DE1129185B - Arrangement for checking amplifier elements in electrical communications technology during operation - Google Patents

Description

Arrangement for checking amplifier elements of the electrical Communication technology during operation The invention relates to an arrangement to check the amplification properties of amplifier elements during the Operation in devices and systems for electrical communications engineering, in particular Strong DC negative feedback amplifier elements.

In commercial communication systems, there is usually the Requirement, the amplifier elements, especially electron tubes, during operation to check for aging effects. There are monitoring devices known that consist of a relay arranged in the anode circuit of the tube to be monitored, that controls the operating point of the tube and in the event of impermissible changes to the Anode current actuates an optical or acoustic signaling device. As the Practice shows, the control of the operating point proves to be insufficient, as they do not affect the amplification properties of the monitored tube in all cases captured with. It is entirely possible that those which are essential for the reinforcement properties The parameter, namely the dynamic slope, has already become impermissibly small, while the size of the anode current is still within the permissible tolerances is located. The situation is similar for transistors.

In a. earlier filing has already been proposed by defined, small ones that have practically no effect on the amplification properties of the tube Changes in the DC grid voltage or the DC anode voltage and measurement of the associated anode or cathode direct current changes an indirect monitoring the static tube slope. Such monitoring can however, only use it with success if the tubes to be monitored have direct current are not or little negative feedback. Otherwise the ones to be made would have to be carried out Voltage changes chosen so large with regard to a perfect measurement result that the operating characteristics of the tubes during the testing process will not be would be more guaranteed. For this reason, this examination procedure is also not applicable to transistors because their temperature-dependent properties in general always a strong DC negative feedback to stabilize your working point prescribe.

The invention is based on the object of an arrangement for operational Monitoring the amplification properties of amplifier elements to create the meets the requirements for such a control and also includes Strong DC negative feedback amplifier elements do not fail.

For an arrangement for checking the reinforcement properties of Amplifier elements during operation in devices and systems of electrical Communications technology, especially DC negative feedback amplifier elements, in which the amplifier element that is in operation also has a small one Measurement voltage is applied, the frequency of which is outside the actual operating range of the amplifier element, the object is achieved according to the invention by that in parallel with one of the control circuit and the working circuit of the amplifier element common resistance a voltmeter is connected, which is connected to this resistance brings falling measuring voltage to the display and that the supply of the measuring voltage and the connection of the voltmeter to the control circuit and the working circuit of the amplifier element common resistance via switches or plug connections he follows. Although there are known circuit arrangements in which an amplifier tube is monitored during operation with the aid of a signal voltage, the frequency of which is significantly above the actual operating range of the tube. The signal voltage is fed to the grid of the tube in question and will selectively decoupled again in the anode circuit. The decoupling takes a coordinated Transformer, whose secondary winding is connected to the control input of another amplifier tube is switched on in parallel. In the anode circuit of this further amplifier tube lies d-e control winding of a relay that responds as soon as the signal voltage turns on falls below the prescribed value.

Apart from the fact that the known arrangement is an operational monitoring device and is not an arrangement for testing the reinforcement properties the subject matter of the invention through a much simpler circuit structure the end. The simplicity of the present inventive arrangement is above all achieved in that the measurement voltage is tapped at a resistor that the Control circuit and the working group of the amplifier element is common. The subject of the invention also represents an essential technical one compared to arrangements of the type described Progress because it makes it possible, including the measurement voltage source of the voltmeter in the simplest way of your choice to the individual amplifier elements to turn on an amplifier arrangement.

On the basis of some embodiments for electron tubes that are shown in the drawing are shown, the invention will be explained in more detail below will.

Fig. 1 shows the usual circuit arrangement of a DC negative feedback Tube Tube, whose grid carries the useful signal to be amplified via the coupling capacitor Cl is supplied. The grid of the tube Rö is also above the grid bleeder resistor R1 connected to a voltage divider consisting of resistors R4 and R5, to which the DC voltage required for the grid bias is applied. In the Cathode of the tube Rö are two series-connected resistors R2 and R3, of which the resistor R3 to achieve a high DC negative feedback accordingly is carried out with high resistance.

According to the invention, the measuring voltage source generating the measuring voltage is Gin series with capacitor C4 and voltmeter A in series with capacitor CS via the two-pole switch S1 in parallel with the resistor RS or resistor R2 turned on. The capacitors C4 and CS are used for DC separation the measuring arrangement from the tube circuit. The measuring voltage drop across the resistor RS, which is superimposed on the signal voltage applied to the grid of the tube Rö a frequency far below the transmission range of the amplifier arrangement and is chosen so small that it also modulates the operating characteristics the tube to be tested does not affect the tube.

The resistance assigned to the voltmeter A as a measuring resistor R2, the capacitor C2 is connected in parallel. Its size is set so that he capacitively bridges the resistor R2 for the signal currents, for the measuring current however, forms a negligible shunt. Opposite is the resistance R3 capacitor C3 connected in parallel is dimensioned in such a way that it exceeds the resistor R3 short-circuits both for the signal currents and for the measuring current. Through this Measure is achieved that the tube Rö for the measurement voltage no additional noteworthy Has alternating current negative feedback and the voltage drop measured with the voltmeter A. at resistor R2 originates only from the measuring current.

The measuring process, as it is based on the inventive arrangement, is the same as that used to determine the dynamic slope. The measurement thus detects the characteristic variable that is essential for the amplification properties of the tube.

As the lower frequency of those used in communications systems Amplifier equipment is generally well above the 50 Hz mains frequency, it is advantageous to derive the measuring voltage from the mains voltage, as this the provision of a special measuring generator is unnecessary.

Another, particularly advantageous arrangement according to the invention is shown in FIG. The circuit of the tube Rö corresponds to that of FIG. 1 except for the elimination of the resistor R2 in the cathode. In addition, the capacitor C3 is now dimensioned so that it capacitively bridges the resistor R3 only for the signal currents. The measuring voltage source G is connected in series with the resistor R6 in parallel with the voltmeter A, and this circuit arrangement can in turn be connected in series with the capacitor C5 via the switch SZ in parallel with the resistor R3. Closing the switch SZ causes the internal resistance of the tube Rö - seen from the cathode - to be connected in parallel with the voltmeter A, so that the display of the voltmeter A goes back according to the voltage divider ratio of the voltage divider formed from this internal resistance and the resistor R6. Since the size of the internal resistance of the tube Rö is a function of its dynamic slope, the size of the display change is also a useful criterion for the gain properties of the tube.

The measuring arrangement according to Figure 2 can also be used when the Tube tube in the cathode not only in terms of direct current, but also in terms of alternating current is fed back. Such a circuit arrangement is shown in FIG. 3. In the cathode The tube Rö is here in series with the parallel connection of resistor R3 and capacitor C3 a resistor R7 connected, which the tube also direct and alternating current negative feedback. A direct parallel connection of the circuit arrangement according to FIG AC negative feedback would be applied to these series resistors R7 and R3 and thus affect the operating characteristics of the tube tube. For this reason the switch S2 is connected to the cathode via the choke D. The thrush D is designed so that it is for the signal currents of a very high and for the measuring current represents a negligible resistance.

Even in the case of tubes controlled with thermistors, the amplification properties can be controlled independently of the control status with the aid of an arrangement according to the invention. A corresponding tube circuit is shown in FIG. The circuit arrangement of the measuring voltage source G and voltmeter A again corresponds to that in FIGS. The thermistors H are connected in parallel with the series connection of the choke D and the resistor R3 via the capacitor C6 and the feed-through capacitors C 7 and determine the degree of the AC negative feedback of the tube by the size of their DC-controlled resistors.

The circuit arrangement shown in FIGS. 1 to 4 is of course of measuring voltage source G and voltmeter A not one for each amplifier tube Amplification system provided. Rather, a circuit arrangement is used for checking used on a wide variety of amplifier tubes. Instead of switches S1 or S2 plug-in pawls or plug connections can also be provided.

Claims (6)

PATENT CLAIMS: 1. Arrangement for checking the reinforcement properties of amplifier elements during operation in devices and systems of the electrical Communications technology, especially DC negative feedback amplifier elements, in which the amplifier element that is in operation also has a small one Measurement voltage is applied, the frequency of which is outside the actual operating range of the amplifier element is, characterized in that parallel to one of the Control circuit and the working circuit of the amplifier element common resistance a voltmeter is switched on, which shows the voltage drop across this resistor brings to the display, and that the supply of the measuring voltage and the connection of the Voltmeter to the control circuit and the working circuit of the amplifier element common resistance via switch _or. Plug connections takes place. 2. Arrangement according to claim 1, characterized in that the frequency of the measuring voltage is selected in this way is that they are below, preferably well below the operating range of the to checking amplifier element lies. 3. Arrangement according to claim 1 or 2, characterized characterized in that the measurement voltage source is parallel to one in the control circuit of the amplifier element arranged resistor is switched on. 4. Circuit arrangement according to claim 1 or 2, characterized in that the measuring voltage source is in series with a resistor the voltmeter is connected in parallel and that this circuit arrangement in series with a capacitor to the control circuit and the working circuit of the amplifier element common resistor is connected in parallel. 5. Arrangement according to one of the claims 1 to 3, characterized in that the direct current negative feedback is essentially causing resistance in the circuit arrangement of the amplifier element also for the measuring current is bridged. 6. Arrangement according to claim 4, characterized in that that the DC negative feedback essentially causing resistance in the Circuit arrangement of the amplifier element bridged only for the signal currents is. References considered: U.S. Patent No. 2,703,877.