DE1148785B - Electronic counter and display device - Google Patents

Description

GERMAN

PATENT OFFICE

kl. 42 p 3

INTERNATIONAL KL.

GOIq; G06f

G28365IXc / 42p

REGISTRATION DATE: NOVEMBER 12, 1959

NOTICE
THE REGISTRATION
ANDOUTPUT DEK
EDITORIAL: MAY 16, 1963

The invention relates to switching devices, in particular to an electronic counting and Display device.

For purposes of illustration, the invention in connection with its application to decade counting and display devices are described although the invention is also useful in other areas can be, as can be seen from the following description. With such counting devices Usually successive, series-connected switching circuits are used, which are called "flip-flop" (switching circuits) consist of electron tubes, transistors and the like. Relay stages formed and which can be switched so that they either into a first switching state designated by "0" or set to a second switching state designated by the number "1" will. It is assumed that the switching state marked "0" represents the state in the right electron tube of the "flip-flop" tube pair is conductive and the left tube is switched off is, while the state labeled "1" may represent the opposite. The counter is equipped with an appropriate feedback system to achieve a binary count. With four such switching stages can be achieved if successive pulses are allowed to act on the counter, get the following binary number sequence:

number
of the entrance Switching status 1 2 the switching stage 4th impulse 0 0 ³ 0 0 1 0 0 0 1 0 1 0 0 2 1 1 0 0 3 0 1 0 0 4th 1 1 1 0 5 0 0 1 1 6th 1 0 1 1 7th 0 1 1 1 8th 1 1 1 1 9 0 0 1 0 0 0

Counting circles to generate such a mode of action and to light up successive ones Indicator tubes, lamps or other display devices that count from 0 to 9 in succession Systems are known. However, while with such a circuit the display tubes are reliable can be switched without ambiguity, but has that to generate the above-mentioned on-one-electronic Counting and display device

Applicant:

General Radio Company, West Concord, Mass. (V. St. A.)

Representative: Dipl.-Ing. R. Müller-Börner, Berlin-Dahlem, Podbielskiallee 68,

and Dipl.-Ing. H.-H. Wey, Munich 23,

Patent attorneys

Claimed priority: V. St. v. America, November 12, 1958 (No. 773 511)

Robert Stuart Jr., Natick, Mass. (V. St. A.), has been named as the inventor

otherwise required feedback system certain disadvantages; namely, it is difficult at low Counting speeds to obtain reliable working of the feedback devices, and practical impossible to work with it at all at high counting speeds.

One can accordingly to a modified counting circuit of this type, the one with a feedback system is provided to take refuge in the one who does not have these disadvantages, but on the contrary works reliably at both low and high counting speeds. Such a binary number sequence, which is preferably used for the purposes of the present invention is the following:

number 1 Switching status the switching stage 4th of the entrance 0 0 impulse 1 j 2 3 I. 0 0 0 0 0 1 1 0 0 2 0 0 0 3 1 0 0 4th 0 1 0 5 1 1 0 6th 0 1 1 7th 1 1 1 8th 0 1 0 9 1 0 0 0 0 1 1 0 0 1 1 1 1 0

309 580/201

However, it is in a decade counter employing the above binary number sequence as a result of this adherent properties possible that one or more of the indicator tubes may be erroneously triggered as will be discussed in more detail below. This is a highly undesirable one State. Though fixed by increasing the electricity delivery requirements can be, e.g. B. by increasing the vibration occurring at the anode of the switching tube stages from about 120 to 180 V, such a solution is expensive and therefore undesirable. In a similar way you can Circuits with diodes are used to avoid such a mode of operation, but these circuits are again relatively expensive and therefore also do not result in any from an economic point of view from satisfactory solution.

It is an object of the present invention to overcome these disadvantages of the prior circuits and to set up a new counting and display system that works at both low and high counting speeds can be switched reliably and with simple and cheap means to prevent incorrect Actuation of the counting display devices is equipped. Basically this goal is with reaches a lock-up circuit consisting of a threshold voltage actuated non-linear device, preferably a two-electrode neon tube.

Further details of the invention are set out below.

The invention will now be described with reference to the drawings, of which

Fig. 1 is a circuit diagram of an embodiment of the invention in which the circuits in the form of a Block diagrams are shown, and

Figures 2 through 5 are similar circuit diagrams of the display portion of the system of Figure 1 illustrating the operation for successively progressing counting states.

Connected to the first, second, third and fourth switching stage SS ₁ to SS _t according to FIG. B. with the numbers 0, 1, 2, 3, 4, 5, 6, 7, 8 and 9 numbered two-electrode neon tubes or lamps. The output circuit of each pair of "flip-flops" or other switching relays of the first, second, third and fourth switching stages SS ₁ to S ¹ S ₄ is connected in a known manner via a resistance load to the positive terminal of the network E _bb . The output terminals P ₁ and P _{2 of} the first switching stage SS ₁ and the output terminal P _{8 of} the fourth switching stage SS ₄ are connected to E _bb through pairs of mutually identical resistors, each of the size Ru ₂ . The output terminals P ₃ and P _{4 of} the second switching stage SS ₂ , P ₅ and P _{6 of} the third switching stage SS ₃ and P _{7 of} the fourth switching stage SS ₄ are connected to the network terminal E _bb through resistors of the value R _L. The successive switching stages are connected in series, as illustrated by the connecting lines 12, 14 and 16 between the output terminals P ₂ , P ₄ and P ₆ and the respective input terminals I ₂ , I ₃ and I _{1 of} the second, third and fourth switching stage.

The pulses to be counted and displayed can be fed to the input terminal I _{1 of} the first switching stage SS ₁ , and the output line of the decade counter can be connected to the output terminal P _{8 of} the fourth switching stage SS ₄ . The current path required for the feedback, with which the desired binary number sequence is achieved, is denoted by R [^ and from the output terminal P _{7 of} the fourth switching stage to the input terminals I ₂ and / "'of the second or third switching stage SS, with the relay on the right with each switching step

ίο connected relay pairs connected.

The upper terminals of the indicators 0, 2, 4, 6 and 8 are connected to the common conductor 13, and the upper terminals of the odd indicators 1, 3, 5, 7 and 9 are connected to a common conductor 15 in a similar manner. Both common conductors 13 and 15 are connected via a resistor with the value R (e.g. about 200 kilohms) and the lines 13 'and 15' to the midpoint _{terminals P 1} and P _{2 of} the output _{circuit loads} R Ll2 of the first switching stage SS ₁ in connection. The lower terminal of each display device 0, 1, 2, 3, 4, 5, 6 and 7 is connected to a resistor of the value R 2 (z. B. 400 kilohms) is connected, and the lower terminals of the pairs of display devices 0-1 , 2-3, 4-5, 6-7 and 8-9 are connected to each other by the conductors 17, 19, 21, 23 and 25, respectively. The resistors 2 R connected to the lower terminals of the display devices 0 and 4 are in turn connected by line 18 to the output _{terminal P 4 of} the second switching stage SS ₂ on the right. A similar connection is established through the line 20 from the resistors 2 R belonging to the display devices 1 and 3 to the output terminal P ₆ on the right of the third switching stage SS ₃ . the

Resistors 2 R connected to the lower terminals of the display devices 2 and 6 are also connected through the line 22 to the left output _{terminal P 3 of} the second switching stage SS ₂ . The left output terminal P _{5 of} the third switching stage SS ₃ is connected in a similar manner by the line 24 to the resistors 2 R belonging to the display devices 5 and 7. The conductor 25 connecting the lower terminals of the display devices 8 and 9 to one another is connected in the same way via a common resistance of the value R through the line 26 to the left output _{terminal P 7 of} the fourth switching stage SS _A.

In order to facilitate the description of the mode of operation of the circuit of the invention, which is highlighted before the others, are provided that the "flip-flop" circuits are made up of tubes, with an "off" voltage of the tube anode of 40 V under E _bb and an "on" voltage of the tube anode of 160 V under E _bb are used; typical voltage values are given at suitable points in the circuit diagram; so z. B. the upper terminals of the resistors, which lie between the conductors 13-13 'and 15-15', are shown with a voltage of "140 V" or "80 V" maintained on them. For the sake of simplicity, these voltages are related to the “on” anode voltage of the switching stages, this voltage being arbitrarily set to earth or zero voltage potential (“0V”). The above-mentioned, for example, given value of the resistance R of 200 kiloohms is suitable in neon tube display devices for currents of the order of 0.2 milliamps. The shading of display devices 0, 2, 4, 6, and 8

1 to 5 shows the triggering of such display devices, with a similar triggering of the display devices 1, 3, 5, 7 and 9 taking place with exchanged voltages at the terminals P ₁ and P _2.

The blocking circuit according to the invention is shown in the interconnection between the display devices 6 and 7. It consists of a threshold voltage operated, in both directions current passing neon or similar two-electrode gas discharge tube N. The upper electrode E _{1 of} the neon tube N (Fig. 1) is connected to the line 23, and the lower electrode E ₂ is preferably a Resistance of the value .R / 3 and through a line 28 to the center point P ₈ 'between the output circuit resistors R _{Ll2 of} the right relay of the fourth switching stage SS ₄ in connection. As can be seen from FIGS. 1 to 4 of the drawing, the blocking device N is ineffective for the operating conditions in which the pulses numbered 0, 2, 4 and 6 come into consideration, and it can be shown in a similar manner that they also is ineffective for impulses no. 1, 3, 5 and 7. In the pulse number switching states 0 through 7, the correct indicator lamp will therefore be triggered in response to the corresponding pulse number or number, and all other indicator lamps will, as can be seen from the voltage values indicated in FIGS. 1 to 4, at a potential of not held above 40V. This voltage is not sufficient to trigger the other display devices, so that the triggering is clear. Neon tubes ignite at about 90 V and their voltage is about 60 V, so that any incorrect operation is reliably avoided due to the not-more-than-40-V state.

In the arrangement shown in Fig. 5, things are different. The reduced voltage at the output terminal P ₇ is used to correctly trigger the indicator lamp 8 as indicated. However, if the blocking circuit NR / 3 is not present, the voltage value on the common connecting line 23 of the display devices 6 and 7 will also drop and result in a false trip of the display device 6. Similarly, will the display device? Trigger incorrectly when display device 9 is triggered. Such incorrect actuation is avoided by the blocking circuit according to the invention. The voltage drop on the connecting line 23 of the pistons 6-7, combined with the increase in voltage at the output terminal P ₈ , will trigger the blocking device N. The current passing through N current is so dimensioned that it is strong enough (for. Example, equal to _^3/2 of the normal tube current for the corresponding, applied in this case, resistance values), the voltage on the connection line 23 of the display device 6-7 high enough (60 V) so that the display device 6 cannot trigger due to the insufficient voltage (40 V) applied to it. The blocking device N also works in a similar manner in stage 9 in preventing false triggering of the display device 7.

The invention therefore makes it possible to operate reliably by means of a blocking circuit and inexpensive threshold voltage operated non-linear neon or similar devices false triggering of the display devices avoided and all the aforementioned disadvantages of the known arrangements overcome.

The extension of the neon tube blocking system described here can lead to further improvements in decade counters. If in particular a sufficient number of Blocking neon tubes is used, one can meet the requirements for the magnitude of the oscillation voltage the flip-flops of the 120 V required for a blocking circuit or the one when it is not present Reduce the blocking circuit required 180 V to 60 V.

Claims (4)

PATENT CLAIMS: 1. Electronic counting and display device with a number of circuits for counting successive pulses, a display device for illustrating the counting result of the circuits and a coupling circuit connecting the circuits and the display device, characterized in that the coupling circuit (N) can be actuated from one of a threshold voltage , non-linear device, preferably a two-electrode neon tube. 2. Apparatus according to claim 1, characterized in that the non-linear device with a display device (6, 7) is interconnected in a circuit, so that it is the co-actuation of this display device by the counting action of the circuits (SS ₁ , SS ₂ , SS ₃ , SS ₄ ) together with another display device (8, 9), which is to be operated alone, prevents the voltage applied to the display device below the threshold value required for its operation. 3. Counting and display device according to claim 1, characterized by four circuits connected in series (SS ₁ , SS ₂ , SS ₃ , SS ^ for counting successive pulse decades in the order: 0000
1000
0100
1100
0010
1010
0110
1110
Olli
1111 a display device consisting of a decade of display devices (0, 1, 2, 3, 4, 5, 6, 7, 8, 9) for registering successive counts of the circuits (SS) from zero to nine, the sixth and seventh devices of the Decade of display devices is normally triggered by the deliberate actuation of the eighth and ninth display device caused by the counting action of the circuits in an undesirable manner, and a threshold voltage operated neon tube (N) which is connected in a circuit with the sixth and seventh display device to prevent these devices from being triggered in response to the intentional actuation of the eighth or ninth display device. 4. counting and display device according to claim 3, characterized in that the sixth and seventh display device to a common Terminal (23) connected and. from this are connected via resistors (R _L ) to the second or third of the four circuits (SS) , the non-linear device (Λ /) between the common terminal (23) and a resistor (R / 3) of lesser Size is connected to the fourth circuit (SS ^ and the eighth and ninth display devices via a resistor (R / 2) which is greater than the resistor stood (R / 3), but smaller than the resistance (R _L ), is connected to the fourth circuit (SS ₄ ) . Considered publications: Book by C. W. Tompkins, J. H. Wakelin, and W. W. Stifler, "High-Speed Computing Devices", Mc.GrawHillBookComp.Inc.jNewYork — Toronto— London, 1950, pp. 198 to 200, 12 to 29, 32 to 54. For this purpose 2 sheets of drawings