SU739415A1 - Method of forming compound harmonic signal with pre-set harmonic coefficient - Google Patents

Description

free-wave distortion of a sinusoidal signal (diode limiter or any other nonlinear element), block 3 of excluding a first harmonic from a distorted signal (notch filter or high pass filter), voltage comparator 4 by rms value, precision calibrated divider 5, adder 6.

The essence of the method is as follows.

The original sinusoidal signal from generator 1 is arbitrarily distorted by any non-linear element 2 to obtain a broad spectrum of harmonic components. Then, the voltage of the first harmonic is eliminated from the distorted signal using notch filter 3 or high pass filter 3. Using the comparator 4, the high harmonic voltage at point A and the first harmonic voltage at point B are set equal in rms value (UB.4.A UIB). The setting can be made by changing the transmission coefficient of the filter 3. The voltage of the higher and first harmonics is summed in the adder 6.

The required harmonic factor is set with the help of divider 5. With the voltage setting specified above at points A and B, the harmonic ratio of the output voltage is equal to the divider transfer coefficient. Indeed, the harmonic ratio of the output voltage is:

KR Ui

Since Ui UIB, Uew. kUb4.A, where k is the transfer coefficient of the divider, HUi5 UB.M.A, then Kg K.

The first harmonic elimination operation makes it possible to perform any kind of operations with a spectrum of higher harmonics. In particular, if a phase shifter is included in the path after the filter 3, then the phase of higher harmonics can be changed. Including a low-pass filter instead of a phase shifter, you can limit the spectrum of high harmonics according to the necessary law. You can also exclude any harmonic from the spectrum. Elimination of the first harmonic allows for accurate calibration of the signal by

harmonic coefficient using a calibrated divider.

The proposed method allows to provide high accuracy of setting the required harmonic coefficient. The accuracy of the task is determined by the accuracy of the calibrated divider and the accuracy of the comparator. Both of these devices can now be precision implemented. Thus, the comparator of mean square voltages in the frequency range, for example, up to 5 MHz, can provide a comparing error of no more than 0.01 ° / o.

The divider, made in the form of an inductive divider, provides a division error at mid frequencies of not more than 0.01%.

At high frequencies, high accuracy can be achieved on a divider with precision film resistors.

The method allows to realize a high accuracy of setting the harmonic coefficient in a wide frequency range.

Claims (3)

1. US Patent No. 3488862, cl. 35-19, published. 1970. 2. USSR author's certificate number 373640, cl. G 01 R 23/20, 1971. 3. Catalog-prospect “Radio-measuring devices, SRI AIR, 1971, p. 142