SU938196A1 - Phase-shifting device - Google Patents

Description

(54) PHASE-DEVELOPING DEVICE

Claims (2)

The invention relates to a measurement technique and can be used in phase measuring instruments, in time interval meters, in phase calibrators and time slots. A phase shifter is known, which contains an input voltage driver, a frequency multiplier, a cross circuit, and a phase-shifted output voltage driver. However, such a device has a relatively low accuracy and is quite difficult. A phase-shifting device is known that generates a predetermined phase shift relative to the input signal, and contains a generator, a time delay device and an output device. However, such a device is difficult in its design. The closest in technology to the proposed device is a phase-shifting device containing an input voltage driver, a reversible counter, frequency sources and elements, And the output of the frequency generator through the first element And is connected to the subtraction input of the reversible counter, the input of which through the second element And is connected to the output of the frequency source and the input of the third element And, in addition to B (the device code is connected to the driver input. The purpose of the invention is to expand the range of settable phase shifts. This goal is achieved in that a known phase shifter containing an input voltage driver, a reversible counter, a frequency generator, and AND elements, the output of the frequency generator through the first And element connected to the subtraction input of a reversible counter; an additional valve group, an auxiliary counter, is introduced. the zero decoder, the control trigger and the second frequency divider, the output of which through the second element I is connected to the network input of the auxiliary counter and through the third element I to the summing of the input of the reversible counter, the input set to 1 of the control trigger is connected to the output of the ramp, and O - to the output of the zero decoder, while the direct output of the control trigger is connected to the second inputs of the first and second elements AND, and the inverse to the second input of the third element I, and the reset input of the auxiliary counter from It is connected with the output of the three elements AND, the outputs of the auxiliary counter are connected to the corresponding inputs of the reverse counter via a valve group connected with its control input and output of the zero decoder, which is the output of the device. Such introduction of new elements and new connections allows to expand the range of setting new shifts. The drawing shows a structural diagram of the proposed phase-shifting device. Phase shifter The device includes an input voltage driver 1, a frequency generator 2, a frequency divider 3, And 4-6 elements. control trigger 7, reversible counter 8, valve group 9, counter 10 and a decoder 11 zero, with one input of control trigger 7 connected via driver 1 to the input bus, the other input is combined with the output of the device and control input of the valve group 9. The output of generator 2 is connected respectively, through the element 4 with the subtraction input of the reversible counter 8, and through the divider 3 frequencies with the combined inputs of the elements 5 and 6. The output of the element i 5 is combined with the input of the reversing counter 8 and the input Reset of the counter 10, counting Which is connected to the output of the element 6, and the output through the valve group 9 is connected to the inputs of the bits of the reversible counter 8, the output through the decoder 11 is the zero connected to the output of the device. In addition, the corresponding outputs of the trigger 7 are connected to the second inputs of the elements And 6, 4, 5. The device operates as follows. In the initial position, the state of individual elements in the scheme is arbitrary. Shaper 1 is supplied with an input sinusoidal voltage, where it is formed into short pulses of positive polarity, corresponding to the moments of the input signal crossing zero in one direction. The first impu; 1c from the output of the imager 1 arriving at the input of the trigger 7 sets it in such a position that AND 4 and 6 are unlocked. Through the AND 4 element, the pulses from the output of the generator 2 arrive at the subtracting input of the reversible counter 8, reducing the code available before the arrival of these pulses in the counter. Element 6, the input of the auxiliary counter 10, which is impulsed from the output of element 5, starts to receive pulses from the output of the divider 3 frequencies, the frequency of which is And the MeifTrttte frequency of the oscillator 2 times. At the time when the reversing counter is reset, the decoder 11 zero, producing at its output a pulse. This pulse opens the valve group 9, recording in the reversible counter 8 a code of the same number of pulses that the auxiliary counter 1O has counted by this time. Simultaneously, the pulse from the output of the decoder 11 zero is fed to the second input of the trigger 7 control, carried out his transfer. In this case, the elements And 6, 4 are closed, and the element And 5 opens. Through the element And 5 on summations, the input of the reversible counter 8 starts to receive a sequence of pulses from the output of the divider 3 frequency. Thus, by the time the next pulse passes from the output of the imaging unit 1, the code for the converted time interval (period) is formed in the reversible counter 8, as if it had been filled during the entire period with pulses from the output of the divider 3 frequencies. IF the occurrence of the first pulse at the output of the decoder 11 depends on the initial state of the reversible counter 8 at the moment of arrival of the first input pulse and in most cases does not correspond to half the period of the time interval between the first and second input pulses from the output of the former 1, then starting from The second input pulse in the frequency divider is set to normal operation. The appearance at input 7 following a pulse from the former 1 again returns trigger 7 to the state where element 5 is locked, elements 6 and 4 are open, and through the last to the subtracting input of the reversing counter 8 the subtracting pulses from the generator output 2. The incoming frequency of these pulses is I times the summed impulses, while the reversing counter 8 is reset at the moment corresponding to the time T / P of the time interval between adjacent input pulses. The operation of the decoder 11 leads to the appearance at the output of a pulse with a shift by T / P and to the recording in the reversible counter 8 of such a number of pulses from the output of the divider 3 frequencies, which by this time moment has an auxiliary counter. Changing the division factor of frequency divider 3 allows discretely changing the phase shift of the output impulse sequence within BDO / P where AND 2, 3, 4 ... The phase shift in this case is respectively 18Oj 120 °, 90, etc., which significantly enhances the functionality of the proposed device in comparison with the known. Use as an auxiliary frequency source makes it possible to synchronize with each other both sequences (both frequency sources) thereby increasing the stability of the phase shift of the output sequence. Claims. A phase shifter containing an input voltage driver, a reversible counter, a frequency generator, and And elements, the output of the frequency generator through the first element And connected to the subtraction input of a reversible counter, characterized in that, in order to expand the range of the set phase shifts, a valve is inserted into it group, auxiliary counter, zero decoder, control trigger, frequency divider, the output of which is connected through the second element I to the counting input of the auxiliary counter and through the third element t And to the summing input of the reversible counter, the installation input in 1 of the control trigger is connected to the driver shaper, and the installation input in O - to the output of the decoder zero, while the direct output of the control trigger connects to the second inputs of the first and second elements And, and inverse to the second input of the third element And, and the reset input of the auxiliary counter is connected to the output of the third element And, the outputs of the auxiliary counter are connected to the corresponding inputs of the reversible counter through a valve connected by its control conductive input to the decoder kopu zero, which is the output of the apparatus. Sources of information taken into account during the examination 1. USSR author's certificate No. 759978, cl. GOIR 25/04, 198O. 2, USSR Author's Certificate No. 451019, cl. G01R 25 / O4, 1974.