DE1021193B - Counting - Google Patents

Description

GERMAN

The invention relates to a counting circuit with η stages, each provided with a discharge tube, which can be conductive or non-conductive.

The binary counting circuit may be mentioned as an example of such a counting circuit. One of them always holds Tube the remaining tubes in the locked position. If the circuit contains 2 «tubes, the number is States at most 2 ".

The invention is based on the object of determining the number of states of the counting circuit with the same number of tubes and reduce the load required to lock the rest of the tubes.

According to the invention, this object is achieved in that if any combination of p tubes from these tubes is simultaneously conductive for p > 1, the remaining (n-p) tubes with (n - p) > 1 are kept non-conductive, namely with With the aid of locking elements between the anodes of said combination of p- conductive tubes on the one hand and the grids of the (n - p) non-conductive tubes on the other. Here, each locking element is provided with a conductor, with which on the one hand, separate rectifier cells containing connections are connected to the anodes of the named p tubes in such a way that this conductor accepts the most positive of the voltages supplied to these rectifier cells and with the other hand, controlling, separate rectifier cells containing connections to the Grids of the remaining (n - p) tubes are connected so that they accept the most negative voltage from all locking elements connected in this way and the counting circuit. = I. = -TTi - ~~ rn stable locked Zu tr ι -. ' r ι tr * \ '"tr ι

can take on.

Another advantage of this circuit is that the various states can be entered in an extremely simple manner and can be run through in any order previously set. Furthermore, the number the states are less than the largest number, without the need for special auxiliary organs, such as special tubes, which are required in known binary circuits would have to be provided.

The circuit according to the invention can, inter alia, refer to an arrangement for remotely measuring the greatest distortion the telegraph characters sent by a subscriber line in the start-stop code are used as suggested elsewhere.

The invention is explained in more detail with reference to the drawing.

Fig. 1 shows the circuit of the counting tubes;

Fig. 2 shows the basic circuit counting arrangement;

Fig. 3 gives an example of a five-fold counting circuit.

Fig. 1 shows the circuits of the counting tubes j and k of a w-fold counting circuit. The use of double triodes simplifies the combination, so that also counting circuit

Applicant:

State requirement of the posterijen,
Telegrafie en Telefonie, The Hague

Representative: Dr.-Ing. O. Stürner, patent attorney,
CaIw-Wimberg, Ostlandstr. 36

Claimed priority:
Netherlands 10 September 1953

Hendrik Cornells Anthony van Duuren, Wassenaar, and Antonie Snijders, The Hague (Netherlands),

have been named as inventors

assumed in this figure. Single triodes can be used without difficulty. The tubes Bj and Bk are fed from a positive voltage source via individual anode resistors RIj and RIk . The cathodes are connected to each other (KJk) -

As will be shown, the cathodes of all counting tubes for the purpose of generating negative grid voltage via a decoupled cathode and resisting each other be connected. Additional stabilization is also achieved in this way. This prevents a a greater number of tubes than those for which the circuit is designed becomes conductive. However, the negative can be Grid tension can also be generated in other ways.

The glow lamps Lj and Lk connected in series with high- ohm resistors R 5 / and R5k can be used for a display. In order to reduce the rather large voltage fluctuations at the anodes of the counter tubes to approximately the level at which the grid voltage must be in order for the tube to change its conduction state, voltage dividers are provided. For this purpose a resistor i? 4 is grounded on the one hand to the anode, on the other hand on the one hand via the resistor R 3 and on the other hand connected to a negative voltage source via the resistor R2. The poles of the voltage sources, not shown, are jointly at ground potential.

The grid connection is denoted by G and the anode connection is denoted by A. It should be noted that the tension parts

709 810/154

3 4

can also come in omission, then the anode di- grids of η - p through this connection point is connected to A controlled. In this case, all of the old tubes must be used.

Grid over individual resistors with the negative To go from one state to the other,

Be connected to the voltage source. it is sufficient to connect point X of this other position

Fig. 2 shows the basic circuit diagram of a κ-fold Ver 5 corresponding locking element - and only this divider circuit according to the invention, in which p tube connection point - are also conductive for a longer or shorter time. Some of the counting tubes 1 to η are to be supplied with negative voltage. The locking element that corresponds to the output with rectangles whose line connections were made is then provided with the same reference numerals as in FIG. 1. its controlling influence in favor of the controlled Die Röhre0 is used as an incremental tube. The io locking element; Even after the control anode of this tube is no longer available, voltage is also provided via a voltage divider, and the circuit in the new position remains stable Ao connected to the so-called Forschungsaltleiter. Locked in. This control voltage is now obtained by means of the grid lines Gl to Gn, the locking elements, of which three anode lines A 1 to An and also the lines are shown. There are just as many increments as VA 1 to VAn, which require locking elements via delay networks A1-Cl 15, and are connected to the anodes in each state up to Rn-Cn , according to which a locking element and an incremental right-hand side of the figure are extended. element. Just like the locking element is namely all cathodes Ko to Kn including the stepping and the stepping element via p individual blocking cells tube are via the resistor Rd and decoupling (Sl to Sp in Fig. 2) with the anode VA of the p in the decondenser Cb Connected to generate negative grid-speaking state conductive counting tubes, voltage connected to the negative voltage source. On the other hand, the connection point W is all continuation. The static interlocking is connected between the grids and switching elements via individual blocking cells (So in the anodes. Each interlocking element Fig. 2) is connected to the interlocking conductor Ao . All lock corresponds to a desired state. There are three cells are shown with the low-resistance anode circuits locking elements (1, r, s). Each locking 25 of the counting tubes or connected to the stepping tube, management element consists of a conductor, which, on the one hand, has a controlling influence on the stepping elements via p blocking cells (Sn + 3 to Sn + p + 2) with p ano. They are connected so that the connection is connected to the A of counting tubes. A locking point W of the most negative of the said blocking cell element corresponds to the state of the counter-applied voltages.

tion in which the p tubes are conductive. Only in this 30 the stepping conductor Ao is normally held on a positive state, the lower connection point of said voltage, e.g. B. by such an attitude leader negative; In all other cases, at least the voltage divider Ra is kept so that the grid Go of one of these blocking cells a positive voltage is just negative, so that this presses, whereby the lower connection point is positive tube non-conductive. None of the points W remains. The conductor is on the other hand, ie at the top in Fig. 2, 35 incremental elements can under these circumstances become negative via blocking cells with the grids of the η - p, the p tubes. If now, z. B. connected by a positive complementary tube. These blocking cells impulse, from point P via capacitor Ca and Re, are denoted by Sp - \ - 1 to Sn . They are switched in such a way that if Rc was placed on the grid Go of the counter tube the increment that the grid of the counter tubes of the most negative of the listed ones is negative, then only this will follow the considered output voltages. 40 state corresponding incremental element negative. Only thinks that one state of the counting circuit corresponds to the point W of this incremental element, e.g. B. corresponding locking element gets in this Zu- PFl, with the point X of a different than that existed so on its conductor a negative voltage, the sought state corresponding locking elealso also on the grids of the η - p in the respective element, z . B. Xr, connected, so in this case the standing non-conductive tube appears. Only the bars fed 45 distribution circuit that is from the first to the r-position over the p-conducting tubes is relatively high, the barrier cells Sl 1 to Sl remain p provisional result voltage, so that the circuit stably the delay networks comparable RL Cl to Rn-Cn is still negative. The lock cells Sn - \ - 1 and Sw + 2 can tiv.

remain out of consideration; Their task is to prevent the circuit from changing two states

Switching. When used as a memory circuit, 50 increments at the same time, the time during which, if the increment is dispensed with, the incremental tube 0 can become conductive, must be shorter than that of these blocking cells in the absence. In this case delay networks can be caused by delay, the central connection point of the locking element. B. can be achieved by a corresponding dimensioning of a high resistance with the negative resistance Rb and capacitor Ca. The voltage source can be connected. At the reversed 55 connection points W of the incremental elements, the circuit in which the forward direction of all blocking cells is reversed with advantage via high-ohmic resistors Rl with cells, so that η - p tubes are conductive, the negative voltage source or the positive for the others , p, are non-conductive, this high impedance reverse circuit is to be connected. In a connected with resistance to the positive voltage source connected to an incremental switching device as described. These resistors, the task of the supporting have ⁶ ° circuit used in the locking elements so standardize the circuit due to the cell capacities comparable to two by a lock-out cell (Sn + 2) separate Verbinmindern. entry points.

If an increment is to take place, the lower connection point follows the most positive, the

Central conductor for each locking element still an upper one of the most negative voltage. These points have to provide blocking cells (Sw + 2). This is the counterpart 65 a high-resistance derivative to the negative or positive of a second cell (Sw + 1), which is connected to the upper voltage source, ie via R2 or R3. In the tie point of the locking element and with the reversed circuit, these polarities are reversed. The connection point X is connected. The more negative of the connection between the points W of the incremental voltages and the voltages imposed on these cells appears at the points X of the locking elements and is above the connection point and thus also at the 7 °. These connections are not indicated in FIG.

If only a part of the possible states is required, only the states corresponding to these desired states need Stepping and locking elements to be provided.

Fig. 3 shows the circuit diagram of a circuit according to the invention with five counting tubes, two of which are always conductive at the same time. The number of possible states is ten. All ten locking and indexing elements are shown. The connections between the points W and the points X are indicated in punctiform fashion; they can be chosen at will. In the present case, the counting circuit runs through all ten layers in the following order (x = conductive, ο = non-conductive):

tube 1 2 3 4th 5 tube 1 2 3 4th 5 0 X X O O O 5 O O X O X 1 X O X O O 6th O O O X X 2 O X X O O 7th X O O X O 3 O X O X O 8th X O O O X 4th O O X X O 9 O X O O X

ao

After the description of the general case, it is not necessary to go into the circuit according to FIG. 3 in more detail.

In the opposite case, an analogous train of thought applies.

Claims (1)

Claim: Counting circuit with η steps with one discharge tube each, characterized by any combination of p tubes {p > 1), which are simultaneously conductive, while the remaining (n - p) tubes (n - p) > 1 with the help of locking elements between the The anodes of the mentioned combination of p- conductive tubes on the one hand and the grids of the {n - f) non-conductive tubes on the other hand are non-conductive and each locking element is provided with a conductor, with which on the one hand connections containing separate rectifier cells are connected to the anodes of the said p- tubes in such a way, that this conductor accepts the most positive of the voltages supplied to these rectifier cells, and with the other hand, controlling connections containing separate rectifier cells are connected to the grids of the other (n - p) tubes, so that these accept the most negative voltage from all locking elements connected in this way whereby the counting circuit is at most [ ^M J = (^ ") = - ^{nX assumes} stable locked states. p \ (n-p) \ Documents considered: High Speed Compating Devices, von Tauphiers, Wabelin and Stifter, McGraw Hill Book Co., New York - Toronto - London 1950, pp. 17 to 19. 1 sheet of drawings © 709 810/154 12.57