SU1029389A1 - Frequency multiplier - Google Patents

Abstract

A MULTIPLIER OF FREQUENCY, containing a series-connected first mixer, a first high-pass filter, a second mixer and a low-pass filter, as well as a connection between a third mixer and a second high-pass filter, the output of which is connected to another input of the second mixer. y and y with the fact that, q the purpose of ensuring the multiplication of the difference of input frequencies,. Between the output of the low-pass filter and the other input of the third mixer, serially connected pulse shaper and frequency divider, as well as a factor multiplier adjuster, the outputs of which are connected to the divider service inputs, a frequency, while the output of the frequency filter is connected to another input of the first mixer .§

Description

The invention relates to radio engineering and can be used in frequency synthesis devices and single-band modulators. Known frequency multipliers of electrical signals containing nonlinear elements and high-pass filters based on non-linear frequency conversion of input signals with subsequent selection of signals of the required frequency tl. The disadvantage of such multipliers is that it is impossible to multiply the difference of the input signals. Closest to the present invention is a frequency multiplier comprising a serially connected first mixer, a first high pass filter, a second mixer and a low pass filter, and also a third mixer and a second high pass filter whose output is connected to another the entrance of the second mixer 2. However, this multiplier also does not provide multiplication of the difference of input frequencies. The purpose of the invention. is the provision of multiplying the difference in input frequencies. The goal is achieved by feM. that the frequency multiplier, containing the first mixer connected in series, the first high-pass filter, the second mixer and the low-pass filter, and subsequently the third closed mixer and the second high-pass filter, whose output is connected to another input of the second mixer, between the filter output the lower frequencies and the other input of the third mixer are entered after the Ideally connected shaper. pulses and a frequency divider, as well as a unit for multiplying the coefficients, whose outputs are connected to the installation inputs of the frequency divider, while the output of the low-pass filter is connected to another input of the first mixer. The drawing shows a structural electrical circuit of the proposed frequency knob intelligence. The frequency multiplier contains the first mixer 1, the first high-pass filter 2, the second mixer 3, the low-pass filter 4, the third mixer 5, the second high-pass filter b, the pulse shaper 7, the frequency divider 8 and the setting multiplier 9. The frequency multiplier works as follows . The input signals with frequencies and fj are mixed in the first and third mixers 1 and 5 with auxiliary signals and frequencies of 72 ° C. At the output of the first high pass filter 2, a signal of the total frequency f, + is extracted. (At the output of the second high pass filter 6, the signal of the total frequency f2e 2 is extracted. Signals and f2.g are fed to the inputs of the second mixer 3 and at the output of the low pass filter 4 The difference frequency signal fd ff - f2E, f which is used 5 as the first pseudo NbR signal, is also supplied through the pulse shaper 7 to the input of frequency divider 8, the division factor of which is set using multiplication factors 9. At the output of divider 8, a signal is generated which is used as the second auxiliary signal f. As a result of sequential conversion and filtering of the specified frequencies, the output of the frequency multiplier is a signal that has an hour, toto () - ((fh - (a ./- ) output .-%). Thus, by changing the K coefficient with the aid of the setting factor of the multiplication factor 9, it is possible to multiply the difference of the input frequencies in a wide range of variation of the - INPUT frequencies.

Claims (1)

A FREQUENCY FREQUENCY comprising a first mixer, a first high-pass filter, a second mixer and a low-pass filter, as well as a third mixer and a second high-pass filter, the output of which is connected to another Input of the second mixer, characterized in that, by purpose ensuring multiplication of the difference in input frequencies,. between the output of the low-pass filter and the other input of the third mixer, a pulse shaper and a frequency divider, as well as a coefficient multiplier, the outputs of which are connected to the installation inputs of the divider, a frequency, and the output of the low-pass filter are connected to another input of the first mixer, are introduced in series. § KZ With W QD CO>