SU663113A1 - Binary counter - Google Patents

Description

(54) JiBOH4Hbm COUNTER

The invention relates to a pulse technique and can be used in data acquisition and processing systems. A binary counter is known that contains P.'s triggers. However, such a binary counter has limited functionality. Also known is a binary counter containing sequentially connected triggers of numbers And. triggers .grunp, as well as a logical element, whose inputs are connected to the outputs of the trigger numbers 2. However, this counter also has limited functionality due to the inability to transfer the address word. The aim of the invention is to expand the functional possibilities (; tee. This is achieved by adding a switch and a control unit to the proposed binary counter, the first of which is connected to the inputs of the installation in the O number triggers, the second output of the control unit is connected to the inputs of the O devices in the trigger groups, the third output of the control unit is connected to the input of the installation in 1 of the first trigger of numbers, the inputs of the installation in 1 of the remaining trigger of numbers are connected to the fourth output of the control blocks, the fifth output of which is connected to nepBb The iM input of the switch, the second and third inputs and the output of which are connected respectively to the last trigger of the numbers, the output of the logic element and the input of the first group trigger. The block diagram of the proposed binary counter is shown in the drawing. The binary counter contains the series-connected triggers of numbers 1-1, .. ., 1-n and triggers of groups 2-1, ..., 2-t, logic element 3, whose inputs are connected to the trigger of number triggers,, switch 4 and control unit 5, the first output of which is connected to the inputs of the set to O triggers numbers the second output of the control unit is connected to the installation inputs of the group O triggers, the third output of the control unit is connected to the installation input 1 of the first flip-flop of numbers 1-1, the installation inputs of the remaining number triggers I are connected to the fourth output of the control unit whose fifth input is connected

the first input of the switch, the second and third inputs and the output of which are connected respectively with the output of the last trigger of the number 1-n, the output of the logic element 3 and the input of the first trigger of groups 2-1.

Before starting to record information on the signal from control unit 5, the triggers of number 1 and the triggers of group 2 are set to the O state, and the switch 4 connects the output of the trigger of numbers 1-n to the input of the first trigger of group 2-1. The number of triggers of numbers 1 determines the number of words in a group, and the number of triggers of group 2 determines the number of gupps. Depending on the coding system, the first or last word of the group is an address, in which the address of this group is recorded. All other words are informative. Before starting work in reading information on the signal from control unit 5, the numbers 3 triggers and group 2 triggers are set to the O state, and switch 4 connects the output trigger of the number I to the input of the first group 2 trigger and reads in the same sequence in which the information was recorded. If, when reading, it is necessary to transfer information for processing to a system that has another coding system, you need an address word, if it was at the beginning of the group, transfer to the end of the group or, if it was at the end of the group, to the beginning of the group, saving This order is followed by informative words within the group.

Consider the first case: the address word is at the beginning of the group, and it must be transmitted last, keeping the order of the following informative words inside rpjombt, as it was in record mode. In this case, before starting to read information on the signal from control unit 5, the triggers of the numbers 1 and the triggers of group 2 are set to the O state, and the first trigger of the number 1-1 (the least significant bit of the address counter) is set to 1 (code 10 ... 0. 0 ... 0), and the switch 4 connects the output of the logic element 3 to the input of the first trigger of groups 2. The logical element 3 triggers when all its inputs have a potenodal O. The reading of information will start from the second word of the group, as the least significant bit of the counter was at the beginning of the readout in state 1 (code 10. ..0. 0 ... 0). During the reading of the last word of the group, all the triggers of the word will be found in state 1 (code 1 ... L From - .. 6), therefore in the next 1 hack of account all the triggers of the numbers 1 are set; mc in the state O (code 0 ... 0. 0 ... 0) and, thus, after the last informative word of the word, the word with the zero address will be read, i.e. the first word of the group. Thus, the address word located at the beginning of the group will be transmitted to the data processing system at the end of the group. In the next counting cycle, the transfer 1 to the trigger of group 2 will occur, as the logic element 3 triggers when all the triggers of the numbers 1 are set to O, and the first trigger of the numbers 1-1 (the least significant bit of the counter) is set to state 1 (the Sh code , P. 0, ..., 0) and reading the information will begin in the next group with the second word. Thus, the binary counter will read the address word that is at the beginning of each group at its end, while the information is read, and the order of the informative words will be the same as it was during the recording of information.

Consider the second case; the address word is one hundred, it is at the end of the group, and it must be transmitted first, keeping the order of the following informative words in the group as it was in the recording mode. In this case, before starting the information on the signal from the control unit 5, the triggers of the numbers 1 are set to state 1, the triggers of the groups 2 to the state O (code 1 ... 1. 0 ... 0), and the switch 4 connects the output logic element 3 with the input of the first trigger of groups 2, logic element 3 is triggered when all the triggers of numbers 1, except the last, are set to state 1 (code 01 ... 1.0 ... 0).

The reading of information will begin with the last word of the group where the address is recorded. The next word of the group will be read next, since in the next counting cycle all the triggers of the numbers 1 will be set to the state O (code 0 .... 0 ... 0) and the order of the informative words will be the same as was at the time of recording information. After reading the last but one word in the next counting cycle, the transition to the next group will occur, as the logic element 3 operates at the address of the last but one word (code 01 ... 1. 0 ... 0), and the triggers of the numbers 1 are set to state 1. Thus, in the next group, the last word of this group will first be read. Then, in the following counting cycle, all the triggers of the numbers 1 are set to the state O (code 0 ... 0. 10 ... 0) and the order of the informative words will be the same as it was during the recording of information.

In some cases, the recorded information needs to be transmitted for processing in the order that was present during the recording, i.e. The first word group should be read last and the first word within each group should be the last one. If, when reading information in reverse order, the coding system of the address word needs to be changed, then this will occur automatically, since the information will be read in reverse order with respect to the written one.

Claims (2)

If the coding system is preserved, then the address word, which is at the beginning of the group, must be transferred to the end of the group or, if it was at the end of the group, to the beginning. Consider the following case: in the reverse order of reading, the address word is at the beginning of the group, and it must be considered before the next word of the group. Then, before reading the information, the signal from control unit 5 triggers the numbers 1 are set to state 1, the triggers of group 2 to state O (code 1 ... 1. 0 ... 0), and switch 4 connects the logic output element 3 with the input of the first trigger of groups 2. Logic element 3 is triggered when all the triggers of the numbers I, except the last one (the least significant bit of the word address), are set to state 1 (code 01 ... 1. 0 .. .0) The information should be read at the addresses read from the inverse outputs of the binary counter, which ensures the reverse order of reading relative to the recorded one. Since before the start of reading the triggers of numbers 1 stand in state I, and the triggers of group 2 in state O, the freshwater word of the last group (code 0 ... 0. 1 ... 1) will be read first, which this case is at the beginning of each. In the next counting cycle, all the triggers of the numbers 1 are set to the B state O and the last word of the last rpymibi will be read (code 1 ... 1. 1 ... 1). Further reading will occur in the reverse order to the word that stands in the second place of the group. After that, in the next cycle, the signal from the logic element 3 will go to the next group, and the triggers of the numbers 1 will be set to state 1 and the address word of the next group will be read, which in this case stands at the beginning of each group, then in the next cycle the number triggers are set to O, and the binary counter will begin to read information in the reverse order from the penultimate group, i.e. information will be read from the other groups. Consider the last case: in the reverse order of reading, the address word is at the end of the group, and it should be considered after the first word of the group. Then, before the start of reading the information on the signal from the control unit 5, the triggers of the numbers 1 are set to the state O, and the first trigger of the numbers 1 (the younger digit of the address counter) to the state 1 (code 10 ... 0. 0 ... 0 ), triggers of group 2 to state O (code 10 ... 0.0 ... 0), switch 4 connects the output of the lighter element 3 to the input of the first trigger of group 2. Logic element 3 triggers when all its outputs have potential A. The reading of information must be carried out at the addresses read from the inverse outputs of the binary counter, which ensures the reverse order of reading with respect to the xy. Since before the start of reading the triggers of the numbers 1 and t are the riggers of groups 2 stand in the state O, and the first trigger of the numbers 1 stands in the state 1, the first prefixed word of the last group will be read first. Further reading will occur in reverse order to the first word of the last group. Then, in the next cycle, all the number triggers are set to the O state, and the address word that is at the end of the group will be read in this cycle. After that, in the next clock cycle, the signal from the logic element 3 will go to the next group, and the first trigger of numbers 1 will go to state 1, therefore in this clock the next-to-last word of the next group will be read information from the other groups in order described above. Thus, the proposed device allows the transfer of address words in all possible modes of operation of a binary counter, which expands its functionality. Binary counter, containing series-connected number triggers and group triggers, as well as a logic element, whose inputs are connected to number trigger outputs, characterized in that, in order to expand its functionality, a switch and a control unit are introduced into it, the first the output of which is connected to the inputs of the installation in O number triggers, the second output of the control unit is connected to the inputs of the installation in O triggers of the groups, the third output of the control unit is connected to the input of the installation in 1 of the first trigger hours sat, inputs setting to 1 the remaining triggers numbers connected to the fourth output of the control unit, a fifth output is connected to a first input of the switch, the second and third inputs and the output of which are respectively connected to the output of the last flip-flop of numbers, output logic gate and the input of the first flip-flop groups. Sources of information taken into account kpH expertise; 1. Shl poberskiy V. I. The Basics of Techniques Transmit Discrete Messages, Sv, M., 1973, 120, fig. 3.13. 2. USSR author's certificate number 160042, l. G 06 F, 1963.