DE1297682B - Four-pole network adjustable in stages in its damping - Google Patents

Description

The invention relates to a four-pole network with adjustable steps Attenuation from a four-pole basic attenuator with a certain Basic attenuation and other switchable attenuators, their attenuation values are coordinated with each other so that the levels of achievable changes in attenuation are the same size within a given range.

In the remote selection relay transmissions are to compensate for the different Cable lengths between voter office and amplifier office attenuators provided. These are generally graded in fixed values, from -0.1 to 0.1 N, and in form kept in stock by resistance coils mounted on sheet metal frames. After the required attenuation value is determined by measurement, a corresponding Attenuator obtained from the warehouse and inserted into the corresponding relay rail or replaced.

For example, if you want to use the adjustable steps of 0.1 Change 0.1 N to 0.05 to 0.05 N in order to achieve greater setting accuracy, halving the damping steps would double the effort result. With a corresponding even finer subdivision, the effort is increased Bearing parts and thus also on corresponding components when building such attenuators always bigger, since a separate attenuator must be available for each stage.

The object of the invention is to provide a network that can be set in stages to compensate for different cable lengths.

Attenuators are already known which consist of a basic attenuator exist, which are followed by further attenuators, which are gradual are adjustable and their damping values are adjusted so that the damping levels are the same size within specified areas.

The switchable attenuators are. it is, however exclusively about four-pole attenuators. In addition, the attenuation values of the Switchable attenuators below the basic attenuation.

Such variable attenuators, however, require a large one Expenditure of components and switching means. Because all these individual attenuators must be mechanically joined together to form a unit, there is also a Difficulty is that on the one hand such an arrangement depending on the number of components and switching means requires a corresponding space for construction, on the other hand, however often only a very limited space is available for installation in the corresponding devices is.

These difficulties are circumvented by the fact that the four-pole network according to the invention is constructed in such a way that the connectable attenuators are designed as two- and possibly four-pole, their attenuation values over and / or lie below the basic attenuation of the basic attenuator, and that the The input resistance of the basic attenuator is dimensioned so that its f reflection factor the same value as its characteristic resistance, but with the opposite sign like the basic attenuator together with all existing, connected, designed as two-pole attenuators.

These measures result in comparison with comparable known Quadrupole networks a reduced effort. It is achieved that instead of many different attenuators that have to be stored in the office, only one Attenuator one and the same type needs to be present in its dimensions is no larger than one of the earlier fixed attenuators and that at once Delivery can be built into the corresponding device so that a Own storage unnecessary. It also simplifies the compensation process different cable lengths, because instead of expanding a fixed one Attenuator and the insertion of another solid attenuator only a single measure, namely the flipping of solder bridges, is required to get the Carry out attenuation compensation for cables of different lengths. Due to the special Dimensioning the four-pole network is the expense of components and switching means further reduced and at the same time that caused by the two poles Falsification of the input resistance of the entire four-pole circuit reduced to a minimum. - `` Mechanically, the four-pole network according to the invention is constructed in such a way that the resistances required for the attenuators on the respective front sides attached to two plates and with soldering posts also attached to the plates are connected that between the two, with their backs facing each other Plates an intermediate plate made of insulation material is inserted that the plates are inserted in a cup that is open on one narrow side, that the opening of the cup through a connection plate for connecting connecting cables is covered on the attenuators and that the front and back of the cup are each provided with a window that can be closed by means of insulating panels are; and that the soldering terminals attached to the plates are each in the area these windows are arranged on the panels.

Using the circuit examples according to FIGS. 1 to 5 and the construction example according to FIG. 6 the invention is explained in more detail.

In F i g.1 a circuit example is shown as a basic attenuator shows a symmetrical "T-member, to whose shunt arm resistance each as a two-pole trained attenuators of for example 0.05 N and 0.1 N damping with the help can be connected in parallel by solder bridges.

A circuit designed as a symmetrical n-element is shown in F i G. 2 shown. The bipoles are each parallel to the shunt branches of the z-circuit switched.

Another possibility of arranging the two-terminal blocks in ir-members exists, as in FIG. 3 shown therein, the two poles crosswise to the series resistances of the a-element to switch.

A circuit example of a four-pole network according to the invention, which consists of a basic attenuator with 0.25 N and with individually switchable Attenuators is provided, which are graded according to the binary weight set principle are, whereby the individually switchable attenuators are the attenuation 0.05 N, 0.1 N, 0.2 N, 0.4 N and 0.8 N is shown in FIG. 4 shown. The one below of the value of the basic attenuator lying attenuator of 0.05 N and 0.1 N are designed as two-pole and the attenuator 0.2 N as four-pole and leave with the help of solder bridges lay parallel to the input of the a-element. The attenuators with their attenuation value above the basic attenuator with the values 0.4 N and 0.8 N are, like the basic attenuator itself, as an a-term educated. The quadrupoles can also be designed as T or X links.

In Fig. 5 is the basic idea for the design rule of the four-pole network clearly shown according to the invention.

The mechanical structure of such a four-pole network is shown in FIG. 6 shown. The circuit boards 4 and 5, which are guided between the embossings 2 and 3, are inserted into an extrusion-molded aluminum cup 1. The intermediate plate 8 is used for insulation. The connection plate 9 is placed on these plates in the position shown. By turning over the two tabs 10 , all plates are held in the cup. The connection plate 9 is used to loop the attenuators into the speech paths. The soldering support points 7 for inserting the bridges between the sheet resistors 12 are accessible through the windows 6 on both broad sides. The soldering terminals are protected by inserting the insulating plates 11 into the windows 6.

Any desired attenuation value can be achieved with the four-pole network described in the range from 0.25 N to 1.8 N in 0.05 N steps through solder bridges at the soldering terminals 7 can be set. The special circuit measures and the use of Film resistors and printed circuit boards allow space-saving Construction with the same dimensions as the solid attenuators generally used. The number of components is determined by the formation of individual attenuators as two-pole reduced by 25% and the number of toggle solder bridges by 30% when using a reflection factor of Q0.1.

Claims (2)

Claims: 1. Four-pole network with gradually adjustable Attenuation from a four-pole basic attenuator with a certain Basic attenuation and other switchable attenuators, their attenuation values are coordinated with each other so that the levels of achievable changes in attenuation are the same size within a given area, characterized in that that the connectable attenuators are designed as two-pole and possibly four-pole are whose attenuation values are above and / or below the basic attenuation of the basic attenuator and that the input resistance of the basic attenuator is dimensioned so that its reflection factor compared to its characteristic resistance has the same value, however with the opposite sign, like the basic attenuator together with all existing, connected, designed as two-pole attenuators. 2. Four-pole network according to claim 1, characterized in that the resistors (12) required for the attenuators on the respective front sides of two plates (4, 5) and are connected to soldering support points (7) also attached to the plates, that between the two , with their backsides facing plates (4, 5) an intermediate plate (8) made of insulating material is inserted so that the plates (4, 5, 8) are inserted into a cup (1) which is open on one narrow side, that the opening of the cup is covered by a connection plate (9) for connecting connecting cables to the attenuators and that the front and back of the cup (1) are each provided with a window (6) which can be closed by means of insulating plates (11) , and that the soldering support points (7 ) fastened to the plates (4, 5) are each arranged in the region of these windows (6) on the plates (FIG. 6).