SU1020983A2 - Sweep-frequency sinusoidal signal generator - Google Patents

Abstract

SINUSSLCHLNSI. GO SIGNAL SHAKING FREQUENCY on author. St. No. 748825, which means that, with the aim of obtaining a linear frequency, the output of the adder is connected to the input of the functional converter through the arpopnigel1r input switch, the control input of which is connected & In addition to the wobble direction switch, and between the output of the add-on npeoCU developer KOfliiii CTOTa and another input of the switch, a frequency separation section was inserted.

Description

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The invention relates to a radio meter and can be used in testing equipment, mainly as a control signal source. According to the main author. St. Mi 748825 is a generator of a sinusoidal oscillating frequency signal, containing a frequency generator, the output of which is connected to the inputs of two code-frequency converters and a frequency divider with a variable division factor, the control inputs of which are connected n-bit to the outputs of the signal duration register , and the control inputs of the first and second code - frequency transducers are connected bit by bit with the cooTBei outputs. ln initial frequency register and frequency difference register, sequential functions (sting converter and digital-analog converter, additional code converter - frequency, counter and adder, the output of which is connected to the function converter input, and inputs are connected to the first frequency converter code and the code an additional code-frequency converter, whose information input is connected to the output of the second code-frequency converter, and the control inputs are connected the bottom with the counter outputs, the input of which is connected to the output of a frequency divider with a variable division factor C However, a known device will not allow to receive a signal that changes linearly downwards. The aim of the rettender is to obtain a linearly decreasing frequency. in the generator of the sinusoidal signal of the oscillating frequency, containing a clock frequency generator, the output of which is connected to the inputs of two converters code - frequency and frequency divider with a variable division factor The control inputs of which are connected bit by bit with the outputs of the signal duration register, and the control inputs of the first and second code-frequency converters are connected bitwise with the outputs of the initial frequency register and the frequency difference register, a series-connected functional converter and a digital-analog converter, an additional converter. code - frequency, counter and adder, the output of which is connected to the input of the functional converter, and 1 inputs are connected to the output of the first converter ovatel code - the frequency and the output code of the additional transducer -. the frequency, the information input of which is connected to the output of the second code converter, is the frequency, and the control inputs are connected bitwise to the counter outputs, the input of which is connected to the output of a frequency divider with a variable division factor, and the output of the adder is connected to the input of the function converter via additionally introduced switch, the control input of which is connected to the additionally introduced switch of the swing direction, and between the output of the additional converter the code is the frequency and the other input of the co mutator entered block release of the frequency difference. The drawing shows a structurally electric grizkas generator of a sinusoidal signal for a frequency signal. Generator of sinusoidal signal of oscillating frequency; soccervit; 1 clock frequency generator, converters 2 and 3 code - frequency, additional converter 4 code - frequency, initial frequency register 5, frequency difference register 6, variable frequency divider 7, signal duration register 8, adder 9, a counter 10, a functional converter 11, a digital analog converter 12, a frequency difference separation unit 13, a switch 14, a swing direction switch 15. Generator sine wave signal kachak pace frequency works as follows. The pulses of the generator 1 are fed to the signal inputs of the converters 2 and 3, the frequency divider 7. Since the control inputs of converter 2 are connected to register 5, frequency 2 is generated at the output of converter 2 where PQ is the pulse frequency of the oscillator P is the size of the converter 2} N, is a number corresponding to the initial frequency, and. Similarly, the output frequency of transformed 3 is described by the expression with kO. Ttc i. where K is the resolution of the converter 3} Nji is the number corresponding to the current value of the difference, frequency, Začevie. The output frequency of the poplar Converter 4 is determined by the code Ch11sla, the maintenance in the meter increases evenly from O to,. where is the counter size, Y. The rate of change contained in the counter. The frequency of impulses enclosing the counter, where 1s is 1c, is determined by the number of times, corresponding to the times of syshl. The frequency at the output of converter 4 varies from 0 to the upper value of the & and at its F4 rtitt where -t is the current time, with the no. "Converter transducer 4". At summing 9, pulses occur, the frequency of which is determined by the sum of the output The frequencies of the transducer are 2 and 4. The pulse sequence from the output of the adder 9 is fed to the code of the digital functional converter 11, which controls the operation of the digital-to-analog converter jffl 12, and a sinusoidal voltage $ 1G: the prison frequency is formed at the output of the ampoule. At the output of the adder 9, pulses are formed, the frequency varies linearly from a given initial value with a speed proportional to the value of the difference between the frequencies of the npl back to the signal (duration of the signal TO. The number of steps of the output frequency is CCOfflfflo and does not depend on consistently changes its state from zero to its maximum value, and therefore the relative discreteness of the law of frequency change can be chosen as small and independent of the ratio of the frequency difference as possible Frequency difference allocation unit 13, switch 14, direction switch 15 are designed to obtain a linearly decreasing frequency. Thus, the proposed sine-wave oscillator signal of the swinging frequency signal allows to receive signals of both linearly increasing frequency and linearly decreasing frequency in a wide range frequencies.

Claims (1)

GENERATOR OF SINUSOID SIGNAL OF ROTING FREQUENCY by author. St. No. 748825, with the fact that, in order to obtain a linearly decreasing Frequency, the output of the adder is connected to the input of the functional converter through an additional input switch, the control input of which is connected to an additional input switch for the direction of swing, and between the output of the additional code-frequency converter and the other input of the switch, a frequency difference allocation unit is introduced.