SU930621A1 - Device for shaping pulse-frequency trains - Google Patents

Description

(5) DEVICE FOR THE FORMATION OF FREQUENCY IMPULSE SEQUENCES

Claims (2)

The invention relates to a pulse technique. A device for generating frequency-pulse sequences is known, comprising a generator, a main memory block, N pulse drivers, which include AND and OR elements and a trigger, a control unit, a mode setting unit, a memory unit, a delay element, a driver start cycle L closest in technical. SUMMARY OF THE INVENTION An invention comprises a device comprising a reference frequency generator, a frequency divider, a time interval generator, a frequency increment counter, an increment shaper counter, a control unit, an output driver, A elements, a delay line, a low-resolution driver, an additional driver, the element OR., the first input of which is connected to the output 1) of the transmitter, the second input of the element IL1 is connected to the output, the incrementing counter of the element, and the output of the element OR through the lower bit is connected to the input of the counter increment s, the second input of the least significant bit via a further generator coupled to the single output-shaper counter increments. The known device does not provide a sufficient number of generated sequences and does not have the ability to self-control. The purpose of the invention is to increase the number of types of generated pulse sequences and ensure self-monitoring of work. The goal is achieved by the fact that the device containing the master pulse generator, the output of which is connected to the input of a frequency divider, a control unit, two blocks of AND elements and a trigger, has been entered a parity block, two synchronizers, a HE element, a single pulse generator, a control block and two The elements are the same AND whose outputs are connected to the second and third inputs of the frequency divider, the first group of outputs of which is connected to the first inputs of the first block of elements AND, the second inputs of which are connected respectively to the outputs the second block of elements And, one input of each element And which is connected to the output of the element NOT and the first input of the first element And, the second input of which is connected to the first output of the control unit, the second output of which is connected to one input of the second element And, the third and fourth outputs of the control unit connected to the second inputs of the second block of elements And, the remaining inputs of which are connected to the outputs of the corresponding synchronizers, one of the outputs of each of which is connected to the input of the parity block, the third input of which is n with a trigger input and a single pulse generator output, the parity block outputs are connected to the corresponding inputs of the first groups of synchronizer inputs and the fifth input of the control unit, the group of inputs of which is connected to the corresponding inputs of the second groups of synchronizer inputs and the second group of outputs divide frequency frequencies, and the second inlet of the second element I is connected to the trigger output, one of the remaining inputs of the control unit is connected to the fault signal bus, the remaining inputs of the control unit are connected to the corresponding yuschi unit E outputs a control organ, the other two outputs of which connected respectively to the input of NOT circuit and the input of the single pulse generator. The drawing shows a structural electrical circuit of the proposed device. The device contains a master oscillator 1 pulses, a divider 2 frequencies, a block of 3 elements And, elements k and 5 And, a block 6 of control, a second block of 7 elements And, a trigger 8, a generator of 9 single pulses, a parity block 10, synchronizers 11 and 12, the element is NOT 13, the control panel on which the start-up unit 15 and the switches 1b - 22 are installed. A fault signal is given to the bus 23. The output signals are removed from the outputs of the elements AND block 3 The device operates as follows. 1 a) Frequency sequence generation mode. In the initial state, the switch 16 is in the disconnected state, then the input element 13 is high and the input element k is low potential. The position of the other switches does not matter, since zero potential was not applied to their input contacts. From the output of element 4 to the input of block 2, a resolving high potential is applied, as a result of which the block produces a sequence of frequencies, which is fed to block 3, and since there is a high potential from the outputs of block 7 to the second inputs of the elements of block 3, the output elements is given a frequency sequence from 1 to. The device also operates in the same way when the switch 16 is in a different position, but no switch should be turned on. b) Dynamic mode. Dynamic mode is used during commissioning and checkout operations, when it is necessary to obtain two groups of frequencies from the device, for convenience, the mentioned odd and Even series of pulses. Both series in sequential alternation - odd, then even, etc., make up the frequency sequence. During the development of each series of frequencies (either odd or even) from the corresponding element of block 3, a single pulse is output, the parameters of which do not differ from the parameters of pulses developed in the above described mode. For operation in this mode, the switch 1b is turned on, while the inputs all other switches supplied zero potential. The switch 19 is in the up position, the switch 21 is off, the switch 18 is switched to the down position, which corresponds to the Single Pulse Generation mode for the dynamic mode. At the same time, in block 6 and synchronizers 11 and 12, generation and supply of prohibitive positive potentials to the inputs of elements of block 7 occurs, and from the inputs of elements of this block, negative potentials are fed to the second inputs of elements of block 3, and a high potential is set at the outputs of all elements of block 3 at the same time, the moment of stopping the output of the frequency sequences is prepared by block 6 and the synchronizers 11 and 12 so that pulses of an even series are passed and the output of the frequency out of the sequence is stopped This happens before the beginning of an odd series, at the same time the frequency sequence from the splitter 2 continues to flow, since there is a positive potential at the first input of the element, but a negative potential is fed to its second input ijs of block 6, therefore, the output of the element k has a positive the permissive potential, which allows the frequency to pass from the generator 1. When the switch 17 is first turned on, a single pulse is generated in the generator of single pulses, which passes the trigger 8 and enters the electrical input 5, but does not change the output potential due to the negative potential at its second input, moreover, the same single pulse is given to block 10, in which four control potentials are applied to the synchronizers 11 and 12. After the arrival of these control potentials on the synchronizer 11, it is prepared for issuing low resolution potentials to the group of the corresponding elements of block 7y which control the resolution to issue frequencies constituting the odd series. When the 1 G synchronizer arrives at the corresponding frequencies, gating the leading and trailing edges of the enabling pulses, syncro output occurs. negative force of negative potentials to the elements of the block 7. for a short time, sufficient to pass through the elements of block 3 in a single pulse of the corresponding frequency. When the second switch is turned on, the switch 17 also produces a single pulse and, according to a similar principle, prepares the synchronizer 12-to supply low resolution potentials to the group of the corresponding elements of block 7, which control the resolution on the issuance of frequencies constituting the even-numbered series. After the clock of the gating front and rear edges of the enabling pulses arrives at the synchronizer, negative potentials are output to the elements 16 of block 7 for a short time sufficient to pass one block of the corresponding frequency through the elements of block 3. c) Static mode. The static mode is also used during commissioning and checkout works and serves for the simultaneous stretching of time diagrams of frequency sequences, i.e. for a tactful change of the levels at the outputs of the elements of the block 3 with a time interval, a multiple of the change of the levels at the frequencies is carried out by turning on the switch 17. Moreover, his next press to go to the next time interval can be carried out after an arbitrarily long time. For operation in this mode, the switch 16 must be turned on, the switch 18 must be in the upper position,; switch 21 is off. The switch 19 needs to be switched to the lower position, with a high potential from the first output of block 6 to the second input of the element, and also a high potential at its first input, a low potential at its output will prevent the frequency from being set generator 1, as a result of which the generation of frequency sequences in the divider is stopped at a time interval before the beginning of the odd series. G of the other output of the block 6 to the input of the element 5 is given a high potential, preparing it to work. The potentials from the other outputs of block 6 are low because the triggers (not shown) and in block 6 of which they are single outputs, immediately after switching the switch 18 to the upper position are set to O. Then from the outputs of the block elements 7 to the inputs of the elements of block 3 is served high; cue accommodating potential. When the switch is pressed for the first time: 17 in the generator 9, a single pulse is produced, which switches the trigger 8 from the zero state to 1, a high potential is fed to the input of the element 5, at the output of which the potential changes from 1 to O A low potential flows to the input of the divider 2 and it causes a change in the state of the corresponding triggers (not shown), as a result of which the output potentials of divider 2 and potentials at the outputs of the elements of unit 3 change. When the switch 1 is pressed a second time from the output of the generator 9, a single pulse changes IAL trigger 8 for ON, the output potential varies element 5, the divider 2 produces in turn modified potentials then at block elements 3 outputs potentials are also changed. With the next presses of the switch 1 /, single pulses are generated and after the eighth hour, the full cycle of frequency sequence changes has been carried out. Upon completion of work in this mode, the switch 19 must be returned to the upper position, which corresponds to the Pulse Generation mode, while the high potential at the input of the element k is replaced by a low potential and, from its output, a high potential allowing the passage of frequency from the master oscillator 1 to the divider 2 is fed to its input. If it is necessary to stop the output of frequency sequences, you need to press switch 20, then the low potential is fed to the input of block 6 in which the stop stop triggers (not shown), as a result, high potentials are supplied from the outputs of block 6 to the inputs of the elements of block 7 their output low prohibitive potentials applied to the second inputs of the elements of block 3, stop the issuance of frequency sequences. After pressing the switch 22, the stop trigger (not shown) in block 6 returns to the zero state, as a result of which low potentials are supplied from the outputs of block 6 to the inputs of elements of block 7, and from their outputs high potential potentials are fed to the inputs of elements of block 3I If it is necessary to urgently stop the operation in order to detect the malfunctioning that occurred in any of the frequency sequences of the systems or devices, the switch 21 is turned on. Then when it arrives from the outside on the signal bus 23, it goes to the input unit 6, triggers the trigger in block 7, from the outputs of which a high potential is applied to the inputs of the elements of block 7 and from their output low inhibitory potentials applied to the inputs of the elements of block 3 stop issuing frequency sequences to the outside. The main advantage of this device is that it can operate in several modes, which increases the number of generated sequences. Apparatus of the Invention A device for generating pulse-frequency sequences, comprising a master pulse generator, the output of which is connected to the input of a frequency divider, a control unit, two sets of elements And, and a trigger, different from the fact that, in order to increase the number of types of sequences of pulses and ensure the self-control of work, in it the introduction of a parity block, two synchronizers, a NOT element, a single impulse trigger, a control block and two AND elements whose outputs are connected to the second and t A frequency divider inputs, the first group of outputs of which is connected to the first inputs of the first block of elements And the second inputs of which are connected respectively to the outputs of the second block of elements And, one input of each element And which is connected to the output of the element NOT and the first input of the first element And, the second input which is connected to the first output of the control unit, the second output of which is connected to one input of the second element And, the third and fourth outputs of the control unit are connected to the second inputs of the second block of elements And, o steel inputs of which are connected to the outputs of the corresponding synchronizers i one of the outputs of each of which is connected to the input of the parity block, the third input of which is connected to the trigger input and the output of the single pulse generator, the outputs of the parity block are connected to the corresponding inputs of the first groups of inputs of the synchronizer and the fifth input of the block control, the group of inputs of which is connected to the corresponding inputs of the second groups of inputs of the synchronizers and the second group of outputs of the frequency divider, the second input of the second ementa and connected to the output latch, one of the other inputs of the control unit connected to the bus fault signal, the other inputs of the control unit are connected to respective outputs of the control unit bodies, the other two outputs of which are connected respectively to the input of NOT circuit and the input of the single pulse generator. 930621 pr 5 № № 10 Sources of information that are into account in the examination of t. USSR author's certificate 690619, cl. H 03 K 5 / 153.-20.11.75. 2. USSR author's certificate 513W5, cl. H 03 K 5/153, Tt.lO ..