SU1626273A1 - Phase keyer - Google Patents

Abstract

The invention relates to radio engineering and can be used in radio receiving and radio transmitting devices. The aim of the invention is to provide a four-position phase / 2-manipulation. The phase manipulator contains a dielectric resonator (DR) 1, section 2 of the cylindrical transverse waveguide, short-circuited at both ends, input transmission line 3, ring coupling element 4, output coupling half loop 11, chokes 12, quarter-wave transmission line and five switched diodes made in the form of nipl-p-structures. The commutating diodes are connected to the ring element 4, so that when they are switched, the ring element 4 is broken into two half-rings, which are connected to the input line 3 of the transmission either directly or through a quarter-wave segment of the transmission line, and a half-ring is excited in DR 1 with a definite phase. The goal is achieved due to the fact that when connecting a quarter wave segment of the transmission line in DR 1, a field is excited with four phase states that differ by 1/2. 7 il. cl

Description

FIG. one

The invention relates to radio engineering and can be used in radio receiving and radio transmitting devices.

The purpose of the invention is to provide a four-phase / 2-mA phase. pul.

FIG. Figure 1 shows the phase manipulator design; in fig. 2 shows section A-A in FIG. 1, in FIG. 3 - electrical schematic diagram of the phase manipulator; in fig. 4 shows an equivalent circuit for connecting a communication element to an input transmission line for a phase condition of 1 °; on flash 5 - the same. for phase state ifn 180 °; in fig. 6 is the same for the phase state I in FIG. 7 - the same, for the phase state of 90 °.

The phase manipulator contains a dielectric resonator (DR) 1, a short-circuit and at both ends a segment of a cylindrical transverse waveguide 2 that is a screen for DR 1, the input line 3 of the transmission, the ring element 4 of communication, g first commuted diodes 5-9, a quarter-wave section 10 of the transmission line, output half-loop 11, and chokes 12.

Phase manipulator works as follows.

A dielectric resonator 1, located in a segment of a cylindrical waveguide 2 short-circuited at both ends, is excited from the side of an input transmission line 3 via an annular coupling element 4.

When a positive control voltage is supplied from a switching voltage source (not shown) to switched diode 5, and a negative one to switched diodes 6-9, the upper semi-ring of the communication ring element 4 is connected to the input transfer line 3, This DR1 is excited with a certain phase, which we take to zero, i.e. pg- $ °. With a positive control voltage on the switched diode 6 and negative on all other diodes DR1 is excited by the lower half loop (Fig. 5) and the field in it has opposite phase. those. .

With the closed switched diodes 5 and 6 and the supply of control voltage to the switched diode 7, the input transmission line 3, connected to the ring communication element 4 to the junction point of the switched diodes 8 and 9, through the quarter-wave segment of the transmission line 10, is thus extended by A / 4, which corresponds to a phase incursion in it of 90 °. Therefore, including alternately switched diodes 8 and 9 with switched diode 7 turned on, excite

The DS1 top (Fig. B) or the bottom (Fig. 7) half-loops of the annular communication element 4 and the phase of the field in DR 1 differs from the two initial states by 90 °, i.e. ps 90 ° + 180 ° 270 ° and at 90 ° + 0 ° 90 °.

Thus, in DR 1, a field with four phase states is excited, i.e. A four-position / 2-keying input signal is provided. Phased signal through

the output communication half loop 11 is fed to the output of the phase shift key.

In order to simplify the switching circuits, all switched diodes are made in the form of n – l – p – r – n structures, the p-poles of which are connected to the source of the switching voltage, and the n-poles are connected via a choke 12 to the phase manipulator case.

Phase manipulator due to the filtering properties of the DR has a small level of extra-pole radiation.

Claims (1)

Formula of an izobreteni Phase manipulator containing a dielectric resonator placed in a segment of a cylindrical transversely waveguide shorted at both ends, located coaxially with the dielectric resonator at one of its ends a circular element, in the rupture of which through the first and second switched diodes a transmission line is included, located coaxially with the dielectric resonator from its other end, the output communication half-loop and source of switched voltage, characterized in that in order to provide a four-phase phase l / 2 manipulations, a quarter-wave segment of the transmission line was introduced, one end of which is connected through the inputted third switched diode to the connection point of the input transmission lines to the ring communication element, and the other end of it through the entered fourth and fifth The switched diodes are connected to a diametrically opposite point of the ring element in its rupture, all the switched diodes are made in the form of n-i-p-i-p-structures, the p-poles of which are connected to the source of the switching voltage. ten FIG. one   90 ° tI800 2700 FIG. 6 FIG. five E J 1/7 900 + 0 ° --90 ° Fig 7