DE887073C - Circuit for storing and measuring voltage or current pulses - Google Patents

Description

The invention relates to a circuit for storage and Measurement of voltage or current pulses, which in a new and useful way those caused by the necessary rectifier organs, which were previously unavoidable Changes in the size of the stored pulses are compensated for.

It has already been proposed to use voltage or current pulses rectified and fed to a high-capacity storage capacitor.

Such a storage of voltage or current pulses takes place z. B. in telecommunication technology and also in measurement technology widely used.

It has now been recognized that when using diodes for rectification the size of the pulses to be stored is always changed. The change in sizes of the stored pulses is based on the fact that the diodes to be rectified even in the absence of Voltages on the downstream capacitor generate voltages, which in turn load the stored voltage.

This is particularly annoying when the storage is used to measure the size of pulses, since in this way uncontrollable Measurement errors occur.

This disadvantage of the known memory circuits for measurement purposes is avoided by the invention in an advantageous manner.

The invention consists in the fact that one lining of the storage capacitor is applied to a compensation voltage source and that the voltage of the compensation voltage source is dimensioned so that it is the same size as the residual voltage of the rectifying Owns diode.

By this measure it is achieved that only. those of the to The voltage of the storage capacitor resulting from the storing voltage or current pulses is measured without the residual voltage of the diode appearing in a disruptive manner.

On the basis of the drawing, in which one possible application of the Invention iii is shown schematically in an exemplary embodiment the invention explained in more detail.

According to the embodiment, the storage of the voltage or current pulses can be used to display a measuring instrument, which is intended to measure the size of these pulses.

The storage capacitor I, which has a capacity of z. B. 0.5 uF, is with its coatings Ia and 1b with the cathode 2a and the anode 2b of the diode 2 connected. The cathode 2a and the anode 29 of the diode 2 are also above the Switch 3 with the voltage source 4, which supplies the compensation voltage, in connection.

The assignment Ia of the storage capacitor I is directly related to the Grid 5a of the amplifier tube 5, in the anode circuit of which the measuring instrument 6 and the anode voltage source 7 are connected.

According to the invention, a potentiometer is parallel to the voltage source 4 8 switched, the tap sn via the switch 3 to the cathode 2a of the diode 2 communicates. For coupling the voltage or current pulses to be measured the coil set 9, of which the coil pa is located in the anode circuit of the diode 2, is used.

If a measurement is to be carried out, it is initially opened when the Switch 3 the deflection on the measuring instrument 6 is observed. Then the switch 3 closed and the tap Sa of the potentiometer 8 shifted until the same deflection that was read on measuring instrument 6 with switch 3 open, is set again.

When using compensated measuring instruments after closure of the switch 3 by means of the potentiometer S, the measuring instrument 6 before the measurement be brought into zero position.

For the further implementation of the measurement, the anode circuit of the Diode 2 is supplied with the voltage or current pulses to be measured via the coil set g. These pulses are rectified by the diode 2 and charge the storage capacitor I to a voltage corresponding to its size. Since the occupancy 1a of the storage capacitor I lies on the grid 5a of the amplifier tube 5, shows that in the anode circuit of the amplifier tube 5 lying measuring instrument 6 the corresponding voltage.

The size of the voltage displayed by the measuring instrument clearly corresponds the size of the voltage or current pulses to be measured uud is not due to the Diode residual voltage changed, as this is done by moving the tap 8a of the potentiometer S was compensated before the measurement.

Claims (2)

PATENT CLAIMS: I. Circuit arrangement for measuring in particular individually occurring voltage or current pulses, in which the voltage or Current pulses are fed to a storage capacitor after rectification, thereby characterized in that the storage capacitor is in series with a compensation voltage source is connected to the downstream measuring element and that the voltage of the compensation voltage source is dimensioned so that it is the same size as the residual voltage of the rectifying Owns diode. 2. Circuit arrangement according to claim I, characterized in that the compensation voltage by means of a parallel to the voltage source of the rectifier lying potentiometer is adjustable.