SU122540A1 - Amplitude tube voltmeter - Google Patents

Description

The proposed amplitude lamp voltmeter is of the type of known devices of the same purpose, containing an electric bridge, the shoulders of which include two identical electronic lamps-compensation and measurement. A peak detector is connected to the grid of the latter, to the input of which a measured voltage is applied.

The disadvantage of these voltmeters is the dependence of the initial current of the diode of the peak detector on the cathode heating and, as a result, the inconvenience of this current in the circuit. As a result, in the absence of a measured signal, a bridge imbalance occurs and the gauge of the measuring device deviates from zero (drift zero).

In order to compensate for the inadequacy of the initial diode current of the peak detector, it is proposed to connect a peak detector similar to the main detector to the grid of the compensation lamp. Both peak detectors, in order to increase the sensitivity of the voltmeter, are assembled according to an asymmetric doubling scheme.

The drawing shows a schematic diagram of the proposed voltmeter.

As can be seen from the drawing, two identical electron tubes / and 2, together with the resistances р p and R a-, form a bridge, in the diagonal of which, through the added resistance R стрел, the needle measuring device I.

In the chains of the grids of lamps 1 and 2, the same in resistance RI and respectively Rz- are included. In the case of equal resistance of the anode loads i and 2 and the related parts of the resistance Rp and the resistances of the lamps / and 2, the bridge is balanced and the current in the device And absent. Lamp 2 is mainly compensatory, but due to the presence of a common cathode resistance R, it can be used to achieve a further amplification of the current through the device. With balance number 122540-2 -

The bridge is symmetrical and therefore the effect of varying the filament and anode voltage on the current in the diagonal (through the device) is eliminated.

The asymmetrical full-wave peak detector connected to the grid of the lamp / consists of a co-capacitor and a Ci diodes 3 and 4, a capacitor GZ and a resistance Ri. When a periodic voltage circuit is connected to the input, capacitor Ci is charged through diode 3 to approximately the peak value of the positive half period. In this case, a reverse voltage acts on the diode, which is equal to the sum of the amplitudes of the positive and negative half-periods. It is obvious that the potential of the anode of the diode 3 with respect to the common wire varies according to the law of the measured voltage shifted by the value of the maximum value of the positive half period from the centerline of the periodic curve. The voltage between the anode and the cathode of the 3n diode, varying from zero to a maximum negative value equal to the sum of the maximum values of the positive and negative half-periods, is supplied to the cathode of diode 4, through which the charge of the capacitor C2 occurs. The constant circuit of iC2 is chosen such that the capacitor Cg charges up to a voltage equal to the sum of the maximum values of both half periods. By matching, the voltage is applied to the grid of the lamp 1 and causes the bridge to be unbalanced. A current begins to flow through the device, proportional to the peak value of the sum of both half-periods of the voltage being measured. Therefore, the instrument readings are proportional to a voltage equal to the sum of the maximum values of the positive and negative half periods.

However, on the resistance even in the absence of voltage connected to the signal, there is a drop in the voltage from the initial current of series-connected diodes 3 and 4. This voltage leads to an imbalance of the bridge, as a result of which the zero of the device I turns out to be unstable, i.e. . there is a drift of zero. To eliminate this harmful phenomenon, two series-connected diodes 5 and 5 are connected to lamp 2, which are similar to diodes 3 m 4. At the same time, the system turns out to be completely symmetrical and when the voltage of the diodes 3, 4 V. 5, 6 is changed from the initial TO.COB on the resistances, R and Rz are equal and vary by the same amount, so that the instrument zero remains stable. Capacitor C3 is designed so that the time constant of the RiCz circuit is equal to the time constant of the circuit.

Subject invention

Claims (2)

1. An amplitude lamp voltmeter containing an electric bridge, the shoulders of which include two identical electronic lamps — compensating and measuring, and a peak detector connected to the grid of the latter, to the input of which a measured voltage is applied, which is caused by inconsistency of the initial diode current of the peak detector; a second peak detector is used, similar to the main one and connected to the grid of the indicated compensation lamp. 2. The form of execution of a voltmeter according to claim 1, characterized in that, in order to increase its sensitivity, both peak detectors are assembled according to an asymmetric doubling scheme.