SU932425A1 - Uhf four-terminal network parameter automatic meter - Google Patents

Description

(5) AUTOMATIC METER OF PARAMETERS OF ULTRA-HIGH-FREQUENCY FOUR-POLES

Claims (1)

The invention relates to a technique for measuring on microwave and can be used in measuring the dynamic parameters of active microwave devices. An automatic meter for parameters of ultrahigh-frequency four-port networks is known. indicator, and a sweep generator, coupled to a sweeping frequency generator, and oscillographic indicator 1J. However, measurements by this device of dynamic parameters of quadrupoles active in a manner close to the limit, are not possible due to the presence of an amplitude modulated signal in the measuring path, since the operating point of the active quadrupole (especially operating in class C changes its position, and the power dissipated by the device is equal to the average power during the microwave pulse period. Thus, an active quadrupole, as a rule, cannot be tested in modes that are close to the limit. (according to power dissipation, thermal conditions, climatic conditions), since an increase in the average level of impulse power is not always possible due to the limited breakdown voltage of the pn junction of semiconductor active quadrupoles. The purpose of the invention is to improve the accuracy of measuring the dynamic parameters of active This device is achieved by the fact that, in a known automatic meter of parameters of a superhigh-frequency quadrupole, between the outputs from etvlennyh channels directional couplers incident and reflected input and the detector will Golobokov .Switch respective first and second microwave switches that are connected to the inputted source control signals. The drawing shows the block diagram of the automatic meter. The automatic dynamic parameter meter contains a 1 ° oscillating frequency generator, two directional couplers .2 and 3, respectively, of the incident and reflected waves / between which or behind which (depending on the parameter being measured, the microwave superimposed quadrupole h is detected, matched load 5, detector heads 6 and 7s, 8 ratio meter, oscillographic indicator 9, ultra-high frequency keys Yu and 11c, filters 12 and 13 microwave, control signal source k, sweep generator 15., Device p It works as follows: From the oscillating frequency generator 1, the amplitude unmodulated microwave signal goes to the directional coupler 2 and through the quadrupole under study H, if the transmission coefficient module is measured, to the directional coupler 3, or to measure the reflection coefficient modulus reoriented to the subsequent quadrupole object and then to the load 5. The branched signals through the microwave switches 10 and 11 (where modulated by a 100 kHz frequency generator from source 14 control their signals, through filters 12 and 13, which pass the amplitude-modulated microwave signal and do not pass the control signal., are fed to the detector heads 6 and 7 from the output of which signals are output. Proportional to the incident and reflected power and fed to the meter 8 relationships. The measurement result of the Fall / and O-5-p is applied to the vertical deflection plates of the oscillographic indicator 9. The horizontal scanning of the oscillographic indicator 9 is controlled from the sawtooth voltage controlling the frequency in the oscillator 1 oscillating frequency. From the amplification channel of the incident wave in the ratio meter, part of the nocTynaefi- signal to the generator, 1 sweep frequency for automatically maintaining the signal of the input power at a constant level. Due to the fact that a signal unmodulated in amplitude is fed to the studied quadrupole, the unmodulated signal is also obtained at the object output. The position of the working point and the power dissipation are determined by a continuous C signal unmodulated in amplitude) and the signal received from the output of the active quadrupole (Like the signal of the incident power is modulated by the meander in the secondary channel, i.e. the distortions obtained by modulating the microwave signal are introduced in the secondary channel and in no way affect the operation of the active two-port network and the measurement results, since these distortions remain insignificant regardless of the mode of operation.) A somatic parameter meter for ultrahigh-frequency quadrupoles containing a oscillating frequency generator, to the output of which a directional incident wave coupler, a directional reflected wave coupler and a matched load are connected in series, as well as two detector heads whose outputs are connected to the ratio meter input connected to an oscillographic indicator and a sweep generator, coupled with a oscillating frequency generator and an oscillographic indicator, characterized in In order to increase the measurement of dynamic parameters to.chnosti active microwave quadripoles between outputs the branched channels directional couplers incident and reflected waves, and inputs the detector heads includes respective first and second microwave keys. 5 2it256 which are connected to the entered test 1. The reference book on the measuring cell of the control signals. nym devices. Ed. Nasonov B.C. Sources of information, Vol. 1, M., Sovetskoye Radio, 1976. taken into account during the examination p.166-167 (prototype).