RU1375075C - Electric wave filter - Google Patents

Abstract

The invention relates to the field of electrical engineering and can be used. used in anltapaVype communications, automation, instrumentation, where the principle of frequency separation is used. The electric filter (EF) contains a capacitor in the form of two electrically conductive tapes (EPL) 2, separated by a dielectric 3 from each other with pins 4-7 located on both the ends of both ELL 2, input and output terminals The invention expands the field of use of the EF by the use of it as a high-frequency component, and also allows to reduce its weight and dimensions. 5 ill.

Description

The invention relates to electrical engineering, in particular to the manufacture of electric filters, and can be used in communication equipment, instrumentation automation, secondary power supplies and other fields where the principle of frequency separation is used.

The purpose of the invention is to expand the scope of the filter. . The invention also allows to reduce weight and dimensions.

In Fig, I shows the proposed electric filter; in FIG. 2 and 3 show a structural diagram of an electric filter; in FIG. 4 is equivalent to an electrical circuit. A boom type filter in FIG. 5 shows an equivalent circuit diagram of a high pass filter.

The electric filter can be made in the form of ring-shaped tape windings 1, the electrically conducting tapes 2 are separated from each other by a dielectric 3 and equipped with electric inputs 4,5, 6, 7, which are equipped with input 8 or output 9 terminals of the filter, - -,

As electrically conductive tapes 2 and dielectric 3 can be used, for example, aluminum foil and an insulating film used in capacitor manufacturing.

Winding 1 {-cm. FIG. H) to enhance the inductive properties of the filter, it can be wound on an open or closed core made of magnetically permeable material.

The electric filter works as follows

Between years 2, there is a capacitance 1 / WC and tape 2 has an inductive resistance Wii.

An equivalent circuit of such a device will correspond to the D-link in FIG. 1.

When a voltage containing a frequency spectrum is applied to the output terminals 9, the filter will pass higher frequencies and delay frequencies less than a predetermined frequency.

. The implementation of the electric filter in the form of a single structural element, where the highest quality. e capacitance, tunable in resonance with the inductance, not a separately performed choke and capacitor are used, but

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winding of two electrically conductive tapes, which are separated from one another by a dielectric. Moreover, the knives and the ends of the tapes are connected to each other and to the OUTPUT KJ eMMaM filter according to its type;

If the filter is connected so that it, the longitudinal resistance consisted of a tank and two

magnetically coupled inductances, forming an T-shaped or trail-paraplennoe link, then this filter is a blocking or band-pass depending on the value of the load resistance (see figa, b)

When a voltage containing a frequency spectrum is applied to the input terminals 8, as a result of which the inductive resistance VTL, which is possessed by tape 2 and the capacitance 1 / WC arising between the tapes 2, is selected from the condition of voltage resonance at a given frequency, i.e. the condition is met, the input resistance of the filter will be large 0 in the region of the given frequency and the filter will have xapiaKTepHCTHKy of the blocking type ...;

One of the tapes 2 of the winding (Fig. 4b), along which the constant and variable components of the load current pass, can be made larger than the other tape 2, which conducts only the variable component of the signal, to increase the electrical conductivity, respectively, constant component of the load current.

Formula and Sobret, e n and

An electric filter containing a capacitor in the form of two electrically conductive tapes separated by a dielectric, equipped with terminals, input and output terminals, o. tli - chachu and with the fact that, with a view to. expanding the scope by using a high-pass filter, the terminals are located at both ends of both tapes, and the input terminals are connected to the terminals of the beginning of the first electrically conductive tape and the end of the second, to which one of the output terminals is connected, and the second output terminal is connected to the terminal the beginning of the second electrically conductive tape.

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