DE1082625B - Pulse-controlled electronic relay - Google Patents

Description

GERMAN

The invention relates to a pulse controlled electronic relay which has a circuit switches without delay.

Such circuits are required, for example, if circuits are to be controlled synchronously with specified pulses and the requirement there is that the delay caused by the switching process is negligibly small.

In known arrangements of electronic Re ^ High vacuum tubes are used as switching tubes, which are opened by an impulse on the control grid will. The tube remains live for the duration of the pulse. The use of high vacuum tubes as interrupter has the disadvantage, especially with high currents and low voltages, that tubes with high power losses must be used and that for the control pulses relatively high voltages are required.

There are still electronic relays with current gates - gas discharge tubes with hot cathodes - known as interrupters. In the known embodiments of such relays, the control grids the current gates are simultaneously supplied with control pulses of the same size and polarity. The electricity gates are each coupled to one another via a capacitor so that the ignition of a current gate the Deletion of the rest causes. The nature of the gas discharge tubes determines and causes the on their control grid guided control pulses only the ignition, d. H. the switching pulse generated by the power gate trigger, but not the duration of the discharge of the power gate, d. H. the duration of the switching pulse determine. To determine the duration of the ignition, the current gates with runtime chains are in the known relays or i? C elements coupled, their discharge times the duration of the ignition of the individual power gates and further determine the cycle or order in which the various current gates fire and generate switching pulses. The dependence of the duration of the ignition of the various power gates, d. H. the dependence of the duration of the switching pulses generated by the current gates on the discharge times of the Runtime chains, or i? C links, have the disadvantage that with those used in the known electronic relays Current gates can only generate switching pulses, the duration of which differs from the permanently set Discharge times of the runtime chains or i? C elements is determined, and that the clock continues in which the various current gates generate switching pulses in a cyclical or otherwise defined sequence, also from the fixed discharge times of the runtime chains coupled with the electricity gates or 7? C-members depends on the duration and not on the duration the pulse-controlled electronic relay connected to the control grid of the power gates

Applicant:

Institute for Broadcasting Technology G. mb H.,
Baden-Baden, Hans-Bredow-Str. 16

Eckhard Paulsen, Ahrensburg (Holst.),
has been mentioned as the inventor

Control pulses is determined. A change in the duration of the switching pulses generated by the flow gates or a change in the rate at which the various current gates generate switching pulses only by changing the discharge times of the runtime chains or i? C elements, but not by changing them the duration of the control pulses possible. Switching operations with changing duration and rhythm of the various switching impulses can be switched off. for this reason not with the well-known electronic relays, use the power gates as interrupters.

To avoid these disadvantages, a pulse-controlled electronic relay with two gas discharge tubes as interrupters, the grid biases of which are dimensioned so that the positive pulse edges each trigger the ignition of the gas discharge tubes, and in which one the cathodes together connecting 'coupling capacitor when a gas discharge tube ignites the extinction of the the second causes, according to the invention, the control grids of the two gas discharge tubes simultaneously, control pulses with the same amplitude and duration, but with opposite polarity, so that the positive directed edges of the control pulses, namely the leading edge of the positive pulse and the trailing edge of the negative impulse, 'each time the ignition of the gas discharge tubes.

The new relay has. the advantage that. which are simultaneously connected to the control grids of the electricity gates (gas discharge tubes) guided 'control pulses of the same size and length, but different polarity, only the ignition process of the power gates as well as the change of the switching processes to be activated by the relay control and trigger, d. ti., the duration of the ignition the power gates and thus the "duration of the relay

009 52'8 / SOZ

Claims (2)

3 4 The switching operations or switching states to be activated are determined simultaneously with the positive control pulse, which is sent to the control grid of the current gate T ₁ solely by the respective length of the control pulses. This eliminates the need for the same control pulse with reversed polarity relays coupled to the current gates in the known relays, which are technically guided _{to the control grid of the current gate T 2.} These complex runtime chains or i? C combinations. 5 negative control pulse has the same duration as the The sole dependence of the duration of the ignition _{brings positive to the control grid of the current gate T 1} or the current gate on the length of the control impulse leads to the impulse. He sets for the duration of the pulse that the further advantage that the duration of the relay grid bias voltage of the power gate T ₂ so far down, made to be operated switching operations as large as desired that an ignition of the power gate T _{2 can be} for the duration without the circuitry of the ίο of the control pulse is prevented. After the relay has been re-tuned or other time constants of the control pulse have been reached, the grid bias voltage must be changed. Henceforth ensures the power tores T ₂ back to their original value and produced by simple means great flank causes the ignition of the current gate T _2. Analogous to the steepness of the control pulses, a practically delayed process at the beginning of the control pulse, contact-free ignition and extinction of the current gates and 15, the ignition of the current gate T ₂ causes the extinction to result in an almost instantaneous switching of the to the current gate T ₁ and thus the interruption of the active switching processes by the relay. The new current flowing through the useful resistance. The relay is therefore particularly suitable for the control of the ignition current flowing through the current gate T ₂ causes switching processes with control pulses different from the resistor R _2, a voltage drop of the current length, the control pulses can very ao more at the start of the ignition of the current gate T ₂ quickly or with temporally long or temporally irregular capacitor C the anode voltage of the current-wise pauses follow one another. To trigger gates T ₁ briefly below the arc voltage lowering the switching process, only small control voltages are pressed, thus causing the deletion. As above and services required. With low loss - already mentioned, the grid bias voltage of the current output can be switched 25 gates T _{1 is} only chosen so large that it remains in the quiescent state, the current gate T _{1 is} after the Anode voltage of the new pulse-controlled relay. The two gas under the arc voltage do not re-ignite, but discharge tubes T ₁ and T ₂ are for example current again only when a new positive control gate and a DC anode voltage is applied to the grid of the current gate T ₁ , drove. The cathodes of the two current gates T ₁ and Soll of the useful resistance are generally switched on. T ₂ with their cathode _{resistances ^ 1} and R ₂ are switched and only coupled to one another via the capacitor C for the duration of a control pulse. If it is switched off, it must be placed in the cathode circuit of the useful resistor to be switched on by the relay, the current gate T ₂ , which ignites part of the cathode resistance R _{1 of} the current 35 and thus the gate T ₁ in the cathode circuit of the current gate T ₂ . The control process is described below for the useful resistance lying down for the duration of the idle example of the useful resistance R ₁ , which switches on for the state. If the duration of a control pulse, which is given to the grid of the current gate T ₁ , is then applied to the current gate T ₁ , is then to be switched on. analogous to the control process described above, the grid biases of the two current gates T ₁ 4 ° j _m cathode circuit of the current gate T ₂ useful and T ₂ are chosen so large that in the idle state, resistance expressed for the duration of the control pulse. H. when the anode DC voltage is switched on and switches. If the resistors R ₁ and R ₂ einwenn no control pulses to the control grid of the finally of Nutzwiderstandes into the anode circuit current gate T are given _1, the stream gate T _{1 part} by the current gates T ₁ and T ₂ established and the anodes of the remains extinguished, while the Power gate T ₂ ignites. In this case, ⁴⁵ two current goals through a capacitor to each other is ₁ coupled to the bias of the power door T in such a way to give the same control operations selected to be large, the amplitude of the control pulse and the same conditions for the size of the Gittergenügt, ER to the ignition of the stream gate Bias voltages such as those described above to generate the grid bias voltage required. gates whose cathodes are connected via a capacitor to the control grid of the 5 <> _{an (} ier in the idle state. cleared current gate T ₁ a positive control pulse The triggering of the ignition of the gas discharge given any duration, its positive roaring by a pulse edge with a positive direction triggers the ignition of the current gate T ₁ takes place almost without delay, it does not matter. The anode or ignition current flowing after ignition through da, s current - whether gas discharge tubes with hot cathodes, also tor T ₁ , actuates the 55 current gates, or gas discharge tubes with useful resistance in the cathode resistance R ₁ , also called relay tubes, used for the duration of the Ignition. The one in resistor R ₁ will be. Current goals require a short heat, caused by the ignition voltage drop during relay tubes immediately to the reduced at the beginning of the ignition of the current gate _T1 anode voltage into action contact switching, briefly via the capacitor C, the Anodenspan- ^6o " tion of the power gate ignited in the idle state T ₂ claims = so far that this is deleted, d. i.e. the one with the 1st pulse-controlled electronic relay Ignition of the current gate T ₁ in the resistor R ₁ ent- two gas discharge tubes as switching tubes standing voltage drop presses at the beginning of the Zün grid prestresses are dimensioned so that the tion of the current gate T ₁ briefly via the coupling ⁶ 5 positive pulse edges, the ignition of the condenser C trigger the anode voltage of the current gas discharge tubes and where a tores T ₂ below the arc voltage and thus causes coupling to connect the cathodes the deletion of the power gate T ₂ . In order to prevent the condenser from being released when a gas discharge after this brief lowering of the anode tube the extinction of the second causes, thereby voltage of the current gate T ₂ this ignites again, ⁷⁰ marked that the control grids of the two Gas discharge tubes simultaneously control pulses with the same amplitude and duration, but with the opposite one Polarity, so that the positive edges of the control pulses, namely the leading edge of the positive pulse and the trailing edge of the negative pulse, respectively trigger the ignition of the gas discharge tubes. 2. Pulse-controlled electronic relay according to claim 1, characterized in that in parallel A capacitor is connected to the common anode feed line for the two gas discharge tubes. Considered publications:
German patent specification No. 706 425. 1 sheet of drawings