DE969672C - Arrangement for monitoring electron tubes that are in operation, in particular of amplifier tubes fed with alternating current - Google Patents

Description

Arrangement for monitoring electron tubes that are in operation, in particular from amplifier tubes fed with alternating current It is already one Arrangement for monitoring or testing and measuring electron tubes known, in which a measuring circuit is connected to the screen grid of the tube to be tested, that of a resistor, a rectifier, a sensitive measuring instrument and two more resistors. This arrangement is a stand-alone device, which is only intended for testing individual tubes.

When using amplifiers for control purposes, which is practical are subject to uninterrupted continuous operation, the possibility of monitoring must be available the electron tubes also exist during operation in order to avoid malfunctions and operational interruptions to be recognized as early as possible so that system failures can be avoided. It it is therefore necessary to get an idea of the operating condition of the tubes. This monitoring is particularly important for amplifiers that have a large number of tubes use, because if one tube fails, the other tubes are often overloaded is caused, so that there is a risk of destruction.

It is required that the testing of the tubes not be as in the above known device only outside of the system or after it has been decommissioned is made.

It is already an arrangement for monitoring several elements telecommunications equipment in operation has become known the, in which the operational state of the elements from the presence of certain Voltages or currents can be recognized. This known arrangement requires at least an amplifier tube, the same special relays being used in the anode circuit have to. Furthermore, special supply voltage sources are used to operate these amplifier tubes needed. The cost of this known arrangement is therefore very considerable.

The invention eliminates the disadvantages of the known arrangements avoided. The invention relates to an arrangement for monitoring in Electron tubes in operation, in particular those supplied with alternating current Amplifier tubes by means of a measuring circuit built into the operating device, wherein each tube can be switched into the measuring circuit individually without interrupting the operating device is. According to the invention there is a voltage divider connected to the supply voltage of the tubes provided, whose tapping with the screen grid nominal voltage of the tube to be tested matches, and the voltage drop occurring at this tap is compared with the Voltage drop occurring directly at the screen grid electrode of the tube to be tested compared by means of a measuring circuit. A further training is appropriate A measuring circuit can be connected to the screen grid of the tube to be monitored via a contact, which in a known way from a controllable resistor, a half-wave rectifier, a moving coil instrument and two other resistors. It is useful for Compliance with the operating point of the half-wave rectifier a calibration mark on the scale of the instrument attached to the pointer by means of an adjustable resistor is adjustable before the tube test. The adjustable resistor receives a Calibration, from which the respective operating voltage can be read based on its setting is. Furthermore, pushbuttons are expediently provided via which the measuring circuit can be connected to the Screen grid of the tubes to be tested is placed.

With reference to the drawing, for example, schematically an embodiment represents according to the invention, the idea of the invention will be explained in more detail.

The drawing shows the output stage as an exemplary embodiment of the invention an AC-powered amplifier for control purposes. The anode voltage for the tubes 10 is generated by the transformers I. To limit the anode current In the case of a positive anode voltage, the tubes will be phase-shifted by 1800 to the control grid Grid voltage supplied. The screen grid receives the voltage via the resistor 2. The resistor 3 located in the grid lines is known to serve for suppression of self-excitement.

The test of the tube is now carried out in such a way that switch 4 is closed and the pointer of the instrument I3 by means of the variable resistor 5 is set to a calibration mark on the instrument scale. The setting of the changeable Resistance will depend on the operating voltage of the transformer, so that with appropriate calibration of the variable resistance at the same time the monitoring the operating voltage is possible.

By simulating the screen grid-cathode path of the test The tube by means of the voltage divider 6, 7, which can also be capacitive, becomes the The limit of the usefulness of the tube IO is set. After opening switches4 and Closing of switches 8 and 9 (the control voltage of the Tube 10 switched off and the control grid via resistor 3 to the cathode placed) the measuring circuit is above the protective resistor 11 on the screen grid of the tube IO. In the case of a usable tube IO, the pointer of the instrument I3 is either on the Calibration mark on the instrument scale or below it. When unusable Tube IO is the voltage drop on the screen grid due to the smaller grid current be larger and thus result in a display on the instrument 13 above the calibration mark. By suitably dimensioning the voltage divider 6, 7, the production-related Deviations in the tube data are also recorded. The display of the instrument I3 is a function of the screen grid current.

The measuring circuit consists of a variable resistor 5, a Rectifier I2, a moving coil instrument I3 and the fixed balancing resistors 14 and 15.

A half-wave rectifier is used in the measuring arrangement because this in contrast to full wave rectification, which can also be used, one results in much greater sensitivity.

As the drawing shows, it is easy to operate possible by push buttons 8, a variety of tubes IO during operation without Check line interruptions. The resistance II in the measuring line is used for Prevention of impermissible loads caused by short circuits when pressing two push buttons, at which voltages shifted by 180 ° occur, as well as an instrument series resistor.

Claims (5)

PATENT CLAIMS: I. Arrangement for monitoring those in operation Electron tubes, in particular from amplifier tubes fed with alternating current by means of a measuring circuit built into the operating device, with each tube individually can be switched into the measuring circuit without interrupting the operating device, thereby characterized in that a voltage divider connected to the supply voltage of the tubes is provided, whose tapping with the screen grid nominal voltage of the to be tested Tube matches, and that the voltage drop occurring at this tap with that which occurs directly on the screen grid electrode of the tube to be tested Voltage drop is compared by means of a measuring circuit. 2. Arrangement according to claim 1, characterized in that only to the screen grid the tube to be monitored over a measuring circuit a contact can be connected, which in a known manner consists of a controllable resistor, a half-wave rectifier, a moving coil instrument and two other resistors consists. 3. Arrangement according to claim 2, characterized in that to comply the operating point of the half-wave rectifier a calibration mark on the scale of the instrument is attached to which the pointer by means of an adjustable resistor in front of the Tube testing is adjustable. 4. Arrangement according to claim 3, characterized in that the controllable Resistance receives a calibration from which, based on its setting, the respective Operating voltage can be read. 5. Arrangement according to claim 2 to 4, characterized in that push buttons are provided, via which the measuring circuit to the screen grid of the tubes to be tested is placed. Documents considered: German Patent No. 8Io 050; Proc. IRE, August Ig50, pp. 925, 926. Cited earlier rights: German Patent No. 903 349.