SU240130A1 - STRIP FILTER ON COUPLED LINES - Google Patents

Description

Band-pass filters on associated lines are known. In order to reduce the dimensions of the known bandpass filters on the associated lines, their contours are located one inside the other or are loaded with a concentrated capacity. In the first case, the size of the filter, defined by a quarter-wave length of the pick, cannot practically be reduced, since the connection is assumed along the entire length of the contour. In the second case, to reduce this size, special capacitors should be used, the spread of parameters of which is unacceptable, or variable (semi-variable) capacitor capacitors. This imposes strict requirements on the design of the vessel and the tolerances on its dimensions.

The proposed device differs from the known ones in that in order to reduce the size of a microwave bandpass filter on connected lines without using special capacitors, the distributed connection between its circuits is made only on a part of the circuit, and the remaining part complements the connected section to a length equal to I (4) is formed by the intermingling of said cylindrical surfaces, which are located inside the connected part of the contour.

Bandpass filter circuits and their constructive execution can be given for the case of contour filters with a reduction in the length of the contours by (k + l) times, where k is the number of segments of single lines connected to each connected segment.

The bandpass filter circuit consists of a cascade connection of the 1 and 2 segments of the same electrical length with the impedances Zi and 2 connected to the short-closed line segment in series or in parallel. The connection between the circuits is carried out through segments 3 with a characteristic impedance W of the same electrical length and with a characteristic impedance of connection G, 2.

The schemes allow you to constructively perform a bandpass filter in such a way that a segment of a single line with characteristic impedance Zi (cylindrical surfaces 4 and 5) is located inside a segment of a single line with wave resistance Z (cylindrical surfaces 6, 7), which in turn is located within a short-circuited segment of line 8 with a characteristic impedance W associated with the following loop 9.

The input and output connectors are connected to the free ends of the impedance lines Zi (solid arrows, fig. 1)

or IK to the point of parallel connection of the segments 2 and 5 (dotted arrows).

The function of the working attenuation of the proposed pole filters after converting the known formulas can be written as

L l + / i2 (e) (fe + l) e) 2, where (fe-M) e is a polynomial of degree n (in particular cases, a Chebyshev polynomial or a power function);

ft2 / o - frequency-dependent amplitude factor.

From the above expression it can be seen that the first transparency band of the filter is

with (k +) & ---, i.e. with electrical length

not every segment in

2 (k +)

the number of single segments equal to 1, 2, 3, get the first pass band of the filter

at 6 -,

- respectively. four

 Thus, a reduction in the size defined by the value of 0 can be obtained by 2, 3, 4 ... times.

TG

Subject invention

A band-pass filter on connected lines, consisting of two coaxally arranged

cylindrical surfaces and a shorting line segment, characterized in that, in order to reduce the size determined by a quarter of the length of the will, the defined connection between its contours is made only

on the part of the contour, and the remaining part, which complements the connected section up to a length equal to H / 4, is formed by the said cylindrical surfaces inside one another, located inside the connected part of the contour.

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