SU1290209A1 - Device for measuring noise coefficient - Google Patents

Abstract

. The invention can be used to measure the parameters of active devices, such as amplifiers and amplifying devices. The purpose of the invention is to improve the measurement accuracy by reducing the fluctuation measurement errors and increasing the sensitivity of the device when measuring narrowband devices. To do this, a noise generator 5, a power source 6 for an additional noise generator and a band-pass filter 4 are added to the device. The device also contains a noise generator 1 with power source 2, a mixer 3, a measuring receiver 7, which includes an intermediate frequency amplifier 8, quadratic detector 9, controlled amplifier 10, distributor 11, amplifier 12 of the numerator channel, measuring instrument 13 of the channel 14 denominator, generator 15 of modulating voltage. B, the device may also include the power source 16 of the object under study 17. 1 sludge. a (l go with

Description

one

The invention relates to a measurement technique and can be used to measure the parameters of active devices, in particular amplifiers and amplifying and converting devices.

The aim of the invention is to improve the measurement accuracy by reducing the fluctuation measurement error and increasing the sensitivity of the device when measuring narrowband devices.

The drawing shows a block diagram of a device for measuring noise figure.

The device contains a noise generator 1, a power source 2 of the noise generator, a mixer 3, a band-pass filter 4, an additional noise generator 5, a power source 6 of the additional noise generator, a measuring receiver 7. The measuring receiver has

12

The noise power from the noise generator 1 is fed to the input of the object under study 17, the power of which is supplied from the power source 16. The noise generator 1 is modulated on the power supply circuit by modulating the power source 2 with modulating voltage from the measuring receiver 7. As a result, two components, the total noise of the measuring device and the noise generator 1, and only the noise of the measuring device are alternately transmitted to the signal input of the mixer 3 devices. . The heterodyne input of the mixer 3 is supplied to the ec noise signal 20 generated by the additional noise generator 5. The bandwidth of this noise signal on the heterodyne mixer 3 is determined by the band

thirty

35

40

the limiter 11, the amplifier 12 of the numerator channel, the measuring device 13, the channel 14 of the denominator and the generator 15 of modulating voltage.

The device, if necessary, may include the power supply 16 of the object under study 17. I

The output of the power source 2 of the noise generator 1 is connected to the power input of the noise generator 1, to the output of which the input of the object under study 17 is connected. At the same time, to improve the matching of the output of the noise generator 1 with the input of the object under study, they can include isolating devices matching device - an impedance transformer. The output of the power source 6 of the additional noise generator is connected to the power input of the additional noise generator 5, the output of which is connected to the input of the bandpass filter 4. If the output power of the additional noise generator 5 is insufficient, selective bandwidth can be used as the bandpass filter 4

on the heterodyne input of the mixer 3, i.e. the frequency of the bandpass filter 4,

It includes an intermediate frequency amplifier 8, a quadratic filter detector 4, the frequency of the noise signal 9, as well as a ratio meter as part of the controlled amplifier 10, is defined as the difference or sum of the frequencies of the input signal of the measuring receiver 7 and the output signal of the object under study 17. For example, with a frequency of the output signal of the measured device equal to 17 MHz and a frequency of the input signal of the measuring receiver 5 MHz with a pole of 2 MHz, it is possible to use 50

Low-end filter in the frequency range 11-13 MHz or 21-33 MHz. The level of the noise signal at the heterodyne input of the mixer 3 should exceed the maximum possible level of the noise signal at the signal input of the mixer.

The frequency-converted noise signal from the output of the mixer 3 is fed to the input of the measuring receiver 7, where it is processed and on the basis of a comparison of the noise signals of the measured product and noise generator 1 a signal proportional to the noise of the measured product is measured, which is measured by the measuring receiver 7 . Wherein

amplifier. The output of the band-pass filter 4 with the known power of the noise signal is connected to the heterodyne input of the noise generator 1, produced by the phone 3, the output of which is connected to the calibration of the measuring receiver, to the input of the measuring receiver 7. As a result, in the measurement mode of the measuring receiver connect the meter readings measuring

Sh

2902092

To control input of power source 2 of noise generator 1.

The device works as follows.

The noise power from the noise generator 1 is fed to the input of the object under study 17, which is powered from the power source 16. The noise generator 1 is modulated on the power supply circuit by modulating the power source 2 with modulating voltage from the measuring receiver 7. As a result, two components, the total noise of the measuring device and the noise generator 1, and only the noise of the measuring device . The heterodyne input of the mixer 3 is supplied to the ec noise signal 20 generated by the additional noise generator 5. The bandwidth of this noise signal on the heterodyne mixer 3 is determined by the band

15

filter 4, the frequency of the noise signal at the heterodyne input of the mixer 3, i.e. the frequency of the bandpass filter 4,

filter 4, the frequency of the noise signal

0

0

Low-end filter in the frequency range 11-13 MHz or 21-33 MHz. The level of the noise signal at the heterodyne input of the mixer 3 should exceed the maximum possible level of the noise signal at the signal input of the mixer.

The frequency-converted noise signal from the output of the mixer 3 is fed to the input of the measuring receiver 7, where it is processed and on the basis of a comparison of the noise signals of the measured product and noise generator 1 a signal proportional to the noise of the measured product is measured, which is measured by the measuring receiver 7 . Wherein

31

receiver is equal to the noise ratio of the measured device.

The noise figure of the measured device can also be measured by the two-sample method. In this case, in the calibration mode, the noise generator 1 operates in a continuous mode and the instrument readings of the measuring receiver are set equal to any convenient value of ° C,. These readings are proportional to the amount of noise of the noise generator 1 and the object under study 17. In the measurement mode, the noise generator 1 is turned off and the readings 06 are proportional to the noise of the object under study 17, the noise of the measured device is determined by the formula

F

uL,

oi, -t

N

de F is the noise factor of the object under study J OS, - the readings of the measuring receiver with the noise generator 1 on,

 - readings of the measuring receiver when the 1J noise generator is turned off

N is the spectral power density of the noise of the noise generator 1 at the measurement frequency at the input. Compiler N, Mikhalev Editor H, Gorvat Tehred A. Kravchuk Proofreader S. Cherni

Order 7895/41 Circulation 751 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab, 4/5

Production and printing company, Uzhgorod, st. Project, 4

902094

the signal of the product being measured.

Claims (1)

Invention Formula 5 A device for measuring the noise figure, containing a measuring receiver, the output of which is connected to the control input of the power source of the noise generator, the output of which is connected to the power input of the noise generator, the output of which is connected to the first a terminal for connecting the object under study, a mixer, the output of which is connected to the input of the measuring receiver J5, and the input with another terminal for connecting the object under study, which is aimed at improving the accuracy of measurement by reducing the fluctuation error of measurement and increase the sensitivity of the device when measuring narrow-band devices, an additional generator shu20 is introduced into it ma, the power source of the additional noise generator and the bandpass filter, while the output of the power source of the additional noise generator is connected to the power input of the additional noise generator, the output of which is connected to the input of the band pass filter, the output of which is connected to the heterodyne input of the mixer.