SU1173469A1 - High-pass filter - Google Patents

Abstract

1. A HIGH-FREQUENCY FILTER containing resonators made in the form of flat spirals arranged on dielectric substrates, neighboring of which are connected by communication elements, characterized in that, in order to reduce dimensions, the dielectric substrates are placed in one plane, forming a single base, and flat spirals are placed on one side of a single base, the other side of which is provided with a metallized coating, and each communication element is made in the form of a window in a metallized coating, partially intersected its neighboring windings of flat spirals, and the window length not prevshaet distance between centers of adjacent flat spirals, and width: not more than S of their average diameter. 2. The filter according to claim. 1, I distinguish (dividing with the fact that, in order to reduce the attenuation in the passband, the communication windows are in the form of an ellipse. Oo 4 ;; 35 with

Description

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The invention relates to radio engineering and can be used in radio measuring, television and other devices for filtering signals of a range of meter and decimeter waves.

The purpose of the invention is to reduce overall dimensions, as well as to reduce attenuation in the passband.

The drawing shows schematically a high-pass filter containing three resonators.

The high-frequency filter contains resonators formed in the form of flat spirals deposited on one side of a single base 4 of a dielectric. The electrical lengths of all three flat spirals 1–3 are close to a quarter of the wavelength at the average frequency of the passband. In the metallized coating (not shown) of the other side of the single base 4, there are windows 5 and 6 of the bond partially crossing the turns of the adjacent flat spirals 1-2, 2-3.

High-pass filter operates as follows.

When flat spirals 1–3 are excited in the metallized coating of the other side of the single base 4, currents are excited, which, upon encountering windows 5 and 6, flow around them from both sides. Thus, part of the current excited by, for example, a flat helix 1 flows through the area of the metallized coating underneath the adjacent flat helix 2, and vice versa, i.e., the inner perimeter of the communication windows 5 and 6 can be regarded as coils, and the electrical connection is very small. The coupling coefficient between -neighbor 3469 .2

by their flat spirals 1-2; 2-3 depends on the distance between them, on the length and width of windows 5 and 6. As the sizes of windows 5 and 6 increase, the connection between adjacent flat spirals 1-2 2-3 increases until the length of windows 5 and 6 does not become equal to the distance between the centers of adjacent flat spirals 1-2; 2-3, and the width - their average diameter. A further increase in the size of windows 5 and 6 practically does not increase the connection between flat spirals 1 and 2. The most simple to manufacture are flat spirals 1-3 and windows 5 and 6, which have a rectangular shape. In this case, the mean diameter of flat spirals 1-3 is understood to mean the average diameter of circles whose length is equal to the perimeters of the rectangles. However, when it is important to reduce bandwidth losses, the circular shape of flat spirals 1-3 and the elliptical shape of windows 5 and 6 are more preferable. This is due to the fact that circular flat spirals 1–3 have a larger quality factor than rectangular ones, and the perimeter length of windows 5 and 6 of elliptical shape is less than the perimeter length of windows 5 and 6 of rectangular shape of the same area. In this case, the connection of the extreme flat spirals 1,3 with the signal source and the load can be realized by any known means, for example by connecting taps to them.

 Placing flat spirals 1–3 on a single base and connecting them through windows 5 and 6 in the metallized coating allows for a reduction in size and facilitates adjustment.

Claims (2)

1. A HIGH FREQUENCY FILTER containing resonators made in the form of plane spirals located on dielectric substrates, the adjacent of which are connected by communication elements, characterized in that, in order to reduce the dimensions, the dielectric substrates are placed in one plane, forming a single base, and flat spirals placed on one side of a single base, the other side of which is provided with a metallized coating, and each communication element is made in the form of a window in a metallized coating, partially covering the turn and adjacent planar spirals, the window length not exceeding the distance between the centers of adjacent planar spirals, and the width: not exceeding their average diameter. $ g 2. Filter pop. 1, characterized in that, in order to reduce _; bandwidth attenuation, 'communication windows are elliptical. 1 1173469 2