SU849113A1 - Device for measuring electronic device cut-off voltage - Google Patents

Description

The invention relates to electrical engineering and can be used to create devices for monitoring electrovacuum devices, such as picture tubes, in the process of their production.

A device for monitoring the leakage current containing a power source, a switch, a calibration unit, logic elements, a memory unit and indicators (lj.

The disadvantage of this device is its complexity.

The closest in technical essence to the proposed one is a device containing a power supply, the outputs of which are connected to the corresponding inputs of the tested electrovacuum device, an adjustable power supply of the control electrode, the input of which is connected through a phase-sensitive detector to the output of the amplifier, the input of which is connected to the output of the comparison element, the first input which, through a capacitor, is connected to the cathode of the electrovacuum device under test, and through a resistor, to a common bus, and a reference generator, first ⁵ th output is connected to the output regulated power supply control electrode T2}.

A disadvantage of the known device is the low accuracy of the measurement due to the influence of leakage currents from the control electrode to the cathode.

The purpose of the invention is improving the accuracy of measurements.

₁₅ This goal is achieved by the fact that the known device for measuring the blocking voltage of electrovacuum devices, comprising a power supply, the outputs of which are connected to the corresponding inputs of the tested electrovacuum device, an adjustable power supply of the control electrode, the input of which through a phase-sensitive detector is connected to the output of the amplifier, the input which is connected with the output element of comparison, the first input of which is connected via a capacitor to the cathode of the test electronic devices, and after the resist ₅ p - with a common bus, and the reference generator, the first output of which is connected to the output of the regulated power source of the control electrode, is equipped with a voltage generator of a smart frequency, the input of which is connected to the second output of the reference generator, and the outputs are connected respectively to the control input of the phase-sensitive detector and with. 'second 15 input of the comparison element.

The drawing shows a structural diagram of a device.

It comprises a supply unit 1, the subject vacuum tube, kinescope ²⁰ 2 For instance, comparing measures member 3, the reference oscillator 4, an amplifier 5, a phase sensitive detoktor 6, the controlled power supply 7 of the control electrode, the voltage generator 8 multiplied frequency, a capacitor 9 and a resistor 10 .

The device operates as follows.

The voltage from the outputs of the power supply unit 1 is supplied to the inputs of the tested electric vacuum device 2 and to the input of the generator of voltage multiplied by frequency 8. The inputs of the comparison element 3 respectively receive an alternating voltage component from the cathode 'of the tested electric vacuum device 2 and the voltage of the multiplied frequency from the output of the voltage generator 8. ^ From the output of the comparison element 3, the alternating voltage is supplied to the input of the amplifier 5 tuned to the multiplied frequency. Voltage output from the amplifier 5 is fed to input ₄₅ fazochuvst- pheno- detector 6, a control input coupled to the voltage output of the generator 8 multiplied frequency. In series with the output of the regulated power source of the control ₅ θ control electrode 7, the output of the reference generator 4 is connected.

The operation of the device is based on the fact that the leakage current contains only the first harmonic of the applied voltage ~ ₅₅ , while the electronic current during operation of the electrovacuum device in the cutoff mode contains a harmonic series. Thus, when measuring currents of any harmonic except the first, the influence of the leakage current on the measurement accuracy will be practically excluded.

With the corresponding voltage, a current will appear in the circuit of its cathode at the control electrode of the tested electrovacuum device 2. The alternating component of this current is compared with the alternating voltage of the same multiplied frequency in the comparison element 3, and the difference signal is amplified by the amplifier 5, while interference signals having a different frequency are suppressed.

The amplified difference signal is rectified by a phase-sensitive detector 6 and applied to a controlled adjustable voltage source 7, the output voltage of which is supplied to the control electrode of the tested electrovacuum device 2, With a sufficiently large gain of the entire path, the cathode current will take one predetermined value.

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Thus, the proposed device improves the accuracy of the measurement of the blocking voltage by eliminating the influence of leakage currents in the control electrode-cathode circuit, and also increases the accuracy of the measurement of other parameters associated with the blocking voltage.

Claims (2)

The output of an amplifier, whose input is connected, is connected to the output of a reference element, the first input of which is connected via a capacitor to the cathode of the test electric device; and a smart device, and through a resistor to a common busbar, and the reference generator is connected to the output of an adjustable power supply. control electrode, equipped with a voltage generator with a multifunction frequency, the input of which is connected to the second output of the reference generator, and the outputs are connected respectively to the control input of the phase-sensing detector and with / second comparing swing member. The drawing shows a block diagram of the device. It contains a power supply unit 1, a test electrovacuum device, for example, a kinescope 2, a comparison element 3, a reference generator 4, an amplifier 5, a phase-sensitive detector 6, an adjustable control electrode power supply 7, a multiplied voltage voltage generator 8, a resistor 10, the device operates as follows. The voltage from the outputs of the power supply unit 1 is fed to the inputs of the electrovacuum device under test 2 and to the input of the generator 8 of the voltage of the multiplied frequency. The inputs of the comparison element 3 are applied respectively to the component voltage from the cathode of the electrovacuum 2 under test and the voltage of the multiplied frequency from the output of the voltage generator 8 From the output of the comparison element 3, the alternating voltage is fed to the input of the amplifier 5, which is tuned to the multiplied frequency. The voltage from the output of the amplifier 5 is fed to the input of the phase-sensitive detector 6, the control input of which is connected to the output of the generator 8 of the voltage of the multiplied frequency. The output of the reference generator 4 is connected in series with the output of the controlled power supply to the controlled electrode 7. The device operates based on the fact that the leakage current contains only the first harmonic of the applied voltage, while the electron current in the cut-off mode contains a harmonic p Thus, when measuring currents of any harmonic other than the first, the effect of leakage current on the measurement accuracy will be practically excluded. With an appropriate voltage on the control electrode of the test electrovacuum device 2 in the circuit of its cathode, a current flows. The variable component of this current is compared with the alternating voltage of the same multiplied frequency in the reference element 3, and the difference signal is amplified by the amplifier 5, and the interference signals that are different from the operating frequency are suppressed. The amplified difference signal is rectified by a phase-sensitive detector 6 and is applied to a control controlled voltage source 7, the output voltage of which is supplied to the control electrode of the electrovacuum device under test § If the gain of the entire path of the cathode is sufficiently large, the current of the cathode will take one predetermined value Thus, the proposed device improves the measurement accuracy of the blocking voltage by eliminating the influence of leakage currents in the control electrode-cathode circuit, also povshaet precision measurement of other parameters associated with the locking voltage. Apparatus of the Invention A device for measuring the blocking voltage of electrovacuum devices, comprising a power supply unit, the outputs of which are connected to the corresponding inputs of the test vacuum device, an adjustable power source of the control electrode, the input of which through the phase-sensitive detector is connected to the output of the amplifier, the input of which is connected to the output of the comparable element , the first input of which is connected via a capacitor to the cathode of a test electrovacuum device, and through a resistor to a common busbar A porous generator, the first output of which is connected to the output of a controlled power source of the control electrode, characterized in that, in order to improve the measurement accuracy, it is equipped with a voltage multiplied frequency generator, whose input is connected to the second output of the reference generator, and the outputs are connected respectively to the control the phase-sensitive detector and with the second in; the course of the comparison element. 8491 13 Sources of information taken into account during the examination 1. Author's certificate of the USSR 420968, cl. a 01 R 31/26, 1974. 2. Authors certificate of the USSR 654916, cl. at 01 R 31/25, 1977,