HU193567B - Method and apparatus for adding the number of pulses of two trains of pulses - Google Patents

Abstract

Method for summing the number of pulses from two pulse sequences, in which non-overlapping pulses are read, characterized in that coincident and partially overlapping pulses are counted as a double pulse. Device consisting of the coincidence circuit with two inputs whose output is not connected to superimposed pulses to the input of Zaehlers, characterized in that the output for not superimposed pulses of the coincidence circuit 1 is also connected to the first input of the circuit I 3 to whose second input the output of the lowest point 4 of the counter 2 is connected, the output of the circuit I 3 to the first input of the circuit 5 "Or - Not", the second input of which is connected to the output for the double mass pulses , and the output is connected to the arithmetic input at the highest point of the counter 2. The advantage of the method and the device is that coincident and superimposed pulses are counted as a double pulse, thereby increasing the operating speed and thus the maximum frequency of the input signals. Thus, the application is possible in the measurement of fast-running processes.

Description

The present invention relates to a method and apparatus for summing the pulses of two pulse sequences, wherein corresponding and partially overlapping pulses are replaced by a pulse that is counted twice. The method and apparatus of the invention can be used in measuring techniques.

A method of summing the number of pulses of two pulses is known in which pulses that overlap or partially overlap each other are taken into account by delaying one pulse, whereby the delay represents a phase delay and lasts until the pulses are completely overlapped. Finally, these pulses are led, one after the other, to non-overlapping pulses, one after the other on the counter. Such a solution can also be found in P. W Nowizki, W. G. Kntíríflg, W. S. Gutnikow, "Ziffrowie Pribori s Tscbástotnimi Datschikami" (Leningrad, "Energy", 1970), p. 244.

The above literature also discloses an apparatus for implementing the above method, which comprises a dual-input and a dual-output circuit which indicates the coincidence or overlap of the pulses. The first output of the circuit is connected to the first input of an OR gate. Its second output is connected to an input of a delay line, the output of which is connected to the second input of the OR gate. The third output of the circuit is also connected to the second output of the pulse coincidence circuit (anticoincidance circuit). The output of the OR gate is connected to the input of a counter.

A disadvantage of the known method and the known apparatus is that, due to their use, the operating speed of the apparatus is reduced, since the overlapping pulses are shifted in phase, so that they are delayed in time.

It is therefore an object of the present invention to provide a method and apparatus for summing pulses of two successive pulse sequences by which the operating speed can be increased.

The object of the present invention is to provide a method for summing pulses of two successive pulse sequences, in which non-overlapping pulses are counted while the overlapping pulses and the partially overlapping pulses are converted to a pulse which is converted to a weight.

The apparatus of the present invention for summing pulses of two successive pulse sequences comprises a dual-input anticoincidence circuit having an output for non-overlapping pulses connected to a counter input and a first input 2 of an AND gate, the second input of which is the last input of the counter. the output of its position value is latticed. The output of the AND gate is connected to the first input of the NOT gate, the second input of which is coupled to the output of the anti-coincidence circuit for dual-weighted pulses while its output is coupled to the counter input of the largest local portion of the counter.

The advantage of the method and apparatus according to the invention is that the substitution of the incident pulses and the overlapping pulses by a single pulse and the double weighting thereof reduces the operating speed and, consequently, the maximum allowable frequency of the input signals, which the circuit can be used to measure fast processes.

An embodiment of the apparatus according to the invention will now be described in more detail with reference to the accompanying drawing, in which: Figure 1 is a block diagram of the apparatus of the invention; Fig. 2 is a schematic diagram of the anticoincidence circuit; Figure 3 is an operating time diagram of the apparatus of the invention.

1 is a block diagram of an apparatus for summing pulses of two pulses in accordance with the invention, comprising a dual-input anticoincidence circuit 1 having a first input for non-matching pulses, a counter input 2 and a first input of an AND gate 3. connected to the second input of which the output of the lowest position 4 of the counter 2 is connected. The output of the AND gate 3 is connected to the first input of the NOT gate 5, the second input of which is connected to the second output of the dual weighted pulses of the anticoincidence circuit 1 and the output of the NOT gate 5 is connected to the counter input of .

Figure 2 is a schematic diagram of the anticoincidence circuit 1 containing D-triggers 7, 8, 9, and 10, which are controlled by the rising edge of the clock signal at their C inputs. The D-triggers 7 and 9 are connected to inputs f1 and f2, respectively, where the impulses to be counted are received through the inputs f1 and f2. The non-inverting output of the D-trigger 7 is connected to the D input of the D-trigger 8 and the non-inverting output of the D-trigger 9 is connected to the D input of the D-trigger 10. The D-triggers 7, 8, 9, and 10, which receive the clock signals, are connected to the output of an inverter 16, the input of which is connected to the clock input t. Non-inverting output of 7 D-triggers, 8 D-triggers inverting out

The -2193567 thread, the clock input t and the output of an inverter 17 are connected to the inputs of a four-gate AND gate 11. The non-inverting output of the D-trigger 9, the inverting output of the D-trigger 10 and the output of the inverter 17 are connected to the inputs of a second four-input AND gate 12. The outputs of the AND gates 11 and 12 are connected to one of the inputs of an OR gate 13, while the outputs of the OR gate 13 are the first output of the anticoincidence circuit 1.

The non-inverting outputs of the D-triggers 7 and 9 and the inverting outputs of the D-triggers 8 and 10 are connected to the inputs of a third four-input AND gate 15 having an output of the inverter 17 and the first input of a two-input AND gate 14 connected. The clock input t is connected to the second input of the AND gate 14, while its output is the second output of the anticoincidence circuit 1.

The apparatus of the present invention for summing the pulse numbers of two pulse sequences operates as follows:

The anticoincidence circuit 1 processes the signals arriving at the inputs f 1 and f 2, and if they are pulses that do not overlap, the two pulses appear sequentially at the first output of the anticoincidence circuit 1. If, on the other hand, these pulses overlap, the anticoincidence circuit 1 produces a single pulse at its second output.

The pulse at the first output of the anticoincidence circuit 1 is applied to the input of counter 2, which counts them. The same impulses are also transmitted to one of the inputs of the AND gate 3, the second input of which is the output signal of the lowest position 4 of the counter 2. The signal at the output of the AND gate 3 is applied to the counter input 6 of the most significant portion of the counter 2 which is synchronized with the pulses at the first output of the anticoincidence circuit. Using the NOT gate 5, the output signal of the AND gate 3 and the signal at the second output of the anticoincidence circuit 1, which is applied to the counter input of the most significant part of the counter 6, are combined. The signals supplied to this input double the contents of the counter 2, which corresponds to the counting down of two overlapping pulses. This reduces the time needed to set the counter when such pulses arrive at the input and increases the operating speed of the instrument.

The anticoincidence circuit 1 processes the input signals to the inputs f1 and f2 (see Figure 2). During processing, the anticoincidence circuit 1 considers pulses whose rising edges arrive at the inputs fi and f2 between the rising edges of two consecutive pulses of the clock pulse series as overlapping pulses. (The outputs of the corresponding elements of the anticoincidence circuit 1 are shown in FIG. 3 with their reference marks.) To do this, information corresponding to the state of the inputs fi and f2 is entered into the D-triggers 7 and 9, respectively. transmits the information to the D-triggers 8 and 10, respectively, in sync with the falling edge and then in sync with the falling edge of the next clock pulse. Thus, the D-triggers 7, 8, 9 and 10 store both the old and new states of both inputs f1 and f2. This information is updated at each falling edge of the clock pulses. The states of the D-triggers 7, 8, 9 and 10 are processed by the AND gates 11, 12, 14, 15, the inverter 17 and the OR gate 13, and the required signals are applied to the two outputs of the anticoincidence circuit 1 (see FIG. 1), the first output of the anticoincidence circuit 1 being the output of the OR gate 13 and the second output of the AND gate 14.

Suppose that, at the initial state, no input is applied to any input of the equipment. In this case, the D-triggers 7, 8, 9 and 10 will be set to "logical zero (see Figure 3). Now, if a pulse is received at one of the inputs of the anticoincidence circuit 1, for example fi, then, at the falling edge of the next clock pulse, the D-trigger 7 will shift to a "logic one" state. Since the inverting output of the D-trigger 8 is also "logic single state", a pulse is generated at the output of the logic AND gate 11 when the next clock pulse is received, which is transmitted via OR 13 to the first output of the anticoincidence circuit 1 (see Fig. 3). figure). At the trailing edge of the same clock pulse, the state of the D-trigger 7 is written to the D-trigger 8 and its inverting output goes to a "logic zero, causing the output of the logic AND gate 11 to return to" logic zero " its edge coincides with the downward edge of the signal of the inverting output of the 8 D-triggers.

The pulse on the fi input then produces a pulse of the same width as the clock pulse.

When a signal is received at input f2, an impulse is generated in a similar manner to that described above by means of the D-triggers 9 and 10 and the logical AND gate 12, which passes to the second input of the OR gate 13.

After the pulses appearing at the inputs f1 and f2 and after two clock pulses have elapsed, the D-triggers 7, 8, 9 and 10 assume their state as shown in Figure 3.

If overlapping pulses are applied to the inputs f1 and f2 of the device according to the invention, the operation of the anticoincidence circuit 1 depends on whether the rising edges of the overlapping pulses are exactly coincident or in phase with one another. It is sufficient if they are two successive3

-3193567 arrives in the interval between the falling edges of the clock pulse. In this case, the outputs of the D-triggers 7 and 9 will simultaneously display a "logic one" signal, and since the D-triggers 8 and 10 are still in "logic zero," the output of the inverter 17 will display a "logic zero, which disables AND gates 11 and 12 (see Figure 3). As a result, no pulse appears at the first output of the anticoincidence circuit 1. In this case, the logical single signal at the output of the AND gate 15 is synchronized with the input signal of the clock signal t and causes the desired signal to appear at the second output of the anticoincidence circuit 1.

Claims (2)

PATENT CLAIMS A method for summing the number of pulses of two sets of pulses, in which the non-overlapping pulses are counted, characterized in that the overlapping and overlapping pulses are replaced by a single pulse, which is calculated by double weighting. Apparatus for summing the pulse numbers of two pulses comprising a dual-input anticoincidence circuit having an output for non-overlapping pulses connected to a counter input, characterized in that the anticoincidence circuit (1) The output of the IC for non-overlapping pulses is also connected to the first input of an AND gate (3), the second input of which has an output of the lowest local position (4) of the counter (2). 15 connected, the output of the AND gate (3) is connected to the first input of a NOT gate (5), and its second input is connected to the output of the anti-coincidence circuit (1) for double-weighted pulses and the output of the NOT gate (5) connected to the counter input (6) of the most significant part of the counter (2).