SU785859A1 - Binary train generator - Google Patents

Description

The invention relates to computer technology and can be used in control devices, as well as in control systems for generating test signals.

A device for forming binary sequences containing a clock, counter, decoder, OR element [1]. ''

The formation of long binary sequences (more than 128 cycles) in a known device leads to an increase in the amount of equipment needed to decrypt a binary code, and requires the use of OR elements for a large number of inputs.

The closest to the invention in technical essence is a generator of binary sequences containing a clock generator, a binary counter of clock pulses, a selector-multiplexer consisting of a decoder, elements AND and element 2 OR. The output of the clock generator is connected to the input of the binary counter, and the outputs of the decoder are connected to one of the inputs of the element AND, the outputs of which are connected to the inputs of the element 3. OR. The output of the OR element is the output of the generator.

In addition, the generator contains a decoder connected to the higher bits of the clock counter, and a group of OR elements, the inputs of which are connected to the corresponding outputs of the decoder, and the outputs are connected with AND elements [2].

The introduction of a selector-multiplexer into the binary sequence generator made it possible to reduce the amount of equipment needed to decrypt the states of the binary counter.

The disadvantage of this generator is its complexity due to the presence of OR elements on a large number of inputs. The number of inputs in the OR elements is equal to the number of units in the generated binary sequence. With an increase in the length of the generated sequence, the amount of necessary equipment for the implementation of OR elements increases.

The aim of the invention is to reduce the number of necessary equipment.

This goal is achieved by the fact that in the binary sequence generator 785859, the clock generator. of which a sub-counter, an OR group and a decoder, flaxes containing output pulses, is output to the counting input of AND elements, whose outputs are connected respectively to the first inputs of AND elements of the troupe, the outputs of which are connected to the inputs of the OR element, the output of the latter is the output of a binary sequence generator, a binary functions generator is introduced, the first and second inputs of which are connected to the outputs of the lower bits of the counter, the outputs of the higher bits of which are connected to the corresponding inputs of the decoder, outputs binary driver functions are connected respectively to the second inputs of the AND group.

SUMMARY OF THE INVENTION illustrated by drawings, where Fig.1 shows a structural diagram of a binary sequence generator; figure 2 timing diagrams explaining the principle of operation: generator; on Fig.3 timing diagrams of the shaper of binary functions of the proposed generator; figure 4 is a functional diagram of the generator of binary functions of the generator.

The binary sequence generator contains a pulse generator, the output of which is by the counter input (clock 2, decoder 3, elements of the OR OR 5 element. Outputs C ₅ - Decryptor 3 are connected to the inputs of the AND 4 elements, and the outputs of the AND 4 elements are connected to the inputs of the OR 5 element. The output of the element OR 5 is the output of a · binary sequence generator.

clock connected to pulses).

And 4, ele10

In contrast to the known in the proposed generator, the outputs of the two least significant bits of counter 2 are connected to the inputs of the binary * function 6. The former 6 of binary functions has sixteen outputs L ₁ - L ₄ which, depending on the binary sequence being formed, are connected to the second inputs of the corresponding And 4 elements. The outputs of the upper bits a-- a _{p of the} counter 2 are connected to the inputs of the decoder 3. The shaper 6 is made on the elements AND-NOT 7.

The binary sequence generator operates as follows.

The operation of the generator is illustrated by the example of a binary function generator 6 (binary sequence F shown in FIG. 3). Binary research F is divided into time intervals by the measure duration, and in each interval the binary corresponding to the value of the binary sequence in this interval is indicated.

Generator 1 generates a clock frequency T, which arrives at a 65 g count of timeless function, chik 2. The signals taken from the two least significant bits of counter 2 are fed to the shaper 6 of binary functions, at the outputs of which binary functions L ₄ - L ₁₆ appear ( figure 4).

The outputs of the two least significant bits of the counter 2, arriving at the inputs of the generator of binary functions 6, determine the time interval of 2 = 4 cycles. At this time slot may exist February ⁴ = 16 types of binary functions (binary sequence) shown in fig.Z, where _L and - outputs LSBs counter 2, a - b _f6 - 16 types of binary functions. It should be noted that there are only 8 main binary functions (i.e., all functions that have odd numbers), and the rest of the functions are the inverse of the main ones.

The signals from the high bits of the counter 2 are fed to the decoder 3, the outputs of which appear pulses C ,, - C _t . Output signals S - (^ decoder 3 to the inputs of AND gates 4 and allow passage of the outputs of the AND A- 4 binary functions b _n - arriving at the second inputs of AND gates 4 to 6. Selecting shaper outputs one of 16 binary functions on incoming the input of a specific element And 4, is determined by the form of the generated binary sequence. So, for the sequence F (Figure 2) on the element And 4 connected to the output C ^ of the decoder 3, the function L ₃ , and on the element And 4 connected with C _a , - b ₅ , etc.

Output signals

And 4 arrive at the OR element 5, at the output of which a formed sequence appears.

The technical and economic effect of the use of the proposed technical solution, in contrast to the known ones, is to reduce the amount of necessary equipment.

Claims (2)

1. Author's certificate of the USSR 450154, cl. G 06 F 1/02, 1974. 2. USSR author's certificate J No. 488200, cl. G About F 1/02, 1976. JT rT-JnLrT. fCn 3 Cr-V Gjbj V Fig. / bj L FIG. 2 Fig.Z FIG.