Tesla statistics mark I: Difference between revisions

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<pre>
321019
321019
Updated 341020
Updated 341022 (David S. de Lis)
Small Corrections 350505 (David S. de Lis)
More corrections 351012-351013 (David S. de Lis)
Corrected crew numbers according to automation (360601) (David S. de Lis)


BASIC STATISTICS
BASIC STATISTICS
Line 9: Line 14:


PHYSICAL SPECIFICATIONS
PHYSICAL SPECIFICATIONS
Length          : 375 m
Length          : 386 m
Beam            : 197 m
Beam            : 138 m  
Draft            :  73 m
Draft            :  65 m
Displacement    : 1,745,000 mt
Displacement    : 834,418 mt


COMPLEMENT
COMPLEMENT
Total            : 395
Total            : 158
Officers        :  35
Officers        :  10
Crew            : 325
Crew            : 93
Passengers      :  20 (standard)
Passengers      :  20 (standard)
Marines          :  35
Marines          :  35
Line 23: Line 28:
PROPULSION SYSTEMS
PROPULSION SYSTEMS
Warp Propulsion System
Warp Propulsion System
Drive Type      : ILN-505 Mk IX
Drive Type      : ILN-610d Mk I
     Number      : 2 (variable)
     Number      : 2 (variable)
Main Reactor    : FRAM-933
Main Reactor    : FRAM-933
Line 39: Line 44:


(Sensor Mode)
(Sensor Mode)
     Standard Cruise Speed  : 6.0
     Standard Cruise Speed  : 6.0
     Maximum Cruise Speed    : 9.0
     Maximum Cruise Speed    : 9.0
     Sustainable for 12 hours: 9.6
     Sustainable for 12 hours: 9.6
(Flight Mode)
(Flight Mode)
     Standard Cruise Speed  : 8.0
     Standard Cruise Speed  : 8.0
     Maximum Cruise Speed    : 9.6
     Maximum Cruise Speed    : 9.6
     Sustainable for 12 hours: 9.85
     Sustainable for 12 hours: 9.85
     Maximum Emergency Speed : 9.95
     Maximum Emergency Speed : 9.95
     Core Failure Imminent   : 9.97
     Core Failure Immenent   : 9.97


ARMAMENT
ARMAMENT
     Phaser, Type XI
     Phaser, Type XI
         Number : 4 banks
         Number : 6 banks
           Range  : 345,000 km
           Range  : 345,000 km
           Arcs  : Saucer module dorsal array (port/starboard)
           Arcs  : Saucer module dorsal array (p/s)
                   Saucer module ventral array (port/starboard)
                   Saucer module ventral array (p/s)
                   Secondary hull aft array
                   Secondary hull aft array
                   Secondary hull ventral array
                   Secondary hull ventral array
Line 92: Line 95:


The TESLA class destroyer is the direct successor of the venerable
The TESLA class destroyer is the direct successor of the venerable
FEYNMAN, based on the successful modifications to the USS TESLA II,
FEYNMAN, based on the succesful modifications to the USS TESLA II,
from where it inherits the name.
from where it inherits the name.


As the TESLA II, the TESLA-class ships are not dark and have a very
As the TESLA II, the TESLA-class ships are white and have a very
streamlined hull, with variable geometry Warp nacelles. It has been
streamlined hull, with variable geometry Warp nacelles. It has been
upgraded to the newest gravitic plane propulsion systems, which allow
upgraded to the newest gravitic plane propulsion systems, which allow
for much improved speeds and maneuverability at sublight speeds.
for much improved speeds and maneuverability at sublight speeds.
This has allowed to reduce the displacement of the primary hull,
allowing for a much lighter and maneuverable ship. Improved nacelles
from the older models allow for easier and robust Warp travel while
allowing to have fixed pylons, which makes the ship sturdier and safer.


The sensors on the TESLA class are improved versions of the old
The sensors on the TESLA class are improved versions of the old
Line 108: Line 107:
computer core has been installed to improve sensors synchronization
computer core has been installed to improve sensors synchronization
speeds, systems automation and redundancy, and augmented resolution.
speeds, systems automation and redundancy, and augmented resolution.
Improved reactors compensate for the increase in power consumption.
The increased size and displacement are justified by the better
The increased displacement is justified by the better sublight speeds
sublight speeds and sensor power.
and sensor power. It's still a very light ship and has one of the best
autonomy available in ship smaller than a CL.


Due to the improved automations, the crew has been reduced accordingly.
Due to the improved automations, the crew has been reduced accordingly.


Registry names are of the series NCC-662xx and, as its predecessor,
Feynman-class original description follows.
should be famous scientists in Federation history. NCC-66200 is reserved
as secondary classification to the inspirational ship, USS TESLA II,
NCC-66101, still in service.
 
 
** Feynman-class original description follows. **


 
After successfully testing and improving the DELPHI array deep space  
After successfully testing and improving the DELPHI array deep space
sensor system on the USS FENRIS, it was decided to implement it in a  
sensor system on the USS FENRIS, it was decided to implement it in a
smaller class of vessel with a strong emphasis on scientific use.  It  
smaller class of vessel with a strong emphasis on scientific use.  It
quickly became evident that a medium-sized ship of 300 to 450 crew  
quickly became evident that a medium-sized ship of 300 to 450 crew
would be the platform suited best, filling the gap between the WOLFE-
would be the platform suited best, filling the gap between the WOLFE-
class frigates and the DIOGENES-class cruisers both in size and crew.
class frigates and the DIOGENES-class cruisers both in size and crew.


To avoid the mass and energy consumption that comes along with a third
To avoid the mass and energy consumption that comes along with a third  
nacelle to shape the subspace field for scanning purposes, the FEYNMAN
nacelle to shape the subspace field for scanning purposes, the FEYNMAN  
class uses a variable warp nacelle geometry, based on a two nacelle
class uses a variable warp nacelle geometry, based on a two nacelle  
design.  It also uses the minimum reflectance surface for minimal
design.  It also uses the minimum reflectance surface for minimal  
background noise, making the ship appear black from most view angles,
background noise, making the ship appear black from most view angles,  
as well as the thruster control system used on it's bigger cousin.
as well as the thruster control system used on it's bigger cousin.


The ship's saucer section is somewhat elongated with a more streamlined
The ship's saucer section is somewhat elongated with a more streamlined  
arrowhead appearance to facilitate a more efficient warp bubble at
arrowhead appearance to facilitate a more efficient warp bubble at  
higher warp speeds, while the engineering section is resembling the
higher warp speeds, while the engineering section is resembling the  
shape of an elongated AMBASSADOR-class design with variable position
shape of an elongated AMBASSADOR-class design with variable position  
warp nacelles.  The hull allows an emergency separation but cannot
warp nacelles.  The hull allows an emergency separation but cannot  
reassemble in space.  There is no Captain's yacht to allow the bottom
reassemble in space.  There is no Captain's yacht to allow the bottom  
of the saucer section to be shaped for optimum deflector use.  The
of the saucer section to be shaped for optimum deflector use.  The  
auxiliary shuttlebay doors open forward.
auxiliary shuttlebay doors open forward.


Line 150: Line 140:
Details on the modification:
Details on the modification:


The variable nacelle geometry is not explicitly required for warp drive,
The variable nacelle geometry is not explicitly required for warp drive,  
but serves the purpose of stabilizing and refining the warp field for
but serves the purpose of stabilizing and refining the warp field for  
the main delphi array which is operating on subspace frequencies during
the main delphi array which is operating on subspace frequencies during  
warp.  When operating in a different configuration it can serve to
warp.  When operating in a different configuration it can serve to  
increase warp field efficiency (greatly reducing the sensor efficiency)
increase warp field efficiency (greatly reducing the sensor efficiency)  
at high speed to optimze energy consumption and effectively increasing
at high speed to optimze energy consumption and effectively increasing  
speed.
speed.


The low reflectance surface is reducing sensor ghosts of all kinds,
The low reflectance surface is reducing sensor ghosts of all kinds,  
making scans more accurate and providing additional passive protection
making scans more accurate and providing additional passive protection  
against being scanned.  To compensate for this in non-hostile encounters,
against being scanned.  To compensate for this in non-hostile encounters,  
the protocols have been modified to allow to provide beacons for own and
the protocols have been modified to allow to provide beacons for own and  
friendly vessels.
friendly vessels.


Line 167: Line 157:
Adittional modifications:
Adittional modifications:


The USS TESLA II has been retrofited an ORACLE-IIr sensor suite from the
The USS TESLA II has been retrofited an ORACLE-IIr sensor suite from the  
CHARON-class FF. This has called for modifications on the main and lateral
CHARON-class FF. This has called for modifications on the main and lateral  
arrays, and the addition of an extra computer core, to deal with the extra
arrays, and the addition of an extra computer core, to deal with the extra  
computating power needed. The existing, experimental SESR (System of
computating power needed. The existing, experimental SESR (System of  
Enhanced Sensors Resolution) type II installed before the upgrade has been
Enhanced Sensors Resolution) type II installed before the upgrade has been  
changed by a modified Type IIId module, designed on purpose to operate with
changed by a modified Type IIId module, designed on purpose to operate with  
the ORACLE-IId. The SESR has been attached to the new computer core to
the ORACLE-IId. The SESR has been attached to the new computer core to  
provide faster operations. All these modifications on the sensors have made
provide faster operations. All these modifications on the sensors have made  
unnecessary the black coating, high reflective surface of the Feynman-class
unnecessary the black coating, high reflective surface of the Feynman-class  
DDs, thus the TESLA has a white hull like any other Fleet vessel.
DDs, thus the TESLA has a white hull like any other Fleet vessel.


Additionally, the USS TESLA II has been retrofitted a Gen. IV D-Warp drive
Additionally, the USS TESLA II has been retrofitted a Gen. IV D-Warp drive  
system, a modification of that on the MONTU-class CL, with aid of the
system, a modification of that on the MONTU-class CL, with aid of the  
TSYKLON-class DD systems. Warp core has been replaced by a new FRAM-930
TSYKLON-class DD systems. Warp core has been replaced by a new FRAM-930  
unit, to allow for the extra energy consumption, allowing her to easily
unit, to allow for the extra energy consumption, allowing her to easily  
reach the Kappa band for sustained periods of time with less stress to the
reach the Kappa band for sustained periods of time with less stress to the  
systems. The nacelles have been upgraded to the ILN-500 series, which allows
systems. The nacelles have been upgraded to the ILN-500 series, which allows  
the ship smoother Warp drive response, specially considering the dynamic
the ship smoother Warp drive response, specially considering the dynamic  
nature of the Warp field geometry on FEYNMANs, without sacrificing top speeds.
nature of the Warp field geometry on FEYNMANs, without sacrificing top speeds.  
All these modifications have increased the ship displacement by 70,000 mt,
All these modifications have increased the ship displacement by 70,000 mt,  
which has reduced somewhat the maneuverability of the ship at impulse speeds,
which has reduced somewhat the maneuverability of the ship at impulse speeds,  
although the Warp speeds are maintaned and even enhanced.
although the Warp speeds are maintaned and even enhanced.


Line 193: Line 183:
History:
History:


The Feynman class is named in honor of the twentieth century Nobel prize
The Feynman class is named in honor of the twentieth century Nobel prize  
winning physicist/philosopher/teacher, Richard P. Feynman, whose simple
winning physicist/philosopher/teacher, Richard P. Feynman, whose simple  
but elegant demonstration of O Ring failure during the Challenger hearings
but elegant demonstration of O Ring failure during the Challenger hearings  
lead to improved standards of safety for early earth spacecraft.  He is
lead to improved standards of safety for early earth spacecraft.  He is  
also considered one of the fathers of Nanotechnology; an award named is
also considered one of the fathers of Nanotechnology; an award named is  
his honor has been given since the late twentieth century.
his honor has been given since the late twentieth century.


In October 2405 the project approval was received.  A rescaled version
In October 2405 the project approval was received.  A rescaled version  
of the DELPHI Array began construction. In May 2406 the keel was laid,
of the DELPHI Array began construction. In May 2406 the keel was laid,  
and the actual construction on the primary hull began.  In June 2406 the
and the actual construction on the primary hull began.  In June 2406 the  
nacelle construction began.  August 2406 saw the joinging of primary and
nacelle construction began.  August 2406 saw the joinging of primary and  
secondary hulls and the installation of the DELPHI array began.  In
secondary hulls and the installation of the DELPHI array began.  In  
September 2406 the installation of the remaining communication, navigation
September 2406 the installation of the remaining communication, navigation  
systems and computer core followed.
systems and computer core followed.


October 2406 the Warp Drive was tested, followed by finishing the
October 2406 the Warp Drive was tested, followed by finishing the  
installation of the rescaled DELPHI array in November, and its calibration
installation of the rescaled DELPHI array in November, and its calibration  
and test in December 2406.  In January 2407 the construction was completed
and test in December 2406.  In January 2407 the construction was completed
and the ship commissioned for system evaluation as NX-66000 USS Feynman.
and the ship commissioned for system evaluation as NX-66000 USS Feynman.


The USS TESLA, NCC-66001 was commissioned in July 2407 and lost in August
The USS TESLA, NCC-66001 was commissioned in July 2407 and lost in August  
2408 to warp soliton waves while trying to save a planet. In recognition,
2408 to warp soliton waves while trying to save a planet. In recognition,  
Starfleet ordered the commission of the USS TESLA II, NCC-66101 in September
Starfleet ordered the commission of the USS TESLA II, NCC-66101 in September  
2412, the ship was commissioned and attached as escort and extension ship to
2412, the ship was commissioned and attached as escort and extension ship to  
DS13, in GOLD Fleet, in April 2413.
DS13, in GOLD Fleet, in April 2413.


Line 230: Line 220:


Ship Design by Armin Lenz and Kelli Belden
Ship Design by Armin Lenz and Kelli Belden
Starfleet Engineering Revision by Armin Lenz, Kelli Belden,
Starfleet Engineering Revision by Armin Lenz, Kelli Belden,  
Jeffrey Jenkins, Jeffrey Finocchiaro, Kristopher Kolman
Jeffrey Jenkins, Jeffrey Finocchiaro, Kristopher Kolman


Revised by David S de Lis
Revised by David S de Lis


[Note: Names of the ships should follow names of Famous Scientists as shown
[Note: Names of the ships should follow names of Famous Scientists as shown  
by the above examples.]
by the above examples.]
</pre>

Latest revision as of 07:09, 2 June 2024

321019
Updated 341022 (David S. de Lis)
Small Corrections 350505 (David S. de Lis)
More corrections 351012-351013 (David S. de Lis)
Corrected crew numbers according to automation (360601) (David S. de Lis)

BASIC STATISTICS
Class Name       : TESLA
Classification   : Surveyor
Type             : DD (Destroyer)
Model Number     : I (USS MAXWELL, NCC-66201)

PHYSICAL SPECIFICATIONS
Length           : 386 m
Beam             : 138 m 
Draft            :  65 m
Displacement     : 834,418 mt

COMPLEMENT
Total            : 158
Officers         :  10
Crew             :  93
Passengers       :  20 (standard)
Marines          :  35

PROPULSION SYSTEMS
Warp Propulsion System
Drive Type       : ILN-610d Mk I
     Number      : 2 (variable)
Main Reactor     : FRAM-933

Impulse System
Drive Type       : GDP-1 (Gravitic Dynamic Planing Drive, Model 1)
     Number      : 2
Secondary Reactor: FRIF-465 Network

Thruster Control : Quickstep

D-Warp Drive     : Dim-IV-F2ai

VELOCITY

(Sensor Mode)
     Standard Cruise Speed   : 6.0
     Maximum Cruise Speed    : 9.0
     Sustainable for 12 hours: 9.6
(Flight Mode)
     Standard Cruise Speed   : 8.0
     Maximum Cruise Speed    : 9.6
     Sustainable for 12 hours: 9.85
     Maximum Emergency Speed : 9.95
     Core Failure Immenent   : 9.97

ARMAMENT
     Phaser, Type XI
         Number : 6 banks
          Range  : 345,000 km
          Arcs   : Saucer module dorsal array (p/s)
                   Saucer module ventral array (p/s)
                   Secondary hull aft array
                   Secondary hull ventral array

     Photon Torpedo, MkXXIII Seeking/Direct
          Number : 2 tubes
          Range  : 3,000,000 km
          Arcs   : 1 forward, 1 aft

Deflector System :  FD-7c Cocoon multiphasic deflector system

OTHER SYSTEMS
Transporters
     Standard, 6-person  : 4
     Emergency, 22-person: 2
     Cargo               : 3

Shuttle Bays     : 2 (1 main, 1 auxilliary)

Embarked Craft
     Shuttlepod              : 4
     Personnel Shuttle, Small: 4
     D-Warp Shuttle          : 4
     Cargo Shuttle           : 1
     Runabout                : 0

Enhancements:
     ORACLE-IId.3            : 1
     SESR Module (type IIId) : 2
     Computers               : 2 additional cores
     Gen. IV D-Warp          : 2 nodes + necessary equipment


Notes:

The TESLA class destroyer is the direct successor of the venerable
FEYNMAN, based on the succesful modifications to the USS TESLA II,
from where it inherits the name.

As the TESLA II, the TESLA-class ships are white and have a very
streamlined hull, with variable geometry Warp nacelles. It has been
upgraded to the newest gravitic plane propulsion systems, which allow
for much improved speeds and maneuverability at sublight speeds.

The sensors on the TESLA class are improved versions of the old
ORACLE-IId systems, with the adapted SESR IIId systems. An additional
computer core has been installed to improve sensors synchronization
speeds, systems automation and redundancy, and augmented resolution.
The increased size and displacement are justified by the better
sublight speeds and sensor power.

Due to the improved automations, the crew has been reduced accordingly.

Feynman-class original description follows.

After successfully testing and improving the DELPHI array deep space 
sensor system on the USS FENRIS, it was decided to implement it in a 
smaller class of vessel with a strong emphasis on scientific use.  It 
quickly became evident that a medium-sized ship of 300 to 450 crew 
would be the platform suited best, filling the gap between the WOLFE-
class frigates and the DIOGENES-class cruisers both in size and crew.

To avoid the mass and energy consumption that comes along with a third 
nacelle to shape the subspace field for scanning purposes, the FEYNMAN 
class uses a variable warp nacelle geometry, based on a two nacelle 
design.  It also uses the minimum reflectance surface for minimal 
background noise, making the ship appear black from most view angles, 
as well as the thruster control system used on it's bigger cousin.

The ship's saucer section is somewhat elongated with a more streamlined 
arrowhead appearance to facilitate a more efficient warp bubble at 
higher warp speeds, while the engineering section is resembling the 
shape of an elongated AMBASSADOR-class design with variable position 
warp nacelles.  The hull allows an emergency separation but cannot 
reassemble in space.  There is no Captain's yacht to allow the bottom 
of the saucer section to be shaped for optimum deflector use.  The 
auxiliary shuttlebay doors open forward.


Details on the modification:

The variable nacelle geometry is not explicitly required for warp drive, 
but serves the purpose of stabilizing and refining the warp field for 
the main delphi array which is operating on subspace frequencies during 
warp.  When operating in a different configuration it can serve to 
increase warp field efficiency (greatly reducing the sensor efficiency) 
at high speed to optimze energy consumption and effectively increasing 
speed.

The low reflectance surface is reducing sensor ghosts of all kinds, 
making scans more accurate and providing additional passive protection 
against being scanned.  To compensate for this in non-hostile encounters, 
the protocols have been modified to allow to provide beacons for own and 
friendly vessels.


Adittional modifications:

The USS TESLA II has been retrofited an ORACLE-IIr sensor suite from the 
CHARON-class FF. This has called for modifications on the main and lateral 
arrays, and the addition of an extra computer core, to deal with the extra 
computating power needed. The existing, experimental SESR (System of 
Enhanced Sensors Resolution) type II installed before the upgrade has been 
changed by a modified Type IIId module, designed on purpose to operate with 
the ORACLE-IId. The SESR has been attached to the new computer core to 
provide faster operations. All these modifications on the sensors have made 
unnecessary the black coating, high reflective surface of the Feynman-class 
DDs, thus the TESLA has a white hull like any other Fleet vessel.

Additionally, the USS TESLA II has been retrofitted a Gen. IV D-Warp drive 
system, a modification of that on the MONTU-class CL, with aid of the 
TSYKLON-class DD systems. Warp core has been replaced by a new FRAM-930 
unit, to allow for the extra energy consumption, allowing her to easily 
reach the Kappa band for sustained periods of time with less stress to the 
systems. The nacelles have been upgraded to the ILN-500 series, which allows 
the ship smoother Warp drive response, specially considering the dynamic 
nature of the Warp field geometry on FEYNMANs, without sacrificing top speeds. 
All these modifications have increased the ship displacement by 70,000 mt, 
which has reduced somewhat the maneuverability of the ship at impulse speeds, 
although the Warp speeds are maintaned and even enhanced.


History:

The Feynman class is named in honor of the twentieth century Nobel prize 
winning physicist/philosopher/teacher, Richard P. Feynman, whose simple 
but elegant demonstration of O Ring failure during the Challenger hearings 
lead to improved standards of safety for early earth spacecraft.  He is 
also considered one of the fathers of Nanotechnology; an award named is 
his honor has been given since the late twentieth century.

In October 2405 the project approval was received.  A rescaled version 
of the DELPHI Array began construction. In May 2406 the keel was laid, 
and the actual construction on the primary hull began.  In June 2406 the 
nacelle construction began.  August 2406 saw the joinging of primary and 
secondary hulls and the installation of the DELPHI array began.  In 
September 2406 the installation of the remaining communication, navigation 
systems and computer core followed.

October 2406 the Warp Drive was tested, followed by finishing the 
installation of the rescaled DELPHI array in November, and its calibration 
and test in December 2406.  In January 2407 the construction was completed
and the ship commissioned for system evaluation as NX-66000 USS Feynman.

The USS TESLA, NCC-66001 was commissioned in July 2407 and lost in August 
2408 to warp soliton waves while trying to save a planet. In recognition, 
Starfleet ordered the commission of the USS TESLA II, NCC-66101 in September 
2412, the ship was commissioned and attached as escort and extension ship to 
DS13, in GOLD Fleet, in April 2413.


proposed ship names NCC-66xxx:

USS Feynman             USS Heisenberg
USS Fermi               USS Hahn
USS Tesla               USS Meitner
USS Einstein            USS Curie
USS Bohr                USS Hawking


Ship Design by Armin Lenz and Kelli Belden
Starfleet Engineering Revision by Armin Lenz, Kelli Belden, 
Jeffrey Jenkins, Jeffrey Finocchiaro, Kristopher Kolman

Revised by David S de Lis

[Note: Names of the ships should follow names of Famous Scientists as shown 
by the above examples.]