Mk I Tovarek-class FTR Drone

Name:	Mk I Tovarek-class FTR Drone
Model:	UAV Warp Drone
Production Status:	Prototype Testing Stage
Role:	Patrol Reconnaissance Decoy Long-distance Probe
Constructed:	Black Opal & the USS Theurgy
Commissioned:	March 19th, 2381
Dimensions:	Length: 2 m Height: 0,8 m Width: 5,5 m
Standard Crew Complement:	None
Warp & Impulse Speeds:	Standard Speed: Warp 3.2 Maximum Speed: Warp 5.2 Maximum Cruise: 0.30 C Combat Speed: 170 Km/s
Tactical Specs:	(x2) Type IV Phaser Arrays (Wing-mounted)
Defensive Specs:	9.2 cm Type II Ablative Hull Armour Gamma 5/D Class 390 Isoton/s Shields Mk I Drone Deflector
Engine Specs:	Pod Quantite Warp Core ITD-300 Series Impulse Drive Concealed Trentis RCS Thruster Assembly
Other Systems	Nano Sub-processor Core (x2) Long/Short Range Subspace Antennae
Sensors	Advanced Tactical Sensor Suite High Resolution Sensor Range: 18,400,000 Km Low Resolution Sensor Range: 36,800,000 Km Standard Navigational Sensor Suite High Resolution Sensor Range: 5.2 Ly Low Resolution Sensor Range: 26.2 Ly
Design:	Auctor Lucan & Nolan
3D Model:	Kalashnikov 3D

These prototype Federation Tactical Reconnaissance (FTR) Drones were found on the Black Opal and their assembly was completed on the USS Theurgy. These unmanned, small crafts were remote-controlled by Thea when deployed from her Upper Shuttle Bay.

Aside from their tactical advantages as decoys and their advanced sensors, they were also fitted with wing-mounted Type IV Phaser strips. Before deployment, they could also be fitted with a torpedo tube underneath the main fuselage, thus making them able to deal a singular, heavy blow against unsuspecting targets. Another advantage was also how they could emit false sensor readings, making them ideal as decoys or making an enemy think they are up against a full-sized warp fighter.

Drone Demonstration

Production History

When these were found on the Black Opal in March of the year 2381, they were not fully assembled yet. Morwen Angharad, the base's Science Officer, had volunteered to a testing program. The conceptual plans were made by the Advanced Starship Design Bureau and the prototype parts had been shipped to the Black Opal for final assembly. Yet Angharad had only volunteered to the program out of the sheer boredom of her posting on the Black Opal, so she never finished the assembly. She did not have the required skills to do so, since she was more of a scientist than an engineer. Hence, the drones were abandoned for sake of more compelling activities. This was, of course, until the Theurgy arrived at the Black Opal.

Under the supervision of Simon Tovarek, ablative hull and advanced tactical sensors were added to the drones. The original plans had not included the tactical abilities that Tovarek gave it, so after Angharad didn't want to take credit for her intial work, it was decided that the drones would be named after Tovarek. Ten more drones were completed in time for the mission to Starbase 84, resulting in a complement of thirty Mk I Tovarek-class drones aboard the USS Theurgy by the time of the arrival to the base, and the mission to spread the truth about Starfleet Command.

External Hard-point Options

Aside from the phaser strips, which can provide forward, aft, dorsal and ventral firing, the drones can use one hard-point option during missions, as listed below.

Mk I Hellbore Torpedo

An experimental weapon that grew out of historic tandem-charge armour-penetrating designs. Attempting to achieve similar function from contemporary photon and quantum warheads was pointless; the detonation of the first would obliterate the second too early, and a submunition method was less effective than simply firing two torpedoes. Advances in material science led to a way to produce neutronium in small quantities - fashioned into a penetrator cap and coupled to a small subspace field generator, and driven by a single-burn impulse unit whose size belied its power, the nose of the missile could tear its way through alloys with even the strongest of structural integrity field enhancements, allowing the oversized antimatter warhead in the belly of the torpedo to detonate well inside the defensive screens of its target. Due to the projectile's large size and slower speed compared to the smaller conventional torpedoes, it was ineffective against shielded targets and had to be deployed against unprotected hulls to be useful.

Mk I Hellhound Cluster Bomb

Similar in nature to the photon torpedo, this was a photon torpedo filled with several micro torpedoes. Once the torpedo came in contact with an enemy or a surface, it detonated and fragmented into smaller torpedoes, which spread from the point of impact, also exploding on impact, resulting in a large pattern of torpedo detonations. Deployed correctly, this hard-point had the potential to cause severe damage when scattered upon enemy shields on impact. The torpedo snapped open by spring-force, and both the arming and the fuse was pilot-controlled by either manual or automatic settings. It could be armed prior to discharge or scattered by manual command.

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