SU1150681A1 - Two-channel selector switch - Google Patents

Abstract

A TWO-CHANNEL SWITCH containing a tee, to the first arm of which at one end is connected a primary quarter-wave segment of the transmission line, parallel to which at the other end of the anode is connected the first switching diode and which is electromagnetically connected to the secondary segment of the transmission line, and the second and third switching diodes, differing from that, in order to increase the attenuation in the mode, "Closed, a phase shifter is inserted into it, which is designed as an additional segment of the transmission line, the second and third switches guides diodes connected in series, in accordance, with the cathode of the second switching diode is connected to the second port of the tee and the anode of the third switching diode is connected to one end of an additional length of the transmission line, the other end of which podklyuchea to the secondary transmission line segment. ® I.

Description

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The invention relates to radio engineering and can be used in the receiving and transmitting equipment of the microwave range. Known multichannel switch containing a divider, to the output channels of which are connected strip transmission lines, parallel to each of which, at a quarter-wavelength distance from the branching of the channels, switching diodes 1 are connected. However, such a switch has large losses in open channels. Closest to the proposed technical entity is a two-channel switch containing a tee, to the first and second output arms of which are connected quarter-wave segments of the associated transmission lines. At the same time, the first switching diodes are connected to the free ends of their primary segments and parallel to them by anodes; the second and third switching diodes 2 are connected in parallel to both ends of both secondary segments. A disadvantage of the known two-channel switch is the leakage of the signal from the open channel to the closed one, which is due to the low attenuation in a closed channel The purpose of the invention is to increase the attenuation in the “Closed. The goal is achieved by the fact that in a two-channel switch containing a tee, to the first arm of which one end is connected a primary quarter-wave segment of the transmission line, in parallel with which the first commutating diode is connected by an anode and which is electromagnetically connected to the secondary segment of the transmission line, and the second and the third commutation diodes, the phase shifter is introduced, which is designed as an additional segment of the transmission line, the second and the third commutation diodes are connected according to the sequence In this case, the cathode of the second switching diode is connected to the second tee arm, and the anode of the third switching diode is connected to one end of an additional segment of the transmission line, the other end of which is connected to the secondary segment of the transmission line. The drawing shows an electrical schematic diagram of the proposed two-channel switch. The two-channel switch contains a tee with a first shoulder 1, a second shoulder 2 and a third shoulder 3, the first quarter-wave segment 4 of the transmission line with the first switching diode 5 connected to it, connected to the first quarter-wave segment 4 of the secondary segment 6 line connected to the first shoulder 1 g redachi, an additional segment 7 of the transmission line, the second and third switching diodes 8 and 9. The control circuit of the first, second, third switching diodes 5, 8 and 9 includes series-connected choke 10 and a capacitor 11. A two-channel switch operates as follows. To transmit a signal from the first arm 1 to the third arm 3, a negative bias is supplied from the control circuit, which closes the first, second and third switching diodes 5, 8 and 9. At the same time, the useful signal passes from the first arm 1 to the third arm 3. A part of the signal leaks out through the closed second and third commutating diodes 8 and 9 into the second arm 2 through the tee, and part of the branch into the secondary segment 6 of the primary quarter-wave segment 4. By selecting the length of the additional segment 7, it is possible to compensate for these seepage sy Nala. When the displacement polarity is changed, the first, second, and third switching diodes 5, 8, and 9 open. In this case, the first arm 1 is shunted by the first switching diode 5, and the second arm 2 is open. Comparative tests showed that the proposed Dual Channel switch has 15 dB more attenuation in the closed channel (in the “Closed” mode) and 5 times less attenuation in the “Open in comparison with the known” mode.

Claims (1)

A TWO-CHANNEL SWITCH comprising a tee, to the first arm of which a primary quarter-wave length of a transmission line is connected at one end, parallel to which a first switching diode is connected at the other end thereof and which is electromagnetically coupled to a secondary length of the transmission line, and a second and third switching diodes, characterized in that, in order to increase the attenuation in the “Closed” mode, a phase shifter is introduced into it, which is made in the form of an additional segment of the transmission line, the second and third commuting iody according connected-in series, the cathode of the second switching diode is connected to the second port of the tee and the anode of the third switching diode is connected to one end of an additional length of the transmission line, the other end of which is connected to the secondary transmission line segment.