DE939408C - Electronic storage device - Google Patents

Description

For checking and / or recording processes, which repeat themselves with the same time interval in regular or irregular sequence, it is often desirable to have the means to Address the occurrence of an event in a single period and the time from the beginning of the period Note until the occurrence of the process, until a corresponding determination in a second period or is hit in consecutive equal periods. Such means can be used for this to make devices such. B. only respond to regularly recurring processes.

Storage devices are already used in calculating machines such. B. using the magnetic tape technology or an electroacoustic delay line have known but mostly complex design and mode of operation.

It is also already known, one controlled by vibrating tubes and stepwise by means of impulses to use the discharging capacitor to count the impulses.

Such a storage capacitor has also been used to record messages in this way used that it was charged to an extent indicative of the message to be stored is.

According to the invention, an electronic storage device consists of a capacitor, an

one electrode of which an alternating voltage is applied, while the other electrode of the capacitor by switching means, e.g. B. electric discharge tubes that form a hold circuit on is held at a fixed or nearly fixed potential until a signal appears from a one The impulse representing the process is generated and the holding circle. opens so that the capacitor is its Retains charge that corresponds to the voltage applied at the time the ίο pulse was received.

The alternating voltage applied to the capacitor can advantageously have a sawtooth shape with a negative Have potential, and the initiation of each operating phase must be set in such a way that each The period of the process can be appropriately observed or recorded. The one with the holding circle connected electrode of the capacitor can also be connected to other electrical discharge tubes that are out of order as long as the holding circuit is closed. Will a signal with the appropriate Waveform transferred to the holding circuit during an operating phase of the AC voltage, the holding circuit is opened and the Capacitor retains a charge that corresponds to the potential of the capacitor at that moment. The resulting variable potential of the capacitor is applied to the discharge tube, which can, however, be set up in such a way that it is not switched on before, during, the In the next operating phase of the alternating voltage, a value is reached which is the same or almost the same is the potential of the capacitor at the moment the hold circuit is opened. These The mode of operation of the discharge tube can be used to switch on display or recording means, for example that respond to the impulses representing the repeat characters to be tested represent.

The invention is explained in more detail below with reference to the drawing, in which an embodiment. example is shown.
Fig. Ι is a circuit diagram;
Fig. 2 shows timing diagrams. In Fig. Ι one of the electrodes of the condenser 1 is connected to the output circuit of a source 2 of alternating voltage, the z. B. may have a sawtooth shape with negative potential. This source is indicated in the drawing in the block diagram. . The other electrode of the capacitor is connected to the cathode of a discharge tube, namely a triode V ₁ , and to the anode of a second discharge tube, namely a triode F ₂ . The control grid of the tube V ₂ has a bias voltage with respect to the control grid of the tube V ₁ , as shown schematically by a battery 3, and an electrical signal generated by the preferably pulse-shaped repetition characters 11 in the generator 12, roughly corresponding to a step function 13, is sent to both Control grid created. The repetition characters 11 can be. The derived electrical signal required to turn on the tubes V ₁ and V ₂ must be of a waveform such that before the first pulse is received it has a constant positive value, the sufficient to make the tubes V ₁ and V ₂ conductive. When the first pulse is received, the position of which is to be noted, the desired signal potential must drop sharply to a negative value of sufficient magnitude to cause the tubes V ₁ and V _{2 to be} blocked. This derived electrical signal can be taken from a monovibrator 12 shown in FIG. 1 in the block diagram. In Fig. Χ the input and output waveforms 11 and 13 are shown schematically.

The voltages applied to the anode of tube V ₁ and the cathode of tube V ₂ are such that the conductor 4 connecting the cathode of tube V ₁ to the anode of tube V ₂ and to an electrode of capacitor 1 is at least nearly is held at zero potential.

The conductor 4 is also connected to the control grid of a discharge tube F ₃ , with which another discharge tube F ₄ cooperates, so that the tubes F ₃ and F _{4 form} a cathode-coupled externally controlled monovibrator. The anode of the tube F ₃ is connected to the control grid 6 of the tube F ₄ via a resistor 5, and this grid 6 receives a suitable bias voltage from the voltage divider 8 via the resistor 7.

The voltages applied to the electrodes of the tubes F ₃ and F ₄ are such that, in the rest or starting position, the tube V _{3 is} blocked and the tube F _{4 is} conductive. As long as no signal is received from the tubes F ₁ and F ₂ forming a hold circuit, tube F ₃ remains blocked, since the conductor 4 is on a fixed one. Potential is maintained.

When the diverted electrical signal generated by the first pulse of a series of process-representative pulses is received by the tubes V ₁ and F ₂ , the tubes V 1 and F 2 are disabled and the hold circuit is opened, whereby the capacitor retains a charge equal to the potential of the sawtooth voltage at this moment corresponds. The potential of the conductor 4 then follows the sawtooth voltage which, being of negative polarity, will continue to drop (assuming that the pulse is received before the end of the negative potential curve). This has no effect on the tube F ₃ , which remains blocked until, during the return to the positive potential, the voltage on the control grid rises so far that the tube becomes conductive. This condition causes the anode voltage of the tube F ₃ to drop, as a result of which the tube F _{4 is} blocked. This causes the potential at the anode of the tube F _{4 to} rise and causes the monovibrator to tip over into its other operating phase.

When the sawtooth voltage drops in the next period, a moment is reached at which, if the voltage divider 8 is precisely set, the tube F ₃ ceases to be conductive and the tube F ₄ becomes conductive again.

At this moment the desired input signal should be terminated, so that the hook circuit is closed (ie that V ₁ and V _{2 are} again conductive), which can expediently take place in that this voltage change is applied to the anode of the tube V ₁ . This has the effect that when an expected pulse occurs, the circle is again in the receiving position.

The voltage divider 8 can be set in this way

ίο that the monovibrator V ₃ , V ₁ just overturns before the voltage of the conductor 4 regains the potential it had at the moment the first pulse was received, creating an "expectation" interval before the expected signal is received is provided.

The pulse with negative potential at the anode of the tube P ₄ can be used to put other tubes in the operating phase so that the first repetition of the first pulse can be received and display or recording means can be set in motion in a known manner.

In such a device, the display or the recording means can also from the Signal line must be switched off, except during the times when an impulse is expected.

It can be seen that the invention does not apply to the operation with regularly recurring processes, d. H. Processes with a fixed signal interval ratio, is limited. The invention can also be used for processes that are repeated with arbitrary intermediate times, d. H. which repeat at the same or nearly the same time of the signal period during the The spacing of the signals can be arbitrary.

A special case, which is only used as an example, is given when echo signals with received almost constant interim time after the transmission of the corresponding excitation signals but the excitation signals have any time distribution.

In such a case, it is desirable to track the time between the first excitation pulse and to store the echo of the same, so that it changes with the time between .dem second excitation pulse and the echo of the same can be compared, even if the excitation impulses do not come from regular are of a recurring nature.

Such a case is shown diagrammatically in FIG. 2, in which the time distribution of the excitation pulses is shown at point α . The alternating voltage for operating the storage device can be applied by the excitation pulses, as shown at point b . The time distribution of the echo signals is shown at point c ,

The position of each echo pulse on the voltage curve & is given by the tension exerted by the arrangement by the described means of from the first operating phase to the next one.

Other applications of the invention and the invention will be readily apparent to those skilled in the art can particularly be used as a particle counting device. There are devices, for example known, in which particles to be counted are deposited on a plate and this Plate is scanned by means of a light beam. The device according to the invention can here serve to prevent the repeated counting of a "large particle" twice or more is struck by the light beam more often when scanning. The invention is according to the. special Conditions in practice can be modified, for example by adding the discharge tube holding circuit is replaced by other means with a similar function.

Claims (4)

Patent claims: 1. Electronic repetitive operation storage device using a memory serving capacitor, characterized in that. to one electrode of this capacitor an alternating voltage is applied, while the other capacitor electrode is switched by switching means, z. B. by electrical discharge tubes, which form a holding circuit, on a fixed or is held almost fixed potential until a signal occurs, which is from one of the The pulse representing the process is generated and the hold circuit opens, so that the capacitor retains its charge, which corresponds to the voltage applied at the time the pulse was received. 2. Storage device according to claim 1, characterized in that the alternating voltage Has sawtooth shape with negative potential. 3. Storage device according to claim 1 or 2, characterized in that the to Holding circuit connected electrode of the capacitor also with other electrical discharge tubes connected, e.g. B. with a monovibrator, which overturns during an operating phase of the alternating current, which on the arrival of the pulse in question follows, the capacitor receiving such a potential that is equal to or is almost the same as that at which the hold circuit is being opened. 4. Storage device according to claim 3, characterized by its use in connection with display and / or on sign means, such that the display and / or recording means by tilting the monovibrator are set in motion, which is based on the repetition characters to be tested address the performing impulses. 115 '' Referred publications:
German Patent Nos. 677,798, 820016; Zeitschrift f. Physik, 90, 1934, pp. 416 to 420;
Book d. McGram Hill Book Company New York, 1949, "Waveforms". P. 477, para. 3. 1 sheet of drawings © 509 650 2.56