SU907830A1 - Frequency synthesizer - Google Patents

Description

(S) FREQUENCY SYNTHESIZER

Claims (1)

The invention relates to radio engineering and can be used to form with a certain accuracy and stability of signals of the required frequencies in a given range. A known frequency synthesizer comprising a series-connected frequency set unit, a first memory register, a subtraction unit and a gate, as well as a sequencer connected a correcting signal shaper, a reactive element, an adjustable generator and a frequency counter, the output of which is connected to another input of the subtraction unit, and also the reference generator, the output of which is connected to another valve input and to the reset input of the frequency counter 1. However, in a known synthesizer, frequency tuning cannot be made quickly and accurately. The purpose of the invention is to reduce the setting time. To achieve this goal, in a frequency synthesizer containing a series-connected frequency set unit, a first memory register, a subtraction unit and a gate, as well as a serially connected correction signal generator, a reactive element, a controlled generator and a frequency counter, the output of which is connected to another input of the subtractor as well as the reference generator, the output of which is connected to another input of the valve and to the reset input of the frequency counter, between the output of the valve and the input of the corrector signal generator in The second storage register connected in series and the correction calculation unit, another input of which is connected to the output of the first storage register, are connected. The drawing shows a structural electrical circuit of the proposed device. Frequency synchronizer - contains cleanliness kit 1, first storage register 2, subtraction calculator 3, frequency frequency estimator, reactive element 5, controlled oscillator 6, correction signal shaper 7, reference oscillator 8, valve 9 second storing register 10, correction calculation unit P . The device works as follows. Using the number of ten numeric keys available on block 1, the required value of the frequency is entered and entered into the memory register 2, just as it is done 5, for example, into micro calculators. This indicates the set frequency value. At the same time, a manual coarse adjustment of the frequency of the controlled generator b is made according to the scale on it. Further automatic frequency adjustment is performed as follows. The frequency counter 4 counts the number of periods of the output signal of the controlled oscillator b in a unit time interval determined by the period of 1 DOM following the pulses of the reference oscillator 8. Each such pulse bridges through the gate 9 into the memory register 10 the resulting difference between the required frequency value recorded in the memory register 2 ,, and the frequency value at the output of the controlled generator 6, which is fixed in the counter by the moment of arrival of the pulse from the reference generator 8. At the same time, the pulse from the reference generator eratora 8 resets the counter k for reading, thus starts a new counting cycle frequency. Thus, the magnitude and sign of this difference characterize the frequency deviation of the output signal from the desired value. Under the action of the value of the difference recorded in the storage register 10, as well as the value of the frequency recorded in the storage register 2, in block 11 of calculating the correction, when a clock pulse appears, the required amount of change of the reactive element 5 performing frequency adjustment is calculated . Further, in the correction signal shaping unit 7, the digital quantity 9 of the required reactivity correction is converted into a digital or analog control signal directly acting on the reactive element 5. The reactive element 5 is arranged so that before the adjustment starts, it is in its middle position with the possibility of and decrease. The adjustment can be carried out using an electric motor or electronically. 8 of the first case, the correction signal from the output of the driver 7 precisely determines the required angle of rotation of the electric motor. With electronic adjustment to improve the accuracy of the reactive element 5, it can be divided into several sections with different gradations. 8 in accordance with the required correction value of the reactive element 5, one or another section is activated. The limits of variation of the reactive element 5 should be such as to be able to compensate for the maximum inaccuracy when manually setting the frequency. Indicating and signaling the achievement of the extreme positions of the reactive element 5 may also be provided, indicating the need for additional manual adjustment. Thus, as a result of an accurate determination of the required amount of correction of the reactive element 5, the adjustment is completed in one cycle of the circuit. All nodes of the considered scheme, with the exception of the reference and controlled generators 6 and 8, as well as the operating element 5 have a digital mode of operation and are very compact when using large integrated circuits. The installation accuracy and frequency stability of the output signal depend on the frequency measurement accuracy of the counter, determined by the frequency of the control pulses and its stability, on the error in setting the required value of the reactive element 5 and on the inherent stability of the controlled generator 6 during the tuning period. It is easy to see that using relatively simple means, without using high-precision adjustment elements, it is possible, for example, to synthesize frequencies in the range of 1-10 MHz, with a step of 1 Hz, and an accuracy of obtaining frequencies of 0.10, 2 Hz. Invention A frequency synthesizer comprising a series-connected frequency set unit, a first storage register, a subtraction unit and a gate, as well as a successively connected correction generator, a reactive element controlled by a generator, and a frequency counter whose output is connected to another input of the subtractor , and also the reference geSchetngi SxoS 9 8 o reset nerator, the output of which is connected to another input and with the reset input of the frequency counter, is due to the fact that, in order to reduce the tuning time, between the valve output and the input of the corrector signal generator, the second storage register and the calculator are connected a correction whose other input is connected to the output of the first memory register. Sources of information taken into account in the examination 1, USSR Author's Certificate fP, c. H 03. B 3/06, 197 (prototype).