DE3242547A1 - Mixing circuit - Google Patents

Abstract

A mixing circuit is proposed which is suitable for the frequencies of the VHF range and which has a sensitivity gain of around 3 dB. The mixing circuit contains a double-gate MOS field-effect transistor (15) to whose source terminal (14) and second gate terminal (17) the received frequency (fOE) is supplied. The oscillator frequency (fOS) is applied to the first gate terminal (20) and the intermediate frequency (fIF) is available on the drain terminal (22) of the field-effect transistor. A filter (24) is provided to eliminate undesirable mixing products. <IMAGE>

Description

Mixed circuit

PRIOR ART The invention is based on a mixer circuit of the genre of claim 1.

It is a mixed circuit with a double gate MOS field effect transistor known (Limann, radio technology without ballast, 14th edition, 1978, Franzis-Verlag Munich, Pages 230 and 231), which have good overall gain and high mirror selection in the VHF range.

The sensitivity of this circuit and similar circuits is however, a limit is set for use in the UHF range.

Advantages of the Invention The mixer circuit according to the invention with the Characteristic features of claim 1 has the advantage that the sensitivity can be increased by about 3 dB.

This is an amount that, in certain applications of the mixer circuit, For example, in radiotelephony technology, to a considerable improvement in reception leads.

Drawing An embodiment of the invention is shown in the drawing illustrated with the aid of a figure and explained in more detail in the following description.

Description of the Invention The drawing shows a circuit diagram of a Mixer circuit according to the invention, which is particularly suitable for the UHP range is. The mixer circuit has a first input 10 for the reception frequency fOE ' a second input 11 for the oscillator frequency fos and an output 12 for the intermediate frequency f.

ZF The first input 10 of the mixer circuit is via a capacitor 13 firstly directly to the source connection 14 of a double gate MOS field effect transistor 15, secondly via a capacitor 16 to the second gate terminal 17 and thirdly via a resistor 18 with ground potential in connection. From the second entrance 11 leads a connection via a capacitor 19 to the first gate terminal 20, which is connected to the ground potential via an inductance 21. To the drain connection 22 of the field effect transistor 15 is connected to a filter via a capacitor 23 24, which is preferably a quartz filter, the output of which is output 12 of the Mixing circuit forms.

Between the second gate terminal 17 and the drain terminal 22 lies a series connection of two resistors 25 and 26.

The resistor 26 is a capacitor 27 and an adjustable inductance 28 connected in parallel, and the connection point 29 between the two resistors 25 and 26 is through a filter 30 with a connection 31 in connection with the positive pole of a DC power supply is connected to the voltage UB. Another resistor is located between the second gate terminal 17 and ground 32.

The following applies to the mode of operation of the circuit described above accept.

The reception frequency at the first input 10 of the mixer circuit fOE reaches both the source connection 14 and via the coupling capacitor 13 also via the capacitor 16 to the second gate terminal 17 of the double gate MOS field effect transistor 15. The oscillator frequency fos is via the coupling capacitor 19 to the first Gate terminal 20 of the transistor out. By mixing the two frequencies fOE and fos, among other things, the desired intermediate frequency fZF 'is generated by means of of the filter 24, tuned to the frequency # IF, of undesired mixed products is released. The oscillating circuit consisting of the capacitor 27 and the inductance 28 is also tuned to the intermediate frequency.

The filter 30 serves to smooth the direct voltage UB.

The interchannel modulation that occurs during mixing is controlled by the Characteristic curve of the field effect transistor determined; it is, for example, when in use of a double gate M0S field effect transistor of the type BF 960 approx. 70 dB above 1 pV.

Claims (3)

Claims mixed circuit with a double gate MOS field effect transistor, characterized in that at the source connection (14) and at the second gate connection (17) of the transistor (15) the reception frequency (fOE) 'at the first gate terminal (20) the oscillator frequency (pos and at the drain connection (22) caused by the mixture obtained intermediate frequency (fzF) is. 2. Mixer circuit according to claim 1, characterized in that between the source connection (14) and the second gate connection (17) a capacitor (16) for DC voltage blocking is. 3. Mixer circuit according to claim 1 or 2, characterized in that that the drain connection (22) of the field effect transistor (15) via a capacitor (23) connected to a filter (24) tuned to the intermediate frequency (fzF) is, the output of which forms the output (12) of the mixer circuit.