Deck Listing
PRIMARY HULL AMENITIES Deck 1 BRIDGE Captain's Ready Room Main Conference Room Tactical Conference Room (TCR) Equipment/Weapon Storage Lockers Deck 2 Administrative Complex Executive Officer's Office VIP Quarters Lounge Chart Room Secondary Impulse Engines Deck 3 Officer's Quarters Tactical Planning Tactical Labs Observation Lounge Visitor Quarters Tertiary (Tactical) Computer Core, Level 1 Deuterium Storage Tanks Cryo-Chiller Subsystems Secondary Impulse Engines Deck 4 Operations Management Ops Manager's Office Officer's Quarters Crew Quarters Banquet/Conference Room Communications Control Secondary Sickbay General Medical Lab Tertiary (Tactical) Computer Core, Level2 Deuterium Storage Tanks Secondary Impulse Engines Escape Pods (4) Deck 5 Security Complex Training Holosuite Crew Quarters Hydroponics Mess Hall Impulse Engineering Main Engineering (upper) Secondary Cargo Bay Complex Deuterium Storage Tanks Tertiary (Tactical) Computer Core, Level3 Secondary Impulse Engines Antimatter Storage Emergency Transporter Escape Pods (10) Service Room 3 Deck 6 Main Engineering (lower), Reactor Control Room Chief Engineer's Office Engineering Subsystems/Maintenance Shops Environmental Control Training Holosuite Crew Quarters Antimatter Storage QCRD Emergency Transporter Deuterium Storage Tanks HSS Generator 7 Module Separation Systems Brig Secondary Deflector Control Secondary Replication Center Engineering Subsystems/Maintenance Shops Auxiliary Engineering Equipment Storage Deuterium Storage Escape Pods (14) SECONDARY HULL AMENITIES Deck 8 Module Separation Systems - Docking Latches Eight-Forward, "Starlight Lounge" Shuttlebay One and Two highbays Shuttle Control Cetacean Navigation Ops Cetacean Ops Main Cargo Bay Complex Officer's Quarters Crew Quarters Deck 9 Shuttlebay One and Two, Lowbays Shuttle Maintenance Transporter Rooms 1 and 2 & 3 and 4 Main and Secondary Computer Cores, Level 1 Computer Control Senior Officer's Quarters Officer's Quarters Crew Quarters Mess Hall/Galley Gymnasium One Holodecks One, Two and Three Firing Range Lounge Docking Port One (Port) Docking Port One (Starboard) Escape Pods (10) Deck 10 Captain's Quarters Auxiliary Control Main Sickbay Complex Dedicated Surgical Suite Trauma Stasis Unit Physical Therapy Morgue Main and Secondary Computer Cores, Level 2 Holosuites 1 through 5 Officer's Quarters Crew Quarters Astrometrics (high bay) Main Impulse Engines Recreation Deck/Library Observation Lounge Cargo Bay Complex, upper Emergency Transporter Escape Pods (14) Deck 11 Science Complex Astrometrics (low bay) Sensor Monitoring Lateral Arrays Access Aeroponics Arboretum Main and Secondary Computer Cores, Level 3 Holosuites 6 through 10 Officer's Quarters Crew Quarters Main Cargo Bay Complex Main Impulse Engines Engineering Support Deck 12 Main and Secondary Computer Cores, Level 4 Cetacean Communications Ops Cetacean Ops Communications Ops Torpedo Bay 2, fore Torpedo Storage Torpedo Bay 3, aft Torpedo Storage Cargo Bay, lower Deck 13 Main and Secondary Computer Cores, Level 5 Secondary Engineering Emergency Transporter Main Replication Center Fusion Reactors (2) Deck 14 Main and Secondary Computer Cores, Level 6 Computer Support Engineering Support Communications Monitoring Contingency Crew Quarters Deck 15 Main Deflector Long Range Sensor Array Hydroponics Main and Secondary Computer Cores, Level 7 Deflector Support Sensor Support Engineering Support Escape Pods (10) Deck16 Main Deflector Long Range Sensor Array Deflector Control Sensor Control Sensor Monitoring Deflector Labs Deck 17 Main Deflector Long Range Sensor Array Sensor Labs Emergency Transporter Deck 18 Main Deflector Long Range Sensor Array Sensor Support Deck 19 Sensor Subsystems Engineering Support Tractor Beam Emitter

BASIC SPECIFICATIONSClass: Insignia Sister ships: USS Insignia, USS Hunter,USS Pioneer, Construction Site: Utopia Planitia Yards, Orbiting Mars Commissioning Date: Expected Duration: 80 Years Time Between Resupply: 15 Years Time Between refits: 5 years Category: Frigate, Heavy PHYSICAL SPECIFICATIONS Beam : 680 meters Draft : 350 meters Width: 260 meters Number of decks : 20 (Not including various service decks) OPERATIONAL CHARACTERISTICS Crew Complement (Full): 430 Transporters: 4 Personnel, 4 Cargo, 4 Emergency Tractor Beams*: 1 AD, 1 FD, 1 FV Shuttlebay One location: Aft * The Guardian uses multiphase tractor beams. These are the most powerful and efficient systems yet developed by the Federation. PROPULSION --PROPULSION/POWER --Warp Engines: Dual Core M/ARA III The Guardian uses two articulation frames, two crystals and quad injectors to increase peak effciency to 200%. This means the Guardian can produce enough power to run two and a half ships of comparable size. When this tremendous power is channeled to weapons, defense, and maneuverability, it makes the Guardian an unparalleled combatant. It is one of the largest mobile powerplants in the Starfleet inventory. To fully utilize this power, the Guardians' EPS system has been substantially uprated. The Power Transfer Conduits are the la-*test*-('") design and incorporate phase conditioners as standard equipment. Higher capacity transformers have been installed. And the ship is equipped with Isomagnetic EPS Conduits. The Guardian's massive impulse engines are supplemented by in-line units housed in the nacelles. As stand-alone units, these units make the Guardian as fast as any ship afloat under impulse. Using these units, a combined Federation/Cardassian/Klingon design as "afterburners" gives the Guardian unparalleled maneuverability at speeds below c. -Matter/Antimatter Reaction propulsion, 9th interphase sequencing -Variable Warp Field Geometry -QSD -Standard Cruising Speed: Warp 8.7 -Sustainable StandardWarp Cruise Speed: Warp 9.955 -Emergency Standard Speed: Warp 9.98 for up to 26 hours -Standard Impulse Speed: .25c -Maximum Impulse Standard Speed: .75c -Emergency Speed: .993c ENVIRONMENT Standard crew compliment of 430 officers and crew, Able to sustain up to 4500 personnel (Evacuation only). -Class H-N environments sustainable: -Class H environment: Sustainable for 150 persons maximum -Class K environment: Sustainable for 250 persons maximum -Class L environment: Sustainable for 50 persons maximum -Class M environment: Sustainable indefinitely -Class N environment: Sustainable for 40 persons maximum, only in Shuttlebays COMPUTER -Interface 123456 -New LCARS interface program matrix (version Gamma-I) -Integrates the bioneural capacity of the computer core and the biolinear geldisks -One main core (Decks 8-17, portside) -One secondary redundant core (Decks 8-17, staboard) -One tertiary (Tactical) core (Decks 3 through 5, aft) -Software/Hardware design -Biolinear circutry -Bio-neural gelpacks (phase gamma-I) -Biolinear geldisks -Maximum storage capacity: CLASSIFIED SENSORS LONG RANGE: Emitter location: High resolution mode range: 10 light years Low resolution mode range: 21 light years Primary instruments: -Wide-angle active EM scanner -Narrow-angle active EM scanner -Pinpoint active EM scanner 2.0 meter diameter gamma ray telescope -Variable frequency -EM flux sensor -Lifeform analysis instrument cluster -Parametric subspace field stress sensor -Gravimetric distortion scanner -Passive neutrino imaging scanner -Thermal imaging array -Proximity sensor array type 10-D NAVIGATIONAL: Number of assemblies: 3 (1 primary, 2 secondary) Pallet locations: Primary: Upper DEM, Deck U5 Secondary: Saucer aft, dorsal and ventral Standard suite: -Quasar telescope -Wide-angle IR Source -Tracker Narrow-angle IR-UV-gamma Ray -Imager Passive subspace multibeacon receiver -Stellar graviton detectors -High-Energy charged particle detectors -Galactic plasma wave cartographic processor -Federation timebase beacon receiver Impulse -Time-distortion corrector -Stellar pair coordinate imager LATERAL ARRAYS: Number: 224 palletsplaced around the primary hull. These include the revolutionary Tetryon scanners. Pallet Type#1 - Wide-angle EM radiation imaging scanner Quark population analysis counter Z-range particulate spectrometry sensor Pallet Type#2 - High-energy proton cluster Gravimetric distortion mapping scanner Pallet Type#3 - Steerable lifeform analysis instrument cluster Pallet Type#4 - Active magnetic interferometry scanner Low-frequency EM flux sensor Localized subspace field stress sensor Parametric subspace field stress sensor Hydrogen-filter subspace flux scanner Linear calibration subspace flux sensor Pallet Type#5 - Variable band optical imaging cluster Virtual aperture graviton flux spectrometer High-resolution graviton flux spectrometer Very low energy graviton spin polarimeter Pallet#6 - Passive imaging gamma interferometry sensor Low-level thermal imaging scanner Fixed angle gamma frequency counter Virtual particle mapping camera Pallet #7- Long range wide angle muti-spectral tetryon imagining scanner TACTICAL ABLATIVE ARMOR Output: The ablative armor matrix on the Guardian is capable of protecting the ship from heavy attack for periods of up to 5 minutes with the shields down. The Guardian's nacelles are also armored. MULTISPACIAL/MULTI-ADAPTIVE SHIELDS w/ Regenerative Technologies enhancements Number of field generators: 12 (2 in each warp nacelle) Maximum continuous output: Classified Peak momentary load: Classified MW per generator: Classified Auxiliary shield systems: 86% of primary -Overview: Up to 9 can be used at one time (the remaining 3 are backups) for a total shield output of Classifed MW. The shields have the multiphasic modification which allows them to enter the corona of a star. As they takes its power directly from the warp engines and the phasers, but the total output of the shields are approximately 95% of the total EM spectrum (whereas a Galaxy or Nebula Class starship's shields can only protect against about 23%), made possible by the multiphase technology incorporated into the shields. As with the Sovereign Class, the Guardian cam siphon off energy targeted against the shields and use it to enhance the shields. HOLOGRAPHIC SHIELD SYSTEM - HSS MK III (Experimental) -Field Generator located in Main Engineering -CLASSIFIED (Omega Lvl 3) The regenerative shield enhancements allow the shields themselves to regenerate 66% faster than conventional shield systems. As a result, the EPS conduits have been upgraded to account for the increased power flow. The Holographic Shield System (HSS) is an experimental system, on loan from Starfleet R & D. Essentially, this holographic system allows the ship to, not only, create a secondary shield defense perimeter, but to duplicate any known shield harmonic. In fact, it can duplicate the shield signature of any known spacefaring race, fooling virtually all long-range sensor scans. In addition, the holographic matrix can disguise the ships' appearance. Coupled with the basic systems operation, this allows the Guardian to fool most ships into believing it is something that it is not. PHASERS Primary phaser arrays: 8 type XIIc Type: XIIc, this la-*test*-('") phaser fires rapid pulses of phaser energy, as well as a steady beam. The phaser emitter automatically rotates phaser frequency and attempts to lock onto the frequency and nutation of a threat vehicle's shields for maximum shield penetration. Emitter Total: 14 Output : The Guardian's phasers are some of the most powerful in Starfleet, they follow the same design as the Defiant Class Starship. They are 500 MW (total output 2000 MW). The powerful phasers on the Guardian's phasers are achieved by channeling power directly from the warp core. Pulse Phaser Cannons. This is the la-*test*-('") in pulse phaser technology. Emitter Total: 2 TORPEDOES Torpedo Launchers: 4 Arrangement: *Photorps and Q-Torps supplemented with "Bloodhound" protocols developed by Cathedral Unit. -Type: New mark IV Quantum Torpedo, capable of pattern firing (sierra, etc.) as well as independent firing. Independent targeting once discharged, detonation variable. Payload: 200 Payload: 200 (150 launch-ready) Yield: 4.5 neotons each TRI-COBALT TORPEDOES Type: MKIII These torpedoes are incredibly destructive, the most powerful weapon Starfleet has pushed into mass production. Upon impact, the microfusion initiators inside the casing fuse the four packets of cobalt hexafluoride with pure antihydrogen and trilithium and mix with all remaining plasma from the torpedo's engines, causing rapid total annihilation of the torpedo and a massive explosion. One torpedo detonation produces 10-to-the-eighth-power megajoules, roughly equivalent to 250 photon torpedoes. In addition, ships on diplomatic or internal missions have the warheads removed for safety reasons. Yield: 8.1 neotons each Payload: 4 (1 Launch-ready) SERPENT -Type: Mark II SElf-Replicating PhotoN Torpedo (SERPENT) Independent targeting once discharged, detonation variable. -Payload: 100 -Output: 2.5 neotons each (Before replication.) Photorps, Q-Torps, and SERPENTs supplemented with "Bloodhound" protocols developed by Cathedral Unit. The "Bloodhound" protocols allow the Guardian's torpedoes to "sniff-out" enemy torpedoes. With this modification, its torpedoes can intercept enemy torpedoes before the can impact upon the Guardian's shields. TRANS-PHASIC TORPEDOES Capable of pattern firing (sierra, etc.) as well as independent firing. Independent targeting once discharged, detonation variable. Uses transporter technology to "phase" past a threat vessel's shields. -Payload: 50 -Output: 3.5 neotons each OTHER -Type: Mark VII Cloaking Device -Arrangement: located on deck 5 Standard complement of Class I through Class IX probes, Class X probes Maximum range: 75 lightyears Endurance: Warp 9.5 for 20 minutes *Can only be used in the Delta and Gamma Quadrants. Auxiliary Craft -NIGHTWING -Type 16 shuttlepods: 4 -Type 9 shuttlecraft: 4 -Type 11 shuttlecraft: 4 -Sphinx Work pods: 2 -Danube-class Runabouts: 1, USS Escevedo II -Federation Aeroshuttle