ETS-Lindgren 3301B Active Rod & Field Antenna (Archived) User Manual

Antenna Impulse Response

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11.0 Antenna Impulse Response

The Model 3301B is designed and optimized for the measurement of CW type

signals. However, this unit is fully capable of dealing accurately with impulsive

type signals, with some special considerations. This section guides the user who

intends to use the Model 3301B to measure impulsive signals. By following the

provided guidance, accurate measurements of impulsive signals may be

performed. The Model 3301B may be used to measure the important

characteristics of an impulse signal that fall within its bandwidth and dynamic

range. However, the measurement of impulsive signals requires some special

cautions to avoid saturation of the antenna amplifier.

11.1 Impulse Characteristics

Before discussing the Model 3301B response to impulse signals, a brief review of

the nature of impulse signals is appropriate. For our purposes we will consider a

specific type of impulse signal, the periodic, rectangular pulse. The pulse may be

described by three parameters: the pulse width, t; the pulse repetition rate, PRF;

and the pulse amplitude, A. For a diagram, see Periodic Rectangular Pulse Train

on page 47. By Fourier analysis, we may convert this time domain representation

into its frequency domain equivalent. In the frequency domain, the impulse

becomes an infinite series of discrete spectral lines whose envelope is described

by the formula:

Y=K*sin(x)/X

K = A*t*PRF

The nulls occur at regular intervals spaced n/t apart, where n is an integer. The

discrete spectral lines are spaced evenly, at internal multiples of the PRF. For an

illustration, see Spectrum of Rectangular Pulse on page 47. Two characteristics

should be noted. First, increasing the pulse width, t, narrows the separation of

the nulls. So wider pulses tend to concentrate their energy in a narrower

frequency span. Second, decreasing the PRF decreases the frequency

separation of the individual spectral lines. For an illustration, see Altering Pulse

Width/Pulse Repetition Rate on page 48.

By considering the frequency domain representation, any antenna response to

an impulse may be understood. The antenna will only pass those spectral

components that fall within its bandwidth. In the case of the Model 3301B,

components above 30 MHz will be attenuated or not passed at all. Remember, to

fully describe a rectangular pulse, an infinite bandwidth is required. The lack of

high frequency components shows up on the time domain as a rounding of sharp

corners and a slowing of the rise and fall.

Archived 3/18/10