SU447678A1 - Digital Phasoregulator - Google Patents

Description

one

I Digital 5 controller with respect to electrical engineering, radio engineering and can be used in automatic control systems in various radio engineering devices.

Serial-type phase-shifting devices operating in the frequency range are known, comprising a bridge-type phase shifter, an amplifier, and a zero phase indicator. However, such phase-shifting devices have a limited frequency range and in them there occurs a deviation of the parameters of similar circuit elements as a result of the inevitable production scatter.

The purpose of the acquisition is to expand the frequency range and improve the accuracy of the phase shift setting

This is achieved by turning on the inverter circuit at the input, the input and output of which are connected to one of the inputs of each of the two

digital control attenuators / parallel to the same inputs of digital controlled attenuators are connected pulse elements, the output of which

connected to the inputs of analogue digital converters / ADCs, and the ADC outputs are connected to the inputs of you, the numerator, the output of which is connected to the input of the first trigonometric converter, the output of the first trigonometric corpuscle of the bodies is connected to one of the inputs of the adder, the second input of the adder is connected to the equal by generator

initial arguments; the output of the adder is connected in parallel with the second and third trigonometric HF generators, one of the outputs of the second and third trigonometric converter is connected to the second input of the digital attenuator, the second outputs of the second and third trigonometric HF are connected to the first and

The second determinant of characters is by connecting the inputs of each digital attenuator to one of the inputs of two gates, one of the gates is connected through a phase inverter, the second gates of the gates are connected to the gates of the first and second marks of the gage, all gates of the gates are connected to the inputs of the adder. At the same time, the characteristics of the digital phase regulator can be performed with a high degree of accuracy, which depends on the size of the codes of discrete values. The drawing shows the block diagram of the device, the Di Fova Phase Controller consists of (sazorazchatat w: -1, digital attenuators 2 and 3, pulse elements 4 and 5, analog-digital converters 6 and 7, virtualizer 8, trigonometric converter 9, speed controller 10, cystrom the generator of the initial arguments -1, trigonometric converters 12 and 13, the two C5LOKES 14 and 15 determine the sign of the phase inverters 16 and 17, the gates 18-21 and the adder 22, the output signal cwt must be converted at the output of the cisTFrame generator to UeSinCwt-x), where X (Pelvic. Shift in time input defined by the input sync pulse. The input signal and shifted in phase shifter I by 90 GO from u) t is time coded using pulse elements 4 and 5 at discrete instants determined by the input sync pulses, and ultra narrow slices code 1 : converters 6 and 7, the ratio b is calculated: a in the calculator 8k / b and a are the signal amplitude codes at the output of analog-digital converters b and 7 / B of the trigonometric co-converter 9, the calculation of tp urctqA is performed and then in the adder 10 the calculation with argument x where -f is the value of the argument generated in the generator of the initial arguments II, Next, in the trigonometric Transducers 12 and 13, the functions с are computed; 3 X and Sin X The value of I and isinx is fed to the ramp inputs of the digital attenuators 2 and 3, and signs signs with; SX and sitiX. arrive at blocks 14 and 15 of the definition of characters. Shifted by 90X, the signals after digital attenuators go directly and through Phase-inverters 16 and 17 to gates 18-21 and further to the adder 22. Gates 18-21 open depending on the sign of cosX and giti X. Thus, jfc can be set in y) 0-360 units, each of the two orthogonal voltage vectors can satisfy any values of Uo $ jt1 Ojt and Uo CDS Ajt within the variation of the argument 0-360, the output voltage takes the same value and Sin (wl - X) INVENTIONS The rotary phase regulator contains: phase shifters, characterized in that Strongly spreading frequency range and improve the accuracy of the installation phase voltage it comprises adders shshulsnye elements and trigonometric -tdafrovye analog converters, Azov inverters, valves, units for determining the sign calculator, a digital generator .nachalnyh arguments and two digital attenuator; the first input of the first attenuator is connected to the input of the phase shifter and to the first input of the first pulse element; the first input of the second digital attenuator - with the output of the phase shifter and with the first input of the second pulse element: the second inputs of the first and second pulse elements are combined, and their outputs are connected via the first and second analog-digital converters respectively to the first and second inputs of the calculator, the output of which is the first trigonometric converter is connected to the first input of the adder, to the second input of which the digital-key generator of the initial arguments is connected; the output of the adder is connected to the inputs of the second and third trigonometric converters, the first and second outputs of the second trigonometric converter are connected respectively to the second input of the first imlipoBoro attenuator and to the input of the first sign determining unit, the first and second outputs of which are connected respectively to the first inputs of the first and second valves first and the second outputs of the third trigonometric converter are connected respectively to the second input of the second digital attenuator and to the input of volts Opoh block of definition of the sign, the first and second outputs of which are connected respectively with the first entrances of the fourth and third valves; output

the first digital attenuator is connected to the second input of the first valve and through the second phase inverter to the second input of the second valve; the output of the second tiger attenuator is connected to the second input of the third valve and through the second azo inverter to the second input of the fourth valve; the outputs of the valves are connected to the inputs of the adder.