SU866616A1 - Band elimination filter - Google Patents

Description

The invention relates to radio engineering and can be used in receiving devices for suppressing microwave signals. A bandpass filter is known which contains a segment of a microstrip meander line with an electromagnetic coupling of neighboring quarter-wave links 1. However, the known device is difficult to couple to the elements of the path without introducing a mismatch and distortion of the amplitude-frequency characteristics already existing in the filter circuit. The purpose of the invention is to provide matching in the barrier band. For this purpose, a resistor is included in the band-rejecting filter containing a segment of a microstrip meander line with an electromagnetic coupling of neighboring quarter-wave links between each non-connected ends of the neighboring quarter-wave links. FIG. 1 shows a microstrip filter circuit. On the basis of a meander line; in fig. 2 is a simplified equivalent circuit of the input impedance of the filter in the stopband. The device contains a segment 1 of a microstrip meander line with quarter-wave links, on which points 27 are conventionally chosen, resistors 8. The device operates as follows. At the frequencies of the signal, the length of the quarter-wave links becomes. If the voltage at point 2 is positive and has a maximum amplitude, at points 3, 5, 7 is equal to O, since they are separated from it at a distance of L / 4, ZL / 4, 5L / 4, respectively. At points 4 and 6, the voltages are respectively negative and positive, since the omi is separated from point 2 by the distance L / 2 and D .. Therefore, current through the resistors 8 at points 2–4 and 4–6 flow to the current. If the voltage amplitudes at points 2 and 4, for example, are equal from the condition of symmetry across the resistor along the axis of symmetry, a zero potential line passes and the middle of the resistor seems to be grounded. The voltages at points 3, 5, 7 are zero. Filter circuit at the same time

(Fig. 2) represents a line loaded on a resistor, with a parallel X / 4 cable connected short-circuited at the end connected in parallel. Taka

The circuit at the center frequency provides perfect matching. Ste

1 matching is determined by the value of the wave conductivity paral (Loel loop.

If part of the signal due to the non-ideal matching occurs in the second period of the meander, the same equivalent circuit is valid, since the resistor 8 between points 4-6 is under voltage shifted 180, and the voltage at point 5 is zero.

If the moment of time is moved to a quarter of a period, the resistors 8 at points 2-4, 4-6 will be under zero potentials, and between points. 3-5, 5-7 - under stress shifted by 180.

Thus, the proposed band rejection filter is always in a consistent mode and its degree of matching can be varied by adjusting the wave conductivity of the meander line and the resistor value.

The application of the proposed device allows to expand the scope of application of band-rejecting filters and provides the possibility of designing a number of devices with improved electrical parameters.

Claims (1)

1. Efremov Yu.G. and other Filtering properties of meander transmission lines. Elektrosv zb, 1978, No. 11, p. 6668 (prototype). 3 & 5 & 4j .2