Generator Sets And Related Power Equipment 400hz: 0.3 Kw And Above Parts

End item NSN parts page 1 of 2
Part Number
NSN
NIIN
0221056 Overspeed Switch
012469265
0522113 Centrifugal Switch
015379648
0522156 Centrifugal Switch
015379065
10390 Meter Frequency Converter
006592786
10590 Frequency Meter Matched Set
000030972
107D164G01 Alternating Current Generator
003688199
11206 Meter Frequency Converter
006592786
125C324G01 Generator Rotor Assembly
003702797
13211E6842-1 Electrical Connector Cable Clamp
011342308
13212E8125 Gasoline Engine Generator Set
000178241
13212E8933 Meter Frequency Converter
006592786
13213E4098 Gasoline Engine Generator Set
000178238
13213E4101 Electrical Rotating Equi Housing
009490604
13214E1490 Tr Gasoline Engine Generator Set
009316789
13215E7941 Generator Control
002228246
13216E1918 Instruction Plate
011524610
13216E2000 Alternating Current Generator
009385678
13216E3204-1 Generator Control
002228246
13216E9988 Generator Control
002228246
13220E6645 Trai Diesel Engine Generator Set
002603082
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Generator Sets And Related Power Equipment 400hz: 0.3 Kw And Above

Picture of Generator Sets And Related Power Equipment 400hz: 0.3 Kw And Above

In signal processing, sampling is the reduction of a continuous-time signal to a discrete-time signal. A common example is the conversion of a sound wave (a continuous signal) to a sequence of samples (a discrete-time signal).

A sample is a value or set of values at a point in time and/or space.

A sampler is a subsystem or operation that extracts samples from a continuous signal.

A theoretical ideal sampler produces samples equivalent to the instantaneous value of the continuous signal at the desired points.

Sampling can be done for functions varying in space, time, or any other dimension, and similar results are obtained in two or more dimensions.

For functions that vary with time, let s(t) be a continuous function (or "signal") to be sampled, and let sampling be performed by measuring the value of the continuous function every T seconds, which is called the sampling interval or the sampling period.  Then the sampled function is given by the sequence:

The sampling frequency or sampling rate, fs, is the average number of samples obtained in one second (samples per second), thus fs = 1/T.

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