SU845261A1 - Multifrequency generator - Google Patents

Description

one

The invention relates to radio engineering and can be used to form a grid of frequencies in transceiver and measurement equipment.

A multi-frequency oscillator is known, which contains an amplifier whose feedback circuit includes a delay line on surface acoustic waves flj.

Closest to the proposed generator, containing an amplifier, the feedback circuit of which includes serially connected lines of a-v support for SAW with an input wide-band converter and n output narrow-band converters and a switch. The broadband input converter of the delay line for SAW is connected to the output of an amplifier, and its output narrowband converters are connected to the switch. The load of the multi-frequency generator is connected to the output of the Gz amplifier.

However, when such a generator is synchronized with a multi-frequency oscillation of an external source connected to the input of a wideband amplifier, the level of the side components in the output oscillation spectrum is rather high.

The purpose of the invention is to increase the spectral purity of the output signal.

The goal is achieved by the fact that in a multi-frequency generator containing an amplifier, the sequence of which includes a sequence. separately connected perpendicular delay lines on SAW with an input wideband converter and output narrowband transducers and a switch, with the input wideband converter of a delay line per-PAW connected to the output of the amplifier, and its n output narrowband transducers are connected to the switch, connected in series to the reference generator and a harmonic generator, the output of the amplifier is the output of the multi-frequency generator, between the wideband input converter and the output narrowband An additional unidirectional converter connected to the output of the harmonic generator was introduced into the SAW delay line converters.

The drawing shows a structural diagram of a multi-frequency generator.

MultifrequencyP generator contains

Claims (2)

3D amplifier 1, whose feedback circuit includes series-connected multi-tap delay lines 2 on SAW with input wide-band converter 3, single-direction converter 4 and p output narrow-band converters 5 and switch b, as well as serially connected reference generator 7 and harmonic generator 8. The wideband input converter 3 delay line 2 on the PLV is connected to the output of amplifier 1, the unidirectional converter 4 is connected to the output of the harmonic generator 8, and its n narrowband output converters 5 are connected to switch 6. Amplifier 1 output is a generator output. The device works as follows. When the switch 6 is connected to the input of the amplifier 1 of one or another narrowband output converter in the device, oscillations of a certain frequency occur. The number of frequencies at which a multi-frequency generator operates is determined by the number of narrowband output transducers. The reference generator 7 and the generator Monique 8, which are connected in series with the additionally introduced unidirectional transformation of bodies 4, ensure synchronization of the multiple-frequency generator at one of the frequencies of the linear spectrum formed at the output of the harmonic generator. Output narrowband transducers and a switch allocate oscillations of only one frequency. As a result, the voltage of a linear oscillator, rather than a linear spectrum, arrives at the amplifier input. Output narrowband transducers have a selectivity of 30–40 dB. A unidirectional transducer creates the intensity of a surface acoustic wave towards the input transducer (load) by 30–40 dB weaker than towards the output narrow-band transducers. Thus, the multifrequency synchronizing effect is isolated from the input of the wideband amplifier by output narrowband transducers, and from the output of the multi-frequency generator by a unidirectional converter. A unidirectional converter can also be implemented as a combination of a wideband converter connected to the output of a harmonic generator and located perpendicular to the input wideband and output4 narrowband converters, and an additionally introduced reflecting grid guiding the energy of the surface acoustic wave of the synchronizing effect towards the output narrowband converters. Therefore, the introduction of a unidirectional converter connected to the output of the harmonic generator provides additional suppression of the side regular components of the output oscillation of the synchronized multi-frequency generator by 30-40 dB with respect to the known solutions. Formula of the Multi-frequency generator containing an amplifier in the feedback circuit which included serially connected multipath. delay lines on surface acoustic waves, (MWD) with an input wideband transducer and n output narrowband transducers and a switch, with the input wideband transducer of the delay line to SAW connected to the output of the amplifier, and its n output narrowband transducers are connected to a capacitor connected in series to a reference generator and harmonic generator; the amplifier output is a multi-frequency generator output, characterized in that, in order to increase the spectral frequency of the output signal, an additional unidirectional converter connected to the output of the harmonic generator is introduced between the wideband input converter and the n output narrowband converter of the delay line. Sources of information taken into account in the examination 1.Patent of France No. 2223893, cl. H 03 B 5/30, 1974. 2. Patent CL-JA No. 4023120, cl. 331-107A, 1977 (prototype). -sh f -