Lion Class Battle Frame
The Lion Class Battle Frame is a large Assault Mecha with emphasis placed on Armor. Recreated by [[character:augury_moonbeam_lynn_69-2114-3289]] and [[corp:blackwell_defense_industries]] in 3018 with the [[systems:kotoku]] data core, this chassis is the first produced with an eye to claim market share in the Mecha market.
About the Lion
The Lion's mission profile is designed to act as an assault mecha. With a ground speed of 55 Kph, heavy armor, and heavy weapons load-out, this Mecha can keep fighting long after it's competitors have retreated. With a modular weapons array, like all Battle Frames, the Lion can bring optimal weapons for the mission. The Lion carries a comparable amount of weapons as the [[corp:blackwell_defense_industries:tiger_class_battleframe|Tiger]], enabling this chassis to pack a powerful alpha strike.
Key Features
Slowish speed, heavy armor and extensive weapon systems are the hallmarks of the Lion. While capable of use in any environment, including underwater, this mecha is best used planet-side. Outfitted with heavier plate armor and large weapon load-outs, this mecha wins by outlasting the enemy. With the modular nature of this mecha's weapon arrays, you will find dozens of variants within the same unit, each unique to both the pilot and the mission.
History
With the recovery of the Kotoku Data Core, Jimmy Sorano saw an opportunity to revolutionize the face of modern warfare. Larger, more powerful, and most importantly, more durable Mecha would allow for many groups to engage in battle. The nearly indestructibility of the open style frames allows for a savvy tech or pilot to take a nearly gutted chassis and repair or refit the mecha to nearly new. Initially, the [[organizations:great_houses_of_reservoir#great_house_of_virtu|Reservoir Throne]] ordered one dozen, mostly as show pieces. The Baba Yaga Space Group, seeing a worthwhile investment, purchased as many as their new Dropships could hold. These would help expand their reach to the harder to reach, but more profitable, ground targets. Thus, a new market was born. The Lion is one of three new Mecha.
Appearance
Like most of the [[corp:blackwell_defense_industries]] Battle Frames, the Lion towers above other Mecha with a height of 14 meters. Boxy, angled plate armor covers the Mecha. A variety of weapon ports, such as direct energy weapons, large cannons, and missile launch tubes can be found dotting the Tiger. Plantigrade armored legs support the large, boxy torso as well as two boxy arms attached to the shoulders.
{{corp:blackwell_defense_industries:lionframe.jpg?650}}
{{corp:blackwell_defense_industries:lionframe.jpg?650}}
Statistical Information
Organization: Blackwell Defense Industries
Type: General Combat Use Powered Mechanized Frame
Class: BDI-M850 Lion
Designer: Augury Moonbeam Lynn 69-2114-3289
Manufacturer: Blackwell Defense Industries
Production: 120 initial run, with more buyers interested
Price: 6,500,000 W-Credits
Crew: 1
Maximum Capacity: 2
Passenger Capacity: None
Width: 8.5 Meters
Height: 14 Meters
Mass: 100 Tons
Type: General Combat Use Powered Mechanized Frame
Class: BDI-M850 Lion
Designer: Augury Moonbeam Lynn 69-2114-3289
Manufacturer: Blackwell Defense Industries
Production: 120 initial run, with more buyers interested
Price: 6,500,000 W-Credits
Crew: 1
Maximum Capacity: 2
Passenger Capacity: None
Width: 8.5 Meters
Height: 14 Meters
Mass: 100 Tons
Speeds
Ground speed: 55 Kph
Jumping speed: None
Range: Intercontinental
Jumping speed: None
Range: Intercontinental
Damage Capacity
* Body: Heavy Armored Large Mecha
Interior
The standard [[corp:blackwell_defense_industries:cockpit|cockpit]] is situated between the shoulders of the mecha, accessible from the back of the mecha via gantry or cherry-picker lift. Pilots can also climb aboard when the mecha is kneeling.
Weapons Systems
With the modular nature of the Battle Frame system, The Lion can carry a wide variety of payloads. Instead of fixed weapon systems, the Lion has a variety of modular hard-points fitted with weapons per the pilot or mission requirements.
The hard-point locations and space available:
* Left Shoulder: 1
* Right Shoulder: 1
* Left Torso: 3
* Right Torso: 3
* Center Torso: 1
* Left Arm: 3
* Right Arm: 3
* Left Leg: 1
* Right Leg: 1
The hard-point locations and space available:
* Left Shoulder: 1
* Right Shoulder: 1
* Left Torso: 3
* Right Torso: 3
* Center Torso: 1
* Left Arm: 3
* Right Arm: 3
* Left Leg: 1
* Right Leg: 1
Onboard Systems Descriptions
The onboard systems of the lion Battle Frame.
Hull and Hull Integrated Systems
Systems directly pertaining to the chassis and hull, as well as defensive systems.
Hull and Chassis
The Lion is well defended, with thick resilient Energized Tungsten outer armor and a sturdy internal Skeleton.
Frame Internal Skeleton
Roughly analogous to the bones in the human body, the The frame's internal skeleton chassis consists of a foamed aluminum core covered with various composite materials, wrapped in silicon-carbide fibers, and clad in titanium-alloyed steel. However, there are only between sixteen to twenty-five "bones" in a Frame chassis, partly due to the more simple nature of the design (i.e. a solid one-piece "rib cage" instead of multiple rib bones), which results in less flexibility and articulation than possible with the human skeletal system.
Frame Musculature
Nano-muscle fiber clusters are an artificial analog of biological muscles with a greater strength to weight ratio. They are engaged with electrical current and its strength depends on the amount of fibers activated, not the current provided.
Nano-muscle requires large amounts of electrical voltage to function, with the larger "muscles" obviously requiring more energy than smaller. However, they have high electrical resistance, causing large amounts of waste heat which needs to be dispersed or the fibers will fry themselves. This does however grant an advantage as Nano-muscle cannot be stunned by electrical discharges, even more so as metal armor and skeletons have a low electrical resistance, channeling and discharging any strong electrical hits into the ground.
In a way, Nano-muscle is the reason Battle Frames are the supreme war machines they are; the Nano-muscle is an extremely efficient and load-bearing form of locomotion, but cannot be used in a wheeled, tracked, or airborne platform due to the nature of its operation. As such, even though Battle Frames present much greater surface area that must be armored, and much more structure to be carried, Nano-muscle still allows them to bear more weapons and armor per-ton than any other form of armored fighting vehicle.
The Frame moves it's limbs with numerous nano-muscle fiber clusters, each one enhanced by hydraulics and electric motors. This system gives the Puma the ability to move its limbs.
Nano-muscle requires large amounts of electrical voltage to function, with the larger "muscles" obviously requiring more energy than smaller. However, they have high electrical resistance, causing large amounts of waste heat which needs to be dispersed or the fibers will fry themselves. This does however grant an advantage as Nano-muscle cannot be stunned by electrical discharges, even more so as metal armor and skeletons have a low electrical resistance, channeling and discharging any strong electrical hits into the ground.
In a way, Nano-muscle is the reason Battle Frames are the supreme war machines they are; the Nano-muscle is an extremely efficient and load-bearing form of locomotion, but cannot be used in a wheeled, tracked, or airborne platform due to the nature of its operation. As such, even though Battle Frames present much greater surface area that must be armored, and much more structure to be carried, Nano-muscle still allows them to bear more weapons and armor per-ton than any other form of armored fighting vehicle.
The Frame moves it's limbs with numerous nano-muscle fiber clusters, each one enhanced by hydraulics and electric motors. This system gives the Puma the ability to move its limbs.
Energized Tungsten Armor
Energized armor is composed to two separate plates, separated by an insulating material. One of the armor plates holds an enormous electrical charge, while the other acts as a ground. When a penetrator pierces the insulating material, a connection is formed between the charged plate and the grounded plate. This releases the enormous electrical charge through the penetrator, causing it to vaporize instantly. Converted to a heated gas the penetrator becomes effectively harmless.
Lower capacitor charges can vaporize pre-heated matter, such as explosive shaped charges and plasma weapons. At higher charges, the discharge can also vaporize solids such as projectiles. Unfortunately, energized armor offers little in defense against energy and mass-less weapons.
In an attempt to compensate for this weakness, Blackwell has began manufacturing energized armor with tungsten composites, rather than the usual carbon nano tube style. Tungsten has a higher melting point than any other non-alloy in existence, as well as robust durability on par with that of depleted uranium. By using tungsten composites, energized armor has a much higher resistance to energy weapons than it would otherwise, as well as a healthier defense against projectiles.
The end result is known as Energized Tungsten Armor. The relatively low cost of tungsten combined with the simplistic design of energized armor results in a cheap and easy to produce defense superior to other lo-tech armors.
Lower capacitor charges can vaporize pre-heated matter, such as explosive shaped charges and plasma weapons. At higher charges, the discharge can also vaporize solids such as projectiles. Unfortunately, energized armor offers little in defense against energy and mass-less weapons.
In an attempt to compensate for this weakness, Blackwell has began manufacturing energized armor with tungsten composites, rather than the usual carbon nano tube style. Tungsten has a higher melting point than any other non-alloy in existence, as well as robust durability on par with that of depleted uranium. By using tungsten composites, energized armor has a much higher resistance to energy weapons than it would otherwise, as well as a healthier defense against projectiles.
The end result is known as Energized Tungsten Armor. The relatively low cost of tungsten combined with the simplistic design of energized armor results in a cheap and easy to produce defense superior to other lo-tech armors.
Life Support
The Lion has a standard life support system, with a pressurized cockpit, oxygen scrubbers, and a temperature-humidity regulation system. The lion also has an inertia control system to keep the g-forces on it's pilot to a minimum.
Power
The power supply for the Lion Battle Frame.
Primary Power
Owing to its large size, the Lion uses a powerful Nuclear fusion reactor, located in its chest, to generate the majority of its power, as well as to generate plasma for propulsion. The Lion's reactor requires Deuterium-Tritium liquid fuel in order to operate. The Lion carries enough fuel for six months of operation.
Secondary Power Sources
As a backup, the lion has three Stirling radioisotope generators (SRG), which in normal use supply backup power to the frame's electronics. During an emergency, the SRGs can be used to power the entirety of the frame for a short time, though there is not enough power for lengthy combat operations.
Plasma Conduit/Cooling System
In order to transfer the plasma and power from the nuclear reactor to weapons and auxiliary thrusters, the Lion has a series of Plasma Conduits which transfer plasma and coolant from the nuclear fusion to the Frame's systems. The parallel coolant conduits help regulate the temperature of the overall chassis as well as the fusion reactor during peak performance, such as in battle.
Electronics and Control Systems
The Lion uses an On-board AI systems suite to assist the pilot, easing his workload and making him/her much more effective in combat.
Computing
The heart of the On-board AI suite is an extremely advanced quantum computer, capable of performing nearly endless amounts of data-churning and possessing untold memory. Quantum computers, unlike old computers which could only process 1 and 0, can process an effectively infinite range of digits. The Lion's computer is located in an armored box, just below the cockpit seat.
Sensors
The On-board AI suite has sensors which, in passive mode, can detect things up to 100 miles away, and in active mode can detect and provide information (Heading, velocity, size, ship type, energy signatures)on objects up to 55 miles away. All of the Puma's sensors are located inside the frame's main cockpit housing with secondary optics on both sides of the head, in the chest, and back shoulders. The Puma has a variety of sensors including:
* Electromagnetic sensors
* Neutrino sensors (nuclear reaction sensors)
* Visual sensors
* Mass Detectors
* Electromagnetic sensors
* Neutrino sensors (nuclear reaction sensors)
* Visual sensors
* Mass Detectors
Targeting control
The On-board AI Suite has a targeting control system that can give detailed information (Heading, velocity, size, vehicle type, and energy signatures) on ten targets, as well as position and orientation (IFF) on up to 25 more targets.
Communications
Laser
For close-range transmissions, it is more difficult for the enemy to intercept, because they have to be in the area of the beam. Also limited to light-speed.
Radio
Full spectrum, Dual-Modulation, range theoretically unlimited except by interference. Practical range is short, since the waves only travel at light-speed.
Control Systems
The Frame uses a Mind-Machine interface control system, linking the pilot up to the Frame directly. Interface is achieved when the pilot dons the specialized helmet. The mind-machine interface is a step above manual controls, and allows for pilots transferring to the new frame to have a shorter time to synchronize with it. The Interface also gives the frame faster movement and quicker reactions times.
Stability and Movement Management System
Another design feature of the Frame is the SMM System. The heart of the SMM System is a large gyroscope located in the lower center of the Frame's torso. The gyroscope serves to keep the Frame steady during aiming, movement, and maneuvering.
OOC Notes
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