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

36

| Antenna

Impulse

Response

In the same way, the antenna will not efficiently pass spectral components that

fall below its bandwidth. For the Model 3301B, the selected low frequency roll off

will determine how wideband the response is. The very low frequency

components basically describe the flat top and bottom of the time domain pulse.

So, when the waveform is band limited by the antenna, the resulting waveform

will have a decay constant returning the output to ground rather than maintaining

a flat topped pulse.

A third phenomenon that occurs when measuring impulse type waveforms is that

saturation of the amplifier is harder to detect. By definition, impulsive type signals

spread their energy over many spectral components. So, when viewed in the

frequency domain, the energy demanded of the antenna amplifier may appear

much lower than it actually is. The energy demanded of the antenna amplifier to

properly pass a pulse is not just the peak pulse in the frequency domain

waveform, but rather the sum of the energy contained in all the spectral lines. By

looking in the time domain, it is easy to see that the amplifier must provide the

energy to go from ground to the pulse peak almost instantaneously. The impulse

delivers all its frequency domain spectral components in phase. So the antenna

must provide the vector sum of all the frequency domain spectral lines.

Therefore, extra care must be taken to protect the antenna amplifier from

saturation when making impulse measurements in the frequency domain. The

internal attenuators in the Model 3301B allow it to overcome many of the barriers

which earlier units presented to such measurements. These attenuators allow the

user to safely keep the amplifier in its linear region.

The saturation indicator in the Model 3301B will provide an accurate warning of

impending saturation, provided two conditions are met. First, the product of the

pulse width to pulse repetition rate must be greater than 0.003. Second, the

pulse repetition rate must be less than the value listed in Table of Acceptable

Pulse Repetition Rates on page 16.

If an impulse falls outside of these two parameters, the saturation indicator will

not accurately warn of saturation. However, the antenna will accurately handle

the impulse signal within its bandwidth and dynamic range limitations.

The reasons for these requirements are two engineering trade-offs which must

be made, and are explained in the next two sections.

11.2 Pulse Desensitization

The Model 3301B saturation indicator operates by creating a DC level on a

capacitor feed through a rectifying diode. This DC level is then compared to a

second DC level which is set at the amplifier 1 dB compression point. This circuit

works extremely well for CQ type signals. However, for fast transients the

capacitor, like all capacitors, has an integrating effect. The DC level established

by a fast transient is spread out in time. After the pulse passes, the capacitor

Archived 3/18/10