SU474102A1 - Digital phase shifter - Google Patents

Description

The invention relates to a pulse ..HHixe technology and can be used in discrete devices. Synchronization of radio communication systems.

A digital phase shifter is known, which contains a counting pulse generator connected by its output simultaneously to the first inputs of the first and second shapers of single pulses and to the first input of the first valve, the first pulse counter, the output of which is simultaneously connected via the first input and output of the first Tpairreipa, the second input and the output of the first valve is to the first input of the first counter of pulses, and through the first inputs and outputs of the first “I - to l” circuits to the corresponding inputs of the first pulse counter, starting from the second input, to About the second inputs of the first And circuits are connected via the input and output of the register to the input of the control of the phase shifter, and the input of the digital phase shifter at the same time: one to the second input of the first single pulse generator n through the inverter to the second input of the second single pulse generator, and the second trigger output is output of the digital phase shifter.

A disadvantage of the known digital phase shifter is the limited range of variation of the phase shift, not exceeding, as a rule, the value of 180.

In order to increase the range of phase 1P1 to 360 ° in the proposed phase switch, the output of the first single-pulse former is connected to the second input of the pego trigger, the output of the second O-diary generator is connected to the iiepsoMy input of the second trigger through successively Included first input and output the third trigger, the first input and output of the second valve, the first input and the output of the second counter 8 and the pulses connected by its output simultaneously to the second input of the third T1 rigger, and through the first inputs of the second circuits And - to the corresponding inputs of the second counter. Pulses, starting from the second input, to the second inputs of the second circuits "And. The register output is connected, the output of the first counter | Ik of pulses is connected to the second input of the second trigger (pa, and the output of the counting pulse generator - to the second input of the second valve.

FIG. 1 shows the block diagram of the proposed digital phase shifter; in fig. 2 - time diagram of his work.

The digital phase cutter contains a generator of 1 counting pulses, a form driver of 2 single pulses, and an inverter 3, which forms 4 single pulses, a trigger 5,

VGP-ll 6, C4eT4iiiK 7, trigger 8, register 9, trigger 10, valve 11, counter 12.

The input sinusoidal signal (for example: measures, such as a meander) and the driver of 2 single imiums not, admittedly and temporarily, is transmitted through inverter 3 to the driver of 4 single pulses. In addition, these shapers receive counting pulses from the generator /, which are synchronized: they output the output pulsed sequences of the shaper 2 and 4 from the high frequency generator pulses /, as a result of which the reliability of the pajOTbi three-G hero. 5 and 10 and the gates 6 and //.

Thus, according to the time diagrams (Fig. 2) from the formers 2 w. 4 receive a series of imatuls, the period of which is equal to 1 period of the input signal, and the duration of the pulses is equal to the duration of the pulse of the high-frequency signal of the generator /. The shift between these series of pulses is constant and, in particular, for the sine-sided signal is 180 °, which is ensured by inverting the signal (inverter 3) and the principle of the 2 4 shapers, which give a signal on the positive transition of the input signal through the zero level. Pulse and tracers, arriving at the single inputs of the flip-flops 5 and 10, open the valves 6 and // correspondingly and through the HEX counting pulses from the generator / pass to the counters 7 and 12, the number of which is equal to the set delay value () in register 9. For this in each work cycle, counters 7 and 12 are transferred by an impulse from the output of the counters through the input valves of each digit of the counters, and the control number from the register 9 is entered (Corr.) Lo corresponding to the additional CODE. Therefore, the pulses at the output of the 7 m 12 counters appear through the same and equal / Vynp number of periods of the counting pulses, but shifted one relative to each other, as well as the pulses from the outputs of the 2 and 4 drivers (in the time diagram - the outputs of the valves 6, 11 and the outputs counters 7, 12). The formation of the imiuls package equal to jVynp is performed by emulating and transferring from the outputs of counters 7 and 12, which respectively set the triggers 5 and 10 to the zero state, closing the valve with the very gate 6 and // before the next pair of pulses arrives from the formers 2 n four.

In addition, the transfer pulses from the trigger points 7 and 12, arriving at the mouth of the trigger inputs, form an output signal of the meander type, which, if necessary,

the filter is converted into a sinusoidal signal.

Thus, inputting various values of the binary number yVynp, which is approximately the same as the required phase shift, produces at the output a signal that is shifted relative to the input delay variation from 0 to 360 ° over the entire range with an accuracy determined by the nominal frequency of the counts. The ratio of the input frequency and the frequency of the generator, proportional to the required accuracy, determines the size (capacity) of counters 7 and 12.

Subject invention

A digital phase shifter containing a counting pulse generator, pad-keying its output simultaneously to the first input, the first and second shapers of the single (pulse and To the first input of the first valve, the first pulse counter, the output of which is simultaneously connected through the first input and output of the first trigger, the second input and output of the 1st valve - to the first input of the first counter of pulses, and through the first inputs and outputs of the first circuits and the corresponding inputs of the first counter of pulses, starting from the second input, to the second in One of the first circuits is connected through the input and output of the register to the control input of the phase shifter, and the input of the digital phase shifter is simultaneously connected to the second input of the first form | of the single pulse generator and through the inverter to the second input of the second single pulse former, the output of the second trigger is the digital output phase dilator, characterized in that, in order to increase the range of the phase change up to 360 °, the output of the first single pulse generator is connected to the second input of the first trigger, the output of the second About the single-emitter of single impulses connected to the first input of the second trigger through sequentially connected nerve input and output of the third trigger, first input and output of the second valve, first input and output of the second pulse counter, connected to the second input of the third trigger, and through the first inputs n of the second circuits corresponding to the inputs of the second pulse counter, starting from the second input, QO to the second inputs n of the second circuits “And the register output is connected, the output of the first pulse count is connected to about the second input of the second trigger, and the output of the counting pulses generator - “about the second input of the second valve.