SU813395A1 - Timer - Google Patents

Description

(54) TIME SENSOR

one

The invention relates to computing technology and can be used in time-slot generating units of digital computers.

A known time sensor comprising a generator, a binary counter of operating time, valves, a communications register with a computer 1.

However, this device provides the computer with only the binary code of the current time, which is insufficient for a number of tasks related to the presentation of information to the operator.

Closest to the present invention is a hardware time counter, comprising a generator, a pre-counter, seconds, minutes, hours, output units, and state 2 analysis units.

This counter generates binary codes of seconds, minutes, and hours; however, for a number of tasks, it is necessary to have time values in binary-tenth code (for example, output to display and printing devices, etc.). Conversion of binary codes into binary-decimal software means that programs become more complex and their tasks run longer, which is undesirable, especially for specialized systems operating in real time.

The purpose of the invention is to extend the functionality, providing the possibility of obtaining time stamps both in BINARY code and in binary-decimal.

Claims (2)

The goal is achieved in that a time sensor containing a generator, a preliminary counter, seconds, minutes and hours counters, three state analysis units, three output units, the generator output connected to the counting input of the preliminary counter, the output of which is connected to the counting input of the preliminary counter The output of which is connected to the counting input of the seconds counter, the overflow output of which is connected to the counting input of the minutes counter, the overflow output of which is connected to the counting input of the hour counter, information outputs The seconds, minutes and hours counters are connected to the inputs of the corresponding state analysis blocks and output units, the outputs of the output units are connected to the corresponding outputs of the time sensor, and the control inputs of the first, second and third output units are connected respectively to the first, second and third inputs. Reading the time sensor, entered a binary-decimal counter, the fourth issuing unit, register, four AND elements, three OR elements, a trigger, and the outputs of the first, second and third AND elements are connected to the subtraction inputs according to The counters are seconds, minutes and hours, the output of the fourth element is And is connected to the counting input of the binary-decimal counter and to the first inputs of the first, second and third elements AND, the information outputs of the binary-decimal counter are connected to the inputs of the fourth output unit, the outputs of which are the outputs of the time sensor, the inputs of the register are connected to the outputs of the output units, and the output of the register is connected to the installation inputs of the seconds, minutes and hours counters, the first input of the fourth element I is connected to the output of the trigger, and the second The input is connected to the output of the generator, the outputs of the first, second and third state analysis units are connected to the control inputs of the record, respectively, the seconds, minutes and hours counter and the inputs of the first OR element whose output is connected to the zero trigger input and the control input Fourth output unit, fourth, fifth and schoi inputs. Time sensor conversions are connected to the inputs of the second OR element and to the second inputs of the third, second and first elements AND, respectively, as well as to the control inputs. its second and first state analysis blocks, respectively, the output of the second element OR is connected to the single input of the trigger and the control input of the register, the inputs of the third element OR are connected to the first, second and third inputs of the Time Sensor, and the output of the third element OR connected to the installation input to zero of the binary-decimal counter. The drawing shows a diagram of the device. The device contains the generator 1, pre-counter 2, counter 3 seconds, counter 4 minutes, counter 5 hours, binary number 6, blocks 7-9 of the state analysis, blocks 10-13 of the issue, elements AND 14-17, elements OR 18- 20, trigger 21, register 22, inputs 23-28 commands of the device. The output of the generator 1 is connected to the input of the preliminary counter 2 and one output of the element 17. The output of the preliminary counter 2 is connected to the counting input of the counter for 3 seconds, the overflow output of which is connected to the counting input of the counter for 4 minutes, and the overflow output of the latter is connected to the counting input of the counter 5 hours . The output of the counter for 3 seconds is connected to the inputs of the state analysis unit 7, and the outputs of the output unit 10, the outputs of the 4 minutes counter are connected to the inputs of the state analysis unit 8 and the inputs of the output unit 11, the counter outputs 5 hours connected to the circuit inputs. 9, the analysis of the state and the inputs of the dispensing unit 12. The outputs of the state analysis blocks 7-9 are connected to the control inputs of the recording of the corresponding counters 3-5 and the inputs of the element OR 18. The outputs of the elements 14-16 are connected to the subtraction inputs of the corresponding counters 3-5, the output of the element 17 are connected to the counting input binary - a virtual counter 6 and to the first inputs of the elements AND 14-16. The outputs of the binary-decimal counter 6 are connected to the inputs of the delivery unit 13, the outputs of which are connected to the outputs of the device. The input of the register 22 is connected to the outputs of the circuits 10-13 issuance., And the output of the register 22 is connected to the installation inputs of the counters 3-5. Inputs 23-25 of the device commands are connected to the control inputs of the output blocks 10-12, respectively, and to the inputs of the OR element 20. Inputs 26-28 of the device commands are connected to the inputs of the OR 19 element, to the second inputs of the AND elements 14-16 and to the control inputs blocks 7-9 of the state analysis, respectively. The output of the element OR 18 is connected to the input of the zero setting of the trigger 21 and the control input of the output unit 13, the output of the element OR 19 is connected to the control input of the register 22 and to the input of the unit one trigger 21, the output of which is connected to the second input of the And 17 The output of the element OR 20 is connected to the input of the installation of the binary-decimal counter 6 to zero. The device operates as follows. High-frequency pulses come from the output of the generator 1 to the input of the preliminary counter 2, which produces pulses following with a frequency of 1 Hz (second intervals). In the 3 seconds counter, the seconds value is formed, in the 4 minutes counter - the minutes value, in the 5 hours counter - the hours value of the current time. The issuance of binary codes generated in the counters 3-5 is carried out through the blocks 10-12 of the output, for which it is necessary to send the corresponding command to the inputs 23-25 of the device (reading seconds, minutes, hours). When the signal "Reading the contents of the corresponding counter 3- g through one of the circuits 10-12 arrives at the output device. If it is necessary to obtain the binary-decimal value of seconds, minutes, or hours of the current time, simultaneously with the corresponding command “Reading, it is necessary to send the corresponding command“ Pre-education ”(converting seconds, minutes, hours) to the inputs of the device 26-28. The issue of the time value in the binary-decimal code will be considered in the Example of issuing the value of minutes. In this case, the signal “Read minutes, and the input 27 - the command“ Convert minutes. By reading the minutes command, the binary code of the minutes of the current time from the counter 4 minutes output via the output unit 11 on the output buses and at the input of the register 22. At the same time, the output signal of the OR 20 element will be set to zero binary decimal 6. At the command "Converting minutes, arriving simultaneously with the command" Reading minutes, sends a signal at the output of the element OR 19, using which the value of the minutes of the current time is written to register 22. The same signal is set to single state trigger 21. The signal from the output of trigger 21 permits the passage of pulses from the output of generator 1 to the output of element I. 17. From the output of element And 17, clock pulses arrive at the addition to binary decimal counter 6 and simultaneously on the inputs of the elements And 14-16. Since the input element And 15 has a resolution (there is a signal "Conversion of minutes at the input 27 of the device), with each generator pulse, the output element And 17 will receive pulses, and there will also be pulses at the output of element 15, which arrive at the input counting counter 4 minutes. With each clock pulse, the contents of the 4-minute counter decrease, and the content of the binary-decimal counter 6 increases by one. At the moment when the code value in the 4-minute counter becomes zero, the binary-decimal code of the minute value of the current time is fixed in the binary-decimal counter 6. As soon as the counter value of 4 minutes becomes equal to zero, the signal at the output of the state analysis block 8 appears, since its control input contains the enabling signal from the input 27 of the device. The signal from the output of the state analysis block 8 controls the recording of the contents of the register 22 into the counter 4 minutes, sets the trigger 21 to zero via the OR 18 element and allows the output of the device through the output 13 of the binary ten-digit counter 6 to output to the device. Thus, the value minutes of the current time in the binary-decimal code will be output to the device, in the 4 minutes counter the binary code of the minutes of the current time will be restored and the conversion will stop (setting the trigger 21 to zero will remove the resolution at the input of the element 17). The output signal from the element OR 18 is also used as a binary-decimal code tracking signal and as an end-of-conversion signal. When reading a binary-decimal code of the value of seconds or hours, the device operates as described above, only with the participation of the corresponding nodes. When reading the binary-decimal code of seconds, the element And 14, the state analysis circuit 7 and the seconds counter 3 are involved in the work, when reading the binary-decimal code of the clock - the element 16, the state analysis circuit 9 and the counter 5 hours. The proposed device has wider functional capabilities in comparison with the known devices. When performing computational operations in a computer, it is necessary to have a binary code of the current time; when performing operations associated with the formation of formalized messages for presentation, the operator needs to have a binary-decimal code of the current time. The known devices allow to obtain only the binary time code, which, if necessary, to obtain the binary-decimal time code, complicates the programs and increases the execution time of the tasks. The proposed device allows the computer to enter both a binary code and a binary-decimal code of the current time, which significantly expands the scope of application of the device. The invention The time sensor comprising a generator, a preliminary counter, seconds, minutes and hours counters, three state analysis units, three output units, the generator output connected to the counting input of the preliminary counter, the output of which is connected to the counting input of the seconds counter, the overflow output of which connected to the counting input of the minutes counter, the overflow output of which is connected. one with the counting inputs of the hour counter, the information outputs of the seconds, minutes and hours counters are connected to the inputs of the corresponding block in the analysis of the status and issuing blocks, the outputs of the issuing blocks are connected to the corresponding outputs of the time sensor, and the control inputs of the first, second and third issuing blocks are connected respectively to the first, second and third inputs of the Time Sensor, characterized in that expanding the class of solvable tasks due to the possibility of obtaining time stamps both in binary-decimal and in binary code; a binary-decimal counter, the fourth output unit, register, four AND elements, three OR elements, trigger, etc. are entered into it. the outputs of the first, second and third elements And are connected to the inputs of the subtraction of the seconds, minutes and hours counters, the output of the fourth element And is connected to the counting input of the binary-decimal counter and to the first inputs of the first, second and third elements The tenth counter is connected to the inputs of the fourth output unit, the outputs of which are the outputs of the meni sensor, the register inputs are connected to the outputs of the output units, and the output of the socket is connected to the installation seconds of the seconds, minutes and hour counters. The first input of the fourth element I is connected to the trigger output, and the second input is connected to the generator output, the outputs of the first, second and third state analysis units are connected to the control recording inputs of the seconds, minutes and hours, respectively, and the inputs of the first OR element, the output of which is connected to the zero input of the trigger and to the control input of the fourth output unit, the fourth, fifth and fifth inputs of the Time Sensor Conversion are connected to the inputs of the second OR element and to the second inputs of the third, second and p And, respectively, as well as with the control inputs of the third, second and first state analysis blocks, respectively, the output of the second element OR is connected to the single trigger input and the control input of the register entry, the inputs of the third OR element are connected to the first, second and third the inputs “Reading of the time sensor, and the output of the third element OR are connected to the input of the installation of a binary-decimal counter to zero. Sources of information taken into account in the examination 1. USSR author's certificate number 484513, cl. G 06 F 1/00, 1974. 2. Drozdov, E. A. and P. Tibratov, A. P. [Basics of the construction and operation of computing systems]. M., “Energie, 1973. p. 190-195, fig. 4-17 (prototype).