Tsyklon statistics Mark I
From StarFleet Bureau of Information
BASIC STATISTICS Class Name : TSYKLON Classification : Surveyor Type : DD (Destroyer) Model Number : I PHYSICAL SPECIFICATIONS Length : 298 m Beam : 220 m Draft : 52 m Displacement : 710,802 mt COMPLEMENT Total : 195 Officers : 15 Crew : 135 Passengers : 10 (30 maximum) Marines : 35 PROPULSION SYSTEMS Warp Propulsion System Drive Type : ILN-268 Mk IX Number : 2 Main Reactor : FRAM-945 Impulse System Drive Type : CAN-Q Number : 2 Secondary Reactor: FRIF-460 Network Velocity (Sensor Mode) Standard Cruise Speed : 6.0 Maximum Cruise Speed : 9.2 Sustainable for 12 hours: 9.7 (Flight Mode) Standard Cruise Speed : 7.0 Maximum Cruise Speed : 9.4 Sustainable for 12 hours: 9.84 Maximum Emergency Speed : 9.95 Core Failure Immenent : 9.97 ARMAMENT Phaser, Type X Number : 4 banks Range : 300,000 km Arcs : Main module dorsal sectioned array Main module ventral array P/S Sensor pod ventral array Photon Torpedo, Mk XXII Seeking/Direct Number : 2 tubes Range : 3,000,000 km Arcs : 1 forward, 1 aft Deflector System : FD-7e Cocoon multiphasic deflector system Ablative Armor OTHER SYSTEMS AUGUR sensor suite Transporters Standard, 6-person : 4 Emergency, 22-person : 2 Cargo : 2 Shuttle Bays : 1 Embarked Craft (Standard, specific ships may vary) Shuttlepod : 3 Personnel Shuttle, Small: 3 D-Warp Shuttle : 1 Cargo Shuttle : 1 Runabout : 1 Notes: The tactical configuration of the TSYKLON was developed to allow adequate defence while providing maximum energy distribution to the engines and AUGUR sensor suite. This philosophy directly resulted in the addition of ablative armor to give a static boost to the FD-7e shielding, as well as linking the multiple dorsal phaser arrays to a common bank for power conservation. An outgrowth of the technology used in the DELPHI and ORACLE suites, the AUGUR sensor suite uses a system similar to the subspace field balancing coil of three nacelled ships like SOLAR, CAESAR, and FENRIS to focus a subspace scanning beam which allows faster-than-light (long range) sensor reading at far higher resolutions than any conventional sensor system with a fraction of the computer processing overhead of the DELPHI and ORACLE systems, both of which require dedicated computer cores. In addition, the AUGUR is designed to tie into the ship's communication systems to act as a high-power signal relay station or a jamming station. When the sensor system is operating in high power mode, the warp field is distorted to such an extent that it actually impacts the performance of the starship's propulsion system. This is in part due to the configuration of the TSYKLON class which allows the AUGUR system to directly interact with the warp nacelles. With the AUGUR system, the TSYKLON class vessels are quite capable for reconnaisance, exploration, and patrol missions. ** Due to an accelerated construction schedule, the first block of TSYKLON class ships were completed and launched prior to final regression testing of it's generation IV D-warp system. As such D-warp was not included in the first ships. However, all ships were constucted to spec's which allow for the system to be refit back into the block 0 ships, and it is expected to be standard for all later block vessels. ** Ship names are based on prominant launch vehicles used on Earth in the 20th century. NCC-53xxx: USS TSYKLON USS ENERGIA USS IKAR USS ARIANE USS KOSMOS USS DELTA USS MOLNIYA USS ATLAS USS SOYUZ USS PROTON USS ZENIT