SU765997A1 - Pulse modulator - Google Patents

Description

The invention relates to radio engineering and can be used in radio location transmitters. A pulse modulator is known which contains a constant voltage source to which a charging device is connected, consisting of a drop box and a diode, a charging switch connected to the charging circuit, a capacitive energy storage device, to which the discharge switch is connected. and, to the output, load l. A disadvantage of the known modulator is its low reliability of operation with an increase in the pulse frequency. Also known is a pulse modulator containing a constant voltage source to which a circuit is connected, consisting of a series-connected charging device, a shaping line, the primary winding of a pulse transformer, the secondary winding of which is connected, and a reference voltage source from a parallel-connected resistor and diode, a separate thyristor switch connected between the input of the forming line and the common bus whose control electrode is connected to the output of the submodulator and a key element whose input is connected to the source of the reference voltage 2. The disadvantage of this pulse modulator is the low reliability of operation with an increase in the pulse frequency and load mismatch. The aim of the invention is to increase reliability with an increase in the pulse sequence and load mismatch. This goal is achieved due to the fact that in a pulse modulator containing a constant voltage source between the positive terminal of which and the common bus, serially connected charging circuit, forming line, primary winding of the pulse transformer, the secondary winding of which is connected and the reference source are connected a voltage consisting of a resistor and a diode connected in parallel, a discharge switching element connected between the input of the forming line and the common bus, the control electrode to The outfit is connected to the output of the submodulator, and the key element, the input of which is connected to the source of the reference voltage, between the positive output of the constant voltage source and the common bus, additionally connects the series-connected charging circuit and the switching element, the control electrode of which through the delay element connected to the output of the Dmodulator and directly to the output of the key element, with a serial LC circuit being connected between the input of the forming line and the additional switching element R.

The drawing shows a schematic diagram of a pulse modulator.

A pulse modulator contains a constant voltage source 1, between the positive terminal of which and the common bus are connected series-connected charging circuit 2, the form-line line 3, the primary winding 4 of the pulse transformer, to which the secondary winding is connected to the load 5 and the source b of the reference voltage unit consisting of a resistor 7 connected in parallel and a diode 8, a discharge switching element 9 connected between the input of the forming line and the common bus, the control electrode of which is connected to the output of the submodulator 10 and a key element 11, the input of which is connected to a source of reference voltage; Between the positive output of the DC voltage source 1 and the common bus there are additionally connected in series the charged circuit 12 and the switching element 13, the control of which is connected to the output of the submodule and directly between the anodes through the junction element 14. The switching elements include a series LC circuit connected by an inductance 15 to the input of the forming line, and a capacitance 16 with the anode of an additional switching element.

The pulse modulator works very little.

With the inclusion of a source of constant voltage through the charging circuit

2, the primary winding of the pulse transformer 4 and the resistor 7 will be charged, forming a line

3. At the same time, at the beginning of the charge of the forming line 3 along the circuit formed by the second charging circuit 12, inductance 15, the capacity of the forming line 3, the primary winding of the pulse transformer 4 and the resistor 7 will charge the capacitance 16. The charge time of the capacitor 16 is much less time for forming line 3 (capacity 16 is much less than total capacity of forming line

Upon receipt from the submodulator 10 to the control electrode of the discharge switching element 9 of the triggering pulse, the latter goes into the open state, and the forming line 3 is discharged through the discharge switching element 9, the diode 8 and the primary winding of the pulse transformer 4, forming load 5 voltage pulse.

If the pulse modulator operates at an increased pulse frequency or mismatched in the direction of increasing load resistance, then after the discharge of the forming LIVIA 3 at the anode of the discharge switching element 9 there may {is no negative voltage of the partial recharge of the line, and the current of the charging circuit 2 may exceed the switching off current of the gating switching element 9. In this case {the switching switching element 9 is open (in an emergency condition) and, bypassing the input of the forming line 3, does not will allow her to produce zar d.

The open state of the discharge switching element 9 will continue until the pulse of the submodulator 10 delayed by the delay element 14 (for a time slightly longer than the duration of the pulse forming the modulator) starts the additional switching element 13. The additional switching element 13, opening produces a resonant discharge of the capacitor 16. through the inductance 15 and the open discharge switching element 9, which leads to the termination of the direct current of the discharge switching element 9 and its transition to the closed state. The duration of the reverse voltage pulse applied to the discharge switching element 9, with the resonant discharge of the capacitance 16, must be greater than the turn-off time of the discharge switching element 9.

When the capacitor 16 is recharged, an additional voltage appears on the anode of the additional switching element 13, and the latter goes into the closed state. After this, a new charge of the forming lines 3 begins, and the operation cycle of the pulse modulator is repeated. modulator at the nominal pulse frequency and load of the modulator, i.e. if, after partial recharge of the forming line 3, the discharge switching element 9 under the influence of 6 negative, the voltage on its anode goes to the closed state, the necessity of switching on the additional switching element 13 is excluded. This is achieved by the fact that under the influence of the charging current of the forming line 3 on the resistor 7 of the source of the reference voltage 6, a positive voltage is released that unlocks the key element 11, and the latter shunts the input of the additional switching element 13. As a result, element 14, the pulse of the submodulator 10 does not start additionally: the wearable switching element 13. Thus, the pulse modulator circuit provides, in the event of an increase in the pulse frequency or the load misalignment, Cheney its resistance forced quenching discharge switch and reliable operation of the device. In impulse modulators, where deliberate operation with frequency increase or load mismatch is not intended, the proposed scheme with forced suppression of the discharge switch can be used, for example, as a high-speed protection of the modulator during the transitions of the discharge switching element to the alarm state (for example , in case of accidental start, it is asynchronous pulses). The use of this invention ensures reliable operation of pulse modulators, allows to expand the field of application and technical capabilities of this type of device, the invention claims A pulse modulator containing a constant voltage source, between which the positive terminal and the common bus are connected in series the charge circuit, the forming line, the primary winding of the pulse transformer, the secondary winding of which is connected to the load, and the source of the reference voltage, consisting of PA a resistor and a diode connected in parallel, a switching element switching element connected between the input of the forming line and the common bus, the control electrode is connected to the output of the submodulator, and the key element whose input is connected to the source of the reference voltage, which is In order to increase reliability with an increase in the scientific research institute of the pulse frequency and load mismatch, sequentially connected charges are additionally connected between the positive terminal of the DC power source and the common bus. A circuit and switching element whose control electrode is connected through a delay element to the output of the submodulator and directly to the output of the key element, with a series LC circuit connected between the input of the forming line and the additional switching element. Sources of information taken into account during the examination 1. USSR author's certificate No. 275114, cl. H 03 K 3/137, published 07.07.70. 2. USSR author's certificate number 452913, cl. H 03 K 3/53, published. 05.12,74 (prototype).

Claims (1)

SUMMARY OF THE INVENTION A pulse modulator comprising a constant voltage source between which the positive terminal and the common bus are connected in series with a charging circuit forming a line, a primary winding of a pulse transformer, a load connected to a secondary winding, and a reference voltage source consisting of resistors connected in parallel and diode, 'bit commuting. A sewing element connected between the input of the forming line and the common bus, the control electrode of which is connected to the output of the submodulator, and the key element, the input of which is connected to the source of the reference voltage, o '/ g, characterized in that, in order to increase reliability with an increase in the repetition rate pulses and load mismatch between the DC output terminal of the DC voltage source and the common bus are additionally connected in series with the charging circuit and a switching element, the control electrode of which ithout delay element connected to the output podmodulyatora and directly to output a key element, wherein the forming line between the inlet and the additional switching element is serially connected LC-circuit.