DE2041668B2 - LOCK FILTER - Google Patents

Description

»5 The invention relates to a notch filter comprising a series branch and at least two having short-circuit behavior at the blocking frequency Cross branches, with a λ / 4 transformation element lying in each case between two cross branches in the longitudinal branch.

A circuit for a transmitter-receiver switch for 1 m directional radio is already known ("frequency", Vol. 8/1954 No. 3, p. 74, Fig. 16), one on the receiver side and one on the transmitter side Filter circuit with inductive

activities and oscillating circles lying in cross branches are provided. These filters are with the transmit / receive antenna coupled via A / 8 transformation elements. The one on the receiving or sending side provided filters show the behavior of band filters.

A band-pass filter is also known (German Auslegeschrift 1 217 001), the narrow pass band of which is in the range of very high frequencies (VHF range). In connection with this band-pass filter it is known that reactive resistances in a π or in a T circuit can be used for its implementation. However, it is not known in this context in which catfish such reactive resistances are to be used in a blocking filter of the type mentioned at the beginning.

Blocking filters are already known which consist of a continuous line and a shunt branch Ground exist, the shunt arm exhibiting short-circuit behavior at the blocking frequency. The cross branch can depend on the series connection of a reactance and a detuned parallel resonance circuit be educated. If this barrier filter is directly connected to a line with a normal wave impedance stand is connected, the result is a somewhat narrow-band blocking curve. To further he To increase the blocking attenuation with narrow frequency characteristics, several shunt branches are provided see. Here it is necessary to use the low-ohmic resistance, which a shunt arm for the blocking frequencies:

forms, by means of one located in the longitudinal branch of the filter between the connections of two transverse branches the transformation element through an A / 4 transformation element in a very high-resistance resistor

3 4

to transform. According to yet another expedient embodiment, the transformation elements of the

known blocking filters are A / 4 lines. This embodiment of the invention is the transformation element

disadvantageously, a large structural construction is designed as an inductively detuned pot circle,

wall with regard to their connections. sen outer jacket lying radially in the longitudinal branch

In another known design of blocking 5 conductor parts is penetrated, and also wear the

filter is in the longitudinal branch between the after conductor parts at their radially inner ends washers,

Leading mass, designed as series resonance circles, with the inner conductor of the pot circle longitudinal capacitance

The cross-branches form a blocking circle in the form of a par- ty. This has the advantage of a

allele resonance circle inserted. The principle, based on a relatively low circuit and design

Circuit point with high impedance one for the io tive effort for the realization of a blocking film

Blocking frequency low-resistance connection to ground, which is particularly suitable for higher frequencies

is also used here. With these net is.

Blocking filters lead the blocking circuits, which are located in the longitudinal branch and are designed as a further expedient configuration parallel resonance circuit, to the invention. This gives the advantage of a particularly including blocking filter, which is known as a multiple adjustability of the pot circles.
Combination of the two aforementioned blocking filters can be seen in accordance with a further expedient design. Accordingly, even with the device of the invention, the shunt branches are each designed as these blocking filters, the above-indicated after-20 inductively detuned pot circle of parts. a conductor lying in the series branch in such a way

The invention has for its object, a sets is that the conductor with the inner conductor of the Blocking filter with a narrow-band blocking area and pot circle is coupled via stray capacitances. train high blocking attenuation so that this also results in the advantage of a particularly higher Frequencies a structurally simple 25-fold, uniform and clear structure construction is achieved. of the blocking filter.

The above-mentioned object is achieved. According to yet another expedient issue of a blocking filter of the old design of the invention mentioned at the beginning, the conductor carries within the invention in that the transformation outer jacket of the pot circle is preferably a member that can be adjusted as a short circuit in an open circuit 30 Ring. This has the advantage of transforming, one in the pass band, that the stray capacitances can be set or changed in a relatively simple way, whereas the filter input resistance cannot be transformed,
forming T-filter is formed. The invention According to a further expedient Ausgestalbringt with it the advantage that with relatively little device of the invention, the blocking filter is designed as a printed circuit complexity, a narrow-band circuit. This results in the pre-blocking filter with high blocking attenuation, which can be constructed with a particularly low structural effort. especially in the event that the shunt branches

According to an expedient embodiment, the eritives are out of tune and that the longitudinal link of the

Finding the cross member of the T-filter designed transformation member is formed by inductances

th transformation element is a detuned parallel 40.

resonance circuit. This results in the advantage that, according to yet another expedient embodiment

the pass band width of the blocking filter by the design of the invention are the shunt branches and the

Selection of the L / C ratio of the relevant Par transformation element in each case selected as a structural unit.

allele resonance circuit ^; cses shows the connections on opposite sides in a relatively simple way

can be flowed. It is therefore a relatively simple 45 to form a constant height

Way possible to have the passband in the desired running longitudinal branch. This results in

Way to limit, with the advantage of being able to use the notch filter on a relatively simple basis

to be able to realize lassband or outside of this Durchlaßban- way in assembly form,

of the at least one blocking frequency duich voting also opens up the possibility of the blocking

tion of the cross-branches can be blocked. Build 50 filters from a series of pot circles,

According to a further expedient embodiment, the conductors and extending through the transverse branches

According to the invention, the shunt branches act for the radial conductor parts of the transforma-

Blocking frequency are aligned as a series resonance circuit of a capacitance element along an axis,

did and an inductively detuned parallel resonance

circle, and also is the longitudinal member of the trans-55 before considered barrier filter according to the invention

formation link formed by capacities. Here are the connections of the units as self-transporting

this results in the advantage of a particularly low lowing coaxial connecting elements,

circuitry expense for the training This has the advantage that a special

the cross branches. simple stringing of the units enables

According to a further expedient embodiment, 60 is light. The interconnected structural units of the invention act as the shunt branches for which then form a mechanically rigid blocking filter, at the blocking frequency as a series resonance circuit with an inductor whose first and last connection element per ductivity and a capacitively detuned parallel line can be connected,
resonance circuit, and furthermore the longitudinal element of the according to yet another expedient out-transformation element is formed by inductances. 65 design of the above-considered blocking filter ge-This results in the advantage of a further measure of the invention, the connecting elements of the solution for realizing the cross-branches with relatively cross-branches as coaxial connectors and the connection low circuit complexity. elements of the transformation elements as coaxial

bushes or vice versa. As a result, between an input terminal 11 and an output the advantage that in a relatively simple manner, the input terminal 11 'extending longitudinal branch, two at during assembly confusion in the sequence of the blocking frequency exhibiting short-circuit behavior of the structural units are avoided. Cross branches 12, 13 and one in the branch between

According to yet another useful embodiment of the invention, located as a T-filter embodiment of the invention, there is a multitude of transformation elements 14 printed, and the series connection of a capacitance Cl, C4 with a conductor run is formed on the plate so that the inductively detuned parallel resonance circuit Kl, K 3 plate exist between a shunt arm and io if necessary. The transformation element 14 has two capacitances C 2, C 3 in its subsequent transformation element from the longitudinal element, which can be separated. This results in the advantage that a blocking filter with a specific parallel resonance circuit K 2 is connected to a ground, inductively relatively simple manner. Correct, required number of transformations, if desired, can be linked to the output connection and cross-branches can be closed by means of corresponding 15 further transformation members and cross-branches on subdivisions of the plate mentioned,
can. F i g. 2 shows a blocking filter that is electrically

With reference to drawings, the invention appears to that of FIG. 1 is equivalent. Of the

In the following, a series branch is located between an input terminal 21

tert. It shows 20 and an output terminal 21 '. The cross branches 22,

F i g. 1 the circuit or the equivalent circuit diagram 23 each consist of a series resonant circuit,

a blocking filter in a first electrical outlet from the series connection of an inductance Ll,

management form, L 4 and a capacitively detuned parallel resonance

Fig. 2 the circuit or the equivalent circuit diagram KIl, K 13 is formed. The T-filter

of a blocking filter in a second electrical training 25 formed transformation element 24 has in its

guide form, longitudinal link two inductors L2, L3 on, between

F i g. 3 a simplified equivalent circuit diagram of which a capacitively detuned parallel resonant circuit

Transformation element of the notch filter according to Fig. 1 Ki2 is connected, which is connected to ground,
with current and voltage vectors drawn in, FIG. 3 represents a simplified equivalent circuit diagram of

F i g. 4 shows a resistance diagram of a transform element 14 in FIG. 1. The inductive

mation member according to the F i g. 1 and 3, detuned parallel resonance circuit K 2 is through here

F i g. 5 a vector diagram for the equivalent switching inductance L replaced. The output-side load

picture according to fig. 3 in the case of adaptation, is represented by a resistor R , which in the case of

F i g. 6 a vector diagram for the equivalent switching of a connected line equal to the ohmic one

picture according to fig. 3 in the event of a short circuit, 35 is the characteristic impedance of this line. The one at the entrance

F i g. 7 is a longitudinal section through a voltage prevailing as the pot circle of the transformation element

formed transformation element of the notch filter U _E , the corresponding current I _E. At resistor R

according to Fi g. 1, the voltage U _R prevails and the current I _{R flows} .

Fig. 8 is a longitudinal section through a pot, the capacitances C2, C3 and the inductance L are

member executed shunt branch of the blocking filter according to 40 of the currents / _{c 2} , / _C3 and I, respectively.
1, based on the equivalent circuit diagram in FIG. 3

F i g. 9 shows a cross section through the pot circle shows the mode of operation of the transformation element

measure F i g. 8 along the line IX-IX, hand of FIG. 4 can be seen. In the illustrated

Fi g. 10 a cross-section through a further complex resistance level can be seen that in order to guide a transverse branch 45 in the form of a pot circle to achieve a phase rotation of π / 2 the embodiment

of the notch filter according to Fig. 1.

The notch filter shown in Fig. 1 comprises a low adaptation condition, which must be met:

ω C ₁ ω C ₈ ω LR

Between the input current and the output - thus 00, since no input current 7 _E flows. The short current also has a phase shift of n / 2 circuit R = 0 at the output of the transformation element. 55 is therefore on an idle, i.e. on an infinite

The ratios that apply in the event of an adjustment are transformed into the resistance value,

are more clearly shown in the vector diagram of FIG. 5. FIG. 7 shows a bowl circle that is inductively detuned

licher shown. trained transformation element. The outer man

In the context of the invention, the ratios tel 24 of the pot circle is on opposite sides

of particular interest when R = 0. In connection 60 th radially of the conductor parts lying in the longitudinal branch

with the simplified equivalent circuit diagram according to FIG. 3 25, 26 interspersed at their radially inner ends

the vector diagram of FIG. 6. Wear disks 27, 28 connected to the inner conductor 29 of the

starting from 77 _Λ = Ο and 7 _R = 7 _Cs one gets JJ _Ca = Vi. Form pot circle longitudinal capacities. The disgruntlement

7 _L lags the voltage V _L by π / 2 , and the size of the pot circle is adjusted by means of an adjustable

Adding the currents 7 _L and 7 _C3 results in the input 65 capacity reached 30, which shortens the pot circle

current 7 _Ε = 7ς, = 0. The voltage drop at the con A cross-

capacitor C 2 is 7J _C2 = 0, and the input voltage branch is shown in FIG. 8 and 9 shown the pot circle

^ E = T ⁷ L = L ⁷ Cs- The input resistance R _E comprises an outer jacket 31 and an inner conductor

32 and is shortened by means of an adjustable capacitance 33. One lying in the longitudinal branch of the blocking filter Conductor 34 penetrates the pot circle in such a way that conductor 34 and inner conductor 32 have stray capacitances (Fig. 9) is coupled. These stray capacitances act in accordance with the capacitance C1 in FIG. 1.

The execution of the cross-branch designed as a pot circle according to FIG. 10 corresponds to that of dei F i g. 8 and 9, but here a sliding ring 35 is provided on the conductor 34, which allows to change the coupling between conductor 34 and inner conductor 32 of the pot circle.

1 sheet of drawings

»9545,

Claims (13)

Patent claims: 1. Blocking filter, comprising a series branch and at least two short-circuit behavior at the blocking frequency having transverse branches, with a λ / 4 transformation element lying in the longitudinal branch between two transverse branches, thereby characterized in that the transformation element (14; 24) as a short circuit in a No-load transforming, however, an existing filter input resistance in the pass band non-transforming T-filter is formed. 2. Blocking filter according to claim 1, characterized in that the cross member (K 2, K12) of the transformation member designed as a T-filter (14, 24) is a detuned parallel resonant circuit. 3. Blocking filter according to claim 1 or 2, characterized in that the shunt branches (12, 13) act for the blocking frequency as a series resonance circuit of a capacitance (Cl, C4) and an inductively detuned parallel resonance circuit (Kl, KS) and that the longitudinal element of the transformation element ( 14) of capacities (C 2, C 3) is formed (Fig, l). 4. Blocking filter according to claim 1 or 2, characterized in that the shunt branches (22, 23) act for the blocking frequency as a series resonance circuit of an inductance (Ll, L 4) and a capacitively detuned parallel resonance circuit (XIl, K 13) and that the longitudinal member of the Transformation element (24) is formed by inductors (L 2, L 3) (FIG. 2). 5. Blocking filter according to claim 3, in particular for higher frequencies, characterized in that that the transformation element (14) is designed as an inductively detuned pot circle whose The outer jacket (24) is penetrated radially by conductor parts (25, 26) lying in the longitudinal branch and that the conductor parts carry disks (27, 28) at their radially inner ends, which are connected to the inner conductor (29) of the pot circle form longitudinal capacities. 6. barrier filter according to claim 5, characterized in that the discs (25, 26) opposite the inner conductor (29) of the pot circle are adjustable in their distance. 7. blocking filter according to claim 5 or 6, characterized in that the transverse branches (12, 13) each are designed as inductively detuned pot circle, that of a lying in the longitudinal branch Conductor (34) is penetrated in such a way that the conductor with the inner conductor (32) of the pot circle over Stray capacitance is coupled. 8. blocking filter according to claim 7, characterized in that the conductor (34) within the Outer jacket (31) of the pot circle carries a preferably adjustable ring (35). 9. Blocking filter according to one of claims 1 to 4, in particular according to claim 4, characterized by being designed as a printed circuit. 10. Blocking filter according to one of the preceding claims, characterized in that the Cross branches (12, 13; 22, 23) and the transformation elements (14; 24) are each designed as structural units on opposite sides Have connections to form a continuous longitudinal branch at a constant height. 11. Blocking filter according to claim 10, characterized in that the connections of the structural units are designed as self-supporting coaxial connecting elements. 12. Blocking filter according to claim 11, characterized in that the connecting elements of the Cross branches (12, 13; 22, 23) as coaxial connectors and the connecting elements of the transformation elements (14; 24) are designed as coaxial sockets or vice versa. 13. Blocking filter according to claim 9 and 10, characterized in that a plurality of Cross branches (12, 13; 22, 23) and transformation elements (14; 24) on a strip-shaped Plate are printed and that the conductor run on the plate is designed so that the plate as required separable between a transverse branch and a subsequent transformation element is.