SU1642451A1 - Device to stabilize the electron-vacuum instrument cathode current - Google Patents

Abstract

The invention relates to electronics and can be used to increase the service life of electronic vacuum devices (EVP) during operation. The aim of the invention is to provide stabilization of the cathode current in a pulsed-mode EEP with variable mode parameters. The goal is achieved by introducing into the circuit a memory node 6 and a driver 8 trigger pulses with a delay. This makes it possible to memorize the amplitude of the cathode current in a pulse and to regulate the current value of the cathode along the feedback circuit within each pulse, 2 sludge.

Description

The invention relates to electronic engineering, in particular, to devices for stabilizing a cathode current during the operation of an electron-vacuum device (EVP).

The aim of the invention is to ensure the stabilization of the cathode current of an electronically controlled device when operating in pulsed mode with variable mode parameters.

FIG. 1 shows a block diagram of a device for stabilizing a cathode current in a pulsed mode of an EIS; in fig. 2 - pulse diagrams to the input of the storage device.

The device for the stabilization of the current KODA EvP contains a regulating element 1 connected in the heating circuit between the voltage source 2 and the terminals for connecting the cathode preheater; an inertial amplifier 3, the output of which is connected to the control input of the regulating element 1, and the input to the output of summing amplifier 4; one of the inputs of which is connected to the output of the voltage source 5. The second input of the summing amplifier 4 is connected to the output of the memory node 6. The input of the memory node 6 is connected to the resistor 7 in the cathode circuit, and the control input of the memory node 6 is connected to the resistor 7 via driver 8 trigger pulse with a delay.

The device works as follows.

Since the parameters of the pulse mode can vary, the detection level would change the constant component level at the output of the detector. Therefore, it is necessary to memorize the current level during a pulse. This is done by the storage node 6.

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(scheme of sampling and storage). To start this circuit, the input of a triggering impulse generator 8 with a delay is connected in parallel with its input, and the output of the imaging device 8 is connected to the triggering unit 6. In FIG. Figure 2 shows the pulse plots on the main and control inputs of the storage node 6. Such a construction of the circuit makes it possible to USE the voltage pulse on the resistor 7 both for measuring the current value and for controlling the key of the storage node 6. Memorization takes place with some delay with respect to to the leading edge of the pulse at the cathode for the duration of the control pulse. The duration of the control pulse is determined by the possible range of variation of the pulse width of the EEC.

A signal proportional to the cathode current from the output of the storage node 6 is supplied to one of the inputs of the summing amplifier 4. The voltage from the reference voltage source 5 is supplied to the other input. The difference between the signals is fed to the input of the inertial amplifier 3. Inertial amplifier 4 is required in order to eliminate relaxation pro

the change in the temperature of the cathode (voltage on the heater) under the pulsed mode of the EEC. This allows you to select an operating point on the cathode filament at a point close to the transition point from the temperature limited to the spatial charge limiting mode, i.e. reduce the initial operating temperature of the cathode and, accordingly, increase the durability, which is important for high-power, expensive EEC.

Claims (1)

Invention Formula A cathode current stabilization device for an electron-vacuum device containing a voltage source, a regulating element, an inertial amplifier, a summing amplifier, a voltage source, a resistor in the cathode circuit, one input of the summing amplifier, and a summing amplifier output connected to the input of the inertial amplifier, the output of the latter is connected to the control input of the regulating element, the input of which is connected to the output of the voltage source The processes in the regulating system, since the cathode assembly has a certain thermal inertia. The constant time of the inertia amplifier must be greater than the constant heating time. Under this condition, in the case of a disturbing action, the process in the regulatory system is aperiodic in nature. From the output of the inertial amplifier 3, the signal is fed to the control input of the regulating element 1. The stabilization factor of the system is determined by the stability of the reference node connected to the second summation input and the gain in the feedback circuit. Thus, the device allows stabilization of the cathode current of the pumi nating amplifier, and the output of the triggering pulse former with the driver is connected to the control input of the triggering unit. five 0 the output of the cathode heater, characterized in that, in order to stabilize the cathode current when the electronic vacuum device operates in a pulsed mode with variable mode parameters, a memory node and a trigger pulse shaper with a delay are introduced into it the input of the storage node and the input of the trigger-pulse former with a delay connected to the resistor, the output of the storage node is connected to the second input of the summing amplifier, and the output of the driver of the triggering pulse with a delay connected to the control input of the triggering node. e / 0 gh. sat down h.ulr. YGY /