SU1112535A1 - Device for grid pulse modulating of travelling wave valve - Google Patents

Abstract

A DEVICE FOR GRID IMPULSE MODULATION OF TWT, containing the first and second sources of constant voltage, a pulse transformer, fixing and separating diodes, a storage capacitor, a pulse generator, a key element, a voltage divider, a comparator, a regulating element forming a two-pole and two resistors, in this case, the slow-wave system of the TWT is connected to the single-sided unit, parallel to the capacitor capacitor, the first winding of the pulse tramp () ormator is connected through the fixing diode, the first facing a storage capacitor is connected to a positive with respect to, the first source of voltage, connected through a second winding of a pulse transformer to an LVL collector, a voltage divider is connected between the bus bar and the combined terminals of the cathode of the TWT, the negative pole of the first and positive pole of the second constant voltage sources, the output of the voltage divider soy. inen over: (comparator with control input control of the control element, the grid through B1 connected to the winding of the transform in succession with three treyu the torus and the forming two-port device are connected to the LVV cathode, the second source of voltage is connected through the first resistor in parallel to the forming two-pole device, the first output of the pulse generator is connected to the PN1NNY circuit through the included noc, ie, separating diode and the fourth winding of the transformer, and a switch () connected, and a switchable diode and a fourth winding of the transformer; the second resistor and the key e, the first, the control input of which is connected to the second output of the pulse generator, the output of which is connected to the external side (L bus, from In order to increase the efficiency at low pulse porosity, a third constant voltage source and a chain of parallel connected resistor and a capacitor are inserted into it, with one electrode of the regulating element connected to the ground 1, the other with a positive pole the third constant voltage source, the negative zerous of the KOTOpoio is connected to the second plate of the storage capacitor, connected via a chain, connected in parallel to the resistor h and ix to the common dinene and the discovery of a companion.

Description

 11125 Izb;) powerie is related to the impulsogenesis technique and can be used in microwave transmitting devices for coherent radio locomotor systems. A device for grid pulse modulation of a TWT is known, comprising a first and second constant voltage source, a pulse transformer, a switching diode, a storage capacitor, and a pulse generator, the slowing TWT system being connected to a common bus and a positive pole of the second constant voltage source. , the negative pole of which is connected to the cathode of the fixing diode, clamped by the parallel-connected storage capacitor and the secondary winding of the transformer, the anode of the fixing diode Yes it is connected to the cathode of the TWT and through the primary winding of the transformer with the negative pole of the first source of constant voltage, the positive 20 pole of which is central to the collector of the TWT, and the output of the pulse generator is connected between the grid and the cathode of the TWT I. The disadvantage of this device is the instability of the microwave microwave signals at the exit of the TWT, when the duration of the modulating impulses on its grid varies widely. . The closest in technical essence to the invention is a device for grid pulse modulation of TWTs, JQ containing the first and second sources of constant voltage, a pulse tracer, fixing and separating diodes, a storage capacitor, a pulse generator, a key element, a voltage divider, a comparator, adjusting a 35-unit element that forms a two-port and two resistors, while the slow-waveguide TWT system is connected to the common bus, parallel to the storage capacitor via a locking diode and the first winding of the pulse transformer, the first plate of the storage capacitor is connected to the positive pole of the first constant voltage source connected through the second winding of the pulse transformer k45 to the TWT collector, the voltage divider is connected between the common bus and the combined leads of the TWT cathode, the negative pole of the first and the positive pole of the second constant voltage voltage, the output of the voltage divider 50 is connected through a comparator to the control input of the regulating element, The TWT is connected in series with the third winding of the transformer and the forming two-port connected to the cathode of the TWT, in parallel to the forming two-pole device through a first resistor a second source of constant voltage is connected, the first output of the pulse generator 35j is connected to the common output voltage through the fourth sequential diode V to the fourth winding trams || n) rm; a hormone shunted by a second resistor connected in succession and a key element whose control input is connected to the second output pa pulses, the total output of which is connected to the common bus. The second lining of the storage capacitor is connected to a common bus and an electron tube of an electronic lamp, the cathode of which is connected to the TWT cathode and the common lead of the comparator (2 |. A disadvantage of the known device is the reduction in efficiency while decreasing the pulse duty cycle. The purpose of the invention is to increase the efficiency with a small pulse duty cycle. achieved by the fact that in the device for grid pulsed modulation TWT, containing the first and second sources of constant voltage, a pulse transformer, fixing and separating diodes, a storage capacitor, a pulse generator, a key element, a voltage divider, a comparator, a regulating element forming a two-pole and two resistors, while the slow-wave TWT system is connected to the common busbar, the first winding of the pulse transformer is connected in parallel to the storage capacitor the capacitor is connected to the positive pole of the first constant voltage source connected through the second winding of the pulse transformer to the number the TWT vector, a voltage divider is connected between the common bus and the combined leads, the TWT cathode, the negative pole of the first and the positive pole of the second constant voltage sources, the voltage divider output is connected via a comparator to the control input of the regulating element, the TWT grid through the third connected the transformer winding and the forming two-pole device are connected to the TWT cathode, and a second constant-voltage source is connected in parallel to the forming two-pole wire through the first resistor, The first output of the pulse heerator is connected to a common lead through a series-connected separating diode and the fourth winding of the transformer, shunted by a second resistor connected in series and a key element, the control input of which is connected to the second output of the pulse generator, the common lead of which is connected to the common bus, the third constant source is entered voltage and a chain of parallel connected res.eistor and a capacitor, with one electrode of the regulating element

Generally, the other is with the positive pole of the third source of constant voltage, the negative pole of which is connected to the second plate of the storage capacitor connected through a chain of parallel connected resistor and a capacitor to the common bus to which the common output of the comparator is connected.

The drawing shows a circuit diagram of an apparatus for grid pulse modulation of TWTs.

The device contains TWT I, first 2 and second 3 sources of direct voltage, pulse transformer 4 with winding chambers 5-8, fixed 9 and separation 10 diodes, storage capacitor And, generator 12 pulses, key element 13 (for example, a thyristor or transistor), voltage divider 14, comparator 15, regulating element 16 (for example, in the form of an electric lamp or transistor), forming a two-pole 17 (for example, as a forming line) and resistors 18 and 19, the third constant-voltage source 20, chain of parallel connected cuts istor 21 and the capacitor 22.

In this case, the slowing-down system of the TWT 1 is connected to the common bus, parallel to the capacitor P a winding 5 is connected via diode 9. The combined terminals of the first plate of the capacitor 11 and the anode of diode 9 are connected to the positive pole of the source 2 connected through the winding 6K of the TWT collector 1. Divider 14 is on between the common pin and the combined leads of the cathode of the TWT 1, the negative pole of the first 2 and the positive pole of the second 3 constant voltage sources. The output of the divider 14 is connected through a comparator 15 to the control input of the regulating element 16 (for example, with a grid of a lamp or a pnp transistor base). The grid of the TWT I through the connected in series winding 7 and the two-port network 17 with the cathode; parallel to a two-pole IC, a negative pole of source 3 is connected via a resistor 18. The first generator output 12 (start pulse output) is connected to a common bus through a diode 10 connected in series and a winding connected by a series 19 resistor and a key element 13 whose control input is connected to the second the output of the generator 12 (output pulse reset).

One electrode of the regulating element 16 (for example, the cathode of the lamp or the emitter of the transistor) is connected to a common bus, the second electrode (for example, the anode of the lamp or the collector of the transistor) is connected to the secondary pole of the third source 20, the negative pole of which is connected directly to the second capacitor plate II, connected through a chain of parallel connected resistor 21 and capacitor 22 to a common bus.

The device works as follows.

In the initial state, the TWT 1 is blocked by a negative bias voltage supplied to its grid from source 3 through resistor 18 and winding 7. On the TWT collector there is a constant voltage EI coming from source 2. The unit voltage of the slow TWT system close to Ej due to the flow of the source 2 current through the circuit, divider 14 — common shia — chain from resistor 21 and capacitor 22 — winding 5 — diode ,,

9. Condenser And at this time discharged. Element 16 is almost closed.

Upon receipt of the next starting positive pulse from the first output of the generator 12 to the winding 8 on the winding 7, a positive impu is induced. with,

entering the TWT grid and unlocking it. Under the action of positive feedback, the circuit of which closes when a current of the TWT collector flows through the winding 6 and the source 2, a blocking process occurs. (Winding 6 and 7 are included in the opposite direction, which provides positive feedback).

On the grid of the TWT 1 a positive impulse is formed, the maximum duration of which {n is determined mainly by

the parameters of the two-port 17. The TWT remains open during this pulse. In this case, JBOSCELERATING on the winding 5 the EMF through the diode 9 charges the capacitor 11 to the voltage E ||. This voltage is added to the voltage Еg of the source 2 and the voltage ЕЛ д to the string of the resistor 21 and the capacitor 22 and is applied to the retarding system TWT relative to its cathode, so that

Ep EJ -f E ,, - f EII. At the moment of the end of the impulse given

the duration from the second output of the generator 12 and the control input of the key element 13 is given a pulse of positive polarity. Element 13 is unlocked and shunts winding 8 through a small

the resistance of the resistor 19, which ensures the failure of the blocking process and the subsequent locking of the TWT I.

The reset pulse has an adjustable time delay (ki relative to the start pulse at the first output of the generator 12.

The limits of change tj should not exceed the maximum duration ig of pulses of the "free blocking process defined by the parameters of the reactive two-pole 17. So, if the delay line for time 1 is used, then

delay t must not exceed t 21, i. ,

Thus, the TWT 1 operates in the standby mode of the block-generator, which is what provides the mode of pulsed modulation of the amplified microwave signals without the use of a special external modulator. The condition of the magnitude of the accelerating voltage E and the slowing-down system of the TWT I when the supply voltage fluctuates or the pulse duty cycle changes is provided as follows. If, for example, a tendency to a decrease in the accelerating voltage EO on the retarding system TWT 1 in the comparator 15 (to the input of the combbro through the divider 14 enters a part of the voltage E EZ + EII + EJ), the error voltage is generated, the grid of the lamp and its opening (the source of the bias voltage providing the lamp locking in the initial state is included in the comparator 15). As a result of the flow of the current of the anode of the lamp from the source 20 through the chain of resistor 21 and capacitor 22 on it, the voltage of the additive Ej, increases with the voltage R. + E ,,. Rssulti-. The operating voltage E on the grounding TWT system increases, which counteracts the lowering of the voltage E. This achieves the necessary constant voltage EO. Due to the smallness. The current of the TWT slowdown system voltage source 20 may be low power, and the resistance of the chain may be large. The power dissipated on the anode of the lamp turns out to be low, and therefore the efficiency of the device increases, especially with a low pulse duty cycle. In addition, the cathode of the lamp and the comparator 15 are at a zero potential, which contributes to simplifying the design. This is also facilitated by the relatively small value of the anode voltage on the lamp (usually 2-3 kV apr (, 15-18 volts). A positive technical effect from the application of the invention consists in increasing the efficiency with a low pulse duty cycle.

Claims (1)

DEVICE FOR NETWORK PULSE MODULATION TWT, containing the first and second constant voltage sources, a pulse transformer, a clamping and isolation diodes, a capacitor, a pulse generator, a key element, a voltage divider, a comparator, a control element forming a two-terminal device and two resistors, while the slowdown system TWT is connected to a common bus, the first winding of the pulse transformer is connected through the fixing diode in parallel to the storage capacitor, the first lining will accumulate a capacitor is connected to the positive pole of the first DC voltage source connected through the second winding of the pulse transformer to the LVB collector, a voltage divider is connected between the common bus and the combined terminals of the TWT cathode, the negative pole of the first and positive poles of the second DC voltage source, the output of the voltage divider is through a comparator with the control input of the regulating element, the TWT grid through the third transformer winding connected in series and f The forming bipolar is connected to the TWT cathode. a second constant voltage source is connected in parallel to the forming two-terminal via the first resistor, the first output of the pulse generator is connected to the common bus through a series-dividing diode and a fourth transformer winding, shunted by a second resistor and a key element connected in series, the control input of which is connected to the second output of the pulse generator, the common output of which is connected to a common bus, characterized in that. that, in order to increase the efficiency with a low duty cycle of pulses, a third DC voltage source and a chain of resistors and capacitors connected in parallel are introduced into it, moreover, one electrode of the regulating element is connected to the common main, and the other to the positive pole of the third constant voltage source. the negative pole of which is connected to the second lining of the storage capacitor, connected through a chain. a resistor and a capacitor connected in parallel to a common bus to which the common output of the comparator is connected. >