SU1688313A1 - Band-pass filter - Google Patents

Abstract

The field of use is miniature frequency selective devices. The purpose of the invention is to increase the barrage. The band-pass finitr contains resonators 1 of line segments, open at end 2 and connected in series with 3 transmission lines. Between each resonator 1 and segment 3, a short-closed cable 4 is connected in series, and an open cable 5 is connected in parallel to the middle of segment 3. the selection of the lengths and wave resistances of the open loop 5 and the short-circuited loop 4 ensures the rarefaction of the spectrum of parasitic passbands in the obstacle band. 1 silt, 1 tab.

Description

The invention relates to microwave technology and can be used in the construction of miniature frequency-selective devices.

The aim of the invention is to increase the bandwidth of the fence.

The drawing schematically shows the design of the filter.

The band-pass filter contains resonators 1 of the line segments, open at the end 2 and connected in series by the segments 3 of the transmission lines. • Between each resonator 1 and segment 3, a short-circuited loop 4 is connected in series, and a parallel-open loop 5 is connected to the middle of each segment 3.

Band-pass filter operates as follows.

The microwave signal in the passband passes through resonators 1, segments 3, short-circuited and open loops 4 and 5. All these elements satisfy the following conditions:

the frequencies of the sequential (ay) (I - 1,2 ...) and parallel {ΰφι} resonances of all resonators' 1 coincide ·, the segments 3 are symmetrical four-terminal, whose frequencies (Odya), {<Ur |} in the idle mode coincide with the corresponding frequencies of the resonators 1;

the transmission resistance of segments 3 at frequencies {yy} does not vanish, while the passband (PP) coincides only with the frequencies {ωμ}.

For filters that satisfy the above conditions, the mutual removal of the main and spurious (first spurious) passbands is determined by the equality R = <ϋο2 / ωοΐ. The structural elements of the prototype satisfy these conditions, it has a value of R ^ “3.

The task of constructing a bandpass filter with significant mutual! removal of the main and parasitic SPs (a wide obstacle band) reduces to the synthesis of structural elements satisfying the above conditions and at the same time characterized by a significant 'mutual removal of the frequencies of the successive resonance adi, cite. These qualities are possessed by the structural elements of the band-pass filter where W _P is the wave impedance of resonator 1;

rBp = Wmp / Wp - relative wave impedance of a short-circuited loop 4;

Wuip - wave impedance of a short-circuited loop 4;

V is the propagation velocity of the electromagnetic wave.

From the expression (1) it follows that the frequency spacing itoi, <Д02, characterized by the value of R, in the newly formed resonator is greater than in the resonator 1. The dependence of R on rp is expressed by the formula

R (t _p ) = -----— 1, (2) which follows from expression (1). The values of this dependence are given in the table.

When the length of the loop is equal to half the length of the resonator, the maximum value of R is ensured. The table shows that the value of R increases with increasing lpr, i.e. with increasing wave impedance Wtnp of a short-circuited loop 4.

With decreasing salt resistance Wi _UC open loops 5 mutual removal of the frequencies of the holes? segments 3 in idle mode increases. If, in addition, the parameters rp _rn and _{rn from the} resonator and segment 3 coincide, then their frequencies (Wb, ίφι} also coincide. And since the transfer resistance of segment 3 does not vanish at frequencies ay, the above conditions are also fulfilled the filter has a passband associated only with the Woi frequencies.For such a filter, the mutual removal of the main and spurious PPs is determined by equality (2), which together with the above table indicates a significant expansion of the obstacle band.

Claims (1)

Claim A band-pass filter containing resonators from line segments, open at the end and connected by segments of the transmission line in series, characterized in that, in order to increase the obstacle band, a short-circuit loop is subsequently connected between each resonator and the length of the transmission line, and to the middle of each a piece of transmission line connected in parallel open loop. t ₀ 1 2 3 5 7 10 R 5 6.5 7.7 9.7 11,4 13.6