DE2724606C2 - Amplifier circuit - Google Patents

Description

The invention relates to an amplifier circuit with a semiconductor amplifier and a downstream one frequency-dependent impedance. Such frequency-selective amplifiers are used, for example, in radio receivers used for frequency-selective level meters in carrier-frequency multi-channel systems to get from one offered frequency mixture a single signal frequency or a single narrow modulation frequency band detach and reinforce. The reinforcement should, of course, be as distortion-free as possible, for which corresponding feedback networks are usually provided.

It is known that the distortion of the amplified signal depends on the amplitude of the input signals, since this influences the intermodulation behavior of the amplifier.

The object of the invention is to provide an amplifier circuit with a semiconductor amplifier and a downstream amplifier To create frequency-dependent impedance at which the distortion due to intermodulation is reduced are.

The solution to this problem according to the invention is based on the knowledge that intermodulation is not only dependent on the amplitude, but also influenced by the impedance curve of the load resistance will.

With ring modulators, for example, which are expressly lent are intended for mixing frequencies where intermodulation is undesirable, the ring modulator is connected to all output terminals with frequency-independent real resistors away. In the case of frequency-selective amplifiers, this is of course not possible because the downstream one Band filter or quartz filter must have a pronounced frequency response.

Accordingly, it is proposed according to the invention that a working resistance of the semiconductor amplifier Switch circuit with at least approximately constant real input impedance is provided. Of the Accordingly, the amplifier »sees« a real load in as large a frequency range as possible, with the result that the behavior of the feedback networks also remains unaffected by the frequency response of the filter It has been shown that with such a design of the amplifier, the intermodulation attenuation of

z. B. 40 dB can improve to 60 dB

Another advantage is for the production of measuring devices, which are usually interconnected from assemblies will. The amplifiers are connected separately and with a real, constant working resistance measured and adjusted If you then connect them together with a working resistance that corresponds to the invention is constructed, so no readjustment needs to be made.

The design of the switch circuit provided according to the invention can be left to a person skilled in the art, with notes from the "Handbook of High Frequency Technology," by Meinke-Gundlach, 3rd edition, p. 479 the discussion of the waveguide connection of several consumers given there can; In principle, all switch circuits that produce a constant input resistance are suitable. A preferred embodiment is explained in more detail below with reference to the drawing

The drawing represents a block diagram of an amplifier circuit according to the invention.

At the input 1 of a semiconductor amplifier 2, a frequency mixture is applied, in which the useful frequency f _N and other frequencies f \, h ... are included.

Due to the inevitable non-linearities of the amplifier element and the other switching elements, not only the frequencies / Jv, / j, / 2 .., but also their harmonics 2 / Jv, 2 / i ... 3f _N , 3 / appear at the output 3 of the amplifier i ... and for the reasons explained in the introduction, the intermodulation products also appear (2 / i -% (3 / i - _2/2 ) etc. If these fall within the frequency range of /> v, the result will be something like that of a level measurement , falsified at the output of the filter 4

The formation of such intermodulation products is reduced according to the invention in that a circuit break is provided as the working resistance of the amplifier, consisting of the series connection of capacitor 5 - such a capacitor is usually provided to block the supply voltage of the amplifier from the filter - with an inductance 6, the dimensioning is carried out in such a way that the series circuit is matched to fy, as well as a parallel circuit made up of inductance 7 and capacitor 8, also matched to Fn. This results in an at least approximately constant real input impedance for the output of the amplifier, as seen from this point of view.

The attenuation is set with the resistor 9, and the trimmer capacitor 10 is used for adjustment at very high frequencies.

The damping resistance of the series circuit 5, 6 and also of the parallel circuit 7, 8 on the one hand, the respective L / C ratios, on the other hand, are designed so that the Overall circuit has an almost constant real input resistance over a very large frequency range seen from amplifier output 3.

1 sheet of drawings

Claims (2)

Patent claims: 1. Amplifier circuit with a semiconductor amplifier and a downstream, frequency-dependent Impedance, characterized in that a switch circuit is used as the working resistance of the amplifier is provided with at least approximately constant real input impedance 2. Amplifier circuit according to claim 1 with a filter connected downstream of the semiconductor amplifier, characterized in that the filter input resistance is supplemented to form a series circuit whose complex resistance at the filter resonance frequency represents the real working resistance of the amplifier, and that in the amplifier output the series circuit is a parallel resonance circuit at the same frequency as that is matched in parallel 20th