DE2362230A1 - Power mean value forming device - has measurement periods which are equal and mean values which are formed in equal steps within each period - Google Patents

Abstract

A number of counters corresponding to that of measurement steps is provided. They form test values in consecutive steps within a period, and their stored contents are compared at each period end with a maximum value of the previous period. A common auxiliary counter is allocated to the above electronic counters, controlled by a clock pulse generator counter. It is controlled by a gate, and when it is open, it counts the pulses from a clock pulse generator, which are also used for counting down the values counted by the above counters. The gate is controlled by a control device between the counters and the auxiliary counter, which blocks the gate when the corresponding counter reaches zero.

Description

Licentia Patent-Verwaltungs-GmbH 6 Frankfurt / Main, Theodor-Stern-Kai Λ

73/35 December 4, 1973

Knust / very

"Device for recording average power values in simultaneous measurement periods "

The invention "relates to a device for detection of power mean values in simultaneous measurement periods with multiple, constant time increments Averaging within a measurement period.

As is well known, maximum works have the task of acquiring mean power values for successive measurement periods and the highest mean, the so-called maximum, in to be held in a memory (maximum counter). The history a day is usually divided into a fixed number of measurement periods. With a measurement period of, for example A 24-hour day consists of 15 minutes 96 measurement periods. But there are also measurement periods with a Duration of 30 minutes 1, 2 or 6 hours used. The choice of the measurement period mainly depends

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the network structure, the capacity of the generating facilities and the composition of the customer base away. With the usual maximum measurement, the measurement periods fit together seamlessly together. It can happen that power peaks that occur in quick succession in two consecutive measurement periods are undervalued. In order to achieve a maximum registration with a more precise evaluation, it is conceivable to set up the measurement periods so that that they partially overlap and one thus obtains a consecutive maximum. This achieves that the measurement period is shifted further in time by the non-covered part and thus a wandering measurement period arises.

It is the object of the invention to provide a device for To create detection of the consecutive maximum, which is particularly simple. According to the invention achieved by providing a number of counters corresponding to the number of time steps for registering the mean values which record the measured values of a measuring period one after the other in time step intervals and their Speicfeereinhalts at the end of each measurement period compared with the maximum value of previous measurement periods in a maximum counter will.

The invention will be explained in more detail using exemplary embodiments with reference to the drawing.

Fig. 1 and 2 serve to explain the consecutive maximum,

while in
Pig. 3 and 4 based on two different exemplary embodiments

are shown by block diagrams.

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In the time scale according to FIG. 1, a 24-hour day T is divided into equal time segments of one hour each. Respectively -6 sections form a measurement period, which for - -is a basis determining a 6-hour maximum. During the first measurement, an average value M is formed, which is composed of the individual values assigned to hours 1 to 6. The second mean value M ~ consists of the sum of the hourly values 2 to 7 · A third mean value results from the sum of the hourly values 3 to 8 etc. A new! Mean value arises from the previous one by shifting a single hourly value.

6 counters Z1 / to Z6 are required to form the mean values M _x , to Mp. Of a day, which are represented by the sum of 6 hourly values each. In Fig. 2 it can be seen how the counters ZI to Z6 register the mean values. The measured values of the hours 1 to 6 run into the counter Z1, the counters Z2 to; Z6 count the / measured values of 6 hours in time segments which are each shifted by one hour compared to the previous one. After the sixth hour has elapsed, the counter Z1 contains all 6-hour values and thus the mean value M ^ related to the measuring period of 6 hours, which can now be evaluated. After the evaluation, the counter Z1 is reset to zero so that it can again record its first hourly value in the seventh hour. After the seventh hour has elapsed, the counter Z2 contains the hourly values 2 to 7 and thus the mean value M ₂ -. Like ZI, Z2 is evaluated and reset. After the eleventh hour has elapsed, the mean value M _{ß is} registered in the counter Z6. At the end of

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In the twelfth hour, the counter Z1 has again recorded 6 hourly values and thus the mean value M ^. The counting processes are repeated cyclically, so that each time one of the counters Z1 to Z6 has one of the mean values M ,. until Yi makes ^ iL available ^for evaluation.

In the block diagram according to I ¹ Ig. 3 shows 6 counters Z1 to Z6, which are controlled by a pulse generator GZ at the same time. The counters are controlled via line 1. The counters Z1 to Z6 are assigned a common auxiliary counter HZ, which can be controlled by a control device ST via a line 2 for alternating transfer of the counted values accumulated in the counters Z1 to Z6. The control arrangement ST influences the counters Z1 to Z6 via lines 3 /] to 3g. The line 2 is connected to one input of a gate A, at whose second input a clock T is located. The clock generator T is connected to the control arrangement ST via a line 4. The counters Z1 to Z6 are also connected via a line 5 to the control arrangement ST, via which an output signal is emitted to the control arrangement when the counters are reset. The auxiliary counter HZ is followed by a maximum counter MZ via a comparison arrangement V. The maximum counter can be controlled via a port B, the inputs of which are connected to the comparison arrangement V on the one hand and to the output of port A on the other hand.

The evaluation of the accumulated in the counters Z1 to Z6 Measured values are carried out in such a way that these values are successively transferred to the auxiliary counter and with Can be compared with the help of the comparison arrangement with the previously highest value stored in the maximum counter. in the

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the process takes place as follows:

If there is an average value in the counter ΊΛ after one hour, the control arrangement .. ST initiates a step-by-step countdown of the counter. The clock generator T; delivers the countdown pulses via the control arrangement ST and the line 3χΐ. The same pulse sequence runs through the gate A, which is opened by the control arrangement ST via line 2, into the auxiliary counter HZ, which is in the zero position. If the counter Z1 has reached the zero position after η countdown pulses, the control arrangement ST closes the following as a result of an output signal from the counter Z1 on line 5: Gate A. The auxiliary counter HZ now contains the η counting pulses previously stored in the counter ΊΛ, i.e. It shows the same status as the counter Z1 before. The sequential re-storage of the mean value present in the counter Z1 in the auxiliary counter HZ advantageously creates the possibility of comparing the mean value to be evaluated with the hitherto highest mean value (maximum) in the counter MZ. If the value already contained in the maximum counter is reached when the auxiliary counter HZ is counted up, the comparison arrangement V opens gate B, whereby the following pulses from the clock counter also reach the maximum counter MZ and the auxiliary counter and maximum counter continue to count in parallel End of the Um spei rather- ": '_"' process a new maximum value, which is retained while the auxiliary counter is reset to "zero" via line 6, so that it can take over the mean value of the next hour. The countdown of the other counters Z2 and Z6 takes place in the same way.

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The maximum counter MZ is only counted if the value contained in it from the auxiliary counter has been reached and exceeded will. If the value accumulating in the auxiliary counter remains below the last maximum, the comparison speaks arrangement V does not exist and gate B remains closed.

In the exemplary embodiment according to FIG. 4-, the evaluation takes place the mean values present in the counters Z1 to Z6 by bit-parallel restoring. The counters Z1 to Z6 represent the recorded mean values at the outputs A ^. to Ag in coded form (e.g. BCD code) for evaluation ready. The normally locked outputs of all counters are connected to a data collection system DSS, with which are also connected to set inputs E of a buffer ZSP. The control arrangement is activated when the counted values are evaluated ST the counters Z1 to Z6 one after the other via address lines 1 to 6. Activation takes place first of the counter ZI via address line 1. As a result, the outputs A ^ are switched through, so that the corresponding to the mean value Signals are on the DSS data collector a storage pulse sent by the control arrangement ST via line 7 is taken over by the intermediate storage ZSP the data pending at the set inputs E. After the transfer, the content of the counter Z1 is reset by a reset signal deleted via a line 8. The one present in the intermediate memory ZSP is now transmitted via a comparison stage V Average value compared with the value stored in the maximum unit MZ, which represents the highest average value so far. If the new mean value is greater than the previous maximum, this is taken over by the maximum work MZ. Is the he

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if, on the other hand, the mean value is smaller, the comparison speaks not start e V and the one stored in the maximum work MZ Maximum value is retained.

7 pages description

4 claims

3 sheets of drawings with 4 figs.

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Claims (4)

236223G Licentia Patent-Verwaltungs-GmbH 6 Frankfurt / Main, Theodor-Stern-Kai Λ 73/33 December 4, 1973 Knus.t / Schr Patent claims: Λ Device for recording average power values in simultaneous measurement periods with multiple, constant Time-step averaging within a measurement period, characterized in that that the number of time steps correspondingly many counters (Z1 to Z6) for registering the mean values are provided, which one after the other in time step intervals record the measured values of a measuring period and their memory contents at the end of each measuring period with the Maximum value pending in a maximum counter (MZ) from previous measurement periods can be compared. 2. Device according to claim 1, characterized in that that controlled by a pulse generator counter (G-Z) A common auxiliary counter (HZ) is assigned to electronic counters (Z1 to Z6), which is connected via a gate circuit (A) Pulses from one when the door is open 509825/0539 75/33 ■ "'.." .. - y - Clock (T) also counts, for step-by-step return Payment of the in the respectively connected meter Accumulated value are used, the gate circuit being influenced by a control arrangement (ST) located between counters and auxiliary counters, which the gate closes when the respective counter is reset. 3 · Device according to claim 1 and 2, characterized ^. shows that between the auxiliary counter (HZ) and the via a second gate downstream of the first (B) A comparison arrangement (V) is provided to the maximum counter (MZ) connected to the clock generator (T) when the counter values are re-stored in the auxiliary counter (HZ) in the event of a tie with the maximum counter by opening the second gate releases the maximum counter for further counting. . 4. Device according to claim 1, characterized in that the electronic counters (Z1 to Z6) controlled by a pulse generator counter (GZ) with their normally locked outputs (A _x , to Ag), at each of which the recorded mean value is provided in coded form , are connected to a: data busbar (DSS), with which also set inputs (E) of a buffer (ZSP) are connected, which is influenced by an addressing (1-6) to the counters having control arrangement (ST) and that the buffer is connected to the maximum counter (MZ) via a comparator stage (V). 509825/0539 Yo Blank page