
* Type {{Key press|a}} to toggle the '''APC on/off'''. APC is also disengaged by setting the throttles to MIL, (98 percent rpm) or idle, (68 percent rpm) or raising the landing gear handle or when weight on the wheels.  
* Type {{Key press|Ctrl|s}} to toggle the '''APC on/off'''. APC is also disengaged by setting the throttles to MIL, (98 percent rpm) or idle, (68 percent rpm) or raising the landing gear handle or when weight on the wheels.  
* When disengaged the '''AUTO THROT''' caution light, (on the left side of the HUD) illuminates for 10 seconds.
* When disengaged the '''AUTO THROT''' caution light, (on the left side of the HUD) illuminates for 10 seconds.


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Each wing has a set of spoilers that are used to augment the roll rate during normal flight controlled by the CADC when wings are swept forwards more than 55 degrees. The spoilers can also act as brakes to provide extra retardation upon touchdown.
Each wing has a set of spoilers that are used to augment the roll rate during normal flight controlled by the CADC when wings are swept forwards more than 55 degrees. The spoilers can also act as brakes to provide extra retardation upon touchdown.


To engage ground spoilers set the '''ANTI SKID SPOILER BK''' switch on the bottom of left vertical console to '''BOTH''' or use {{Key press|Ctrl|s}}. After touch down and pull the throttles to idle, and then the spoilers are fully deployed.
To engage ground spoilers set the '''ANTI SKID SPOILER BK''' switch on the bottom of left vertical console to '''BOTH''' or use {{Key press|Ctrl|y}}. After touch down and the throttles pulled to idle, then the spoilers are fully deployed.


=== Weapons operation ===
=== Weapons operation ===
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* '''Sidewinders:''' Crudely modeled on AIM-9L available data.
* '''Sidewinders:''' Crudely modeled on AIM-9L available data.
** Select a weapons set using the menu: Tomcat Controls > Fuel and Stores: "FAD light" has 4 sidewinders, "FAD", "FAD heavy" and "Bombcat" have 2 of them.
** Select a weapons set using the menu: Tomcat Controls > Fuel and Stores: "FAD light" has 4 sidewinders, "FAD", "FAD heavy" and "Bombcat" have 2 of them.
** Select HUD A/A Mode on the Display panel, on pilot's right console. A multikey shortcut is also available (:AHa).
** Select HUD A/A Mode on the Display panel, on pilot's right console. A multikey shortcut is also available ({{Key press|:}}{{Key press|A}}{{Key press|H}}{{Key press|a}}).
** Select SW mode with the Stick Weapon Mode Selector ({{Key press|w}}).
** Select SW mode with the Stick Weapon Mode Selector ({{Key press|w}}).
** Switch to the RIO view ({{Key press|Ctrl|v}}).
** Switch to the RIO view ({{Key press|Ctrl|v}}).
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=== Displays Control Panel ===
=== Displays Control Panel ===
* The Display Control Panel is located on the right side of the pilot's main panel, under the Hook lever. The '''3 botom switches''' respectively turn the '''VDI''', '''HUD''' and '''HSD''' displays '''on/off'''. The '''HSD MODE''' switch is also available, it selects '''NAV''' or '''TID''' or '''ECM''' mode. This can also be achieved by cycling through these 3 modes with the {{Key press|h}} key. (''Note: the '''NAV MODE''' push buttons - '''TO''', '''CRUISE''', '''A/A''', '''A/G''', '''LDG''' - are not operational yet.'')
* The Display Control Panel is located on the right side of the pilot's main panel, under the Hook lever. The '''3 botom switches''' respectively turn the '''VDI''', '''HUD''' and '''HSD''' displays '''on/off'''. The '''HSD MODE''' switch is also available, it selects '''NAV''' or '''TID''' or '''ECM''' mode. This can also be achieved by cycling through these 3 modes with the {{Key press|h}} key.
** '''VDI: Vertical Display Indicator'''. Shows the aircraft attitude in roll and pitch, with an artifitial horizon and magnetic heading.
** '''VDI: Vertical Display Indicator'''. Shows the aircraft attitude in roll and pitch, with an artifitial horizon and magnetic heading.
** '''HUD: Head UP Display'''.
** '''HUD: Head UP Display'''.
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On the ground during the startup phase the pilot handles all of the engines, control surfaces, and other on-board checks and the RIO looks after radar and a few other systems. The RIO usually does most of the communication with ATC.
On the ground during the startup phase the pilot handles all of the engines, control surfaces, and other on-board checks and the RIO looks after radar and a few other systems. The RIO usually does most of the communication with ATC.


The RIO will find the targets with and designate them; it's then up to the pilot to check that it is the correct target and release the weapon. After weapon release it becomes the RIO's job to perform laser guidance and monitor the missile progress.  
The RIO will find the targets and designate them; it's then up to the pilot to check that it is the correct target and release the weapon. After weapon release it becomes the RIO's job to perform laser guidance and monitor the missile progress.  


Within flightgear the target designation is automatic as most of the time you don't have a RIO.
Within Flightgear the target designation is automatic as most of the time you don't have a RIO.


So a Dual Control RIO will take responsibility for the following:
So a Dual Control RIO will take responsibility for the following:
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* Keeping a good watch on the Radar and ECM screens and out of the window.
* Keeping a good watch on the Radar and ECM screens and out of the window.
* Advising the pilot of fuel status, and monitoring the airspeed and altitude (especially during an engagement with another aircraft). Voice comms using FGCOM or another method is recommended as things happen too quickly for text chat to be much use (and besides the pilot will usually be busy with the controls).
* Advising the pilot of fuel status, and monitoring the airspeed and altitude (especially during an engagement with another aircraft). Voice comms using FGCOM or another method is recommended as things happen too quickly for text chat to be much use (and besides the pilot will usually be busy with the controls).


== External links ==
== External links ==
* {{Wikipedia|F-14 Tomcat}}
* {{Wikipedia|F-14 Tomcat}}
* [{{fgaddon url|f-14b}} Link to FGAddon repo]
* {{fgaddon aircraft source|f-14b|text=Link to FGAddon repo}}
* [http://zaretto.com/f-14b Development page, additional information, and alternative download]
* [http://zaretto.com/f-14b Development page, additional information, and alternative download]
* [http://www.flightgear.org/tours/the-f-14b-is-back/ Post about the updated F-14B] (flightgear.org)
* [http://www.flightgear.org/tours/the-f-14b-is-back/ Post about the updated F-14B] (flightgear.org)
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{{Grumman}}
{{Grumman}}
{{Air-to-air refueling}}
{{Air-to-air refueling}}
[[Category:Carrier-based aircraft]]
[[Category:Fighter aircraft]]
[[Category:Twinjets]]
[[Category:Variable-sweep wing aircraft]]
[[Category:Interceptor aircraft]]

Revision as of 11:27, 14 September 2018

Grumman F-14 Tomcat
FGAddon
Splash image
Splash image
Cockpit view
Cockpit view
Type Interceptor aircraft, Carrier-based aircraft, Fighter aircraft, Interceptor aircraft, Air superiority aircraft, Multirole combat aircraft
Configuration Variable-sweep wing aircraft
Propulsion Twinjet (Jet aircraft, Twin-engine aircraft)
Manufacturer Grumman
Author(s)
  • Richard Harrison
  • Alexis Bory
  • Enrique Laso
FDM JSBSim
--aircraft= f-14a
f-14b

f-14bs
Status Advanced production
 FDM Stars-5.png
 Systems Stars-5.png
 Cockpit Stars-5.png
 Model Stars-5.png
Supports Dual control Mid-air refueling Rembrandt
Development
 Website The website for the Grumman F-14 Tomcat developments.
 Repository The development repository of the Grumman F-14 Tomcat.
Download Download the Grumman F-14 Tomcat aircraft package for the current stable release (2020.3).
Liveries Browse the FlightGear livery database for the Grumman F-14 Tomcat.
License GPLv2+

The Grumman F-14 Tomcat is a fourth-generation, supersonic, twinjet, two-seat, variable-sweep wing fighter aircraft. The Tomcat was developed for the United States Navy's Naval Fighter Experimental (VFX) program following the collapse of the F-111B This is a link to a Wikipedia article project. The F-14 was the first of the American teen-series fighters, which were designed incorporating the experience of air combat against MiG fighters during the Vietnam War.

The F-14 first flew in December 1970 and made its first deployment in 1974 with the U.S. Navy aboard USS Enterprise (CVN-65), replacing the McDonnell Douglas F-4 Phantom II. The F-14 served as the U.S. Navy's primary maritime air superiority fighter, fleet defense interceptor and tactical reconnaissance platform. In the 1990s, it added the Low Altitude Navigation and Targeting Infrared for Night (LANTIRN This is a link to a Wikipedia article) pod system and began performing precision ground-attack missions.

The Tomcat was retired from the U.S. Navy's active fleet on 22 September 2006, having been supplanted by the Boeing F/A-18E and F Super Hornets. As of early 2015, the F-14 is in service with only the Islamic Republic of Iran Air Force, having been exported to Iran in 1976, when the U.S. had amicable diplomatic relations with Iran.

There are two variants modeled in FlightGear, both available in FGADDON.

  • F-14A with the PW-TF30-414 This is a link to a Wikipedia article engines which are susceptible to compressor stall and underpowered for the airframe)
  • F-14B with the GE F110-GE400 This is a link to a Wikipedia article engines improving power and reliability.

Primary Instruments

VDI

F-14 vdi

The F-14 uses a Vertical Display Indicator (VDI) as the primary attitude reference instrument; there is a standby ADI just to the right.

The center screen has a top part representing the sky and an artificially generated ground representation. When performing a carrier landing there will be flight director bars shown to reference the vertical deviation from the glideslope and deviation from the center line. Carrier landings require the right TACAN channel to be selected (for the carrier) and the ARA-63 to be turned on. When the primary nav is tuned to a civilian ILS frequency this will also be shown on the display although the ARA-63 specific carrier lights will not illuminate

The lights on the side of the VDI that are relevant for a carrier landing are

  • LANDING CHK - displayed when between 6 nm and 4.5nm from from carrier and tuned correctly
  • ACL READY - displayed when tuned correctly and system operating
  • AP CPLR - displayed when system operating and within correct altitude. The AP CPLR system is not available.
  • WAVE OFF - displayed when landing should be aborted as outside of the parameters for a good landing.
  • 10 SECONDS - displayed when about 10 seconds from touchdown trap

Other lights on the VDI

  • AP REF - Autopilot operating
  • REDUCE SPEED - Overspeed for flaps; or over the speed bug on the ASI
  • ALT LOW - below alt bug on Altimeter

VDI Controls

There are controls for

  • HUD BRT - HUD Brightness
  • VDI BRT - VDI Brightness
  • VDI CONTR - VDI Contrast
  • FILTER - Changes the color of the HUD between red and green
  • HUD TRIM - non operational
  • VDI TRIM - non operational

HUD Lights

HUD lights

The HUD lights contains three sections; from left to right

  • AoA Indexer
  • Warnings
  • ECM/RWR status

AoA Indexer

The AoA Indexer has three lights; out of which up to two can be shown at any one time. These lights are illuminated whenever the gear is down.

If the indexer lights flash it indicates that the hook isn't down; unless the HOOK-BYPASS switch on the right console is selected in which case the lights will always be steady.

The basic logic is that green indicates too high AoA and slow, amber is optimum and red is low AoA too fast. The light combinations are as follows:

  • Green V - Airspeed SLOW: AoA too high (over 16°)
  • Green V and Orange O - Airspeed SLIGHTLY SLOW: AoA starting to get too high (14.5° to 16°)
  • Orange O - OPTIMUM ON SPEED: (the doughnut) - this is the ideal AoA for an approach i.e. between 14.5° and 15.5°. Normally the aircraft is trimmed for pitch on the final approach and primarily throttles are used to control the AoA
  • Red upside down V and Orange O - Airspeed SLIGHTLY FAST: AoA starting to get too low (14.0° to 14.5°)
  • Red upside down V Airspeed FAST: AoA too low (below 14°).

The airspeed guidance is secondary; it is the AoA that is important.

Warnings

  • WHEELS - Landing gear not locked and down - displayed when flaps are down and throttle below 80%
  • BRAKES - Wheel brakes are engaged; Shift+b to disengage.
  • NWS ENGA - Nose Wheel steering is active (below 80 knots)
  • AUTO THROT - APC has disengaged abnormally.

Caution Warnings

F-14 Caution Panel

There is a set of caution warnings that can be shown on the panel on the left console. When a light illuminates on the caution panel the MASTER CAUTION on the glareshield will also illuminate until pushed. Once pushed the caution panel warning will remain and the MASTER CAUTION light will be extinguished.

Relevant warnings;

  • START VALVE - the engine crank selector on the engine controls panel has been set whilst the engine is running
  • L INLET - malfunction in the Left Inlet system
  • R INLET - malfunction in the Right Inlet system
  • OIL PRESS - oil pressure on at least one engine is below the minimum.
  • L RAMPS - malfunction in the left ramp system
  • R RAMPS - malfunction in the right ramp system
  • L GEN - Left generator inoperable (i.e. engine RPM below operating speed)
  • R GEN - Right generator inoperable (i.e. engine RPM below operating speed)
  • LAD / CANOPY - Ladder and/or canopy is open or not correctly latched closed
  • BINGO - The fuel has fallen below the Bingo bug as set on the fuel gauge
  • HYD PRESS - One of the hydraulic systems is below the minimum operating pressure (1800 psi). Use the hydraulic gauge to determine which system isn't functioning. Normally the Bidirectional transfer pump will keep provide pressure to the other hydraulic system from the good hydraulic system; unless the HYD TRANSFER switch on the right console is set to SHUTOFF'
  • L FUEL PRESS - The fuel pressure in the left engine is low
  • R FUEL PRESS - The fuel pressure in the right engine is low
  • L FUEL LOW - Low fuel in the left engine tanks
  • R FUEL LOW - Low fuel in the right engine tanks
  • TRANS/RECT - The trans/rect is not operating correctly to provide DC power. This is also shown when using external power
  • LAUNCH BAR - Illuminated when insufficient power (< 85%) when the launchbar is engaged for a catapult launch

Engine Gauges

Engine gauges

Right Console

F-14 Right Hand Console

ARA 63 Control

Has no effect

Air Condition

Use to control the cabin pressure and temperature. Cabin pressure will be maintained according to the correct schedule. Using Cabin press dump will de-pressurise the cabin. Air source needs to be selected to allow cabin pressure and windshield air to function.

Ext Environment

The windshield air can be used to clear the windshield from frost and internal fogging.

Caution Advisory

Illuminates warnings using different colours to indicate severity; cautions are orange and advisories are lighter.

Master Light Panel

Controls the aircraft lighting

Master Test

Only light test LTS is operational. If successful (and it always will be) the green GO will illuminate. All other tests will result in a NO GO warning

Master Generator Panel

Used control the engine generators and the emergency hydraulically powered electrical generator.

Setting the Emerg generator to off and turning both generators off will result in no electrical power to the aircraft even when both engines are running.

Hyd Transfer Pump

Use to shutoff the emergency transfer between the two hydraulic systems.

If you have the an engine shutdown the hydraulic system will be powered by this pump; if you set the pump to SHUTOFF then the hydraulic system for the shutdown engine will have no pressure.

Keyboard controls

Flight controls

Key Function
Home Increase elevator trim
End Decrease elevator trim
] or f Lower flaps
[ or Shift+f Raise flaps
Ctrl+b Toggle speed brakes
k Increase speed brakes
j Decrease speed brakes

Automatic flight controls

Key Function
Ctrl+a Toggle autopilot altitude mode
Ctrl+s Toggle APC (Landing Automatic Power Control)
Ctrl+h Cycle autopilot heading mode
Ctrl+t Aircraft flight control systems|AFCS] (Defaut Attitude Mode)
* Engage AFCS Altitude Mode
Ctrl+y Toggle ground spoilers armed

HSD - radar and RWR

Key Function
h Cycles through HSD modes: radar - compas - ECM (RWR)
Shift+e Decrease Radar Range
Shift+r Increase Radar Range
Ctrl+q Toggles Radar Standby Mode. In standby mode the radar doesn't emit and the "STAND BY" words are displayed on the HSD screen when in TID mode.

Carrier operations

See also Howto:Carrier, Carrier over MP as well as a detailed carrier landing howto for the F-14 Tomcat.

Key Function
Shift+o Lower the hook
o Raise the hook
Shift+l Engage launch bar (keep holding until engaged)
Shift+c Release catapult

Weapons

Key Function
Ctrl+w Cycle through master arm switch modes (see master arm switch in cockpit).
w Cycle Stick Weapon Mode Selector (see Weapon Mode knob selector on side of joystick in cockpit). Four positions: Off, Gun, SW, SP-PH.
Ctrl+m Toggle AIM-9 selection (must have at least one AIM-9 loaded through Tomcat Controls/Fuel & Stores menu)
e Trigger M61A1 Vulcan gun or AIM-9 missiles (depending on stick weapon mode selection)

Flaps

F-14 Wing Devices

The F-14 has three different types of lift augmentation on the wings. Flaps, Auxiliary Flaps and Slats.

Maneuvering flaps and slats are automatically activated by the CADC to improve performance at high AoA and lower speeds. The maneuvering flaps are disabled when wings are swept outside of the permissible region for flap or slat deployment.

In the picture the slats are at the front, the spoilers on the top, and the flaps at the back. The auxiliary flaps are next to the fuselage and the main flaps are behind and below the spoilers.

Wing Sweep

F14-glareshield

Full aerodynamic affects of wing sweep are modelled. The Wing Sweep can be controlled via the keyboard or by using the Sweep gauge in the cockpit. Use the mousewheel over the sweep angle indication to adjust the required angle of sweep. The legends to the right of the wing sweep gauge can be clicked to any of the possible modes.

The CADC will provide automatic wing sweep based on Mach number. The wings cannot be swept further forwards than the CADC automatic value (to protect the airframe).

The main flaps operate until the wings are swept to 55 degrees; the auxiliary flaps are only available with the wings swept to 22 degrees. Interlocks operate to prevent flap deployment with unsuitable wing sweep.

It is possible to land with fully swept wings; however this should only be used in emergency situations as the landing speed is significantly increased.

< Sweep Wings Forwards
> Sweep Wings Aft
= Wing Sweep to Automatic

Miscellaneous

c Toggle canopy and access ladder
u Toggle refuelling probe, three states
Ctrl+o Toggle oversweep (on ground only, otherwise sweep is automatic)
Ctrl+v Toggle between RIO (Radar Intercept Officer) and pilot view

Gallery

Aircraft help

Engine Start

The engines can be quickstarted from the Tomcat Controls menu.

Engine Controls Panel

To perform a manual engine start, follow the instructions below. It is usual to start the right engine first to ensure that the flight hydraulics system is pressurized first.

Engine start procedure:

  • Ensure that external air is connected (Tomcat Controls menu, Ground Services dialog)
  • Ensure that the fuel shut off valves are pulled out for the engine to be started. (Upper left and right of the glareshield)
  • On the Engine Controls panel (left console next to the throttles) select Engine Crank (L or R)
  • As the engine spools up the hydraulically powered emergency electrical generator will provide backup power
  • When the engine reaches 18% RPM push in the appropriate fuel shutoff valve.
  • Monitor EGT and if the value goes above 1200 Degrees C shutdown the engine using the fuel shutoff valve (this will never happen with the current engines model)
  • Repeat the process for the left engine.
F14-engine-gauges

Engine Shutdown

F14-glareshield

Ensure that the wings are correctly swept, flaps raised and parking brake engaged.

Pull both of the fuel shutoff valves on the glareshield. These are the yellow and black striped items on the glareshield picture.

Once the fuel shutoff valve is pulled the appropriate engine will spool down and stop. When both engines are stopped there will be no hydraulic and electrical power and the cockpit will become dark.

On Shore Takeoff

  • Ensure wingsweep is set to automatic and wings are not overswept.
  • Check air brake in.
  • Use the Tomcat Controls menu, Fuel and Payload dialog to set the required fuel load and payload
  • Select up to 25 degrees of flaps depending on the aircraft weight.
  • Release parking brakes (Shift-B)
  • Select MIL thrust; or afterburners if conditions dictate. It is usual operating procedure on an F-14B to not use afterburners on take off unless heavily loaded as in the event of engine failure after rotation the resulting yaw moment is likely to result in an uncontrolled departure.
  • At around 145 knots pull back on the stick until the nose raises at which point maintain stick pressure and when 250 feet AGL raise the gear. By 200 knots the flaps should be fully retracted. Note that as the flaps are retracted the longitudinal balance of the aircraft changes and it will tend to pitch down slightly which should be corrected by using the pitch trim.

Hydraulics System

The F-14 has two separate hydraulic systems; identified as the Flight System and the Combined System. The flight system powers the primary flight controls and surfaces, and the combined powers everything else.

Both hydraulic systems are powered by engine driven pumps. There are two backup systems for the hydraulics in case of an engine (primary) pump malfunction. The first of these is a Bi-Directional transfer pump that can powere one system from the other system. The second method is an electrically powered pump. The electrically powered pump has its own small reservoir - so once powered on the electrically powered pump should not be powered off as the hydraulic fuel expands and is lost - so there may not be enough fluid remaining in the reservoir to allow the pump to start.

When there is insufficient hydraulic power the powered items will no longer function; so in the event of a dual engine flameout the flight controls will be inoperable.

Sufficient hydraulic pressure for smooth flight control inputs should be available with one engine windmilling at 18% rpm or two engines at windmilling at 11% rpm.

References: F14-AAD-1 p2-68 to p2-76

Electrical System

The F-14 electrical system is modeled sufficiently well to provide all visible effects.

There is a generator on each engine powered by a Constant Speed Drive (CSD) with emergency hydraulic generator that is powered by the combined hydraulic system.

  • Main generators drop off at 55% N2.
  • Emergency generator drop off at 11-12% RPM.
  • Engine ignition not available below 10%
  • Emergency generator 1kva or kVa essential AC and Buses No1 and No2. and AFCS
  • When hydraulic transfer pump operating and sufficient pressure emergency power will drop to 1kVa mode and power only the essential AC and Dc No. 1 buses.

In the model on the left main bus and the DC essential bus are used; however upon loss of electrical power from the main bus the non-essential will no longer be powered (e.g. the HUD, VSD, HSD).

References: F14-AAD-1 p2-68 to p2-76

Autopilot Operation

  • The main mode is Attitude Hold Mode, Ctrl+t. Other Modes need this main mode activated before being selected. Switching off Attitude Mode disables all other modes . When in Attitude Mode, the autopilot disengages whenever a certain pressure is put on the stick, and it re-engages when the stick is back in the centre position. Attitude Hold Mode will hold pitch attitudes up to plus or minus 30 degrees, and bank angles up to plus or minus 60 degrees.
  • It shall be switched off for aerobatics and inverted flight.

Autopilot Altitude Mode

  • Once in the Attitude Mode, you can select Altitude Mode by hitting Ctrl+a, then the AP REF indicator, (left of the VDI) will illuminate, when at the desired altitude using normal stick control, engage by hitting * (asterisk). The autopilot will then maintain your altitude.
Caution  At high speeds, it is imperative to stabilize your aircraft prior to engaging Altitude Mode

Autopilot Heading Mode

  • Once in the Attitude Mode, you can select Heading Mode by hitting Ctrl+h. After manoeuvring the aircraft into the desired reference heading, release the control stick at a bank angle of less than 5 degrees. The autopilot will then hold the aircraft on the selected heading.
  • To follow a route manager route; activate the route from the route manager and press Ctrl+h a second time or select "GT" on the AFCS panel just below the throttles.
SAS Panel.
  • Autopilot needs SAS channels to be engaged, which is the default. SAS Pitch and Roll channels may be disengaged by actuating switches located on the AFCS (Automatic/Analog Flight Control System) panel.

Approach Power Compensator (APC)

  • The APC is a closed loop system that automatically regulates basic engine thrust to maintain a specific indicated airspeed - which is usually used to maintain the correct approach angle of attack for landing.
  • The APC can be used at any time to maintain the current airspeed.
  • Type Ctrl+s to toggle the APC on/off. APC is also disengaged by setting the throttles to MIL, (98 percent rpm) or idle, (68 percent rpm) or raising the landing gear handle or when weight on the wheels.
  • When disengaged the AUTO THROT caution light, (on the left side of the HUD) illuminates for 10 seconds.
Approaching Nimitz carrier: flaps set, hook lowered

Spoilers

F14-engine-left-vertical-console

Each wing has a set of spoilers that are used to augment the roll rate during normal flight controlled by the CADC when wings are swept forwards more than 55 degrees. The spoilers can also act as brakes to provide extra retardation upon touchdown.

To engage ground spoilers set the ANTI SKID SPOILER BK switch on the bottom of left vertical console to BOTH or use Ctrl+y. After touch down and the throttles pulled to idle, then the spoilers are fully deployed.

Weapons operation

At the moment, only the gun and the AIM-9s are operational, others ordinances are displayed under the wing, their weight is correct but they aren't usable.

  • Gun: At startup, the ammunition store is filled with 675 round. There is an option on the Fuel and Stores dialog in the Tomact Controls Menu to allow the gun to be reloaded

To fire the M61A1 Vulcan:

  • Select HUD A/A Mode on the Display panel, on pilot's right console. A multikey shortcut is also available :AHa. Having the HUD in this mode is not mandatory however when the HUD is in the right mode the guidance symbology will assist with target identification and aiming.
  • Select Gun mode with the Stick Weapon Mode Selector (w). A pipper, the G symbol with a number showing approximately the remaining rounds x 100 and a closure rate scale are displayed in the HUD. The closure rate scale is active only if a target is locked by the radar with TWS AUTO mode (diamond on the HUD).
  • Switch Master Arm on cycle with CTRL-w, the X on the G symbol means Master Arm off or in training mode.
  • Press e to fire the gun.
  • Sidewinders: Crudely modeled on AIM-9L available data.
    • Select a weapons set using the menu: Tomcat Controls > Fuel and Stores: "FAD light" has 4 sidewinders, "FAD", "FAD heavy" and "Bombcat" have 2 of them.
    • Select HUD A/A Mode on the Display panel, on pilot's right console. A multikey shortcut is also available (:AHa).
    • Select SW mode with the Stick Weapon Mode Selector (w).
    • Switch to the RIO view (Ctrl+v).
    • Select pylons 1 and 8, down position, on the Armament panel, on RIO's left console. A shortcut toggles these two switches so you can select or deselect all AIM-9 in one keyboard stroke (Ctrl+m) without leaving pilot's view.
    • Switch back to the pilot's view (Ctrl+v).
    • Switch Master Arm on, you hear the search signal of the seeker head, a low volume buzz sound.
    • Now prior to be fired, the AIM-9 must have a lock on a target. Multiplayers, AI aircraft, and AI tankers can be locked. The minimal lock distance is 10 NM, the target must be approximately inside a 80° cone centred on datum line. When locked, the signal buzz volume becomes louder. For best results try to shoot (e) at a 3 to 6 NM range and with the target centred on the aircraft velocity vector. The missile will explode at the smaller distance possible. However if this distance is above 70 meters, it will continue its trajectory without guidance.
A tutorial video explaining how to fire the F-14B's missiles.

Pilot's Cockpit

Pilot's Display Control Panel.

Displays Control Panel

  • The Display Control Panel is located on the right side of the pilot's main panel, under the Hook lever. The 3 botom switches respectively turn the VDI, HUD and HSD displays on/off. The HSD MODE switch is also available, it selects NAV or TID or ECM mode. This can also be achieved by cycling through these 3 modes with the h key.
    • VDI: Vertical Display Indicator. Shows the aircraft attitude in roll and pitch, with an artifitial horizon and magnetic heading.
    • HUD: Head UP Display.
    • HSD: Horizontal Situation Display. HSD shows either:
      • in NAV mode: compas with navigation indications,
      • in TID mode (Tactical Information Display): an horizontal representation of the tactical situation (that is information provided by the RIO from what he sees in his radar displays).
      • in ECM mode: a representation of radar threats around the aircraft.

VHF

  • Located on the RIO's left console, 3 bands: 30-88 MHz, 108-174 MHz, 225-400 MHz. Modes TR and TR-G set COMM1. Mode DF sets NAV1, that is Direction Finder displayed with the single needle in both BDHIs (Bearing, Distance, Heading Indicator) . You have Comm *or* DF. Storing frequencies (up to 20 channels) a - PRESET select the desired channel, b - READ tune the desired frequency, c - LOAD stores the frequency in the previously selected channel.

UHF

  • Located on the pilot's left console, 225-400 Mhz. ADF is not enabled on this radio.

Dual Control (RIO)

F-14 RIO View

Dual control over Multiplayer allows a RIO to operate the radar range and mode.

On the ground during the startup phase the pilot handles all of the engines, control surfaces, and other on-board checks and the RIO looks after radar and a few other systems. The RIO usually does most of the communication with ATC.

The RIO will find the targets and designate them; it's then up to the pilot to check that it is the correct target and release the weapon. After weapon release it becomes the RIO's job to perform laser guidance and monitor the missile progress.

Within Flightgear the target designation is automatic as most of the time you don't have a RIO.

So a Dual Control RIO will take responsibility for the following:

  • Operating the radar mode and range
  • Communication with ATC
  • Keeping a good watch on the Radar and ECM screens and out of the window.
  • Advising the pilot of fuel status, and monitoring the airspeed and altitude (especially during an engagement with another aircraft). Voice comms using FGCOM or another method is recommended as things happen too quickly for text chat to be much use (and besides the pilot will usually be busy with the controls).

External links