SU657578A1 - Frequency synthesizer - Google Patents

Description

I

The invention relates to radio engineering and can be used in various devices for digital frequency synthesis.

A known frequency synthesizer comprising a series-connected reference oscillator, a first phase detector, a first key, an adder, a sampling and storage device, a filter of their frequencies, a synchronized oscillator, a frequency divider with a variable division factor, a decoder, a second phase detector, and a second key whose output is connected to another input of the adder, as well as a interface device, the first output of which is connected to the installation input of a frequency divider with a variable division factor, the first and second ph The gas detectors are made in the form of a series-connected trigger and sawtooth generator, and the outputs of the first and second phase detectors are connected to other inputs of the first and second key, respectively.

However, the well-known frequency synthesizer does not provide a sufficiently high spectral purity of the output oscillations following the presence of a second synchronized oscillator in it, the frequency of which due to scattering fields, interference, and parasitic links along the supply circuits may be a component in the spectrum of the first synchronizable oscillator.

The purpose of the invention is to increase the spectral purity of the output oscillations.

To do this, in a frequency synthesizer containing a series-connected reference oscillator, a first phase detector, a first key, an adder, a sampling and memory unit, a low-pass filter, a synchronized oscillator, a frequency divider with a variable division factor, a decoder, a second phase detector and a second key, output whom

Claims (1)

0 is connected to another input of the adder, as well as an interface device, the first output of which is connected to the installation input of a frequency divider with a variable 365 division factor, the first and second phase detectors being in the form of series-connected trigger and sawtooth generator, and the outputs triggers of the first and second phase detectors are connected to other inputs of the first and second keys, respectively; the first inputs of a code chip are connected to the output of a frequency divider with a variable division factor m-parator and auto-tuning device for the ratio of the sawtooth voltage of the sawtooth voltage generators, the first output of which is connected to the control input of the sawtooth voltage generator of the first phase detector, and the second and third outputs are connected to the first and second control inputs of the generator, respectively. the sawtooth voltage of the second phase detector, and the first and second control inputs of the ratio auto-tuning device, the steepness of the sawtooth voltage of the sawtooth generator generators, respectively, are connected to the outputs of the first and second phase detectors, the output of the code comparator is connected to the other inputs of the first and second phase detectors, the children of the first and second phase detectors, the children of the first and second phase detectors, the children of the first and second phase detectors, the children of the first and second phase detectors; , another input of the code comparator is connected to another; output device interface. The drawing shows a structural electrical circuit of the proposed frequency jam. The frequency synthesizer contains sequentially connected reference oscillator 1, first phase detector 2, first key 3, adder 4, sampling and recall 5, low pass filter 6, sonar oscillator 7, divider frequency TO-TY with variable division factor {DPCD 8, de-digitizer 9, a second phase detector 10 and a second key 11, the output of which is connected to another input of the adder 4, as well as the interface 1, the first output of which is connected to a fixed input frequency dividers with a variable division factor of 8, this lane The second and second phase detectors 2 and Yu are made in the form of successively connected trigger 13, 14 and sawtooth generator 15, 16, and the outputs of the trigger 13, 14 of the first and second field detectors 2 and 10 are connected to the other inputs of the first AND, respectively. the second key 3 and 11, to the output of a split frequency with a variable factor of 8 division 8 are connected, the first inputs of the code comparator 17 and the device for auto-tuning the ratio of the sawtooth voltage 18 of the alternator voltage generators 15 and 16, the first output of which It is connected with the control input of the sawtooth generator 15 of the first phase detector 2, and the second and third outputs are connected respectively. The first and second control inputs of the sawtooth generator; 16 of the second phase detector 1 O, and the first and second control & auto-tuning devices have a ratio of –the steepness of the sawtooth. The voltage 18 of the sawtooth generator 15 and 16 are connected respectively, with the outputs of the first and second phase detectors 2 and 10, the output of the code comparator 17 is connected to other inputs of the first and second phase detectors 2 and 10, the other input of the code comparator 17 is connected to another output of the interface device 12 The device works as follows. In DPKD 8 with the output of the interface 12, the reverse code number is entered. la, N - the current value of the integer part of the number that determines the desired output frequency (proportionality coefficient, which binds the output and reference frequencies). When reading the code of the number N, several intervals of adjusting the steepness of the sawtooth voltage of the generator 16 relative to the steepness of the generator 15 are formed. When a pulse arrives from the output of the reference generator 1 through the trigger 13, the generator 15 is started and connected with the first key 3 to the adder 4 on which a linearly increasing voltage is formed. When a number equal to # i remains in the DPDD 8 (the current value of the fractional part numeral defining the desired output frequency), code comparator 17 is triggered, which disconnects the generator 15 from the first adder 4 and connects the generator 16 to it using the second key 11. As a result of this on; adder 4 continues to increase voltage, but with a steepness (I-pg) times greater. than from generator-15, since saw-tooth voltage generators 15 and 16 produce saw-tooth voltages, the slope of which is in the vernier ratio. This makes it possible to obtain a control voltage with discrete to specified fractions of the period of the synchronized generator 7, i.e., with the dial to - from the period of the synchronized generator 7, where S is the vernier base. The increase in voltage on adder 4 stops the output signal of the decimator 9 when the number N is fully counted in WDCD 8. The voltage obtained is selected from adder 4 using a sampling and memory device 5 and fed through the low-pass filter 6 to the input of a synchronizing generator 7. In DCPD 8, the number M already calculated for the next trimming interval is entered. The process is repeated cyclically. The output of the synchronized generator 7 is the output of the frequency synthesizer. Thus, in the proposed synthesizer, by using two sawing voltage generators for generating the control voltage with steepness in the required vernier ratio, small pitch, high speed and high spectral purity of the output oscillations are achieved. Claims of the Invention A frequency synthesizer comprising sequentially connected reference oscillator, first phase detector, first switch, adder, device in Collecting and storing, low-pass filter, sync generator, frequency divider Tbi with variable division factor, decoder, second phase; the detector and the second key, the output of which is connected to another input of the adder, as well as the interface device, the first output of which is connected to the installation input of frequency components with a variable division factor, the first and second phase detectors being made in the form of successively connected trigger and a sawtooth generator, and the trigger outputs of the first and second phase detectors are connected to other inputs of the first and second key, respectively, characterized in that, in order to increase the spectral purity output oscillations, the first inputs of the code comparator and the auto-tuning device for the ratio of the sawtooth voltage of the sawtooth voltage generators, the first output of which is connected to the control input of the sawtooth voltage generator of the first phase detector, and the second and the third outputs are connected respectively to the first and second control inputs of the sawtooth generator of the second phase detector, and the first and second y ravl inputs of device locked ratios ramp steepness. generator voltage of different voltage generators are connected respectively to the outputs of the first and second phase detectors, the output of the code comparator is connected to other inputs of the first and second phase detectors, another input of the code comparator is connected to another output of the interface device. Sources of information taken into account in the examination 1. Application number 2133248, 11.05,75, according to which the decision to issue an author's certificate was made.