SU924648A1 - Device for electronic frequency drift - Google Patents

Description

(5) DEVICE OF ELECTRON MOVEMENT OF FREQUENCY

I

The invention relates to radio engineering and can be used to shift the carrier frequency of coherent radio signals during their processing and simulation.

A device for frequency shifting is known, which uses the principle of frequency conversion. It consists of local oscillators, mixers and frequency selective elements LI.

The disadvantage of this device is the difficulty of ensuring high accuracy of forming small frequency shifts, which is due to the transfer of frequency oscillations of the local oscillators to the signal generated by the 8 device.

It is also known a frequency bias device based on quasi-continuous phase modulation of a signal, which contains a special control voltage sensor and an adjustable delay line. When a signal passes through a line, the delay in which varies linearly with time, its spectrum is shifted by an amount proportional to the carrier frequency of the signal and the speed of measuring the delay in time C21.

The disadvantage of this device is the difficulty of technical realization of linear control of the delay and the associated distortion of the spectrum of the formed signal.

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Claims (3)

The closest to the present invention is a frequency shift device, which contains a clock pulse generator, a counter and a discrete phase shifter. The output of the clock pulse generator is connected to the input of the counter, whose outputs are connected to the corresponding control inputs of the discrete phase shifter. A signal is sent to the input of the phase shifter, the carrier frequency of which is subjected to a shift by a specified amount. The counter, changing its state under the influence of the clock generator pulses, controls the phase shift of the signal in the phase shifter in the interval O - 2k (1-2) with discreteness, where M is the size of the discrete phase shifter. The phase shifts of the signal oscillations in the known device does not allow the use of the latter for the independent formation of frequency shifts of sequences of coherent radio signals, the need for which occurs, for example, when processing and simulating pemek echo signals spatially Jelenia locations of objects. Thus, a disadvantage of the known device is the impossibility of preserving the phase structure of radio signal sequences subjected to different frequency shifts, which does not allow the formation of independent frequency shifts of coherent signals. The purpose of the invention is to expand the functionality by preserving the phase structure of the generated signals with different offset-carrier frequencies. The goal is achieved by the fact that the device for electronic frequency shifting, containing a clock pulse generator, a clock pulse counter connected in series, and a discrete phase shifter, are additionally inserted in series N shaping counters, N switches an Adder code whose outputs are connected to the discrete phase shifter inputs , and form the inputs. The counters are connected to the corresponding clock counter outputs, and the inputs of the entered control code register are connected to the corresponding switches. Fig. 1 shows a block diagram of the device; in fig. 2 - voltage plots that describe the operation of the device. . The electronic frequency offset device contains a generator t ta | output pulses, counter 2 clock pulses, register 3 control codes, N counting counters -l-ii-N, N switches 5-i-5-N, adder 6 codes and discrete phase shifter 7. At the same time, the output is general9 4 ora. 1 clock pulses connected to the input of the counter 2 clock pulses, the outputs of which are connected to the strokes of the respective forming meters k. The outputs of the calculators k are connected via the corresponding switch 5 to the corresponding inputs of the adder 6 codes, the outputs of which are connected to the corresponding inputs of the digital phase shifter 7. The control inputs of the switches 5 are connected to the corresponding outputs of the register 3 of the control code. The signal input and output of the digital phase shifter are the signal input and output of the device, respectively. The control code register input is a device control input. The device works as follows. The pulses of the contact generator (plot 8), which follow at a frequency F, affecting the input of the clock counter, create pulses at the outputs of the latter with multiple following frequencies (for i 1-3 cm plot 9-11) where i 1, 2 , ..., N is the number of the counter output. These impulse voltages are fed to the inputs of the corresponding shaping counters. When etrm at the outputs of the latter are formed linearly, increasing binary codes (for example, the code values at the output of the shaping counter are plot 12, the third is plot 13). Forming counters L must not be less than the phase shifter size. With this, at the output of the i-ro shaping counter, binary codes of numbers are formed, which correspond to the law of discrete phase modulation of the signal when the carrier frequency of the latter is shifted by. value R Depending on the control code of the frequency shift Y- recorded in the register, the controllers controlled by the output voltages of the latter switch the outputs of the individual FORMATOR counters to the inputs of the code adder. The adder code is also equal to L, i.e. the summation is calculated modulo 2. At the output of the code adder, numbers are formed that correspond to the law of discrete modulation of a signal when its carrier frequency is shifted by: LM J where y. 0.1 is the i-ro bit value of the frequency shift control code. Thus, for the Y 101 code, the law of phase modulation of the signal has the form shown in plot I. A specific feature of the device construction is that the impulse voltages arriving at the inputs the forming counters and the inputs of the flip-flops, which are included in the clock counter, are removed from the various outputs of the flip-flops of the latter. Thanks to this change in the state of the forming counters occur at different points in time (plots 12 and 13). At the same time, the step function describing the law of discrete phase modulation of a signal is obtained when summing up the codes from the individual shaping counters not (} of jumps more than one unit of the least significant bit, but the intervals of its constants differing in duration more than twofold, they are evenly distributed in time (plot I). Similar to the function of phase modulation, it provides for arbitrarily small distortions of the spectrum of the formed signal with an appropriate choice of the discrete phase magnitude of the rotator M. In addition, the reduction and Signal losses contribute to reducing the difference in the durations of the intervals of the modulating function, which can be achieved by dividing the values of the control codes of the phase shifter by an integer power of 2. Therefore, the control inputs of the discrete phase rotator receive codes - only ° N of the most significant digits of the codes that corresponds to the division of the values of the codes of the functions of phase modulation 2. A comparison of the proposed device with the well-known indicates that the proposed device eliminates the effect of changes ormiruemogo radio frequency shift in the current time on the phase structure of subsequent output signals that extends the functionality of its shape and allows various radio frequency shifts sequences while maintaining their coherence. Formula of the image An electronic frequency offset device comprising a clock pulse generator, a clock pulse counter connected in series, and a discrete phase shifter, characterized in that, in order to extend the functionality by maintaining the phase structure of the generated signals with different carrier frequency offset, the successively connected N are introduced forming Counters, N switches, adder codes, the outputs of which are connected to the inputs of the discrete phase shifter, and i forming rows of counters coupled to respective outputs of the clock pulse counter and outputs inputted control code register connected to the respective switches. I,. Sources of information taken into account in the examination 1. US patent number, class. G 01 S, 1973., 2. USSR author's certificate M- 6 17966, cl. G 01 S, 1977. 3. For UK application. No, chl. G 01 S 1973. .l s 3  rn ten eleven (7 rn GP r-1 I-1, t I I I I I I I I I I I I I I I I I I I I I II , t