SU560263A1 - Broadband transformer - Google Patents

Description

a cut of 90 °, this difference leads to a phase difference of 180 ° in a narrow frequency range.

The aim of the invention is to expand the bandwidth.

This goal is achieved by the fact that parallel to the output of each of the mentioned lines, except the last, an inductance is connected.

FIG. 1 shows a variant of the proposed transformer 1: 2, containing two coaxial lines 1 and 2, at the inputs of which external conductors are connected to a grounded clamp 3, and internal conductors are connected to an ungrounded terminal of source 4 unbalanced relative to a grounded clamp 3. At the output of lines 1 and 2 internal the conductor of the line 1 is connected to the ungrounded clamp of the load 5 asymmetrical with respect to the sheath, to its ground 3, and the external conductor of the line 1 is connected to the internal conductor of the line 2, the external conductor of which is connected to the ground to terminal 3. Inductance 6 is connected in parallel with the output of line I.

FIG. 2 shows a variant of a 1: 3 transformer containing three coaxial lines 7, 8, and 9, at the inputs of which the internal conductors are connected to source 10 and the external conductors to the locked 11. At the outputs of these, the internal conductor of line 7 is connected to the load 12 and its outer conductor is connected to the inner conductor of line 8, the outer conductor of which is connected to the inner conductor of line 9, the outer conductor of which is connected to the grounded terminal 11. Inductance 13 is connected parallel to the output of line 7, and inductance 14 is connected parallel to line 8.

Consider the operation of the device in FIG. one.

Since the inputs of lines 1 and 2 are connected together, the input line voltages are the same. Since parallel to the output of line 2, the inductance of the external conductor of line 1 acts, then in the absence of inductance 6

the voltages at the outputs of lines I and 2 will add up in different phases at narrow frequency intervals, giving dips in the frequency response. To eliminate them, it is necessary to connect inductance 6 parallel to the output of LINE 1, which is equal to the inductance of the external conductor of line 1. Then the voltage at the outputs of lines 1 and 2 will be equal to the amplitude and common mode. In the device of FIG. 2 inductance 14

ensures equality in amplitude and phase of the output voltages of lines 8 and 9. However, since the outputs of lines 8 and 9 parallel connected in series are inductance of the outer conductor of line 7,

In order to compare the output voltage of the line 7 with the output voltages of lines 8 and 9, it is necessary to connect inductance 13 parallel to the output of line 7, equal to half the inductance of the external conductor of line 7.

The invention of sushi naturally extends the working frequency band.

Claims (1)

Invention Formula A broadband transformer with an integer transformation ratio that contains coaxial lines that are coiled, at the inputs of which external conductors are connected to a grounded power supply terminal, and internal conductors to an ungrounded source terminal, at the outputs of these lines the internal conductor of the first line is connected to an ungrounded load terminal the conductor of each line except the last one is connected to the internal conductor of the next line, and the external conductor of the last line is connected to a grounded load terminal and characterized in that, in order ) An increase in the frequency band, parallel to the output of each of the above-mentioned lines, except for the last one, is connected to the inductance. //