SU920558A1 - Device for measuring radio signal frequency fluctuation characteristics - Google Patents

Description

I

FIELD OF THE INVENTION

It is known a device for measuring radio frequency signal fluctuation characteristics, comprising a frequency multiplier, a gradually connected phase detector, a low-pass filter and a recording unit, a scale unit, two (| shifting units, two voltage amplitude stabilization units, which are connected to the phase detector inputs, the output of the scale block is connected to the inputs of phase-shifting blocks through the frequency multiplier, the outputs of which are connected to the inputs of the stabilization blocks of amplitude TUD 1.

However, this device does not provide sufficient accuracy and unambiguity of measurement results.

The closest to the technical essence of the invention is a device for measuring the fluctuation characteristics of a radio frequency signal, which contains two mixers, the first inputs of which are fed directly to the signal under study, and the second inputs are outputted n and n times in frequency, two discriminators, the inputs of which are connected to the outputs of the same-name mixers, a summing unit and a subtraction unit, the inputs of which are connected to the outputs of the discriminators, while the output summing block connected to the first input of the adder ne15 mediocre result, and subtracting the output of the unit connected to the second input of the adder through the resulting scaling amplifier, the resulting output of the adder to ffodklyuchen indikato20 RU 2.

Claims (2)

However, this device is characterized by insufficient measurement accuracy. The purpose of the invention is to increase accuracy. The goal is achieved by the fact that the device containing two measuring channels, in each of which | 1x the mixer and discriminator are connected in series, the first frequency multiplier, the input of which is connected to the input bus, and the output connected to the first input of the measuring channel mixers, the second frequency multiplier, subtractor and first adder, the first and second inputs of which are connected to the first and second inputs of the calculator, and the output of the first adder is connected to the first input of the second through a large-scale amplifier the adder, the second input of which is connected to the output of the subtractor, the output of the second adder is connected to the input of the indicator, a line is entered / held, connected between the input bus and the input of the second frequency multiplier, and a band-pass filter and a second mixer whose output is connected with the second input of the first mixer of this channel, the first and second inputs of the second mixer of each measuring channel are connected respectively to the input and output of the second frequency multiplier, and the discriminator output of each eritelnogo channel through its bandpass filter with one with one of the inputs of the first adder. The drawing shows a structural electrical circuit of the device. The device contains a delay line 1, multipliers 2 and 3 frequencies, two measuring channels f and 5 consisting of mixers 6-9f discriminators 10 and P and bandpass filters ipOB 12 and 13, subtractor} k, totalizers 15 and 16, scale amplifier 17 indicators. The input signal is fed to the input bus 19. The device works as follows. The radio signal under study U (t) - P (t) cosCuDot (t) is fed to the input of the delay line 1 and simultaneously to the input of the multiplier 2 frequencies, as a result of which an oscillation of the form UiW) iCt) c05tuJo (t-tptif (t4i), de t, is the delay time of the signal by the delay line 1; + th (t) are the output phase phase fluctuations, due to the instability of the delay line 1, the output of the first multiplier 2 asthots produces an oscillation like Ug (t))) (. t) l) de p is the multiplication factor of the signal frequency by the first frequency multiplier, & H (t) is the increment of the signal phase due to the instability of those eraturnoy characteristics of the first frequency multiplier 2. The output signal U (t) of the delay line 1 goes to the first inputs of the mixers 7 and 9 directly, to the second inputs of these mixers through the multiplier 3 frequencies in the form of an U3Ct) -)) o (trtj) nП (tt-tJ.) Tп (t ) (tU, de p - multiplication factor of the signal frequency by multiplier 3 frequencies; ± CkH (t) increment of the signal phase due to the instability of the phase-frequency characteristic of the multiplier frequency 3. As a result, mixer 9 selects the total frequency signal in the form of U4 oscillation (t) - l) z (t) coiC (m1) .u3oit-t) in)) f (tt) CnM) Th VrW11 and mixer 7 extracts the signal with the difference frequency as Uf (t) V2. (T) co5Un-l) -u) j: t-t3) p-H) t # (t4j) t (n-lU (t) 1UVi (t) I Output signal) of the mixer 9 comes to the second input of the mixer 8, to the first input of which the output signal id (t) of the multiplier is supplied 2. As a result, the mixer 5 8 separates the signal of the difference frequency with a constant amplitude in the form of a vibration Uslt}: UocosLtObt- (nt u) ot (n) 4 (t-tjl-nl (t) tinM) AX 4 (.V (t) cV, (. The output signal U5 (t) of the mixer 7 is fed to the second input of the mixer 6, to the first input of which the output signal U (t) of the frequency multiplier 2 is fed. As a result of this mixture | 6, it separates the difference frequency signal constant amplitude in the form of oscillation. U (tl O costiOot n (n-Ou3ot t n4 ((nV) 4 (t-tpM -) (t) l tu4t (t)) 3, Output signals Up (t) and U, j. (t) of mixers 6 and 8 come through the corresponding discriminators 10 and 1 which are are, the operation of differentiating the signals Ug (t) and Uj (t) and highlighting the envelopes in the differentiated signals, and through the corresponding band-pass filters 12 and 13, which filter the discriminator outputs of the output signals, subtractor 1 and adder 15 in the form of oscillations, U "(t) lo -n44tV (nM) 4t-t3) tt (), U9 (t) -) aUr (O4" -lH4t-t5) f (nH) z, r (t) ( tiJur; m; As a result, the output signal of the adder 15 has the form and “(1) m) o hcch1-igdCHO, and the output signal of the subtractor takes the form U (t) - Vot2n44t) -2n4Xt-l))) ± lVJ, (t). 586 Next, the output signal Un (t) is amplified by a voltage n times by an amplifier 17 in the form of a vibration Ui (t) (t-tjr-an..4M) b is fed to the first input of the adder 16, to the second input of which is output signal U (t). As a result, the output signal of the adder 16, having the form U ,,, (i) - Z)) o {n (t) i U4vV4tV M i (t) l}, where -n-bU it) is the sound of an instantaneous frequency of the signal under study, multiplied n times, goes to indicator 18. Thus, at the output of adder 16, a signal U (t) is formed, in which the components are completely absent due to the instability of the delay, and, in addition, the fluctuations of the instantaneous frequency of signal d) (t) increase by n times, which ultimately increases the frequency resolution and at the same time improves the measurement accuracy. The invention The device for measuring the fluctuation characteristics of the frequency of radio signals, containing two measuring channels, each of which sequentially includes a mixer and a discriminator, the first frequency multiplier, whose input is connected to the input bus, and the output is connected to the first input of the measuring channel mixers, the second frequency multiplier , and also the subtractor and the first adder, the first and second inputs of which are respectively connected to the first and second inputs of the calculator, and the output of the first adder through the scale amplifier is connected to the first input of the second adder, the second input of which is connected to the output of the subtractor, the output of the second adder is connected to the input of the indicator, characterized in that, with an increase in the measurement accuracy.