Morning all,
I appear to be seeing what I thought I wrote and not what is really there
when proofing my comments, here are corrections for my TL-10 Small Mitilary
sensor package with a jammer installed.
“My work and the listed value in the T4 QSDS 1.5e Standard Sensor Systems
Table on p. 10 for a fixed antenna match without a jammer installed.”
Should have been
“My work and the listed value in the T4 QSDS 1.5e for the Standard Sensor
Systems Table on p. 10 are different for the small military package with a
jammer installed.”
“The next update will be the TL-10 Medium Military package with a J2 jammer
installed which I’ll post on 4/29/15.”
Should have been
“The next update will be the TL-10 Medium Military package which I’ll post
on 5/29/15.”
TL-10 Standard Medium Military Sensor System:
2x TL 10 Active EMS 480,000 km (USD A16)
Processor
Volume (m^3): (Processor) 2 x 42 m^3 = 84
m^3
Volume (Td): (Processor) 84 m^3/14 m^3 = 6 Tons
displacement (Td)
Power (MW): (Processor) Volume 42 x 5 = 210.0000
MW (for operating unit)
Cost (MCr): (Processor) Volume 84 x 2 =
MCr168.0000
Antenna
Area (m^2): (Processor) Volume 84 x 2 = 168.0000
m^2
1x TL 10 LADAR 120,000 km (USD A4)
Processor
Volume (m^3): (Processor) 2.4 m^3
Volume (Td): (Processor) 2.4 m^3/14 m^3 = 0.1714
Td
Power (MW): (Processor) Volume 2.4 x 1 = 2.4000
MW
Cost (MCr): (Processor) Volume 2.4 x 10 =
MCr24.0000
Antenna
Area (m^2): (Processor) Volume 2.4 x 1 = 2.4000
m^2
1x TL 10 Neutrino n/a km (USD n/a)
Processor
Volume (m^3): (Processor) 100 m^3
Volume (Td): (Processor) 100 m^3/14 m^3 = 7.1429
Td
Power (MW): (Processor) 0.0100 MW
Cost (MCr): (Processor) 1.0000 = MCr1.0000
Antenna
Area (m^2): (Processor) 0.0000 m^2
0x TL 10 Densitometer (Grav Shielded n/a km (USD n/a)
Processor
Volume (m^3): (Processor) 0.0000 m^3
Volume (Td): (Processor) 0.0000 m^3/14 m^3 =
0.0000 Td
Power (MW): (Processor) 0.0000 MW
Cost (MCr): (Processor) 0.0000 = MCr0.0000
Antenna
Area (m^2): (Processor) Power MW x 100 = 0.0000
m^2
1x TL 10 Passive EMS 150,000 km (USD P5)
Fixed Antenna Diameter (m): 40 m
Min Length (m): 40 m
Processor
Volume (m^3): (Processor) 3.0000 m^3
Volume (Td): (Processor) 3.0000 m^3/14 m^3 =
0.2143 Td
Power (MW): (Processor) Volume 3.0000 x 0.1 =
0.3000 MW
Cost (MCr): (Processor) Volume 3.0000 x 2 =
MCr6.0000
Antenna
Area (m^2): (Antenna) TL-10 Modifier 1 x
(Antenna) Base Area 480 = 480.0000 m^2
Volume (m^3): (Antenna) Fixed Modifier 0.05 x
(Antenna) Area 480 = 24.0000 m^3
Volume (Td): (Antenna) Fixed Modifier 0.05 x
(Antenna) Area 480.0000 m^3 = 24.0000/14 = 1.9286 Td
Cost (MCr): (Antenna) Volume 24.0000 x 1 =
MCr24.0000
1x TL-10 Passive EMS 150,000 km (USD P5) Sensor suite
Fixed Antenna Diameter (m): 40 m
Min Length (m): 40 m
Volume (m^3): (Processor) 3 + (Antenna) 24.0000 =
27.0000 m^3
Volume (Td): (Processor) 0.2143 + (Antenna) 1.7143
= 1.9286 Td
Power (MW): (Processor) 0.3000 MW
Cost (MCr): (Processor) 6.0000 + (Antenna) 24.0000
= MCr30.0000
Area (m^2): (Antenna) 480.0000 m^2
1x TL-10 Passive EMS 150,000 km (USD P5) Sensor suite
Folding Antenna Diameter (m): 20 m
Min Length (m): 20 m
Processor
Volume (m^3): (Processor) 3.0000 m^3
Volume (Td): (Processor) 3.0000 m^3/14 m^3 =
0.2143 Td
Power (MW): (Processor) Volume 3 x 0.1 = 0.300
MW
Cost (MCr): (Processor) Volume 3 x 2 =
MCr6.0000
Antenna
Area (m^2): (Antenna) TL-10 Modifier 1 x
(Antenna) Base Area 480.0000 = 480.0000 m^2
Volume (m^3): (Antenna) Fixed Modifier 0.1 x
(Antenna) Area 480.0000 m^3 = 48.0000/ 14 = 3.4286 Td
Cost (MCr): (Antenna) Volume 48.0000 x 1 =
MCr48.0000
1x TL-10 Passive EMS 150,000 km (USD P5) Sensor suite
Folding Antenna Diameter (m): 20 m
Min Length (m): 20 m
Volume (m^3): (Processor) 3.0000 + (Antenna)
48.0000 = 51.0000 m^3
Volume (Td): (Processor) 0.2143+ (Antenna) 3.4286
= 3.6429 Td
Power (MW): (Processor) 0.3000 MW
Cost (MCr): (Processor) 6.0000 + (Antenna) 48.0000
= MCr54.0000
Area (m^2): (Antenna) 480.000 m^2
1x TL-10 Active EMS Jammers 240,000 km (USD J8)
Processor
Volume (m^3): (Processor) 23.000 m^3
Volume (Td): (Processor) 23.0000/14 = 1.6429
Td
Power (MW): (Processor) Volume 23.0000 x 10 =
230.0000 MW
Cost (MCr): (Processor) Volume 23.0000 x 4 =
MCr92.0000
Antenna
Area (m^2): (Processor) Volume 23 x 2 = 46.0000
m^2
1x TL-10 Small Military System Suite with a fixed antenna
Min Length: 40 m
Volume (m^3): (AEMS) 84 + (LADAR) 2.4 + (Neutrino)
100 + (Densitometer) 0 + (PEMS) 27 + (Jammer) 23 = 236.4 m^3
Volume (Td): (AEMS) 6 + (LADAR) 0.1714 +
(Neutrino) 7.1429 + (Densitometer) 0 + (PEMS) 1.9286 + (Jammer) 1.6429 = 16.8858
= 16.9 Td
Power (MW): (AEMS) 210+ (LADAR) 2.4 + (Neutrino)
0.01 + (Densitometer) 0 + (PEMS) 0.3 + (Jammer) 230.0000 = 442.7100 = 442.7
MW
Cost (MCr): (AEMS) 168 + (LADAR) 24 + (Neutrino) 1
+ (Densitometer) 0 + (PEMS) 30 + (Jammer) 92= MCr315.0
Area (m^2): (AEMS) 168 + (LADAR) 2.4 + (Neutrino)
0 + (Densitometer) 0 + (PEMS) 480.0000 + (Jammer) 46.0000 = 696.4 m^2
Crew: (AEMS = 1 + LADAR = 1 + Neutrino 1 +
Densitometer 0 + PEMS = 1 + Jammer = 1) x 0.45 = 5 x 0.45 = 2.25 = 2.3
USD: A16 P5 J8
1x TL10 -Basic Sensor System with a folding antenna
Min Length: 20 m
Volume (m^3): (AEMS) 84 + (LADAR) 2.4 + (Neutrino)
100 + (Densitometer) 0 + (PEMS) 51 + (Jammer) 23 = 260.4 m^3
Volume (Td): (AEMS) 6 + (LADAR) 0.1714 +
(Neutrino) 7.1429 + (Densitometer) 0 + (PEMS) 3.6429 + (Jammer) 1.6429 = 18.6001
= 18.6 Td
Power (MW): (AEMS) 210+ (LADAR) 2.4 + (Neutrino)
0.01 + (Densitometer) 0 + (PEMS) 0.3 + (Jammer) 230.0000 = 442.7100 = 442.7
MW
Cost (MCr): (AEMS) 168 + (LADAR) 24 + (Neutrino) 1
+ (Densitometer) 0 + (PEMS) 54 + (Jammer) 92= MCr339.0
Area (m^2): (AEMS) 168 + (LADAR) 2.4 + (Neutrino)
0 + (Densitometer) 0 + (PEMS) 480.0000 + (Jammer) 46.0000 = 696.4 m^2
Crew: (AEMS = 1 + LADAR = 1 + Neutrino 1 +
Densitometer 0 + PEMS = 1 + Jammer = 1) x 0.45 = 5 x 0.45 = 2.25 = 2.3
USD: A16 P5 J8
My work and the listed value in the T4 QSDS 1.5e Standard Sensor Systems
Table on p. 10 for the medium military does not match with or without the
changes made to the power and crew requirements.
The next update will be the TL-11 Basic package which I’ll post on
5/30/15.