SU690578A1 - Frequency dividing filter - Google Patents

Claims (3)

(54) FREQUENCY DIVIDING FILTER of the channel is not less than twice the diameter of the wire of the spiral of the input resonator of the receiving channel. The drawing shows the electrical circuit of the frequency-separation filter. The filter includes a housing 1, inside which are installed spiral resonators 2-4 of the receiving channel and the resonator 5 of the transmitting channel, loaded with trimming elements (lumped capacitors) 6 on one side and connected to the housing or to each other on the other side, are coupled conductively with the input connector 7, and the cavity of the resonator 4 on the side opposite to the sub-paddle capacitor, is connected to the resonator 5 of the transmitting channel. The output resonator 2 of the receiving channel is conductively connected to the output connector 8. The spiral of the resonator 5 of the pre-edited channel is inductively connected to the additional spiral 9, which is connected to the connection point of the resonator 5 on one side and to the other connector 4 on the other side 10. Frequency separation filter works as follows. The filter is designed to separate the signal with frequency f 1 from the total spectrum, which includes several frequencies - fi, f j ... fn. For this, the resonators 2-5 with the help of trimmers 6 are tuned to the frequency of the signal f J. As a result, the signal with frequency f, from jack 7 goes to az (at the same time, resonator 5 prevents the passage of a signal with frequency f to jack 10. On the others. "frequency fj, f3 ... fn resonators 2-4 are not excited and the signal of these frequencies on connector 8 is not passed through. At the same time, resonator 5 at these Yeljei frequencies has high impedance to avoid shunting, as a result of which additional losses can be sewed, the spiral 9. The direction and the windings of the spiral 9 are opposite to the direction of the spiral winding of the resonator S of the transmit channel. aim of the wire diameter of the spiral of the resonator 5 of the transmitting channel is not less than twice the diameter of the wire of the spiral of the resonator 4 when-. this channel. Claim 1. Frequency dividing filter, comprising a case on which input and two output connectors are installed, and spiral resonators of the receiving and transmitting channels placed inside it, loaded with trimmer elements from one end, and from the other end a spiral of the input resonator of the receiving channel is connected to the spiral of the transmitting channel resonator, and the spirals of the remaining resonators are connected to the housing, and the input and output spiral resonators of the receiving channel are connected respectively to the input and one m of output terminals, differing, and u and so that the chain spreader bandwidth and reduce losses, co. An additional helix is installed on the basis of the spiral resonator of the transmitting channel, one end of which is connected to the other output connector and the other end is connected to the point of the helix of the input resonator of the receiving channel with the spiral of the transmitting channel resonator. 2. A filter according to claim 1, in that the winding direction of the additional helix is opposite to the winding direction of the helix of the transmitting channel resonator. ; 3. The filter according to claim 1 and item 2, which is also distinguished by the fact that the diameter of the helix wire of the transmitting channel resonator is not less than twice the diameter of the helix wire of the input resonator of the receiving channel. Sources of information taken into account in the examination 1. Vogler John G. VHP diplexers using the technical line 1/4-wave cavities microwave Journal, 1965, 8. N 6, microlab / FxR Reports p. 1, 4 (prototype). t-l t I t: /