SU885929A1 - Direct reading device for automatic measuring four terminal network noise factor - Google Patents

Description

(5) A DEVICE FOR AUTOMATIC MEASUREMENT OF A FOUR-MUSTER THOUGHT COEFFICIENT WITH A DIRECT REPORT The invention relates to a measurement technique and can be used to automatically measure the noise coefficient of transistors. An automatic noise figure meter is known, which contains a calibrated noise generator, a test quadrupole, a narrowband quadratic detector, an integrator, attenuators, and an indicator l). A disadvantage of the known device is the large measurement time of the noise factors. The closest technical solution to the present invention is an automatic noise figure meter in the self-excitation mode of the tested quadrupole, containing a calibrated noise generator connected to the input of the tested quadrupole covered by the feedback and the output of the mixer connected to the input in series with a narrowband amplifier, quadratic detector , integrator and indicator 2J. The disadvantage of this device is the narrow frequency range of the formation of the self-excitation mode. The purpose of the invention is to improve the performance of measurements. The goal is achieved by the fact that a scale amplifier, a reference element, and a voltage source are introduced into the device containing an indicator, a feedback unit, an input connected to one of the input terminals of the device, and a series-connected narrowband amplifier, quadratic detector and integrator. the averaging element, while the input of the large-scale amplifier is connected to the second input terminal of the device, and its output is connected to the inputs of the feedback unit and the narrow-band amplifier, made adjustable The control input of which is connected to the indicator input and to the output of the averaging element, the input connected to the output of the comparison element, the first input of which is connected to the output of the reference voltage source, and its second input is connected to the integrator output.

The drawing shows a block diagram of the device.

The device contains a quadrupole under test 1, a large-scale amplifier 2, a feedback unit 3, a unit representing a narrowband amplifier with a quadratic detector, an integrator 5, a comparison element 6, an averaging element 7, an indicator 8 and} 1 source of a SUPPORT voltage.

The device works in the same way.

The measured quadrupole 1 is connected to a large-scale amplifier 2, which closes the negative feedback circuit through block 3. The transfer coefficient of block 3 determines the gain at the output of amplifier 2 regardless of the quadrupole factor 1. In this case, the noise voltage at the output of amplifier 2 is proportional to the factor quadrupole noise.

With amplifier 2, the noise voltage is applied to block k and integrator 5, which further amplifies bandwidth limiting, squaring and integrating the noise signal. From the output of the integrator 5, the signal is applied to the comparison element 6, which forms the control signal. From the output of the comparison element 6, the regulating signal through the averaging element 7 is fed to an adjustable amplifier, the gain of which is adjusted so that at the input of the comparison element the signal becomes close to the reference voltage UQ. In this case, the regulating signal proportional to the magnitude of the noise figure is measured by digital indicator 8.

In the event that the noise coefficient of a quadrupole 1 is different from one, the output of the integrator 5 appears

the voltage is greater than the reference UQJ. Then, at the output of the comparison element 6, a regulating signal occurs, the value of which is recorded by the indicator 8 indicating the value of the noise figure directly.

The use of integrated circuits in the meter allows the device to be very small, and reducing the number of stages in measuring the noise figure reduces the total measurement time to seconds.

Claims (2)

1. USSR author's certificate No. 306426, cl. G 01 R 27/28, 1970. 2.Dvinskikh V.A. Measurement of parameters of amplifiers using self-excitation. M., Soviet Radio 1965, p., 207, rice, 5.12 (prototype).