DE1267863B - Arrangement for recording the maximum value of any measured variable occurring within any period - Google Patents

Description

Arrangement for recording the within any period occurring maximum value of any measured variable The invention relates to an arrangement for recording what occurs within any period of time Maximum value of any measurable variable. As an example of the use of such a Arrangement is referred to the measurement of electrical power. Here often lies the task before, within a certain period of time, e.g. B. one day, occurring Record maximum value of performance.

The display of the maximum value should either be analogous by a Pointer setting or digitally by setting a counter.

In the case of digital frequency measuring arrangements, it is known, for example, the input of the arrangement a sequence of pulses, the frequency of which are measured should, to feed and to switch to a power gate. The electricity gate is on the one hand with connected to a normal frequency generator. The opening time of the electricity gate, i.e. H. the time in which the current gate is electrically open for the pulse train to be measured to the counter is controlled by one or more oscillation periods of the Normal frequency determined.

If, on the other hand, the time or the period is to be measured, then counts the counter records the oscillations of the normal frequency generator that occurred during the opening time run through the electricity gate. The opening time of the power gate depends on the period duration or on the time period that is to be determined. By a change the counter circuit can be achieved that when counting several time segments one after the other the counting does not start again from zero, but continuously continues, d. H. the individual time periods are added.

In another known method of measuring and counting sizes and quantities, the quantity to be measured is compared with the voltage of a translator, which is fed by a counter which stores a series of pulses. at Adjusting the size to be measured, the supply of further pulses to the counter is interrupted and actuates an inversion circuit which counts the subsequently supplied Initiates pulses in the opposite direction. Here an oscillator gives its impulses continuously to the counter via a gate and a comparison device.

However, with the known arrangements and methods it is not possible the maximum value of any occurring within any period Record measured variable, since these arrangements are only suitable for instantaneous value measurements are. The object of the present invention is therefore to provide an arrangement for detection the maximum value of any one occurring within any period of time Measured variable, in which the measured variable and the position of a counter that has a Gate circuit is connected to a pulse source, via converters in each other comparable quantities (e.g. direct voltage or direct current) are converted and converted into a Summation point are compared with different signs.

According to the invention, the object is achieved in that the difference value (du) controls the gate circuit via a flip-flop circuit in such a way that it is responsible for the pulses the pulse source to the counter through a positive differential value conductive and through a negative differential value is blocked.

An exemplary embodiment of the invention is shown as a block diagram in the figure for explanation. The counter 3 is connected to a pulse source 7 via a gate circuit 6. This pulse source can also be an alternating voltage source. The gate circuit 6 is controlled so that the pulses or the sine waves from the pulse or voltage source 7 only reach the counter 3 when the measured value is greater than a comparison value proportional to the position of the counter. In order to achieve this, the measured variable M is converted into a direct voltage UM via a measuring transducer 1. Likewise, the position of the counter 3 is mapped in analog form by a DC voltage UZ. In the summation point 2, the direct voltages UM and UZ are compared with one another with different signs, and the difference du is fed to a flip-flop 5. The output of this flip-flop controls the gate 6. The flip-flop 5 tilt when the voltage difference you changes sign. If you are positive, the gate circuit 6 is closed, that is, the pulses from the pulse source 7 reach the counter 3. If you are negative, the gate circuit 6 is open and no pulses reach the counter 3. You can see that you are always is negative as long as the measured variable M remains smaller than the maximum value that has already occurred within the observed time period. If the measured variable reaches a new maximum value within the observed time span, Au becomes positive and the position of the counter 3 is increased to a value corresponding to the new maximum value of the measured variable.

The block 4 in the figure represents the display of the counter 3. It can either be analog by setting the pointer or - digitally by setting the counter take place.

By means of a signal L supplied to the counter 3, the counter can be returned to its zero position and thus the beginning of a new period of time, within which the maximum value that occurs is to be determined.

When measuring the maximum value within any period of time occurs, it is often desirable to use the measuring arrangement with a certain inertia to provide. For example, when measuring performance, it is not desirable very short-term power peaks caused by switching operations capture. With the present arrangement, the responsiveness can be adjusted by choosing the Frequency of the pulse train supplied by the pulse source or alternating voltage source 7 or alternating voltage can be influenced.

Claims (5)

Claims: 1. Arrangement for recording the maximum value of any measured variable occurring within any period of time, in which the measured variable and the position of a counter, which is connected to a pulse source via a gate circuit, are converted into mutually comparable variables (e.g. DC voltage or direct current) and compared in a summation point with different signs, gekennzeichn et that the difference value (AU) controls the gate circuit (6) via a flip-flop (5) so that it for the pulses of the pulse source (7) to the counter (3) is conductive by a positive differential value and blocked by a negative differential value. 2. Arrangement according to claim 1, characterized in that a Display device (4) is connected, which displays the value stored in the counter in digital or analogous form. 3. Arrangement according to claims 1 and 2, characterized in that that the counter (3) can be returned to its zero position by a signal (L) can. 4. Arrangement according to one of claims 1 to 3, characterized in that an alternating voltage source takes the place of the pulse source (7). 5. Arrangement according to one of claims 1 to 4, characterized in that the frequency of the pulse source is adjustable. Considered publications: German Patent Specifications No. 638 205, 950 604; VIDi-Zeitschrift (1956), 98 No. 26, pages 1541 to 1548; (1959), 101 No. 15, pp. 589 to 624; Radio Mentor (1954), No. 5, pp. 252 to 256; (1954), issue 9, pp. 502 to 506.