Submarine Armament And Fire Control Systems Parts

End item NSN parts page 1 of 17
Part Number
NSN
NIIN
00-8016-090-000-272 Electrical Receptacle Connector
002233004
00-8016-090-000-601 Electrical Receptacle Connector
002233004
00-8016-090-000-701 Electrical Receptacle Connector
002233004
00-8016-090-000-701PG1G1 Electrical Receptacle Connector
002233004
000-016954-001 Liquid Level Switch Float
011638606
000-018928-001 Flexible Printed Cable Assembly
011628792
000-02035-002 Centrifugal Fan Assembly
011638607
000-020357-001 Centrifugal Fan Assembly
011638607
000-020357-002 Centrifugal Fan Assembly
011638607
000-6080170313 Electrical Contact
010561306
00052 (STYLE 1) Nonmetallic Grommet
002764265
0009-0236-008 Power Supply
009388463
004880552-02101 Bead Chain
004880552
006215 U Semiconductor Device Rectifier
010644209
0102-869 Electronic Module
010578680
011758 Electrical Plug Connector
000503255
0129-15 Nonmetallic Grommet
002764265
0160-2468 Paper Metallized Fixed Capacitor
006819389
01855500 Socket Head Cap Screw
009887612
02-020161 Tube Fitting Brazing Ferrule
011916777
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Submarine Armament And Fire Control Systems

Picture of Submarine Armament And Fire Control Systems

A fire-control system is a number of components working together, usually a gun data computer, a director, and radar, which is designed to assist a weapon system in hitting its target. It performs the same task as a human gunner firing a weapon, but attempts to do so faster and more accurately.

An early use of fire-control systems was in bomber aircraft, with the use of computing bombsights that accepted altitude and airspeed information to predict and display the impact point of a bomb released at that time. The best known United States device was the Norden bombsight.

Simple systems, known as lead computing sights also made their appearance inside aircraft late in the war as gyro gunsights. These devices used a gyroscope to measure turn rates, and moved the gunsight's aim-point to take this into account, with the aim point presented through a reflector sight. The only manual "input" to the sight was the target distance, which was typically handled by dialing in the size of the target's wing span at some known range. Small radar units were added in the post-war period to automate even this input, but it was some time before they were fast enough to make the pilots completely happy with them.

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