SU752186A1 - Phase shifter - Google Patents

Description

The clock signal (Fig. 2a) from the output of the reference generator) is fed to the input of the generator 2 of the shifted sequences of imples with a duration t and a period Go {Fig. 2 b, c, d, e). The time shift of each sequence relative to the previous one is equal to TQI Go // / „. where The state of the control signal register 3 determines which of the sequences is passed through by the switch 4. The temporary position of the control command (Fig. 2 h) can be any one of: with the agreement of the moment the command arrives to the signal transition at the switch output. block 5 is time bound. Suppose that at the output of switch 4 there is a sequence of pulses (Fig. 26). A frequency divider 6 with a division factor / Cd, 2 converts a sequence of pulses (Fig. 2 b) into a square wave (Fig. 2e). The output signal from the frequency divider 6 is fed to a sawtooth voltage generator 7, performed on an operational amplifier with a reactive element in the feedback circuit. The signal generated by the sawtooth generator (Fig. 2 and) is fed to the first input of the comparator 8, which switches the output signal level "1 or" O at the time of comparison of the sawtooth and reference voltages. The reference voltage is fed to the second input of the comparator 8 and is formed by a digital-to-analogue converter I connected to the reversible counter L-O. A change in the state of the reversible counter W leads to a change in the magnitude of the reference voltage and, consequently, the phase of the pulse train at the output of the divider / frequency. Frequency divider 11 with the division factor Kc, 2 can be connected to the inverse (Fig. 2n) or non-inverse (Fig. 2k) outputs of the comparator, depending on the conditions of the problem being solved. The number of bits of the reversible counter 10 is determined by the necessary discrete phase change within the time, interval / and and is equal to n and a where A is the required phase change. When writing to the reversible counter JO of the number of imulses (Fig. 2 g), equal to K, arriving at the input Bx. 3, the phase of the output sequence is changed to a value (t "/ n). K, where K O, I, 2 ..., p (Fig. 2n). The sign of this change is determined by the signals input to input B. 1. When the reversing counter 10 is zeroed or overflowed, a signal is produced, changing the value of the signal of the register 3 of the control signal through the time lock block.

which leads to a change in the sequence at the output of the switch 4. The change in the state of the register 3 of the control signal also occurs according to the signals (Fig. 2h),

entering the input Bx. 2. Signals that are shown on the input. 2, of, the status of register 3 is changed regardless of the number of pulses recorded in the reversible counter 10. (In the example shown in Fig. 2, a reversible counter up to module 3 is used). Introduction of the sawtooth voltage generator, comparator, digital-to-analog converter to the phase shifter circuit (reverse counter and splitter dividers allows to significantly reduce the discrete change in the phase sequence of the pulse sequence. Due to this, the use of this phase shifter as an actuator of the following PD systems and

PLLs can improve tracking accuracy, and when using a phase shifter as a generator of FM oscillations, improve the characteristics of the generated signals.

Claims (1)

1. The calculation of the elements of pulse and digital circuits of radio devices. Under. ed. Yu. M. Kazarinov. M., “Higher School, 1976, p. 337. Npppppppppppppppp but Yy-hl P n n n pnp pppppo p p ppp p. n n n n JO. P . P JO. eleven i to p- Tz./