SU1133647A1 - Digital frequency synthesizer with frequency modulation - Google Patents

Abstract

DIGITAL SYNTHESIZER OF FREQUENCY WITH FREQUENCY MODULATION, containing ringed first controlled oscillator, frequency divider with variable division factor, frequency phase detector and first low frequency filter, serially connected reference oscillator and frequency divider with fixed division factor, each frequency of which has one frequency and serial frequency reference frequency generator with a fixed divider ratio, each with a frequency equal to one another and a frequency reference frequency generator to the hiy input of the frequency-phase detector, as well as a series-connected source of modulating voltage and a controlled tester, the output of which is connected to - Goma control entrance of the first. controlled oscillator, characterized in that, in order to automatically stabilize the level of deviation in the frequency range, serially connected phase, detector, second low-pass filter, separation capacitor are introduced between the second output of the first controlled oscillator and the control wiring of the controlled attenuator. The first peak detector and voltage comparator, as well as the second peak detector and the second controlled generator, the control input and the output of which are connected respectively to the output of the second low-pass filter and to the second input of the phase detector, and the second peak detector between the output output and modulating voltage point and other input of voltage comparator. ObixiHf 00 cc about 4

Description

This invention relates to radio engineering and may be used as a transmitter exciter. frequency modulation and the local oscillator of the receiver without the supply of a modulating signal. A frequency modulated digital frequency synthesizer is known, which includes ringed controlled oscillators, a frequency divider, a phase detector, a low-pass filter and controls. element, as well as serially connected integrator and phase modulator, the output of which is connected to another input of the phase detector, and the output of the reference generator til is connected to another input of the phase modulator. However, in such a digital frequency synthesizer, with a small step of the frequency grid, the modulated frequency band is limited from above because of the low cut-off frequency of the low-pass filter. In addition, when tuning in the frequency range, due to a change in the division factor of the divider and the control slope of the controlled oscillator, the level of frequency deviation changes within large limits, which leads to nonlinear distortions of the output signal. The closest in technical essence to the proposed is a digital frequency modulated frequency synthesizer containing a first-connected, controllable oscillator, a variable division frequency divider, a frequency-phase detector and a first low-pass filter serially connected and frequency divider with a fixed division factor, the output of which is connected to another input of the frequency-phase detector, as well as serially connected sources of modulating voltage controlled attenuator, the output of which is connected to another control input of the first controlled generator: torus 2. However, in the known frequency modulated frequency synthesizer, when operating in a wide frequency range, the frequency deviation from the frequency and for exact Attenuator adjustments are necessary at each frequency switch to give a test signal, by which the attenuator is first tuned, and then useful information is transmitted. This greatly complicates the digital frequency synthesizer. The purpose of the invention is to automatically stabilize the level of deviation in the frequency range. The goal is achieved in that a frequency modulated digital frequency synthesizer containing a first controlled oscillator connected in a ring, a variable division frequency divider, a frequency-phase detector and a first low-pass filter, a reference oscillator connected in series and a frequency divider a fixed division factor, the output of which is connected to another input of the frequency-phase detector, as well as a series-connected source of modulating voltage and a controlled attenuate An op, whose output is connected to another control input of the first controlled oscillator, between the second output of the first controlled oscillator and the control input of the controlled attenuator, are connected in series a phase detector, a second low-pass filter, a decoupling capacitor, a first peak detector and a voltage comparator and a second peak detector and a second controlled oscillator are introduced, the control input and output of which are connected respectively to the output of the second low-pass filter and to the watts rum input of the phase detector and the second peak detector connected between the output of the modulating voltage source and the other input of the comparator voltage. The drawing shows a citeMa digital frequency synthesizer with frequency modulation, a digital frequency modulation synthesizer containing the first controlled oscillator 1, a divider 2 frequencies with a variable division factor (DDC), a frequency-phase detector 3, the first low-pass filter A ( LPF), frequency divider 5 with a fixed division factor (DFCD), reference oscillator 6, input oscillator controlled oscillator 7, phase detector 8, second LPF 9, first peak detector 10, second peak detector 11, comparator I2 voltage, pack Aulus emy attenuator 13, the source 1A modulating voltage blocking capacitor 15. A digital frequency synthesizer with frequency modulation operates as follows ,. After establishing the synchronism mode in the phase self-tuning ring when the modulating voltage is applied from the source 14 through the controlled attenuator 13 to the modulating input of the first controlled oscillator 1, it is frequency-modulated with a given Shdd deviation. The second controlled generator 7 is identical to the first controlled generator 1 and switches in conjunction with it. Therefore, when synchronism is present, synchronism also occurs in the first end of phase locked loop in the second phase locked loop consisting of a second controlled oscillator 7, a phase detector 8 and a second low-pass filter. The frequencies of the first and second controlled oscillators 1 and 7 are equal and their stability is determined by stability reference oscillator 6. In the synchronism mode without supplying modulating voltage — when compared on a phase detector of 8 two identical (up to phase) oscillations, a slowly varying oscillation is formed at its output The voltage that is fed through the second low-pass filter 9 to the control input of the second controlled oscillator 7. The low-frequency signal that modulates the first controlled oscillator is also output to the modulating input of the first controlled oscillator 1 at the output of the second low pass filter 9. 1, i.e. The second ring of the auto-pitch plays the role of a frequency demodulator. The demodulated low-frequency signal from the output of the second low-pass filter 9 through the coupling condenser ator 15 (so that the constant component does not pass) is fed to the input of the first peak detector 10, at the output of which a slowly varying voltage is formed, corresponding to the maximum (peak) value the demodulated low frequency signal; From the output of the first peak detector 10, the signal is sent to the first input of the comparator 12, to the second input of which receives a signal from the output of the second peak detector 11. As a result of comparison of the voltages at the output of the comparator 12, a signal is generated that acts on the control input of the controlled attenuator 13 and changes its transmission coefficient so that a constant level of deviation is maintained at the output of the first controlled oscillator 1. At the same time, the output of the first the peak detector 10 generates a voltage equal at each time point to the voltage from the output of the second peak detector 11. The digital frequency synthesizer initially tunes to a predetermined level of deviation by setting the determined th gain controlled attenuator 13. In this case, the voltage difference at the output komyaratora 12 should be zero. Then, for any changes in the steepness of the control of the first controlled oscillator 1, the voltage at the output of the first peak detector 10 changes accordingly. And as a result of comparing the voltages from the outputs of the first and second peak detector 10 and P, at the output of the comparator 12 generates a control signal which affects the controlled attenuator 13 in the direction of reducing the resulting paccort-lacquering to a certain value. Since the level of the frequency deviation of the controlled oscillator is proportional to the level of the modulating signal 11 and the steepness of the control Ki, 5 de K is the transmission coefficient of the controlled attenuator 13, then. the level of the modulating signal and. const, with an increase in rupture S, the transmission coefficient K must be reduced so that the level of deviation remains constant and the i.S S const. Thus, in the proposed frequency synthesizer, the frequency is deadened. 1 automatic stabilization of the published level of deviation for any changes in the steepness of the controlled oscillator. This allows you to receive frequency-modulated signals in a wide range of the modulating signal with a bandwidth of Hz to tens of kHz and for a relatively high frequency range to synthesize frequencies from degrading the preset level of nine-gyro frequency. 11336476

Claims (1)

2. USSR Copyright Certificate No. 919040, cl. Н 03 С 3/10,; Н 03 L 7/16, 05/07/80 (prototype), i (54) (57) DIGITAL SYNTHESIS OF FREQUENCIES WITH FREQUENCY MODULATION, containing the first · controlled generator connected in a ring, a frequency divider with a variable coefficient division, a frequency-phase detector and a first low-pass filter, a reference oscillator and a frequency divider with a fixed division coefficient, the output of which is connected to the other input of the frequency-phase detector, and also a series-connected modulating voltage source and controlled attenuator,the output of which is connected to another control input of the first. j of a controlled oscillator, characterized in that, in order to automatically stabilize the level of deviation in the frequency range, between the second output of the first controlled generator and the control input of the controlled attenuator, a phase detector, a second low-pass filter, a separation capacitor, a first peak detector and a comparator are introduced voltage, and also introduced a second peak detector and a second controlled generator, the control input and output of which are connected respectively to the output of the second filter low frequencies and to the second input of the phase detector, and the second peak detector is connected between the output of the