Marines/Equipment

Index

Contents 1 Introduction 2 1. Personal Equipment 3 2. Weapon Systems 4 3. Mines and Grenades 5 4. Misc. Equipment

Introduction

Traditionally, Marines are considered light infantry. This means we use our feet for much of our transportation and carry everything we need to make war on our backs. We don't need alot of stuff and don't make use of the creature comforts many other branches use.

Often we fight on planets barely hospitable to humans, making transporter difficult or impossible, sometimes the conditions are such that phasers and other electronic weapons are useless. All this means we must have a wide variety of weapons in our arsenal, and we must maintain a high level of proficiency in thier use at all times.

1. Personal Equipment

Type VII Wrist Beacon
This is a fairly recent addition to the Starfleet inventory, and was promptly stolen by Orion smugglers on behalf of the Maquis. Added in 2371, it was designed with the idea of providing away teams with a way to produce extra illumination in a hand's off capacity. The Type VI produces two beams of light, and attaches to the wrist by way of a velcro strap. It is extremely sturdy and will remain in place through even the most treacherous movements. Included on the Type VI is an emergency transporter beacon which can be used to enhance the wearer's signal in case of an emergency beam out.


Communicator
Communicators provide voice transmissions from a planetary surface to an orbiting spacecraft or station, and between members of a landing party. Communicators also provide a means for a ship's transporter system to determine the exact coordinates of a crew member for transport back to the ship.

Early versions of the communicator were compact handheld units with a flip-up antenna grid. Starfleet briefly used wrist communicators, but more recent units have been incorporated into the Starfleet insignia worn on each crew member's uniform. These combadges have a dermal sensor that can be used to restrict usage to one authorized individual only. Starfleet combadges are programed to activate automatically when the casing is destroyed, a feature designed to help rescuers locate a seriously injured person. The current combadge device is constructed of a crystalline composite of silicon, beryllium, carbon - 70 and gold.


Thermal Gear
Maquis Thermal Gear is designed for an environment that is exactly opposite of that intended for Starfleet Desert Gear use. They are intended for planets that have ambient temperatures that are below freezing or just slightly above.
The uniform is composed of several layers. The first is a thick jacket designed to absorb surrounding heat, a pair of long johns of the same design and material make up the second layer. Finally there is a mask and a pair of interactive goggles. The goggles contain night vision enhancement sensors along with a built-in communication system.


Desert Gear
Maquis Marine R&D has developed a multitude of outfits designed specifically for use on planets whose environments could be considered harsh. One of these, is designated as MFMC Desert Gear. These suits are designed to reflect away sunlight and heat and their interiors are made specifically to keep the wearer's body at normal temperatures.

Although these uniforms are not perfectly designed to keep one unaffected by exterior temperatures, they are much more comfortable then attempting to hike across a desert in standard duty uniform. The uniform is made up of a large hooded cloak designed to protect the wearer from the effects of direct sunlight. The undershirt has no sleeves and is composed of a light material, similar in many aspects to Quaverian cotton, but lighter, allowing more air flow through the uniform itself.


M856 Light Combat Armor
An upgrade of the "Clapper" armor suit, the armor panels are now wrapped in an energy absorbing micro-fiber mesh to reduce noise and increase protection levels. The M856 light combat armor is composed of 18 separate, but interconnecting armor segments which are snapped in place over a thermal and energy resistant body glove.

The suit provides complete protection from energy blasts below level six, moderate protection up to level eight (the armor may experience burn through, but the body glove will absorb the majority of energy which penetrates, and protection from the lethal effects up to level ten (but medical treatment will be immediately necessary). The strap on helmet of the suit includes a complex communication's suite, and an articulated visor with built in anti viral, anti chemical filters, macro binoculars, and a basic sensor system.


M860 Light Combat Armor (Chameleon Armor)
A product of the Maquis Corps of Engineers, designed for special operations and Recon. Chameleon armor uses a variation of cloaking technology, which renders the wearer nearly invisible. because of the weight of the sensors and equipment, the suit offers the same protection as standard light combat armor.


M863 EVA Spacesuit
The current operational EVA pressure suit used through out Starfleet and therefore the Maquis, the Type - 3 SEWG. This model is characterized by modular construction designed to fit most humanoid personnel.

The average suits empty mass is 19.6 kilograms, and 30.1 kilograms with backpack and full consumable loading. All flexible inner pressure bladders are constructed from 59 alternating microlayers of duranium hexylamide and 2,1,3 polyurmedane, with a total thickness of 0.86 centimeters. The outer thermal micro meteoroid covering consisting of 61 layers of woven disellenide-carbonitrium fibers jacketed with plasma-sprayed silica excelerine, with a total thickness of 1.2 centimeters. The helmet, backpack and chest plate are typically molded from aluminium borotritonide and standard transparent aluminium is employed in the helmet face plate.


M866 MC-EVA Suit (The "Hard Suit")
Realizing the need for specialized combat suits for the Marines the Maquis Corps of Engineers created the MC-EVA suit. It's a hard bodied suit that serves the dual purpose of acting as an EVA suit as well as combat armor for the Marines. It's lightweight and flexible construction allows for the wearer to be more agile than in standard Starfleet EVA suits.

Complete with gravity boots and helmet the MC-EVA suit allows for Marines to operate and fight in any environment. With all the functions of a standard EVA suit the MC-EVA has the additional feature of a retractable face plate on the helmet of the suit allowing the helmet to be used as a combat helmet as well. Built into the MC-EVA are a shielded communications array, medical monitors, minor medical treatment system, stops blood loss, etc. and an oxygen filtration system (for extended operations).


M890 Infiltrator Battle Armor
Development of the suit was a joint project of the Maquis corps. of engineers and Marine recon teams. The Infiltrator was designed as a mass-manufactured battle armor suit for deployment with the MFMC. Unlike previous models, the Infiltrator suit features armor composite sheaths to contain and protect its layers of myomer musculature. The suit also features integral mounts for jump jets and a gyro-stabilized gun mount on the right arm, phasers and machine guns are the most common weapons.

Integrated into the suit are communicators, Global Positioning Devices, and sensors capable of relaying back the medical condition of the wearer, this sensory relay also allows for medical personnel to offer limited medical treatment to an injured Marine and possibly sustain him/her until they can be taken to a medical facility.


M893 Hawk Battle Armor
Inspired by Land Air Mekk's (LAM), Hawk battle armor is fully airborne. Though the final production model possesses only limited flight capabillities, it is nonetheless an impressive accomplishment. Named for a predatorial bird, the Hawk achieves flight by means of an advanced propulsion system adapted from standard Mekk jump jets.
Computer controls divert portions of the main thrust through dozens of directional exhaust ports to obtain stable flight as well as complete VTOL capability. The result is an incredibly agile unit that is the fastest independant infantry in known space. In order o make the suit light enough for sustained flight, the Hawk's designers had to strip away most of the armor found on heavier Battle armor designs.

The suit's weapon load is ight as well, mounting only a single compression pulse phaser rifle as its main armament, backed up with an anti-matter bomblet rack attached to the suit's jump pack.


M895 Sehlat Anti Mekk Battle Armor
Another development of the joint project between the MFMC and Maquis corps. of engineers, designed to incease survivability of Anti Mekk infantry. Using the latest techniques in small-scale armor design, the Sehlat mounts enough armor to withstand a direct hit from most Mekk weapons. The Sehlat is an impressive design, mating a heavy powered-armor suit with myomer musculature.

The Sehlat has a fully articulated claw used primarily during "swarm" attacks against enemy Mekks mounted on the left arm. The suits primary weapon is a heavy phaser, when used in cooperation with the Marines team-mates, has the capability to burn through the armor of Mekks as well as tanks.


Plasma Saber
The "handle" of a Plasma sabre is 15 to 20 cm in length and 4 cm in diameter, it emits a one meter beam of plasma capable of cutting nearly any material. The saber "blade" has no weight of its own, therefore wielding a plasma saber takes training and much practice to avoid seriously injuring yourself. There are several "blade" colors available, dependant on the focusing crystal. Note: Plasma sabers require advanced training before a Marine is allowed to carry one as part of his/her unifrom.

2. Weapon Systems

3. Mines and Grenades

4. Misc. Equipment

Type IIIc Compression Pulse Rifle Another weapon pioneered in the 2370s and perfected in the 2380s, this is the rifle that serves as the Marine Corps' primary small arm. Like the PPP, it is issued to every Marine as soon as they enter the service. First introduced in 2374, the IIIa revolutionized handheld phaser weaponry. Instead of firing a beam of energy, the IIIa used a high charge capacitance bank and a high-speed focusing coil which allowed the phaser discharge to be stored temporarily, and released as a layered pulse. The resulting pulse is much more difficult to disperse than a normal beam impact. Over the years, the IIIa has gone through some radical modifications, eventually evolving into the type IIIc. In addition to upgrades made to the power cells, emitter crystals, and the capacitance bank, the focusing coils were upgraded and modified to allow the user to choose whether or not he/she wishes the standard pulse, or like the IIIb, a stream. Though the stream option produces a blast much less effective than the dedicated IIIb, it gives the compression phaser rifle the versatility of being able to fire in both modes. The Type IIIc Compression Pulse Rifle is accurate, durable, and versatile. In addition, the rifle can mount a variety of sensor/tracking sights in order to enhance accuracy.   M2-43 Plasma Pulse Rifle The M2-43 is perhaps the current weapon most associated with the Starfleet Marine Corps. Developed exclusively for their use and based on the earlier TR-116 rifle, the PPR is a high-powered rifle which fires cased plasma rounds at a variable fire rate, but capable of over two thousand rounds per minute. The M2-43 is a hybrid weapon in that uses both kinetic and plasma energy in order to decimate the target. Using a high-powered subspace accelerator, the PPR feeds off a magazine (12x5x7cm) of 200 plasma rounds. The plasma rounds themselves are small, but contain a massive amount of energy within them. Encased within a tritainum/duranium shell, the plasma energy is ignited by the subspace accelerator as it is flung out of the rifle muzzle at near C. Upon impacting the target, the combination of the kinetic impact of shell and plasma mass, as well as the plasma's energy itself is devastating upon both unshielded and lightly shielded human size targets. Especially effective when used in volleys by a squad, the M2-43 is capable of penetrating even some armored vehicles, opening up a second option if a dedicated anti-armor weapon is not available. The drawback of the M2-43 is its relatively short range. At 1km, the ignited plasma begins to dissolve the shell itself, and beyond 2km, the plasma has escaped the shell and dissipated over an area. The range limitation, however, can be compensated for through the use of a focused transporter emitter aligned with the rifle's subspace accelerator and mounted on the barrel of the rifle. With such an attachment and an exothermic imaging scanner (as pictured at right), the M2-43 becomes an outstanding sniper's rifle. Beyond that, the M2-43 is an exceptional weapon. Easy to maintain, powerful against both unshielded and shielded targets, and psychologically devastating (the image of a fellow being shredded and spewed across the landscape in the blink of an eye can be quite unnerving), the M2-43 will be in use by the Starfleet Marine Corps for years to come   TP-4 Heavy Repeating Phaser (Squad Automatic Weapon, or SAW) Although all the weapons mentioned previously are excellent for squad combat, in the larger scale something bigger is needed to dispatch a superior enemy force. This is where the TP-4 heavy repeating phaser comes in. Larger than a Type IIIc or M2-43, but not exceptionally large either, the TP-4 delivers incredible firepower over a large area in a short period of time. Operating at up to five hundred and forty rounds per minute, the TP-4 cycles six emitter crystals on an ovoid track to avoid detrimental thermal effects. Spewing phaser blasts down upon a landscape at this rate is an incredible sight, and is often more than enough to turn back an enemy's advance. Operating mainly on the standard phaser stream principle, the drawback of the SAW is that the position of the shooter is easily obtained. When nine beams of phaser energy per second ripple down from a position, it's hard not to pinpoint your target. Nonetheless, the speed at which the SAW can devastate an unprepared enemy squadron is astounding, and it is for that reason that the TP-4 finds itself a mainstay of heavy weapons squads. Most MFI Marine squads are assigned one TP-4 Heavy Repeating Phasers. The TP-4 can be easily pintle-mounted to the side access hatches of the Targa class assault runabout and used in support of a Targa drop to a hot landing zone.   Infantry Anti-Armor Systems  M5 Rocket Propelled Grenade The M5 rocket propelled grenade system is a small reloadable shoulder-launched weapon. The launcher consists of a 140 cm tritanium alloy tube weighing 2.3 kg, with a rear backblast vent incorporating backblast diffusers, trigger mechanism and 4x power telescopic sight. Each 2.2 kg round is a 60 mm hypervelocity spin-stabilised rocket with an impact-fused supercritical HEAT warhead. The rounds are carried seperately and handloaded into the launch tube. Sighted visually, the system has an accurate range of approximately 400 m and a maximum range of around 2,000 m. Though the rocket's warhead has litle chance against medium and heavy tank armor, it has proven popular and effective for use in its secondary role against infantry in bunkers and biulding strongpoints.  M83A2 SADAR (Shoulder-launched Active-homing Disposable Anti-tank Rocket) The M83A2 SADAR is a lightweight one-shot anti-armor weapon capable of engaging enemy vehicles at ranges up to a 1,000 m. Fully disposable, the rocket's launcher is discarded afterfirin, whilst the rocket, a fire-and-forget weapon, guides itself toward the target. When stowed, the SADAR system consists of a watertight carbon-fiber composite blast tube, inside of which is an aluminum launch tube containing the missile and guidance electronics. The weapon is cocked by unlatching the forward ring of the blast tube and pulling the inner launch tube forward until it locks. A trigger assembly and thermal acquisition sight are then flipped into position, and the weapon activated by pushing a charge button on the trigger grip. From this point the weapon can be sighted and fired from the shoulder. The M83A2 acquires and tracks targets with a cooled infrared imaging seeker mounted in the rocket's nose. When the charge button is pressed, the inert IR seeker is cooled to its operating temperature within two seconds and begins feeding images to the operator's thermal acquisition sight. The seeker remains charged for twenty minutes, after which the rocket may only be fired unguided. When a target (such as a vehicle) enters the acquisition sight, the operator can lock the seeker onto the target. So long as the target image remains clearly within the seeker's field of view, the weapon can be launched at it.  M112 HIMAT The M112 HIMAT (Hypervelocity Intelligent, Missile, Anti-Tank) is a man-portable battlefield "brilliant" weapon with a range of over 5,00 meters. The versatility of the system allows the field commander many options for its deployment and use. the core element of the system is a 11.3 kg single-round selfcontained disposable launcher, which comes with its own bipod stand and baseplate. The launcher is a carbon-fiber composite tube containing the HIMAT round and RTM ports for the fire control system. The bipod can be set to launch the round horizontally or at increasing angles up to the vertical, depending on deployment.  Fire Control - Defensive Deployment fire control for the M12 varies according to mission. For defensive deployment, the system can be set for either 'command' or 'autonomous' configurations. In both cases, one or more launchers are connected by cable to an APS-100 Fire Controller, an 800 Gb intelligent system which imports data from the local sensor matrix, including motion trackers, infrared scanners, lidar, radar and robot sentries. It is also posibble to datalink the fire control unit into higher-level assets such as surveillance drones or artillary forward observers. The APS-100 unit analyses the sensor data, and if it positively identifies a target it will lock-on with one or more missiles under its command and prepare to launch. If set to command mode, the APS-100 is connected to the terminal of an operator who constantly monitors the Anti-Tank defense plan for the area. If a target is identified, the system will flash a 'target Lock' indicator to the operator who can authorize a weapons launch or, if the exact identity of the target is unsure, a further IFF interrogation. If enabled for autonomous mode, the APS-100 will work through its target identification protocol until it is sure it has lock-on to an enemy and then automatically launches one or more missiles.  Fire Control - Offensive Deployment On the Offense, the M12 can be deployed in a direct fire mode by plugging an infantry-operated target cquisition sight directly into the launcher. The SR-90 is a sight specifically designed for the M112 system, combining a passive infrared imaging sight with an active ultrasonic motion tracker. The SR-90 plugs directlr into the launch-tube RTM port, and has sufficient optic cables to pay out to 150 meters, allowing the operator to position themselves safely away from the launcher, with its conspicuous launch flash. The operator gathers the target into the SR-90 sight and uses one or both sensors to lock up the target. This information is passed to the missile, which can be launched on command by depressing the 'Safety' and 'Fire' triggers on the sight similtaneously.  Other Small Arms The weapons mentioned here are, of course, a small example of those weapons you'll find within almost every typical Marine division. Each Marine, however, can come across a weapon which he or she gains a personal attachment to, and decides to use as his baseline or supporting weapon (with approval). Some of these weapons include the likes of Concussion Rifles (which fire a small shell based on a concussion grenade, but with a little antimatter thrown in), Disruptor Slug Cannons (using anti-protons and protons within a heavy shell to obliterate tanks or other armor), Tachyon Pulse Launchers, or plasma, disruptor or other phased energy rifles.   3. Mines and Grenades  M-35 Pressure sensing mine The M-35 Pressure sensing mine is 30 cm across by 8 cm thick and weighs 9 lbs. It consists of a polymer casing (to make detection more difficult) with a 3 lb. charge of Composition 8, which hurls 5 lbs. of .30 caliber steel pellets in a 80 degree upward arc.  M-37 Presure sensing mine (Photon) The M-37 Pressure sensing mine is 30 cm across by 8 cm thick and weighs 9 lbs. It consists of a polymer casing (to make detection more difficult) with a .3 isoton yield, which will devastate a 25 meter radius.  Vibra-Bomb/Anti-Mekk The Mark 86 seismic sensory mine, or Vibra-bomb has a variable sensitivity, and when placed must be set to respond to a specific mass. The mass settings go from 10 to 100 tons in ten ton increments. The drawback to this type of mine is in the mass setting, for example a vibra-bomb set for 60 tons will not explode if approached by a 55 ton Mekk, and the same mine if approached by a seventy ton Mekk would explode while the Mekk is still 30 meters away. The Mark 86 is also equipped with an anti-transporting device and is not effected by electro-magnetic pulse devices.  Mark 57 Magnetic mine/Anti-Mekk The Mark 57 magnetic mine weighs 50 kg. (110 lbs.) It contains a 1 kilo charge of Pentaglycerine behind 36 kg (80 lbs.) of teflon coated forged titanium darts designed to penetrate armor. The Mark 57 is designed to explode when it detects a mass of 20 tons or more over the mine, exploding like an upward pointing shotgun tearing through the thin underside armor of vehicles or Mekks. The mine is 90 cm. (36 in.) tall and 45 cm. (18 in.) wide.  Mark 59 Command detonated mine/Anti-Mekk The Mark 59 command detonated mine weighs 145 kg. (320 lbs.) It consists of a 10 kg (22 lb.) charge of pentaglycerine behind 113 kg. (250 lbs.) of teflon coated forged titanium darts designed to penetrate armor with an effective radius of 60 meters. The Mark 59 mine is detonated on command by either a frequency command device or, a 300 meter two-wire cord, the detonating command may come from a person, or a sensor of nearly any type. Similar in construction to the Mark 57,  the Mark 59 is 110 cm (48 in.) tall and 60 cm (24 in.) wide.  Mark 66 Antimatter mine/Anti-Personnel The Mark 66 Antimatter mine is 30 cm across by 8 cm thick and weighs 6 kg. It consists of a green polymer casing (to make detection more difficult) and a .03 kg charge of antimatter. Much like the cardassian mine number seven, the Mark 66 can devastate nearly everything in a thirty meter radius.  Grenades There are four major grenade types which the Marines in the MFI utilize: concussion, photon, fragmentation and plasma. Concussion grenades detonate and use a pressure wave to incapacitate or kill their target. They are very stable, and have a large detonation range. However, the "kill" setting has proved to only internally fracture the target's bone structure rather than cause enough internal injury to cause death on most occasions. Fragmentation grenades are fairly stable and offer a good alternative on planets with conditions unfreindly to more adanced devices. Photon grenades are little changed since the 2200s, and are in a sense miniature photon torpedoes. They use a small amount of antimatter (a fraction of a gram) to achieve their effect. They are relatively stable; however, extreme situations can sometimes lead to premature detonation as the magnetic fields holding the antimatter separate collapse. Plasma grenades are the most unstable of the three grenade types mentioned here, but are also the most powerful. They are filled with plasma generated by a matter-antimatter reaction modified by dilithium -- essentially, warp plasma. When detonated, the grenade ignites the plasma, which expands in a wide radius, destroying nearly anything it comes into contact with.  4. Misc Equipment  M-486 Drone The M-486 Drone is a programable airborne sensor drone with a broad sensor payload, including motion trackers, infrared scanners, magnetic resonance, lidar, radar, and a broad spectrum jamming system. The M-486 has a range of over 10,000 kilometers, and a flight time of 72 hours before replacement of the energy cell is necessary. The drone has the capacity to carry four micro photon torpedoes.  Genessee Class Assault Runabout This runabout is staffed by 4 Crew members and is capable of transporting up to 19 Assault Team members. The pilot's consoles are forward facing in front of two large windows. The two large windows are equipped with retractable blast shutters. View screens mounted within the forward corners of the cabin are used for External Viewing, Video Communication and Ship Status displays.   Specifications "Ground Assault" Version Length: 24 Meters Width: 10 Meters Height: 7 Meters Decks: 1 Crew: 4 Max Life Support: 25 Propulsion Systems MARA MicroCochrane Warp-Module, Enhanced Impulse Reactor Weapon Systems: Primary: 4 Type IX Phaser Emitters Secondary: Micro-Photon Torpedoes: - 2 Forward Launchers, 1 Aft Launcher Defensive: Auto Modulated Shields Transporter Systems: Personnel Transporters: 2 Max Objects / Cycle: 6 Computer System: LCARS Crew Interface   Tomahawk Class Combat Transport Vehicle or (CTV-180 Tomahawk) The CTV 180 Tomahawk was created and designed as a transport vehicle for Marines and the equipment they need for ground operations. The CTV-180 Tomahawk was never intended to be warp capable, it's main purpose is to transport Marines and equipment from ships in or near orbit to and from combat zones on planetary surfaces. The CTV-180 is capable of interplanetary space flight when necessary but it's range is limited and because of the lack of any meaningful arms it is highly recommended that this vehicle avoid any direct engagements with starships or heavily shielded facilities.   The CTV-180 can be converted for multiple purposes when the need arises, they can be used to ferry wounded out of the combat zones or reconfigured to a mobile command platform. The CTV-180 is also equipped with Electronic Countermeasures that allow it to jam enemy sensors and communications on planetary surfaces.   Max. Speed: Impulse Range: Limited Crew Capacity: Variable, 2 Fully Armed Platoons and Equipment, 2 Tanks and crew, 6 Warthog Class Fast Attack Vehicles with crews of 4 Marines each for a total of 24 Marines.  M577 Armored Troop Carrier, All Terrain This is the standard, all-terrain APC used by the MFI Marine Corps. It's a lightweight unit, and with the turret stowed, it can fit the standard UD-4L Dropship for Combat deployment. It has a bonded-ceramic reinforced chassis, and the interior is spacious. The drivers compartment can be sealed apart from the troop compartment, and the configuration of dual-life support systems allows for sealed-atmosphere use. The troop compartment has ample weapon and troop storage, and some units can be retro-fitted with a Tactical Operations suite, which allows Commanders the ability to receive data, voice and video streams from troops or slaved units, as well as relay this data to a mothership.   Role: Ground effect, Troop Carrier All Terrain/Environment  Height: Turret stowed 7'2"; Turret Deployed 9' 3" Width: 11'1" Length: 10m Speed: max 100kmph (flataway) Ground Clearance: 22 cm Turning Radius Clearances 8'2" Sloping: traverse up to 50* slopes with 6 directed antigravity mini-engines engaged Engines: Drive: four wheel, all-terrain with 2 vectored energy thrust assist engines. Power source: Nuclear Battery, rechargable, 100 hours operational life, full output Computer System: None Crew:1 driver, 1 commander plus 12 troops/gunners Gravity: None Armor: Heavy Neutronium with carbon fibre reinforcement Proactive / reactive armor panels over all critical systems. Nano-fiber reinforced transparent aluminum windows.Duranium troop pod, engine area, passenger area, and cockpit armor. Tritanium hull with ablative hull coat Armaments: 2 Light shuttle type phaser strips, one each side. Standard, dual linked RE702A dual-linked 40mm Gatling Cannons (front Mounted) and a configurable turret, which rides on rails and allows for 360* fire arcs. 9 troop firing ports in compartment armed only when manned (weapon type optional) Shielding: None Sensor suite: Class II Variants: M577 Factory Standard, 1 rapid fire photon grenade launcher M577A Phased Plasma Cannons (2) M577A1 Particle Beam Cannon, Type 1 M577A2 Particle Beam Cannon, Type 2 M577A3 Advanced Pulse Phasers M577A4 18 Mk 12-A 'Lawnmower' micro-cluster missles M577B Tactical Command Scout, upgraded sensor/Comm suite M577C Med-Evac APCScout (with enhanced relay and ECM 'saddlebag' packs. Misc.: Built in COMM unit relay   FAV-260 Warthog The was designed from the ground up to be a fast attack vehicle. Capable of traversing almost any terrain the FAV-260 can carry a crew of up to 5 Marines and be fitted with weaponry that would allow it to wreak havoc behind enemy lines. With a top speed of 120 mph the FAV-260 can get a small squad of Marines in or out of a hot zone quickly. The FAV-260 is best utilized as a patrol and support vehicle and allows for patrols to cover a much greater area than by foot.   Role: Ground effect, Fast attack Light patrol Length: 4m Speed: max 240 kph (flataway) Engines: Magneteohydrodyne   Computer System: None Crew: 1 (4 passengers) Gravity: None Armor: Light carbonferro-alloy ceramic Armaments: SAW mount on roof Shielding: None Misc.: Built in COMM unit relay, GPS   Variants:

Scout (with enhanced relay and ECM packs.) Command (with enhanced computer uplinks replacing SAW mount)