DE897888C - Arrangement for switching contact circuits for signaling - Google Patents

Description

The invention relates to an arrangement with an electrical discharge tube which enables res Switching circuits on and off in this way · to pass signals, the Tube take over the function of a number from the relay can. The invention is explained in more detail with reference to the drawing, in xier dfie

Fig. Ι and ι a characteristic curves of secondary emission electrodes,

Fig. 2 shows a device for explaining the Erfiradiungsgedamkens, the

Fig. 3 and 3a equivalent circuit diagrams of the mentioned Arrangement,

4 schematically shows a device according to the invention and ¹

5 shows the equivalent circuit diagram of this arrangement represent.

It has already been proposed to close contacts electronically ader ζω öfrneni. In this case, an electron beam was directed onto at least one electrode with a secondary emission regulator δ > ι, which worked together with at least one other electrode. The contact between these electrodes, closed by the electron beam, enabled the transmission of alternating currents. However, it is hardly possible to switch a number of such contacts in series, which is necessary for a lot of Schialtungsanoridierungen. It should be pointed out (especially on telephone exchanges) for those who have a number of contacts in a row establish a certain connection or cause certain signals to be passed on, the so-called signaling For example, for busy signals, alarm signals, for holding or interrupting speech connections or the like are required, since the electrodes between which ideal contact is established

d'j electricity fair, .educate! subsequent contacts in series connection a load of the preceding occur whereby Spannuinigsvtiriliüsite ¹ and the Aiüßenswiiderettänide several Elektrodlen 'are connected in parallel. Dias ¹ has the consequence that • the resistance will soon increase to a 'permissible minimum value unit and ^{1 the} tube works in the range 0 Q (Fig. 1) of the current voltage characteristic line of the secondary emission electrode (line R'), - so there are practically no further voltages passed on or the impulses for Signaliisiieruing od. The like. Stairk are distorted.

This disadvantage could be avoided by using the grid fire line according to FIG. 2, the effect of which is as follows: The electron beam originating from the electron generator r can be used in the system A _x or B _{1 by means of the deflection plates 2 edge 6} graze directed to A ₁ case. At the P roll electrode 3, - which has a resistance! R at never a relatively low voltage, e.g. B. 70 V, tagged, a number of secondary radar electrons is triggered which is greater than the number of primary electrons; These secondary electrons have a low speed, so that a weakly positive field must be generated in front of this impact electrode in order to suck out the secondary electrons gittarförm'ig, it is current is very ziu be small this Elektröide, whereby the Pflallekktrode is practically not loaded DLSR preceding tube. Infolgedbsisien is the Wildiansitanidsliioie R in 'Fig. 1 Aine when connecting the following system of this tube, only a very geränge to Drehtuog have used the Prallelektradenspianniung of 70 V corresponding point P. the baffle electrode potential, thus, the voltage follows the grid "4 (Fig. 2i) so that the electrode 4 supplied AC voltages unid Impuilise the Prallielektrodie 3 and z from this. B. on the corresponding ¹ grid-shaped electrode of system A _{2 of} the following tube. Wedge voltage values fed to the grid 4 can thus be passed on over the course of a certain range of contacts. If the bundle 10 is directed at B ₁ , signals originating from 8 can be transmitted via bar 7 to a subsequent tube. The Fanigelektroidlen 5 tundi 9 sinld with a fixed positive voltage of z. B. 20Ό V applied, unidi the deflection plate 2- can be kept at a fixed voltage of 130 V werldien. The switching by Bündfölveuschidbung is done by Spannuinigsänderunigen the deflection plate 6 of z. B. 70 to 200 V.

If no Spreohsitröme, but z. B. pulses for signaling. Plate fed to another tube so that the closing of a contact ¹ A _{1 of} a certain compact circuit, contact A ₂ or B ₂ of another circle closed wire, can be interrupted, which often occurs in relay circuits. Such a tube attaches © in relay with changeover contact together with two working toeirelais ·, as shown in Fig. 3, or a relay with one working and one break contact, as shown in Fig. 3a.

However, such an arrangement has the following disadvantages:

1. Since the idle resistance between the electrolytes. 3 and 4 has a finite value, the voltage of 3 does not exactly rise to the value of 4, but rather remains somewhat lower, namely by a value .ST (Fig. 1). Each subsequent grid in a contact ^{circuit 1} will thus have a lower voltage than the previous one. The number of contacts switching in series wc is therefore limited.

2. The control electrodes 4 and 8, which are also hit by the bundle, will also emit secondary, whereby they have the same properties as the impact electrodes 3 and 7 compared to the control electrodes 4 and 8 with regard to the suction electroidles 5 and 9 Primary bundle current at the control grids is low compared to the bundle sitrom to the impact electrode 3 or 7, the secondary mission current of this control grid will not add to this in order to increase the potential of this grid significantly, but by balancing this voltage it will increase over a long period of time Nonetheless, the contact circle can produce too large deviations. The grids 4 and 8 are a'liso each take in the potential, for example up to a point 7, as shown in FIG.

3. Mutual influencing occurs, especially: when the bundle is shifted from A ₁ to B ₁ , if grid 8 has a high ¹ and idiais grid 4 has a low "potential, and also when two pairs of systems, both operated by a single bundle are to be arranged one above the other.

The disadvantages mentioned can be overcome by using an arrangement with a tube according to the Invention can be avoided, the tube also provides certain advantages.

In one device for production and interruption von Sebaltstreckera, at the dedication several relays taken over by one electron tube the at least one electron generator unid 'at least a pair of baffles contains that an electronic tool is to be created no Etektrodtensyistemen able to control, these Systems; Arranged in pairs in the tube and each minidestenis are a Brondo electrode with. one high secondary emitting surfaces and moreover have at least one control electrode and one suction electrode for the secondary electrons according to the invention between the systems each pair has a shield plate with a fixed, high positive voltage applied to it, which identifies the common target electrode for these two sytsifiamc; compared to this umbrella is a plate-shaped deflection control electrode in any system and also bed each electrode system, approximately in the plane of the deflection control electrode and between this deflection control electrode and the first bending electrodes,

^{another 1} plate-shaped deflection electrode held at zero or at a low potential.

Such an arrangement with a bucket tube with a single pair of systems is shown in FIG. 4 '. However, it is advantageous to use several, e.g. B. to accommodate four system pairs in one tube. The pairs can be arranged in pairs one above the other on both sides of the cathode, with the electrons in two band-shaped. Throw bundles concentrated at the height of two systems arranged one above the other. A cathode of customary dimensions can also be used, the tube itself not assuming any abnormal dimensions. The bundle emerging from the electric generator 11 is directed from the deflector plates 12 and 19 onto the system A or B. Each system again has a pre-electrode 13 or 20, a grid-shaped electrode K4 or 21, which is arranged in front of the parallel electrode, and a plate-shaped deflection electrode 15 or. 212 ·. This electrode can direct the bundle onto the associated impact electrode or onto the common suction anade 17 if the bundle is directed from the deflection plates ii2 and 19 onto the system A or B.

The Sauiganode 17 is directly connected to a screen grid 18. This grid 18 serves to make the strong positive field near the edge ij ^{a of} the suction anode 17 more uniform. This positive field arises in that the electrodes ¹ 12 and 19, 16 and 23, 15 and 22, which lie in the vicinity of this edge may have a low potential. The grid 18 prevents the bundle from being deflected when shifting from system A to system B from this positive field to this suction electrode. Deflection plates 16 and 23 are also arranged which are kept at a low potential and whose mode of operation is explained below.

The function of the tube in this circuit is as follows: The bundle is directed to system A or B by the potential of plate 19. The plate part 2 has a fixed potential of, for example, + 130V. If the plate 19 is brought to +50 to + 70 V, the bundle moves to system A; if the potential is increased from 19 to 1151a up to 200 V, the bundle moves to system B. The plate 19 «therefore depends on the choice of contact A or B.

It should be assumed that the bundle is at A , the input electrode 15 being held at the same or a lower potential than the Prallefekirode 13, dl. H. to about 70 ^r V. Then the bundle zuir Eangielektrade wind deflected 17 and does not reach the electrode baffle. 13

If the voltage of 15 is increased, the bundle moves to the left and falls through the grid 14 onto the impact electrode 13, the potential of which is set to approximately the same value as that of the grid 14, as shown for system B.

There are two possibilities:

First, when the grid 14 is unmifctieibar with the Suction electrode 17 is connected, form the electrodes 15 and 13 the contact of the relay. The impact electrode 13 can thus assume two defined voltages, i.e. H. 70 V or the voltage of the grid electrode 14, which at the fixed battery voltage of 200 V is. This circuit can only be used to transmit pulses.

Second, when the · grating κψ is formed separately becomes, wiind the combination of 14 with the impact electrode 13 also has the same effect as the device according to FIG.

An alternating voltage at the deflection plate 115 or 22 is transmitted to the impact electrode 13 or 21a as a Redhtecfespannuing. The flanks of these rectangular voltages can be made very steep if · the impact electrodes are provided with obliquely protruding edges 24 and 215, so that the end; The bundle experiences an additional deflection when it leaves the parallel electrode or when it hits the parallel electrode as a result of these roughnesses, whereby the bundle in the present case gets into an unstable position and a voltage characteristic is created. The deflection plates 16 and 23 have the effect that, if the bundle would be deflected too far by the deflection plates 12 and 19 and threaten to leave the outside of the parallel electrode, the bundle is deflected: by then hard along the platelets 16 and 16, respectively 23 moves that are held at a low potential (+ or -) with respect to the cathode, preferably at zero potential. The bundle then moves, as is indicated in systems ^ and B with an open or closed contact. The streaked lines indicate the course with a somewhat stronger deflection, the dash-dotted line the course with such a strong deflection of the bundle that the deflection plates are very effective. The consequence of this is that the deflection voltage of the deflection plates 12 'and 19 can be regulated within wide limits and, despite this, relatively narrow impact electrodes can be used, since the bundle strikes the impact electrode on the suction anode side as the deflection voltage increases, and it also on this side leaves again, thus twice the width that the impact electrode can traverse without affecting the effect. As a result, the entire system can be kept narrow, in contrast to the design according to FIG.

A tube according to FIG. 4 replaces, if the grids 14 and 211 are separately tared, a combination of five relays, including one relay with a changeover contact (deflector plates 12 and 19) and four single-pole idle relays, as shown in FIG. 5. By suppressing this bundle by means of a control electrode ¹ , the combination can still function! © ines work rest relay. It will be understood that any combination of four additional relays can be replaced by any pair of systems also housed in the tube and hit by the same bundle. A particularly advantageous design is obtained when two pairs of systems are arranged in a tube on either side of the cathode, the cathode being two band-shaped bundles

feeds. Such a tube is very demanding smaller space than a corresponding number of relays.

The advantage of the construction according to the invention over serve execution forms, e.g. in Fig. 2i, consists in letting the control panel plates 15 unid 2i2 not acted upon by the bundle therefore no current and no voltage change connected electrodes of angelic redness responsible

The circuit according to Fig. 4 has proven to be very beneficial for signaling in telephone exchanges, since many / contacts can be tagged in series without an annoying voltage drop occurs. The voltage of each pralikleelectrode 13 and 20 is dependent on previous ones Control voltages to the fixed voltage dier with the grid 14 connected to the capture electrode 17 and! 21 © in, unidi es those with the PralMektradieln fill; ii3 bzAV. 2, q connected baffles 12, 19, 15 or 22 of the following tubes have no power. The Amwenidlurag the same voltages for the Pralfclektroden · • and the deflection electrodes has the advantage that this to be able to cooperate directly with one another and, furthermore, no power-consuming voltage dividers are required.

Claims (4)

Patent claims: i. Order to HensteMiunig and ¹ interruption from; Switchgear circuit in which the action of several relays is taken over by one electron tube, which has an electron generator and a mini-test! Electron bundles can be controlled according to various electroid systems, as well as the systeons. In pairs in the tube, there is at least one impact electrode each with a highly sequential surface and at least one control electrode. Have a false electrode for the secondary electrons, characterized by the fact that between the systems of each pair there was a discrete plate with a fixed, high, positive potential, which the common false electrode serves. Systems bilidfet, with this shield plate opposite in each system a plate-shaped deflection control electrode is attached and further in each electrode system, for example on the level of the deflection control electrode and between this deflection control electrode and the first deflection electrode, a deflection plate-shaped, held at zero or at a low potential is arranged is. 2. Arrangement make claim 11, characterized thereby, d'ass a giitteirfönmiige electrode anigeondinist in front of each Praltelelctrode and ^{1 is} veribuniden directly with dier Schiirmpliatte. 3. Arrangement ¹ according to claim 1 wire 21, characterized gekennzeiichniat that the edge idler PraM electrodes on the side of the face plate lying between these impact electrodes is bent out of the plane of the impact electrodes. 4. Arrangement according to claim 1, 21 or 3, characterized characterized 'that between the reading control electrodes of each system pair unid the deflection electrodes on a positive Is arranged potential held screen grid. 1 sheet of drawings O 5569 11.53