SU547746A1 - Current stabilization device - Google Patents

Description

I:.;., .I; i. - Griss C a1 1 t mesh). having uojihiiioc-iiii- Mi.4ecKoc internal resistance. The capacitor 2 is charged through resistors 4, 5 from the voltage source E. The load of the modulator is Mai netron 6 or some other: h: nsratorny or microwave amplifier device. The control grid of the lampt 3 is fed through a resistor 7 by a stabilized voltage of the drift, alternating displacement - b, and through the capacitor 8, the starting pulses from the output of the pulse amplifier 9. made on the lamp 10 with the output transformer 11 in the anode circuit. Anodna-day lamp 10 contains an RC filter 12, 13 and an voltage EI is applied to it. The screen grid of the lamp 10 is powered through a voltage divider 14, 15 with a grucu blocks. the capacitor 16. The bias circuit of the luminaire grid 10 of the lamp 10 contains a zener diode P, a resistor 18 and a blocking capacitor. connected to the EZ source. In the cathode circuit of the lamp 10, a transistor 20 is connected with a resistor 21 of the collector load and a protective zener diode 22. The base of the transistor is connected via a diode 23 to the output of a non-inverting current amplifier 24 and directly to the output of a start-up pulse generator 25. The input day of amplifier 24 is connected via a notioni 26 to the source of the constant reference array 27 and to the capacitor 13. To the same capacitor through the junction 28 is connected the secondary winding of the transformer Topa 11, from which a trigger is fed to the grid of the lamp 3. In the base of the base of the transistor 20, a resistor 29 is turned on. The device operates in the following way. The storage capacitor 2 is charged through series-connected resistors 4, 5 from a source with an EO voltage in the intervals between pulses; The lamp 3 is at this time locked with a negative bias voltage E3 on the control grid. The lamp 10 is locked due to the fact that the voltage between its grid and the cathode is equal to E, - U, where the Ui7 is the voltage across the zener diode 17. The transistor 20 is also locked. When positive pulses are applied from the generator 25 to the base of the transistor 20, it is unlocked (saturated): the voltage at the cathode of the lamp 10 and the collector of the transistor drops almost to zero. The lamp 10 is unlocked, and between its grid and the cathode is applied for the duration of the Il-shuhs a negative voltage approximately equal to Ui 7- As a result, the lamp 10 works with the grid currents, which ensures sufficient positive pulses received through the transformer 11 and the capacitor 8 on the grid of the lamp 3 (this lamp also works with the grid. currents). .Diode 23 provides isolation of the output target of amplifier 24 at the time of supply of start-up pulses from generator 25 to the base of transistor 20. When starting-up pulses are applied, capacitor 2 is partially discharged through la.mnu 3 and load 6 in such a way that to the cathode. ; -; -. ; 1kla |; s; there are negative impulses. The stabilization of the pulsed eno.shugo current of the magnetron 6 is provided in the following way. The lamp 3 mode is chosen to be underdirected, therefore, due to the large value of its dynamic resistance, RJ R ,,, where V., the resistance of the magnetron, can be achieved by stabilizing the pulsed anodic current with respect to voltage fluctuations E. The trio with a protective grid usually has an undervoltage In RJ mode, it is in the order of e; -danims of kΩ, and RM has a value of up to hundreds of ohms However, such stabilization can be obtained only if the bias voltage is stabilized - E, and the amplitude of the trigger pulses on the grid of the lamp 3. The latter is achieved by stabilizing the voltages that supply the pulse amplifier lamp 9 to stabilize the bias voltage of the lamp. and the anode voltage Ug equal to the voltage across the capacitor 1 3 is also stabilized. 111 of this part of the voltage Ug is removed from the potentiometer 26 (algebraic addition to the onor voltage of the source 27 occurs previously). The received error signal, containing information about the magnitude and sign of the voltage deviation Ug from a predetermined value, is amplified by a DC amplifier 24 and connected through the diode 23 to the base of transistor 20. If, for example, under the influence of destabilizing factors, the voltage Ug increases, respectively, and the error signal increases. This will cause the transistor 20 and the lamp 10 to be slightly opened in the pauses between the starting pulses. As a result, due to an increase in the voltage drop across the resistor 12, the bicycle voltage U will decrease until the norm reaches the specified nominal value. Accordingly, the stability of the amplitude of the pulses on the grid of the switching lamp 3 will be obtained; this is facilitated by the stability of the load of the amplifier 9 created by the grid circuit of the lamp 3, since the bias voltage - Ej is kept stable. The lamp 10 of the amplifier of pulses 9 thus, together with the transistor 20 and the amplifier of direct current 24, performs the function of amplifying pulses and in the pauses between them the function of a voltage stabilizer of a parallel type. Elimination of residual instabilities of the amplitude of the output pulses of the amplifier 9, caused, in particular, by the variation of the amplitude amplitude of the oscillator 25, as well as reduction of the tip inclination is achieved due to the diode capacitor diode 28 and capacitor 13. The limit level is fixed due to stabilization of the device and but in the way described above. So, in the device the stabilization of the amplitude of the anodic-current pulses of the magistron is impaired, practically without accompanying the change in the shape of the impulses, at the same time as the displacement i: