SU690475A1 - Converter of binary code into binary-decimal code of degrees and minutes - Google Patents

Description

-. ; .-. . ; The invention relates to the field of computer technology and allows the conversion of the angle code into the Binary code of degrees and minutes. All known converters have either low conversion accuracy or low speed performance. The closest in technical essence to the proposed invention is a binary code converter into a binary-decimal code of degrees and a slot containing a binary number and bit, the bit inputs of which are the information inputs of the compressor, and the output is connected to the input of the depositor zero, output which is connected to one of the inputs of the element I, whose input ping is connected to the output of an impulse generator, and the output to the input of an NL element connected with its input 4 through a serially connected delay element, decrypted The correction bit with the binary-decimal counter code is connected in series with a binary-degree counter, the input of which is connected to the output of the third most significant bit of the binary counter via the high-resolution binary bit converter, the input of which is three sub-bits I can call up the I & C. The disadvantage of a 11-way converter is the incomplete construction of the conversion factor (3/2), which consists in multiplying the input double code by two and then dividing it by three, which increases the conversion time IAOD twice. The purpose of the invention is to supervise the speed of the converter. The goal is achieved by inserting a splitter into the converter in series at the output of the divider into three elements NOT and the second element t and the second input connected to the output of the first element -an minute counter. The drawing shows the Structural scheme of the proposed converter, containing the element And 1, binary check 2, binary-decimal counters of degrees 3 and minutes 4, divisor; ya trt 5, decoder zero 6, decoder st The binary {Binary code 7 bits, the high bits 8 binary code 8, correction decoder 9, delay element 10, element OR, element NOT 12, second element And 13, informational inputs of converter 14, outputs of converter 15. Element NOT 12, the second element And 13 together with the divisor by three 5 form the scheme of division by 3/2. ; The device works as follows. The code in the binary counter is written to the inputs 14, the converted code is fired from the outputs of 15 binary-decimal counters of degrees 3 and minutes 4. At the input of the element And 1 the pulse generator continuously generates a sequence of pulses that does not pass through the element And 1 until input binary counter 2 is in the zero state. After writing to the input binary counter 2 of the number to be converted, a decoder zero 6 outputs an enable signal to element 1. Element AND 1 opens, and a sequence of pulses is fed simultaneously to the element OR 11, a divisor of three 5 and to element And 13. From the output of the element OR 11, a sequence of pulses is fed to the input of a binary counter 2 operating on subtraction. ,; ,,,. At the same time, with this sequence of pulses through the element And 13 enters the input of the binary-decimal minute counter 4; sequences to the input of the binary-decimal counter of minutes 4. Thus, every third pulse will be prohibited from the sequence of pulses entering the input of the element And 13, which provides a conversion factor of 3 / 2. When the binary number recorded in the input binary counter 2 becomes zero, the decoder 6 generates a prohibitory signal on the element t 1, which stops the supply of recalculation impulses. The code contained in the three most significant bits of 8 of binary counter 2 is fed through the decoder 7 to the preset in 1} with 0 to 4; the yoichio decimal gradient counter. Thus, after stopping the arrival of pulses at the input of binary counter 2 and binary-decimal counters of minutes and degrees, in the latter the number of degrees and kshnut will be recorded, expressed in binary-tenth code., ..;. ,,,,,, . , ..,. ,,,,., „.... .. ,,„., The price of the units of the lower order of the input code, as well as the price of the counting pulses at the input {BINARY counter into which the input code is written, will be to be determined by: 1В1с ВЙС ЙШЙ№д (Rb ч вел ы котор котор; which is scored in twelve lower bits 60 X 45 2700 and the number of twelve-bit binary code (2) will be equal to 0.65917968 minutes. In this case impulses sent to the input of the minutes counter will be equal to 0 65917968, х 3 0.98876952 minutes, and since the price of the impulse at the input of the minutes counter must be equal to 1, o Each name recorded in this counter will carry an error of 1 - 0.98876952 0.01123043 minutes. This error in converting the maximum code can give an oncoming error equal to 0.01223043 X 2700 30.32 minutes. To eliminate this error A decoder 9 is connected to the outputs of the binary-decimal minutes counter, which generates a correction signal every 60 pulses to the input of the binary-decimal minutes counter 4, the output of the decoder 9 through the delay element 10. middle with the second input of the element OR 11. As a result, from the output of the element OR AND to the input of the binary counter 2, each sixtieth pulse arrives from the input sequence of the binary 10 decimal minute counter 4. The delay element 10 delays the correction impulse by about half of the pulse follow-up period , post-output from the pulse generator. After the introduction of the correction, when converting the maximum code, the total number of pulses that were transmitted to the input of binary counter 2 will be -5Т7 ((2700 X - + --- 4095, which corresponds to 2 60; em is the maximum binary number (2 - 1) which can be written at the twelve least significant bits of the input counter. In this case, the incident error for the correction cycle will be 0.01213043 X 60 0.673858 minutes, i.e. less than the low bit unit of the output code. Using the invention will reduce the conversion time by half, or at a given time converted and use a master oscillator with a geothermal frequency twice lower than the one previously used. The formula and 3 are the second, binary and binary code converter in the binary code of degrees and minutes, containing a binary counter, the bit inputs of which are information inputs of the converter, and the output is connected to the input of the zero decoder, the output of which is connected to one of the inputs of the AND element, the other input of which is connected to the output of the pulse generator, and the output to the input of the OR element connected to its other input through a sequence A coupled delay element, a decoder for correction with a byte of a binary-decimal minute counter, connected in series with a binary-decimal degree counter, the input of which is connected to the output of the three most significant bits of the binary counter through the decrypter of the first bit bits of the binary code. the input of which is connected to the output of the element And, cl.

characterized in that, with the purpose of the speed of the converter, in Het of a divider are connected in series to the output a three element HE and a second element AND, the second input of which is connected to the output of the first element AND, and the output to the input of a binary-decimal counter minutes

Sources of information taken into account in the examination 1. USSR Copyright Certificate No. 346719, G 06 F 5/02, 1971.

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