SU532826A1 - Measuring instrument for complex characteristics of microwave devices - Google Patents

Claims (1)

the interfrequency frequency set by HPC 8 is made using 1 mixers 2 and 4 of frequency filter 3, LO 6 and BSC 7. Filter 3 extracts the frequency signal from the mixer 2 signal (O, where f is the frequency response of the GCH 1; f is the LO frequency 6. At The output of the BSCH 7 has a frequency signal. Where 7 is the frequency of the THD 8. As a result of mixing the signals with the frequencies (1) and (2), the output of the mixer 4 produces a signal of the frequency f, tF (3). That is, shift the frequency relative to the signal GKCH 1 on the value of T. The measuring head 12 highlights the information about the measured characteristics of the microwave device in the form two frequency signals {f., and-F) applied to the measuring inputs of receiver-indicator 10, in which information on the measured value is transferred from the variable frequency of the microwave signals to the signals of intermediate frequency 7, which processes information and measurement Expansion of the working frequency range of the meter, which has an octave band, is achieved by using harmonics formed by the shaper 11 and 13 of the fundamental frequency signal of the meter (f-L + F) and When applied to a non-linear microwave element such as a Schottky diode or charge accumulating diode yes (DND) of a signal of sufficiently large level at its output a wide spectrum of KeyfflK can be obtained from the frequency of the input signal. The frequency difference between the signals of the 11 harmonics at the outputs of the formers 11 and 13 will be equal to nCvf) -nf, F () where K is the frequency division factor of the frequency divider 9. Equation (4) implies that for the selection by the receiver-indicator 10, working for an hour Tote F, information about the measured parameter carried by signals and harmonics, requires the condition T7 K, which necessitates the introduction of frequency divider 9 into the circuit of the device. Switching the working frequency range of the proposed device (1.2 or p harmonic) per pen exception dividing ratio of the divider 9 and the corresponding change in the operation mode harmonics generators 11 and 13 to the maximum vschelenie A- harmonic signals. The amplifier 5 provides the level of the signal necessary for operation of the harmonic generator 13, since the signal level at the output of the mixer 4 does not usually exceed 0.1-1.0 mW, which is clearly not enough for the driver. If the power level at the input of the driver 11 is also insufficient, a second microwave amplifier (at the input of the driver 11) can be entered into the meter circuit. Significant expansion of the working frequency range of the meter is achieved with the same working frequency bands of the GKCH 1 and mixers 2 and 4. Formula of the invention Measuring the complex characteristics of microwave devices containing a series-connected sweeping frequency generator with two developed outputs, a mixer, a frequency filter, a second mixer connected to a local oscillator through a frequency shift unit, as well as an intermediate frequency generator, a two-channel heterodyne receiver indicator, connected to the measuring head, from In order to expand the working frequency range of the meter, two harmonic shapers were introduced, a microwave frequency amplifier; the second harmonic driver is connected to the input of the measuring head, and the intermediate frequency generator is connected to the frequency shift unit via a frequency divider.