SU862362A1 - Digital frequency synthesizer - Google Patents

Description

(54) DIGITAL FREQUENCY SYNTHESIZER

one

The invention relates to radio engineering, in particular, to digital band frequency synthesizers.

A digital frequency synthesizer is known that includes a tunable oscillator included in a ring, a variable division factor frequency divider, a frequency detector and coarse tuning device, as well as a short pulse generator connected in series and a pulse phase detector and a low-pass filter connected in series and a fine tuning device whose output is connected to another input of a tunable generator, whose output is also connected to another input of a pulse-phase detector, and to another th input frequency detector connected to the output reference frequency sensor 1.

However, this frequency synthesizer has a low short-term frequency stability of the output oscillations.

The purpose of the invention is to increase the short-term stability of the output frequency.

Claims (1)

To do this, a digital frequency synthesizer containing tunable oscillators included in the ring, a variable division factor frequency divider, a frequency detector and a coarse tuning device, as well as a series-connected short pulse shaper and a phase-pulse detector and a series-connected low-pass filter and fine tuning device whose output is connected to another input of a tunable generator, the output of which is also connected to another input of a pulse-phase detector, and other input connected to the output of the frequency detector reference frequency sensor administered phase distributor, n-1 shapers short pulses, n-1-pulse phase detectors and combiner. The output of the adder is connected to the input of the low-pass filter, another output of the reference frequency sensor is connected to the input of the phase distributor, each of the n outputs of which is connected to the input of the corresponding short pulse generator, the outputs n-1 of the short pulse generator are connected to the first inputs of each of n-1 pulse-phase detectors, the other inputs of which are connected to the output of a tunable generator, and the outputs of all pulse-phase detectors are connected to the corresponding inputs of the adder. The drawing shows a structural electrical circuit of the proposed synthesizer. The digital frequency synthesizer contains a sensor of I reference frequencies, a frequency detector 2, a frequency divider 3 with a variable division factor, a tunable oscillator 4, a coarse tuning device 5, a phase distributor 6, n short pulse generator 71-TV, n pulse-phase detectors 81-8 ", the adder 9, the lowpass filter 10, the device 11 fine tuning. Digital frequency synthesizer works as follows. The reference frequency signal f is fed from the reference frequency sensor 1 to the frequency detector 2, and the reference frequency signal nfj goes to phase distributor 6. The second input of the frequency detector 2 receives a signal from frequency divider 3 that divides the frequency fo of tunable oscillator 4 to i. The error of the error from the frequency & GO detector 2 is supplied to the device 5 coarse tuning, which controls the frequency of the tunable generator 4. The fine tuning system consists of n formers of short pulses 7i-7 n pulse-phase detectors 8i-8p, adder 9, filter bottom frequency 10 and device 11 fine tuning. The operating frequency of the digital frequency synthesizer is selected by changing the division factor N in frequency divider 3. If, after setting the desired division factor in frequency divider 3, the residual detuning after coarse tuning does not exceed the fine-tuning loop, the exact pulse-phase-locked loop (IFAP) system takes effect . The ratio of the setting and retaining bands of the IFAP is chosen based on the predetermined interval between operating frequencies and the error of the coarse tuning system. Phase distributor 6 generates p pulse signals having the same frequency, equal to the reference frequency f e, but different phases that are multiples of 2.1 / L1-1-L where m О, 1, 3 ..., to 0.2 .... phase shift each of the n generated short pulses in n short pulse drivers with n pulse-phase detectors and adder 9 adjusts the frequency of tunable oscillator 4 at different times with a period multiple of the reference signal fe. The number of moments of correction of the frequency of the tunable oscillator in the time interval yf increases n times, so that the short-term stability of the frequency of the output signal increases. DETAILED DESCRIPTION OF THE INVENTION A digital frequency synthesizer comprising tunable oscillators included in a ring, a variable division factor frequency divider, a frequency detector and a coarse tuning device, as well as a first short pulse generator and a first pulse-phase detector and a serially connected low-pass filter and a precision device settings, the output of which is connected to another input of the tunable generator, the output of which is also connected to another input of the first imp a phase-detector, and the output of the reference frequency sensor is connected to another input of the frequency detector, characterized in that, to increase the short-term frequency stability of the output oscillations, a phase distributor, n-1 short-pulse formers, n-1 pulse-phase detectors, and an adder, wherein the output of the adder is connected to the input of a low-pass filter, another output of the sensor of the reference frequency is connected to the input of a phase distributor, and each of the n outputs of which is connected to the input of the corresponding core former tkih pulses, outputs n-1 shapers short pulses are connected to first inputs of each of the n-1-pulse phase detectors, the other inputs of which are connected to the output of the tunable oscillator, and the outputs of the pulse-phase detectors are connected to respective inputs of the adder. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 387489, cl. H 03 W 3/04, 03.01.72 (prototype).