SU705370A1 - Phase setter - Google Patents

Description

one . The invention is intended for use in a radio metering technique, in particular for studying the static characteristics of phase systems. A phase-generating device used for reproducing phase shifts is known, which comprises a master oscillator, a scaling circuit, a decoder, a control trigger, a coincidence circuit, filters, and a switch and 1. - However, it has limited functionality. Of the known phase-generating devices, the closest one to the technical equipment is a phase metering device, containing a master oscillator common to two channels, each channel consists of an uncalibrated phase shifter, the mixer of which one input is connected to the output of the phase shifter, and the other input - to the range output Oscillator 2. The device for verification of ph: bimetric apparatus in the study of the static characteristics of phase systems imposes a predetermined phase shift of the signal. Under the action of a range generator noise, the phase will be distributed only. According to the normal law. The aim of the present invention is to increase the number of laws for the distribution of the signal phase, i.e., to expand the functionality of the device when calibrating phase metering equipment. For this, a phase generator device containing a master oscillator is common to two channels, each of which consists of a mixer with a common local oscillator, with one of which the master oscillator is connected directly, and to the other through a phase shifter, a power amplifier and an attenuator connected in series, In the second channel, the series-connected mixer and the phase modulator are additionally connected, through the inputted first switch, to the input of the noise generator and the output of the formation unit of random modulating voltages, a differentiating chain connected in series, an emitter follower and a trigger, the second input of which the second switch is connected to the input one: 71 delays and an adder - common for two additional limiter amplifiers connected through a second differentiating chain to a Schmitt trigger, which the second switch is connected to the sawtooth voltage generator or to the sinusoidal voltage generator and the goal is achieved by the fact that the power node Random modulating voltages are made up of sequential 6 connected limiters, f-eHepatdpfa blocking, coincidence element, key and shaping amplifier, while the second input voltage switch; with the output of the trigger, and the second output of the ing-generator generator - with the first differentiating chain. The drawing shows a structural electrical circuit of the phase-generating device. The phase-determining device contains, master oscillator 1, phase rotator mixers 3, 4, 5, local oscillator b, Power amplifiers 7, 8, attenuators 9, j 10, phase modulator And, first switch 12, noise generator 13, unit for forming random models or xi1T1) zhenny 14, which is made of a yogreGjichtel 15, a blocking generator 16, a coincidence element 17, a key 18 and an amplifier-former 19, differentiating chains 20, 21, emitter follower 22, trigger 23, trigger 1t mite 24, limiters 25, 26, adder 27, support line 28, second switch 29, erator-piloobraznogr voltage 30, p gonerato synUsoidalnogr voltage. .-.,. -. ... i. I, -. ... ..: The device works as follows ... .... .. The signal from master oscillator 1 enters the phase generator 2 and 3. The second input of mixer 3 through switch 12 receives a signal from a generator 13, at the input of mixer 3 a signal is obtained, the phase of which is distributed n6 to the normal law V P | The third absence of a control signal at the input of the phase modulator, when it receives a signal with a phase r distributed according to a normal law. The signals from the phase shifter 2 and the Phase Ro modulator 11 are fed to mixers 4 and 5, respectively, and the local oscillator 6 spotlight frequency in both channels is transferred to the operating frequency range of the phasometric equipment under study. From the output of mixers 4 and 5, the signals are fed to power amplifiers 7 and 8, attenuators 9 and iO, respectively, and to the output of the phase setting device. In order to obtain a signal with a uniform or arcsine distribution, the noise generator 13 is switched off by switch 12 from mixer 3, and to the input phase modulator 11 through switch 12 and the random modulating voltage shaping unit 14 are connected either through a headersatop sawtooth voltage 30 or a sinusoidal voltage generator 31 respectively. The signal from the noise generator 13 arrives at the limiter, 15, from the output of which the pulse sequence arrives at the blocking generator 16. From one output of the blocking generator 16, the pulses go to the coincidence element 17, and from the second output through the differentiating chain 20, the emitter a repeater 22 to a trigger 23, forshiruyuschie for element matches 17, within which the pulses of the blocking generator 16 arrive at the key of a second input of which through the switch 29 enters the voltage from the sawtooth 30 generators or sine an ideal 31 voltages. The key 18 switches the voltage of the generators 30 or 31, the value of which is determined by the moment of arrival of the pulse of the block-gene & 16, from the output of the key 18 through the amplifier-former 19 and the switch 12 random modulating voltage is applied to the phase Y-module torus 11. The magnitude of the modulated sensing at the output of the key 18 is maintained until the arrival of the next Impulse from the coincidence element 17. From oscillators 30 or 31, through the switch 29, oscillations are sent to trigger 24, where they are converted into pulses Synthes that are differentiated: with a differential circuit 21 and through a two-channel amplifier, sS OYashchy from: for sili- tel 25 limiter and amplifier 26 limiter are summed in adder 27. To obtain the law of uniform phase distribution, pulses through switch 29 are sent to trigger trigger 23 , formyruyp; et6 strobe. To obtain the arcsine phase distribution, the impulses of the oscillations from the adder 27. through the delay lines 28, where the delay; CW || for a quarter of a period, and the р .. öe-е e Ж чат чат 29 29 enter the trigger input. 23. The flip-flop 23 is reset by the falling edge of the blocking generator pulse 16. Since the instants of the pulses from coincidence element 17 are random and uniform during the period of the counting period, therefore, the magnitudes of the modulating voltages will also obey the law of uniform density. Therefore, the phase of the signal at the output of the attenuator 10 will be either uniform; or arcsine distribution. The use of a noise generator, sawtooth generators and sinusoidal voltages together with a random modulating voltage shaping unit allows us to expand the number of laws for the distribution of the phase of a signal used in the calibration of phase metric equipment, and to more fully investigate its potential for interference to normal, uniform or arcsine phase distribution. The use of a generator and a heterodyne with re-tuning frequencies will allow you to use this device for the study of one hundred of: all the characteristics of the phase meter of four-range systems of different ranges; increases the scope of a device for fayozadkvdego and eliminates the need for the development of phase-supplying devices with dia: frequency zones close to the possible frequency of the described device. Fb; pk ula of the invention 1; Phase-generating device containing a generator with a frequency of two channels, each of which consists of a mixer with a common horizontal, with one of which specifies the generator | directly connected, and with each other through an amplifier and attenuator phaser rotator connected in series, so that, for the purpose of the races (11During the functionality when calibrating phaseometric equipment, in the second channel, additionally connecting a series-connected mixer and a phase modulator, connected via the inputted first P1 switch, to the input of the noise generator and the output of the random modulating voltage generation unit, are also introduced in series connected differentiating voltage a kidney, a zmittery repeater and a trigger; the second input is connected via the second switch to the newly entered 1 1 delay line and day - a common for two additional amplifiers-limiters connected via a second differential terminal along the Schmitt trigger, which is connected through the second ne to a sawtooth generator or to a sinusoidal voltage generator. 2. Phase output device according to claim 1 / characterized in that the node, which forms a random modulating voltage, is made of a series-connected limiter, a blocking generator, a coincidence element, a key and a shaping amplifier, while the second key input through the second switch of the phase setting device is connected to a Schmitt trigger, the second input of the coincidence element is connected to the trigger output, and the second output of the blocking generator is connected to the first differentiating chain. Sources of information should be taken into account in the examination 1. USSR author's certificate 464861, cl. G 01 R 25/00, 1975. 2. The USSR author's certificate 288142, cl. G 01 R 25/04, 196.