SU133930A1 - Automatic radiometric device for measuring the noise figure of amplifiers and microwave receivers when they are tuned - Google Patents

Description

Methods are known for the continuous automatic measurement of the noise figure of microwave receiver-amplifying devices using a radiometric method.

The advantage of this yellow device, in contrast to the known devices, is the convenience and a significant reduction in the time of testing and tuning the receiving-amplifier paths for a minimum noise figure and ensuring the linearity of the scale of the output device. This is achieved by automatically calibrating the measuring device with an AGC standard noise circuit.

The drawing shows the block diagram of the proposed installation. Here: - noise power generator; 2 - generator modulator;

3- microwave amplifier modulator 4; 5 - ferrite valve; 6 - microwave filter of the mirror channel; 7 - mixer; 8 is a local oscillator; 9 - intermediate frequency amplifier; 10 - quadratic second detector; 11 - low frequency amplifier; 12 - narrowband modulation frequency amplifier {80 gi); 13-AGC circuit detector; 14 - chain of constant time; 15 is an output indicator of a microwave amplifier gain; 16 - intermediate frequency generator; 17 - exemplary attenuator; 18 - phase detector; 19 - DC amplifier; 20 - indicator of the sound factor with a linear scale; 21 - synchronous switch (20 Hz); 22 is the master pulse generator (80 Hz; 23 is the measurement-calibration switch.

The principle of the device is to alternately measure the average component of the pulses proportional to the noise power of the generator / and amplifier 4. For this, the generator / and amplifier

4 alternately modulated by pulses (80 Hz), which are set by pulse generator 22. Alternately connecting generators Y and 22 to amplifier 4 and simultaneously switching the output of the receiver from the measuring path to the AGC systems and backwards are performed by a synchronous switch 21. During modulation of amplifier 4 the oscillator is turned off, and when modulated, the oscillator / amplifier 4 is turned on. Switches are made at a frequency of 20 Hz. The total noise signals of the oscillator / and amplifier 4, amplified by a superheterodyne receiver, are detected and, via separating capacitors 24 and 25, alternately synchronously arrive at the inputs of the AGC system and the noise factor measurement paths. The first harmonic of the pulse signal, selected by the narrowband amplifier 12, is detected, and its average component, proportional to the noise of the microwave amplifier 4, is measured by an arrow indicator. The impulse modulation of the pulses by the switching frequency due to the large time constant of the amplifier 12 does not contribute to a large degree of resolution.

The compensation of changes in the gain of the microwave amplifier 4 is dried with an AGC, which maintains a constant intensity of pulses proportional to the noise of the oscillator 1, and the AGC voltage is proportional to the gain of the amplifier under test. During calibration, amplifier 4 is turned on permanently, and generator 1 is modulated by pulses. The passage of signals in this case is analogous to the passage of signals during measurements. The outputs of the amplifiers 12 will be supplied with the same voltage. At the output of the measuring path, the average oscillation amplitude will be proportional to the generator power /.

Subject invention

An automatic radiometric type device for measuring the noise figure of amplifiers and microwave receivers when they are tuned, characterized in that, in order to eliminate the effect of changing the gain of a tunable amplifier on the instrument readings - measuring the noise factor and ensuring linear scale of the output instrument, it uses the system automatic gain control of the receiver, operating on a modulated signal of a standard noise generator, and a system for programming modulation of a generator standard plug and measured amplifier.