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=== Phaser Array === | === Phaser Array === | ||
A phaser array is an arrangement of phaser emitters located in strategic areas of a starship, space station, or other vessel. | A phaser array is an arrangement of phaser emitters located in strategic areas of a starship, space station, or other vessel. During the firing sequence of some ship-mounted arrays, phaser energies would travel along the emitter strip and converge at the best position for targeting. | ||
The Avandar has 11 Type X Phaser Arrays. The output of these is 66,000 Gigajoules. | |||
The Avandar has 11 Type X Phaser Arrays. | |||
The | |||
Saucer: 3 Dorsal Surround Strips, 3 Ventral Surround Strips | |||
Engineering: Aft Port Dorsal, Aft Starboard Dorsal, Ventral, 2 Aft Pylons | |||
=== Torpedo Systems === | === Torpedo Systems === |
Revision as of 18:24, 14 November 2013
USS Avandar | ||
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INACTIVE STATUS | ||
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Luna Tactical Layout
Phaser Array
A phaser array is an arrangement of phaser emitters located in strategic areas of a starship, space station, or other vessel. During the firing sequence of some ship-mounted arrays, phaser energies would travel along the emitter strip and converge at the best position for targeting.
The Avandar has 11 Type X Phaser Arrays. The output of these is 66,000 Gigajoules.
Saucer: 3 Dorsal Surround Strips, 3 Ventral Surround Strips Engineering: Aft Port Dorsal, Aft Starboard Dorsal, Ventral, 2 Aft Pylons
Torpedo Systems
Torpedo launcher or torpedo bank was a common term for systems that deployed projectiles such as torpedoes.
The Luna Class carrys 150 Mk. VII Photon and 50 Mk. I Quantam torpedoes and is equiped with 3 Type II Burst Fire Quantam Launchers 2 Forward and 1 Aft, The 2 forward are located on Deck 8 near the deflector dish and the aft launcher is located in the rear of the sensor pod.
Shield Array
Shields operated by creating a layer, or layers, of energetic distortion containing a high concentration of gravitons around the object to be protected. On starships, the shield contained six sections, forward, starboard, port, aft, dorsal, and ventral. Shield energies could be emitted from the ship's navigational deflector. Neither matter nor highly-concentrated energy could normally penetrate a shield. When shields are up at a high level, most matter or energy that comes into contact with the shields will be harmlessly deflected away. This was important in starship combat, as shields were essential for hull protection. When the shields were up, only minor hull damage would be expected during combat. Continuous or extremely powerful energy discharges could progressively dissipate the integrity of a shield to the point of failure. Shield capacities varied according to many variables, from the power available to environmental concerns, making definitive and universal calculations of how much damage they could take difficult to estimate. Therefore, during combat tactical officers would continually report on shield strength, usually as a percentage of total effectiveness, with 100% meaning that the shields were at full capacity, and lower percentage scores indicating weaker shield conditions. Specific sections of the shield grid could take more damage than other sections, and be reinforced with additional power reserves, so tactical officers would report on the health of the shields by section if need be. Shields were said to be "holding" if damage is not sufficient enough to allow a compromise; if the shields were "buckling" or "failing," then a total loss of shield protection was imminent.
The Shields on the Avandar are Eta 8/E Class with a Recharge Rate of 30TJ per second with a 30% Damage Absorbed. The total shild strengh is 175.5 TeraJoules