RU1542363C - Digital phase inverter - Google Patents

Abstract

FIELD: radio engineering. SUBSTANCE: digital phase inverter provided with two switched four-terminal networks has two states in one of which input signal reaches output through strip conductor 1, slit 2, and strip conductor 3; in this case, n-i-n diodes 4 and 6 are conductive and p-i-n diodes 5 and 7 are cut off. In other state input signal goes to output through strip conductor 8, slit 9, and strip conductor 10; in this case; p-i-n diodes 5 and 7 are conductive and p-i-n diodes 4 and 6 are cut off. In these states, phases are inverted and leads of strip conductors 3 and 1 shorted out for alternating current are located on one side of slit 2 and those of strip conductors 8 and 10 shorted out for alternating current are placed on either side of slit 9. Similar configuration of switched four-terminal networks provides for frequency independence of 180 deg. phase shift throughout entire frequency band of strip-to-slit adapters. EFFECT: reduced dependence on frequency. 1 dwg

Description

 The invention relates to radio engineering and can be used in phase control devices for microwave signals.

 The aim of the invention is to reduce the frequency dependence.

 The drawing shows a simplified topology of a discrete phase shifter.

 The discrete phase shifter comprises a first commutated four-terminal device made in the form of two series-connected strip-slot junctions formed by the first strip conductor 1, the first slot 2 and the second strip conductor 3, and switching is carried out by the first switch on pin diodes 4 and 5 and the second switch on pin -diodes 6 and 7, the second commutated quadripole is also made in the form of two series-connected strip-slot transitions formed by the third strip conductor 8, sec 9 th slot and fourth strip conductors 10. All strip conductors are disposed on one side of the dielectric substrate 11, the other side of which is metallized and the metallization formed in the first and second slits 2 and 9.

 The electric lengths of the first and second commutated four-terminal networks are chosen equal, i.e. the total geometric length of the first and second strip conductors 1 and 3 is equal to the total geometric length of the third and fourth strip conductors 8 and 10, and the geometric lengths of the first and second slots 2 and 9 are also equal.

 A short circuit in alternating current at the edges of the corresponding slit of the ends of the first to fourth strip conductors 1, 3, 8, 10 can be achieved either by connecting these ends to metallization through metal jumpers, or (as shown in the drawing) by opening these ends at a quarter wavelength from the edge of the corresponding gap.

 Discrete phase shifter operates as follows.

In one state of the discrete phase shifter, the input signal passes to the output through the first strip conductor 1, the first slot 2 and the second strip conductor 3, while pin diodes 4 and 6 are open, and pin diodes 5 and 7 are closed. In a different state of the discrete phase shifter, the input signal passes through the third strip conductor 8, the second slot 9 and the fourth strip conductor 10, while the pin diodes 5 and 7 are open and the pin diodes 4 and 6 are closed. The phase shifts of the discrete phase shifter in one and its other states differ by 180 ^° , since the ends of the first and second strip conductors 1 and 3, short-circuited in alternating current, are located on one side of the first slot 2, and the ends of the third and fourth strip conductors, short-circuited in alternating current, 8 and 10 are placed on opposite sides of the second slot 9.

 The same topology of the first and second commutated four-terminal provides frequency independence of a 180-degree phase shift in the entire frequency band of strip-slot transitions.

Claims (1)

 A DISCRETE PHASOR containing the first and second switched four-terminal with a 180-degree phase shift, while the first switched four-terminal is made in the form of series-connected strip-slot transitions formed by the first slot, the first and second strip conductors, the ends of which are short-circuited along alternating current at the edge the first slit on one side thereof, characterized in that, in order to reduce the frequency dependence, the second commutated quadripole is also made in the form of two therefore connected stripline gap-junctions formed by the third and fourth strip conductors and a second slit, wherein the short-circuited alternating current ends of the third and fourth strip conductors arranged at the edge of the second slot on the opposite side thereof, and the electrical length of the first and second switched quadripoles chosen equal.