DE1286081B - High frequency amplifier with a transistor - Google Patents

Description

The invention relates to a high-frequency amplifier with a transistor for amplifying different frequency ranges, especially the television bands I and III.

In such amplifiers, the high-frequency amplification should be used for all frequency ranges be approximately the same. However, this is not possible because the reinforcement is a Transistor due to the input resistance that changes with the frequency 40 MHz and 200 MHz changes roughly in a ratio of 6: 1. With this effect in the same way The decrease in the forward steepness with increasing frequency has an effect on the senses. This can with optimal amplification in one area (e.g. band III) in the other area (e.g. B. Volume I) the gain so large that as a result of noise feedback The IF amplifier is overdriven despite fading control.

It is a high frequency amplifier with a transistor for broadcast receivers known (Japanese utility model application notice 23 476/63), in which the Transistor in the FM frequency range in basic circuit and in the AM frequency range in Emitter circuit is operated. The one specified in this utility model Circuit is z. B. not for an amplifier of TV bands I and III suitable because the unused FM antenna circuit is connected to the circuit and remains effective. This would lead to cross modulations.

The invention is based on the object of avoiding this disadvantage.

The invention consists in that when used for the television bands I and HI Base and emitter of the transistor each via a coupling capacitor and each a pre-circuit for each frequency range alternately by means of a switch can be connected to the antenna socket, but not with the antenna socket connected pre-circuit is grounded on the output side.

To explain the invention in more detail, an exemplary embodiment is given below with reference to FIG. 1 described. This shows the high frequency amplifier circuit a television receiver with an antenna socket 1 for connecting the not shown Antenna, an input circuit 2, a transistor 3 for amplifying signals in the bands I and III as well as one between the high frequency amplifier 3 and one Mixing stage 4 switched high-frequency band filter 5.

The input circuit 2 comprises two parallel tunable pre-circuits 11 and 12, of which the pre-circuit 11 is connected to the base of the transistor 3 via a capacitor 6 and the pre-circuit 12 is connected to the emitter electrode of the transistor 3 via a capacitor 7. The two electrodes of the coupling capacitors 6 and 7 facing away from the transistor are connected to contacts 8 and 9, respectively, of a changeover switch 10, the common point of which is grounded. The pre-circuit 11 serves to receive the signals in band III, while the pre-circuit 12 only allows signals in band I to pass. The inputs of the two pre-circuits 11 and 12 are alternately connected to the antenna socket 1 via contacts 13 and 14, respectively, of a switch 15. The base of the transistor 3 is connected via a resistor 16 to a positive voltage -I- UB , which is blocked via a capacitor 17 to ground. The emitter electrode is connected to the positive voltage UB o via a resistor 18, which voltage is blocked to ground via a capacitor 19. Control voltage can also be fed to U $.

The mode of operation of the circuit described so far is shown below explained in more detail.

The high-frequency input signals arrive via the not shown Antenna to the input terminal of the receiver. With the setting of the desired station at the same time the contacts of the switch are turned over so that the high-frequency amplifier 3 when operating in band I in basic circuit and when operating in band III in emitter circuit is operated. For this purpose, one is in each case facing away from the transistor The capacitor electrodes of the coupling capacitors are connected to ground. As the input resistances of the transistor when operated in common emitter circuit to operation in common base circuit (in Volume I) behave like about 10: 1, on the other hand the amplifier circuit for the Operating in bands I and III a gain difference of about 10 to 15 db, in this way an overall gain for scored both ligaments. In addition, the circuit can be optimal for both areas Input matching can be operated.

The circuit according to the invention has the advantage that the transistor 3 is operated optimally in both areas. For volume I is the emitter circuit disadvantageous because of too great a repercussion on the input circuit. This circuit is therefore difficult to adapt to the antenna circuit for band I. For Volume III this is Circuitry, on the other hand, is advantageous because of its high gain and better noise figure. In addition, the advantage that noise matching and power matching can be used here coincide because in Volume III low gain and high input resistance given are. The basic circuit for Volume I has the advantage that due to a low input resistance and the low feedback a better adaptation is made possible. "The invention is not limited to that of the transistor remote electrodes of the coupling capacitors 6 and 7 directly on the switch contacts lie. Rather, further circuit elements can also be placed between these elements how parts of the filters are turned on.

In Fig. 2 shows a circuit in which, due to the strong Deviation of the frequencies possible in one area a capacitor 20 part of the Pre-circuit 12 is a short circuit when operating in the other (higher) area represents. For the short circuit of the output of the pre-circuit 11 when switching is a switch 21 is provided. The other reference numerals correspond to those in FIG. 1.

Claims (3)

Claims: 1. High-frequency amplifier with a transistor for amplifying different frequency ranges, in which the transistor is operated in an emitter circuit in one frequency range and in a base circuit in the other frequency range, characterized in that when used for TV bands I and III, the base and emitter of the transistor ( 3) can be connected alternately to the antenna socket (1) via a coupling capacitor (6, 7) and a pre-circuit (11, 12) for each frequency range by means of a switch (15), the pre-circuit not connected to the antenna socket being grounded on the output side will. 2. High-frequency amplifier according to claim 1, characterized in that the electrodes of both coupling capacitors (6, 7 ) facing away from the transistor (3) are connected to the contacts (8, 9) of a switch (10) connected to ground. 3. High-frequency amplifier according to claim 1, characterized in that the transistor (3) facing away from the electrode of a coupling capacitor (6) is connected to ground via a switch (21) and that between ground and the electrode of the other coupling capacitor facing the transistor is a corresponding filter associated capacitor (20) is located, which represents a short circuit in the other frequency range.