AV-8B

Guide/Manual

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Trailer

The McDonnell Boeing (formerly Douglas) AV-8B Harrier 2 N/A (NightAttack) is a night attack variant developed out of Harrier line of planes. Unique to the Harrier series of planes is, despite only featuring a single central engine, it can be used for both forward and VTOL flight, courtesy of the 4 nozzles positioned on the sides of the aircraft fuselage that can be rotated on pilot command. This allows the Harrier to flexibly operate from all manner of airfields (the Harrier can also take off in a conventional manner from airfields) and carriers: Harriers will typically operate from STOVL class carriers that only feature a flat deck and no further carrier implements (ramp, catapult, arresting wires). The Harrier does not require these as it can take off and land vertically: however, with any meaningful load (stores, fuel tanks) on the aircraft it will typically perform a rolling takeoff / landing instead.

The AV-8B Harrier N/A is tailored specifically towards the attack / strike role, allowing for quick attacks thanks to the high speed it can attain in forward flight. Despite the relatively small size of the Harrier it can carry a good amount of ordinance and it has a slew of sensors built into the aircraft, including a sensor package mounted on the nose containing a FLIR (Forward Looking Infrared) sensor combined with a normal video camera that can detect objects, lock onto laser designations and provide relevant targeting information for weaponry. The AV-8B can also bring the AN/AAQ-28(V) LITENING targeting pod on one of its stations to provide its own laser designation, in addition to providing a larger azimuth range in which the sensor can be slewed. This extensive sensor package allows it field a whole range of both dumb and smart weapons, such as the Mk-82 bomb and its laser counterpart the GBU-12/-16, the AGM-65 Maverick anti-tank missile with CCD/IR/Laser guidance seekers, 2.75" Folding Fin Aerial Rockets (FFAR) in rocket pods, AIM-9 sidewinders and the AGM-122 Sidearm anti-radiation missile for short range SEAD / DEAD (attack of radar-guided SAM sites).

Weapons List

WIP

Weapons

• AIM-9M infrared guided air to air missile
• BDU-33 dummy bomb trainer (smoke only)
• Mk-81 LD 250lb unguided bomb
• Mk-82 LD 500lb unguided bomb
• Mk-83 LD 1000lb unguided bomb
• Mk-81 SNAKEYE (HD) unguided high drag bomb
• Mk-82 SNAKEYE (HD) unguided high drag bomb
• Mk-82 AIR selectable high or low drag 500lb unguided bomb
• Mk-20 cluster bomb
• GBU-12 laser guided bomb (LGB)
• GBU-16 LGB
• AGM-65E Maverick laser-guided air-to-ground missile
• AGM-65D/G Maverick infrared-guided air-to-ground missile
• TGM-65G Maverick TRAINING missile
• AGM-65H/K Maverick Electro-Optical (EO) guided missile
• ZUNI Mk71
• FFAR M156 WP
• FFAR Mk1 HE
• FFAR Mk5 HEAT
• 2.75" Rockets M257 (Parachute Illumination), M274 (Practice Smoke), WTU1B (Practice)
• SUU-25 flare dispenser
• Not Yet Implemented GBU-38 500 lb JDAM
• AGM-122A Sidearm Air to Ground

Pods

• GAU-12A 25mm rotary cannon pod
• AN/AAQ-28 Litening II TGP
• AN/ALQ-164 DECM
• Smokewinder smoke only Sidewinder training pods

HOTAS

The AV-8B(NA) has a throttle and control stick system for for thrust and flight direction. Additionally, both have additional controls termed "Hands on Throttle and Stick" (HOTAS) to control various various functions, especially combat-critical ones, without taking the hands off the throttle or stick.

Throttle

Control Stick

Flight Controls and Landing Gear

Flight Controls

Cold Start - Ground

(For now, the INS alignment doesn't work on the ground so before you get into the AV8B NA, make sure you set your module so it'll always be aligned)

• 1) Get your loadout ready, set fuel and color our fuselage as you want it
• 2) Toggle your battery ON
• 3) Make sure you've got your throttle set to cut off
• 3.1) If your engine is on Idle, find a small lever hidden behind the throttle (cutoff throttle laver) and press it
• 4) Set JPTL ON, toggle all your fuel switches on
• 5) Turn the engine startup switch

      While your RPM is rising to the idle level of 092 RPM

• 6.1) Toggle your MFDs
• 6.2) Turn ON all of your lights
• 6.3) Turn INS to Align/Ground
• 6.4) Switch ON MFCP switch
• 6.5) Switch ON FLIR
• 6.6) Turn ON all the internal and external light

• 7) Move your throttle (once the RPM stabilize on 092 RPM) to idle by actually moving your HOTAS
• 8) Toggle your HUD and radios ON
• 9) turn ON your flaps
• 10) Make sure your Limiters are all ON
• 11) Turn OFF antiskid

Cold Start - Ship

Landing Gear

The landing gear system consists of a nose gear, a main gear with twin wheels in tandem with the nose gear and two single wheel wing gears. Accidental retraction, when the aircraft is on the ground, is prevented by a weight-on-wheels (WOW) switch and ground safety locks.

Nosewheel Steering (NWS)

The NWS system is an electro-hydraulic operated system that provides directional control for ground operations with three modes

• Caster
• LO GAIN Steering: The rudder pedals are connected to the system. Nose wheel has a range of movement between -14° and 14° degrees.
• HI GAIN Steering: The nose wheel range of movement is increased to +/- 45°. HI GAIN steering is undesirable above 20 Knots Ground Speed due to poor directional control characteristics YOU WILL ROLL LIKE A PIG IN MUD AT HIGH GROUND SPEED AND NWS INPUTS.

A fourth steering mode, centered, is used for gear retraction. When the landing gear handle is placed in the up position, the nose wheel will automatically steer to the center position at which time the landing gear retraction will commence. With the landing gear handle DOWN, the NWS mode is controlled by the anti-skid switch and the [AG Target Undesignate/NWS/FOV Toggle] button on HOTAS. With anti-skid set to ON, CASTER mode is selected. With the anti-skid switch set to NWS, Pressing the [AG Target Undesignate/NWS/FOV Toggle] HOTAS button increases the steering mode by one gain so that from CASTER mode it changes to LO GAIN mode and from LO GAIN mode it changes to HI GAIN mode. With the HUD in VSTOL mode, indications provide cues as to steering position and mode. Whenever the nose wheel is within 30 of neutral, a C will appear inside the slideslip ball. A steering mode indication is provided in the lower right hand corner of the HUD. The indications are:

• CTR: Centered
• CAST: Caster
• NWS: Lo Gain
• NWS HI: Hi Gain

A NWS light, on the caution/advisory panel, illuminates to indicate that a steering failure has occurred.

Stability Augmentation and Attitude Hold System (SAAHS)

AKA Autopilot. Not a very complicated system. First, engage AFC then engage ALT HOLD.

The autopilot of the Harrier is not very complicated to use.
Make sure you have all your Yaw, Pitch and Roll SAS switches ON
Set aircraft in desired altitude/attitude and make sure that the following conditions are respected or the autopilot will automatically disengage:

• You are not in a steep climb/descent (+/- 2000 ft per minute)
• Airspeed must be greater than 160 kts
• Your bank angle must be lesser than +/- 20 deg
• Your pitch angle must be between -15 deg to +20 deg

You can use your trim controls while the autopilot is engaged to fine-tune your aircraft attitude.
You can disengage the SAAHS using the Emergency SAAHS Disconnect Switch, toggling the AFC, or moving the stick. Unlike the AFC found in the community A-4E or the F15C, the Harrier is currently modeled such that stick inputs cannot be used in lieu of the trim hat to fine-tune AFC attitude.

Aircraft Digital Systems

Overview

Heads-Up Display (HUD)

According to NATOPS, the is symbology on the HUD is less disorienting in VTOL Master Mode in IMC conditions. FLIR can be over layed onto the HUD by setting the brightness selector below to NIGHT and pressing sensor select down.

VREST Computer

VTOL Range, enduranse, speed, and time (VREST) Computer is found on the MFD Menu page. It also ties in with the navigation systems and EHSD to pick a waypoint.

VL/VTO Page

Displays the maximum sum of fuel and water weight in pounds (F+W) that be on board when performing vertical takeoff or landings. WET implies using the engine with H20 injection in either ON position. Both VL and VTO are the same VREST Page, despite the H20 switch having a separate landing and takeoff setting. Dry implies using the engine with the H20 in middle OFF position. Gross weight is automatically taken into account as well as other parameters.

• GWT: Gross Weight
• OATC or OATF: Outside Air Temperature in Celsius or Fahrenheit. Warmer air is less dense and your engine's JPT gets hotter sooner requiring a lower GWT.
• FELV: Field Elevation of runway or FARP. A higher place is in thinner air which decreases thrust production.
• ALTM: Altimeter Barometric Pressure. A lower number is lower pressure indicating thinner air which decreases thrust production.

A really hot day on the Persian gulf map limits engine performance.

For Vertical Takeoff:

1. First ask ground crew to load the aircraft with armament.
2. Then adjust fuel and water to match one of the parameters. Unfortunately, the rearming window in DCS shows fuel as a percent and does not show lbs of H20. As a guide, rearm so that total weight is around 25,000lbs for a WET takeoff or 23,000lbs for a Dry takeoff.

Alternatively, if you're not in VR and have a calculator:

1. Slide Fuel to 0% and choose your armaments.
2. Add F+W WET to current weight to get the Total Weight with fuel.
3. Slide Fuel up until

Vertical Landing: Jettison fuel or water until F+W is equal to or less than one of the values and flip the H20 switch accordingly.

STO

Displays parameters relevant to performing a Short Takeoff.

• NRAS: Nozzle Rotation Airspeed
• NOZ: Nozzle setting in degrees
• GROL: Minimum ground roll distance
• DT50: distance required to clear a 50 foot obstacle such as a tree.

To perform a STO:

1. On the MFD select Menu-VREST-STO and the list can be understood as follows: Throttle up and "jump" once you reach (NRAS) knots by slapping the nozzle to (NOZ). This should take at least (GROL) feet and you'll reach 50 feet in (DT50) feet.
2. Press VSTOL Master Mode
3. NRAS is automatically selected on the ODU. Punch in the NRAS value using the UFC and hit ENTER.
4. When NRAS is reached, the airspeed on the HUD will be boxed.

The LHA Tarawa has deck markings along the yellow strip to help you determine if you have enough deck in front of you for the ground roll. The last marking before the back edge is 750, but the whole deck is about 800ft if you reverse up to the back edge. The FARP asset is also about 800ft long along an edge. If you know how to use the full length of the Tarawa, you know how to STO across the green FARP pad (not the helicopter pads).

Cruise (CRUS)

The Cruise page has two columns that help the pilot cruise optimally. The altitude cruise (ACR) maximizes cruise performance at the current altitude, while the optimum cruise (OPCR) column suggest the best altitude and other parameters to achieve maximum cruise performance overall.

Currently CRUS seems borked. So use the ACR Column, but borrow the MRNG and RFUL value from the OPCR column.

Simply match the calibrated airspeed on the corresponding column to the airspeed displayed on the HUD in NAV or VSTOL master mode. Alternatively match the mach numbers. You can translate the ACR list as follows: Fly (CAS) knots or Mach (MACH). The next waypoint is (RANG) nautical miles away, and you will arrive there with (RFUL) lbs of total fuel left. Overall you have a max range of (MRNG) nautical miles.

Between CRUS and BNGO appears the chosen waypoint CRUS is calculating off of. It is synchronized with the EHSD selected waypoint and the arrows increment it the same way. In fact, when en-route you could display both CRUS and EHSD because they provide complimentary information.

Bingo (BNGO)

RAZBAM hasn't documented this yet, and it may be borked in the same way the cruise page is. Although not implemented yet, some of these parameters can be edited as hinted by the ODU.

Similar to cruise but more conservative. It assumes you start to climb up to the altitude and fly the parameters. DCRG is the range from the waypoint to start descending. The bingo knob near the fuel indicator does not affect these calculations.

For example, you loitered around too long during a mission or squeezed in a few too many gun runs. You feel like you'll barely make it back when you view the cruise page. There's CAP so you're also comfortable ascending to fly more efficiently. Select VREST-BNGO and figure out your options.

Navigation

The Harrier uses GPS and falls back onto INS. Radio-navigation is available as TACAN or AWLS (ILS).

Electronic Horizontal Situational Display (EHSD)

The EHSD page displays the map, overlays a horizontal situational indicator, as well as controls and presents other navigation data. Use this page in conjunction with the UFC and ODU to do some of the following:

• Create and edit waypoints
• slew an existing waypoint to reposition it
• setup radio-navigation using AWLS or TACAN to navigate towards (finding a tanker or airstrip)

Defensive Systems

Electronic Counter Measures

Expanable Counter Measures

Flares

Chaff

AN/AAQ-28V Litening II Targeting Pod

FLIR

Air-to-Air Weapons

AIM-9 Sidewinder

Air-to-Ground Weapons

General purpose bombs

Cluster bomb unit

Laser guided bomb

Training bomb unit

Antiradiation missiles

Laser Guided missiles

Infrared guided missiles

Resources

Manuals

Tutorial Videos

1. Redkite tutorial videos:

• Full Tutorial Playlist from Redkite lots of good stuff in here
  • Selections from playlist above:
  • TGP Tutorial
  • VTOL Tutorial
  • Basic Weapons Tutorial
  • CCIP, CCRP, and Laser guided (JTAC) bombing tutorial
  • AGM65G (IRMAV) Tutorial
  • Sidearm Tutorial

Feature List

https://razbamsimulations.com/index.php/dcs/av8-b

HOTAS Configs

Mods

Cpt. Creosotes Harrier Sound Mod 1.2

-Much improved APU sound
-Improved start-up ambiance
-Improved internal sounds when flying
-Adjusted external sounds
-Modified sound distances

Download from DCS User Files

Hear it in action