An/pps-5b Radar Set Parts

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Part Number
NSN
NIIN
037547021 Electrical Receptacle Connector
000683546
09019921 Electrical Receptacle Connector
001896245
09019931 Electrical Receptacle Connector
002955006
1002236-1 Electrical Receptacle Connector
000683546
10070900-101 Electrical Receptacle Connector
008187134
1009-1511-000 Electrical Receptacle Connector
000683546
100SP20-0393 Electrical Receptacle Connector
008230667
1011 Electrical Receptacle Connector
000683546
102542 Electrical Receptacle Connector
002955006
104200 Electrical Receptacle Connector
001896245
10525465 Electrical Receptacle Connector
008230667
10687336 Electrical Receptacle Connector
000683546
109 Electrical Receptacle Connector
000683546
10A672 Electrical Receptacle Connector
001896245
1160052P9 Electrical Receptacle Connector
000683546
124AS136 Electrical Receptacle Connector
001896245
1250-0835 Electrical Receptacle Connector
000683546
126-150 Electrical Receptacle Connector
001896245
126-150-1000 Electrical Receptacle Connector
001896245
126-151 Electrical Receptacle Connector
002955006
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Radar Set, An/pps-5b

Picture of An/pps-5b Radar Set

Radar configurations and types is an article about listing the different uses of radars.

Radar come in a variety of configuration in the emitter, the receiver, the antenna, wavelength, scan strategies, etc.

Search radars scan a wide area with pulses of short radio waves. They usually scan the area two to four times a minute. The waves are usually less than a meter long. Ships and planes are metal, and reflect radio waves. The radar measures the distance to the reflector by measuring the time of the roundtrip from emission of a pulse to reception, dividing this by two, and then multiplying by the speed of light. To be accepted, the received pulse has to lie within a period of time called the range gate. The radar determines the direction because the short radio waves behave like a search light when emitted from the reflector of the radar set's antenna.

Targeting radars use the same principle but scan a much narrower area far more often, usually several times a second or more, where a search radar might scan more widely and less frequently. Missile lock-on describes the scenario where a targeting radar has acquired a target, and the fire control can calculate a path for the missile to the target; in semi-active radar homing systems, this implies that the missile can "see" the target that the targeting radar is "illuminating". Some targeting radars have a range gate that can track a target, to eliminate clutter and electronic countermeasures.

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