SU809473A1 - Frequency multiplier - Google Patents

Description

(54) MULTIPLAYER OF FREQUENCY

Claims (2)

The invention relates to radio engineering and can be used in hybrid integral microstrip trass-varactor chains to multiply NINs to generate ultra-high oscillations. A frequency multiplier is known, comprising a serially connected input matching circuit, a nonlinear element, and an output matching and filter circuit 1. However, the known multiplier has a relatively low operation stability. The purpose of the invention is to increase the stability of the work. This goal is achieved by the fact that in the multiplier the input matching circuit is made in the form of two connected microstrip line openings at the ends with a length equal to a quarter of the wavelength of the input signal. The drawing shows the design of the proposed frequency multiplier. The frequency multiplier contains two coupled open at the ends of sections 1 and 2 of the microstrip line forming the input matching circuit, the nonlinear element 3 and the output matching and filtering circuit consisting of a quarter-wave transformer 4 and a microstrip filter 5. The drawing also indicates the input inductance 6 , the trimmers 7, the output inductance 8 and the bias circuit 9. The multiplier works as follows. The input signal through a 50 Ω supply line (not shown in the drawing) is fed to segment 1 and through the gap between segments 1 and 2, which provides selective coupling, is transmitted to segment 2. The active component of the output impedance of segment 2 is 5 ohms, and the reactive component can vary within small limits with the help of trimmers 7. From the output of segment 2, the signal enters the input inductance 6, which with the input capacitance of the nonlinear element 3 forms a serial resonant circuit tuned to the frequency of the input signal. Due to the nonlinearity of the capacitance of the nonlinear element 3, the current through it contains a large number of harmonics of the input signal. For power take-off from non-linear element 3 at the desired harmonic, there is a matching and filtering circuit. The output inductance 8 is chosen so that a successor HtflO resonant circuit is formed with the output capacitance of the non-linear element 3 tuned to the desired harmonic. The output signal through the output inductance 8, with the help of a quarter of a wolf transformer 4, matches with the output line 50 Ω (not shown in the drawing). The output frequency is selected by a microstrip filter 5. Circuit 9 supplies the nonlinear element 3 with a constant voltage required for optimal operation. The proposed frequency multiplier provides resistance to the occurrence of parasitic parametric oscillations at any practically real / ,, 7, S 3 ////// 77 // yjf) y / 7 /// 7 // y / 7 W IV / /// 7 ////: // 7 ////// // y // //) //, 7g for the impedance of the signal source. DETAILED DESCRIPTION OF THE INVENTION A frequency multiplier comprising a serially connected input matching circuit, a non-linear element, and an output matching and filter circuit characterized in that. That, in order to increase the stability of work, in it the input matching circuit is made in the form of two connected microstrip lines with a length equal to a quarter of the wavelength of the input signal. Sources of information taken into account in the examination 1. LEEE Transactions on Microwaves T. and Techn1968, MTT-16, 7, p. 420 (prototype). 77G777U //// Y / // A