SU1018202A1 - Pulsed modulator - Google Patents

Description

 . The invention relates to a pulse technique and can be used, for example, in radio transmitting devices, as well as in laser power sources. A pulse modulator is known that contains a power source, to the output of which two serially connected charging capacitors are connected as well as a series thyristor connected in series, the transformer primary winding and the second thyristor. The combined capacitor leads are connected to the primary winding of the transformer via a choke. Connected to the secondary winding transformer, behind the third capacitor bridged, are a series-connected charging diode and a forming line, bridged by series-connected loads and a thyratron C. A disadvantage of the known device is the small output power due to the incomplete use of the key properties of the thyristors, since as the modulator output power increases due to the corresponding increase in the storage capacitor (charge capacitors) and the voltage on it The pulley is violated much earlier than the maximum permissible values of the currents through the thyristors are reached at a given output frequency, the pulses. This is due to the possibility of spontaneous switching on of the closed thyristor and short circuit of the power source, which can occur due to the appearance, when one of the thyristors is turned on, a voltage jump on the regulating inductance, with a sign corresponding to the direction of the direct conduction of the other (closed) thyristor . This reason leads to the need for a deliberate limitation of a single switched power (power per cycle) below the level allowed by the key properties of the thyristors, and consequently, to limit the power of the modulator as a whole in order to preserve the operability of the device. Closest to the proposed technical entity is a pulse modulator containing a power source, a positive bus 2 is connected to the anode of the charge thyristor, a drive, a discharge thyristor, a step-up transformer, to the secondary winding of which the input of the bridge rectifier is connected to the output terminal of which is connected to the combined terminals of the high-voltage accumulator and the anode of the thyratron, the load and the generator of trigger pulses, the outputs of which are connected to the control inputs of the charge and discharge of thyristors, as well as grid thyratron .2. The disadvantage of this pulse modulator is the low output power due to the incomplete use of the key properties of the thyristors. In addition, this modulator has limited functionality, since it cannot work if a discharge gap is used as a load (for example, a gas discharge gap of a laser), since the charge of the high-voltage storage device is difficult in this case due to the low initial load conductivity. The purpose of the invention is to increase the output power and, The goal is achieved in that a pulse modulator containing a power source whose positive bus is connected to the charge thyristor anode, drive, discharge thyristor, step-up transformer, to the secondary winding of which is connected a bridge input the rectifier, to the output terminal of which the combined outputs of the high-voltage accumulator and the anode of the tiratron are connected, the load and the generator of the starting pulses, the outputs of which are connected to the control inputs am.zar and thyristor as well as a thyratron grid, a transformer is introduced, the primary and secondary windings of which are bridged by chains, each of which consists of a series-connected diode connected in the opposite direction, and a resistor, and between the cathode of the charge thyristor and the negative the primary supply winding of the transformer, the drive and the primary winding of the step-up transformer, the combined terminals of the drive and the primary winding of the transformer along They are connected to the negative bus of the power source through successively connected secondary windings of the transformer and a separate thyristor, and the other output terminal of the bridge rectifier is connected to the second terminal of the accumulator directly and to the cathode of the tiratron through the load. The drawing shows a pulse modulator circuit. The pulse modulator contains a power source 1, charge and discharge thyristors 2 and 3, a transformer, diode-resistor circuits 5 and 6, a drive 7, a step-up transformer 8, a bridge rectifier 9, a high-voltage drive 10, a thyratron 11, a load 12, a generator 13 trigger pulses. The positive bus of power supply 1 through serially connected charge thyristor 2, primary winding of transformer k, is bridged by chain 5 consisting of series-connected diode and resistor, storage 7 and primary winding of step-up transformer 8 is connected to negative power supply bus 1. The combined terminals of the primary winding of the transformer and the accumulator 7 are connected to the negative bus of the power supply 1 through the serially connected secondary windings of the transformer 4, bridged by the chain 6 consisting of a series-connected diode and resistor, and the wide thyristor 3 is connected to the negative bus of the source 1 nutrition The secondary winding of the step-up transformer 8 is connected via a bridge rectifier 9 to a high-voltage storage device 10, which is bridged by series-connected thyratron 11 and a load 12. The generator of triggering pulses 13 is connected to the control inputs of charging 2 and bit 3 thyristors and also to the grid tirato at 11. The modulator operates as follows. With the output of the generator 13 trigger pulses, the trigger pulses are applied to the switching elements of the modulator. the following sequence: charge thyristor 2 - thyratron 11 - discharge thyristor 3 - thyratron 11, etc. 2 With the arrival of the start-up pulse to the control electrode of the charge thyristor 2, it turns on and the accumulator 7 is charged from source 1 along the circuit: positive source bus 1 - thyristor 2 - transformer primary winding 4 - accumulator 7 - transformer primary winding 8- Negative bus source 1. The charging current of the accumulator 7 is transformed in the transformer 8 and through the rectifier 9 charges the high-voltage accumulator 10. The next starting pulse arrives at the grid of the thyratron 11 and the high-voltage accumulator 10 discharges through it 12. The next start pulse is applied to the control electrode of the thyristor 3. In this case, the thyristor 3 is turned on and the accumulator 7 is discharged along the circuit: drive 7 - transformer secondary winding - thyristor 3 primary transformer winding 8. The discharge current of accumulator 7 is converted in the transformer 8 and through the rectifier 9, the high-voltage storage device 10 charges, the polarity of the voltage on which does not change due to the presence of the rectifier 9. The cycle is completed by the arrival of a start pulse on the grid of the tirathrone 11 deleterious accumulator 10. Next, the processes are repeated. During operation of the modulator, each time the thyristor 2 is turned on (at the moment it is turned on), the secondary voltage of the transformer induces an emf opposite to the direct conduction direction of the thyristor 3. Similarly, when the thyristor 3 is turned on, the secondary voltage of the transformer is induced by the opposite side of the thyristor 2. Diode resistor circuits 5 and 6 damp the emissions of direct (for the corresponding thyristors) voltage on the windings of the transformer A. The proposed impulse module, the torus allows but increase the power output by increasing the voltage and capacity of the accumulator to a level corresponding to the maximum permissible value of m current through the thyristors at a given repetition rate of output pulses. This is ensured by the high resistance of the thyristor to spontaneous switching from switching drops to the yarn in the circuit and electromagnetic pickups in the circuits, because at the moment of starting one thyristor a locked voltage pulse is applied to the other (locked) thyristor. 2 The functionality of the modulator is also expanded, since the charge circuit of a high-voltage storage device does not depend on its discharge circuit and therefore a discharge gap (for example, a gas discharge gap of a laser) can be used as a load.

Claims (1)

A PULSE MODULATOR containing a power source, the positive bus of which is connected to the anode of the charging thyristor, a drive, a discharge thyristor, a step-up transformer, to the secondary winding of which is connected the input of a bridge rectifier, to the output terminal of which are connected the combined conclusions of the high-voltage drive and the thyratron anode, the load and the trigger generator pulses, the outputs of which are connected to the control inputs of the charging bit thyristors, as well as to the thyratron grid, so look for the fact that, with In order to increase the output power, a transformer is introduced into it, the primary and secondary windings of which are sewn. the primary winding of the transformer, the drive and the primary winding of the step-up transformer are connected in series, the combined conclusions of the drive and the primary winding of the transformer are connected to the negative bus power supply via series connected secondary winding of the transformer and the discharge thyristor, and the other output terminal of the bridge rectifier is connected to the second terminal and the drive directly to the cathode thyratron - through the load. SU. „1018202