DE1273062B - Damping line consisting of several damping units connected in a chain - Google Patents

Description

Attenuation line made up of several attenuation units connected in a chain The invention relates to a damping line, which consists of several damping units exists, each of which, depending on the setting, is either bridged or with others, unbridged damping units is connected in a chain.

Attenuation lines, so-called attenuators, are used in the electrical Measurement and communication technology used in a variety of ways. They are used for representation or determination of a damping.

Known attenuation lines have to adjust their attenuation of Manually operated step switches for connecting decadically stepped resistance sets.

These known attenuation lines have several disadvantages. The usage Spatially extensive switch requires an internal structure, the stray capacitance and inductances, so that attenuation errors, crosstalk and reflections the operation of the attenuation line only up to a certain limit frequency without significant Allow mistakes. The manual operation of the switches is often either unfavorable long connecting lines to the rest of the measurement setup or an inconvenient and thus inconvenient longer measurement duration error-promoting handling of the measurement arrangement. Also is manual adjustment of the known damping lines takes time.

The invention avoids the first-mentioned disadvantage of the known damping lines in that each damping unit has its own connecting or bridging it Has a switch whose contacts can be electrically operated via a control line, which is connected to a control device common to all control lines. In order to avoid the second disadvantage mentioned, it is particularly advantageous to that the attenuation line consists of two mechanical and electrical connectors There are assemblable parts that are mechanically separated via an im essential connecting cables containing the control lines can be interconnected are, of which a first part the damping units and a second part the Contains control device and optionally a power supply part. To a It is advisable to significantly increase the measurement speed and reliability that a damping line containing only damping units or the damping units containing the first part of the damping line via a substantially the control lines leading connection cable as part of an automatic measuring device with a a control device containing part of the measuring device is connected. To achieve a particularly space-saving and at the same time electrically favorable structure, it is useful to that the switch consists of several reed relays.

The invention further consists in that each damping unit in Recesses of a special damping body is arranged, which is connected to the damping bodies of the other damping units can be layered to form a block and via plug-in contacts is connectable. This results in damping units that are favorable in terms of production technology, which can easily be put together according to the modular principle, which also makes a possible later maintenance is made much easier.

An embodiment of the invention is shown schematically in the drawing. Here, FIG. 1. a circuit diagram of a damping unit in T-circuit with reed relay, FIG. FIG. 2 shows a detail from a circuit diagram of a damping line with damping units according to FIG. 1, Fig. 3 a table for the connection of damping units of a decade, measured according to the principle of weight set, FIG. 4 shows a partially sectioned side view of an equipped damping body of a damping unit, FIG. 5 is a plan view of the FIG. 4 and FIG. 6 shows a section through one of the in the arrangement according to FIG. 4 included reed relays. The damping line consists of several damping units, one of which is shown in FIG. 1 is shown. Two series resistors 1, 2 and a transverse resistor 3 together form a T-element which is connected between input terminals 4, 5 and output terminals 6, 7. A contact 8 of a first reed relay is connected to the connection between series resistor 1 and input terminal 4 and a contact 9 of a second reed relay is connected to the connection between series resistor 2 and output terminal 6. A contact 10 of a third reed relay is connected directly between the input terminal 4 and the output terminal 6. Excitation coils 11 and 12 of the first and second reed relays are connected in parallel and are connected on the one hand to one pole 13 of a supply current source and on the other hand to a control line 14. An excitation coil 15 of the reed contact 10 bridging the damping unit is placed between another pole 16 of the supply current source and an emitter of a switching transistor 17 whose collector is connected to one pole 13 of the supply current source and whose base is connected to the control line 14.

The damping unit is switched on when the contacts 8 and 9 are closed and the contact 10 is open. For this purpose, the control line 14 is to be connected to the other pole 16 of the supply current source. When idling, d. h: when the control line 14 is not connected, the base of the switching transistor 17 is connected via the excitation windings 11 and 12 to one pole 14 of the supply current source, and the excitation winding 15 is located via the current-carrying switching transistor 17 practically between the poles of the supply current source. Then the reed contact 10 is closed and the reed contacts 8 and 9 are open.

The damping line consists of two parts 19 and 20 which can be joined together mechanically and electrically via plug connections 18, of which the first part 19 contains the damping units 21 to 21 "', 22 to 22"' and 23 to 23 "', which with their input and Output terminals are all connected in a chain, and of which the second part 20 contains a control device with step switches 24, 25 and 26, which can be set in decade, as well as a power supply part 27.

The individual damping units of each group of damping units, z. B. 21 to 21 "', have attenuations measured according to the principle of weight set, and their control lines 14 to 14 "'are adjustable with the associated decadic Tap changer 24 connected via a diode network 28, which according to the in F i G. 3 in the table shown in the individual switch positions of the damping units to be connected assigns.

Each damping unit is in recesses of a special damping body 29 arranged, which has the shape of a flat parallelepiped and is made of aluminum. The damping bodies of all damping units of the damping line are one Block layered and connected to each other with turnbuckles passing through cutouts 30 go through the damping body. Plugs 31 and sockets 32 of plug-in contact connections connect input terminals 4 to output terminals 6 of adjacent damping units.

The series resistances 1, 2 and the transverse resistance 3 are in relation to FIG Bores 33, 34 and 35 with the correct wave resistance of their diameter arranged side by side in parallel in a plane and on a narrow side 36 of the damping body 29 in a flat, closable with a cover 37 Switch room 38 open. The switch room 38 contains an insulating material carrier plate 39 with planar cable runs 40 which connect the ends of the resistors 1, 2 and 3 and form a star point 41 of the T-member of the damping unit. In one the middle one Bore 35 of the transverse resistance 3 extending bore 42 of smaller diameter a spring bushing 43 is inserted into which a second connection of the transverse resistor 3 is introduced and thereby connected to ground.

In the extension of the bores 33 and 34 of the two series resistors 1 and 2, two chambers 44, 45 and 46, 47 are arranged, of which the inner chambers 44 and 46 each one of the reed relays 8, 11 and 9, 12 and the outer chambers 45 and 47 each contain an insulating plate 48 carrying the plug 31 and an insulating plate 49 carrying the socket 32, respectively. The reed relay 10, 15 is arranged in a fifth chamber 50 arranged between the outer chambers 45 and 47. All chambers 44 to 47 and 50 essentially open onto a first broad side 51 of the damping body 29, which is covered by a substantially closed second broad side 52 'of an adjacent damping body 29' when all the damping bodies are layered in blocks.

The reed contacts enclosed in glass tubes 53, e.g. B. 8 are in a brass tube forming a winding mandrel of a winding body of the excitation winding 11 54 arranged, and the bobbin has metallic flanges 55, the tubular Wear extensions 56 with which the reed relay in wall openings 57 between the Chambers 44 to 47 and 50 or between the chambers 44, 46 and the bores 33, 34 are clamped. .

The individual sections of a damping unit, which contain connecting lines 58, switch lines 59 and divider resistors 1, 2, 3, are correct in terms of the wave resistance due to a corresponding geometric dimensioning of the recesses surrounding them, namely the bores 33, 34, 35 and the chambers 44 to 47 and 50 executed. In this case, line parts that run empty due to open switch contacts are taken into account and / or compensated. The reed contacts 8, 9 and 10, in the closed state, together with the brass tubes 54 surrounding them, each form a piece of a coaxial line with a relatively high wave resistance. In the open state, the reed contacts essentially represent two small capacitances. In both operating states of a damping unit, the input terminal 4 and the output terminal 6 each have a stray capacitance formed either by the open reed contact 10 or by the open reed contacts 8 and 9 loaded, whereby the excessively high wave resistance of the respectively in operation coaxial line formed either by the closed contacts 8 or 9 or by the closed contact 10 is overcompensated. Full compensation is achieved by longitudinal inductances, which are connected between the switch lines 59 and the input terminals 4 and output terminals 6 provided with the plug 31 or the socket 32 and are represented by a corresponding shape of the connecting lines 58 designed as flat lines. In the case of damping units with high damping, the stray capacitance of the opened reed contact 10 causes a damping drop at high frequencies. This is compensated by a capacitance between a star point of the T-element and ground, which is formed by a locally limited widening 60 of the planar line 40 adhering to the carrier plate 39 and connecting the three resistors 1, 2 and 3. An increase in attenuation that occurs in attenuation units with low attenuation at high frequencies as a result of the skin effect of the switch lines 59 of the reed relays 8 and 9 is compensated for by a small transverse inductance formed by a ferrite bead 61 sitting on a connecting wire of a transverse resistor 3.

On a carrier plate 62 fastened on the outside of the damping body 26, the two-dimensional line runs are the switching transistor 17, a connection element 63 of the control line 14 and plug connections 64 for power supply lines 65 of the excitation coils 11, 12 and 15 of the reed relays are arranged.

Claims (14)

Claims: 1. Attenuation line consisting of several attenuation units exists, each of which, depending on the setting, is either bridged or with others, unbridged damping units connected in a chain, characterized in that that each attenuation unit has its own switch to turn it on or bypass it has, whose contacts (8, 9 and 10) can be electrically operated via a control line (14) are connected to a control device (20) common to all control lines is. 2. damping line according to claim 1, characterized in that the damping line of two that can be joined together mechanically and electrically via plug connections (18) Parts (19, 20) consists in a mechanically separated state over a substantially the control lines leading connecting cables can be interconnected, of which a first part (19) the damping units (21 to 21 "', 22 to 22"', 23 to 23 "') and a second part (20) the control device (24, 25, 26, 28, 28', 28") and optionally contains a power supply part (27). 3. Attenuation line to Claim 1 or 2, characterized in that one containing only damping units Damping line or the first part of the damping line containing the damping units via a connecting cable which essentially leads the control lines as part an automatic measuring device with one containing a control device Part of the measuring device is connected. 4. Attenuation line according to claim 1 or the following, characterized in that the attenuation units (21, 21 ', 21 ", 21"') have attenuations measured according to the weight set principle and their control lines (14, 14 ', 14 ", 14"') are connected to the control device (24), which is adjustable in decade, via an associated diode network (28). 5. Attenuation line according to claim 1 or following, characterized in that the switch consists of several Reed relays (8, 9, 10, 11, 1.2, 15) exist. 6. damping line according to claim 5, characterized in that the excitation coils (11, 12) of the reed contacts (8, 9) switching on the damping units are connected in parallel and on the one hand with one pole (13) of a supply current source and on the other hand with one to the control switch or . are connected to the control line (1.4) leading to this connected diode network (28) and that the excitation coil (15) of the reed contact (10) bridging the damping unit between the other pole (16) of the supply current source and an emitter of a switching transistor (17 ) whose collector is connected to one pole (13) of the supply current source and whose base is connected to the control line (14). 7. Attenuation conduit, which consists of several attenuation units, each of which after setting either bridged or with other unbridged damping units is connected in a chain, in particular according to claim 5 or 6, characterized in that that each damping unit in recesses of a special damping body (29) is arranged, which with the damping bodies (29 ') of the other damping units can be layered to form a block and connected via plug contacts (31, 32). B. Attenuation line according to claim 7, characterized in that the damping unit is designed as a T-member and the two series resistances (1, 2) and the intervening transverse resistance (3) with correct wave resistance in three parallel in one plane side by side, on a narrow side (36) of the damping body (29) in a flat, with a Cover (37) closable switch room (38) opening bores (33, 34, 35) arranged are. 9. damping line according to claim 8, characterized in that in the damping body in extension of the bores (33, 34) of the two series resistors (1, 2) two chambers 44, 45 or 46, 47), of which the inner chambers (44 or 46) each contains a reed relay and the outer chambers (45 or 47) each contain a part (31 or 32) of a plug-in contact attached to an insulating support plate (48 or 49), and between the two outer ones Chambers (45, 47) a fifth chamber (50 ) also containing a reed relay (10, 15) are arranged and all chambers (44 to 47, 50) essentially open onto a first broad side (51) of the damping body (29) which is covered by a substantially closed second broad side (52 ') of an adjacent damping body (29') during the block layering. 10. damping line according to claim 7, characterized in that that individual sections of a damping unit, the connecting lines (58), switch lines (59) and divider resistances (1, 2, 3) contained by a corresponding geometric Dimensioning of the surrounding recesses, bores (33, 34, 35) and chambers (44, 45, 46, 47, 48) are designed with the correct characteristic impedance and thereby line parts that run empty due to open switch contacts, taken into account and / or compensated are. 11. damping line according to claim 5 and 10, characterized in that the reed contacts (8 , 9; 10) is arranged in a metal tube (54) forming a winding mandrel of a winding body of the exciter winding (11, 12, 15) and the winding body is metallic Has flanges (55) which are clamped with tubular projections (56) in wall openings (57) of the chambers (44, 45, 46, 47, 50) which accommodate the reed relays. 12. damping line according to claim 10, characterized in that that the compensation elements, in particular longitudinal inductances and transverse capacitances, by appropriate shaping of planar cable runs (40, 58) on carrier plates (39, 48, 49) of the damping unit in question are formed. 13: Attenuation line according to claims 5 and 7, characterized in that the damping unit is a T-member is formed and with damping units low damping in the shunt branch one through a ferrite bead (61) formed, an increase in attenuation due to the skin effect of switch lines compensating shunt inductance is switched on. 14. Attenuation line according to claim 5 and 7, characterized in that the damping unit is designed as a T-member and in the case of damping units with high damping at a star point, one is the stray capacitance a bridging contact (10) compensating cross capacitance (60) connected to ground is.