DE1466532A1 - High frequency amplifier for several separate frequency ranges, especially VHF and UHF ranges - Google Patents

Description

High-frequency amplifier for several separate frequency ranges, in particular VRF and UHF ranges according to patent ... (patent application T 27 920 IM / 21a4) The main patent describes a high-frequency amplifier with tunable resonance circuits for separate frequency ranges, in which the output electrode is one for both Areas of effective amplifier elements are connected to the circuit assigned to the higher frequency range (UHF) via an open V4 stub line tuned to a frequency at the upper end of this range, and to the circuit assigned to the low range) 'VEF) via a low-pass filter. The use of the stub line has the advantage that its effective capacitance is only of the order of magnitude of 1 pF, without the URF reception being impaired and the VHF variation range being narrowed. This arrangement has essentially proven to be very advantageous, but in addition to a low resonance phenomenon in the UHF range, there remained a slight narrowing of the variation range in the M range. ion could be based on the fact that the output capacitance of the TrAne # stors is transformed in parallel with the VEF tuning capacitor.

The invention is based on the object of the circuit in this Direction to improve.

The invention consists in that, in a high-frequency amplifier according to the main patent, the base point of the inductance of the resonance circuit assigned to the low frequency range (VEF) is connected to earth via an impedance and the low-pass filter is connected to the base point of the resonance circuit. Practically all resonance phenomena in the UHF range are avoided by the base point capacitor. To improve the Verst.ärkung amunteren band end of the V is EF-area divided into two sections, each with a resonant circuit, wherein the two base points of the resonant circuit inductors are connected via a throttle to achieve tighter coupling.

To explain the invention in more detail, an exemplary embodiment is given below described on the basis of the drawings.

Pig. 1 shows the output circuit of a high-frequency amplifier in which an oscillating circuit 2 for the URF range and oscillating circuits 3 and 4 for the VEF ranges I and III are arranged in a chamber 1. The M or VHF signals do not come from one antenna shown via a> switch 7i to the input electronics (trode 8 of a high frequency transistor 9, the output electrode 11 of which is connected to the VEP resonant circuits 3 and 4 via a low-pass filter 12. The same output electrode 11 is connected to the inner conductor 21 of the M oscillating circuit 2 via a branch line 19. The tuning capacitance 26 is used to tune the URF-Schwingkreiaes ä, the tuning capacitance 15 is used to tune in the two M -circuits 3 and 4. The resonant circuits 3 and 4 are selected by the capacitance 15 and two by means of a switch 5 in the circles 3 and 4 switched-on inductances 13 and 14, respectively, are formed. In the case of the Sohalt # Ung described so far, the inductances 13, 14 of the resonant circuits 3, 4 are connected to Nasse via capacitors 30 and 31, respectively. The low pass filter 12 is connected to the lUpunkt the Sohwingkreilie 3 or 4, ie, at the Verbliidu moved beyond the inductance 13 and the Kondeneators 31 for the operation in band I pass the Sigmle About the low-pass filter 12 and an inductance 29 to the r7 Verbindungepunkt the inductance 14 and the capacitor 30. This connection point is also connected to ground via a resistor 33. The VHP signals are picked up from the connection point of the switch 5 and the capacitor 15;

The division of the VHF band into two individual areas I and III has the advantage that the degree of gain can be better controlled over both areas. Here, the low-pass filter 12 is connected directly to the series circuit made up of inductance 13 and capacitor 31. This part of the VHP band, which forms an oscillating circuit 3 , corresponds to the higher frequencies of the MW regions. The connection point of the inductance 13 and the capacitor 31 is connected to the corresponding connection point of the Kohdensators 30 and the inductance-14 via a Drössel.29, these parts acting as a low pass. This Tiofpaß'veruri3aAUt a firm coupling of the low pass 12 to the oscillating ice 49 oo that a decrease in amplitude at higher frequencies of the band I the VEF areas is counteracted. For the higher frequency range, the choke 29 acts as a KP choke.

24. Fig. 2 shows a wpiter formation of the posture shown in Fig. 1 , in which the same circuit elements are sewn with the same reference symbols. As in FIG. 1 , the low-pass filter is coupled to the base point of an oscillating circuit 3 composed of capacitance and inductance 13, which is connected to ground via a capacitor 32. The "swinging circuit 3 does not itself have any switches in series. Rather, the container 5 in FIG. 1 is switched here parallel to the inductance 13 which it flows during operation in volume I. For volume 1 , the resonance circuit 4 is made up of the series maintenance of the inductance 149 the switch 5 and the capacitance 15 formed. in the circuit of] #ig. 2, the M-Bendes a Fußpunktseinkopplung gewählt9 wherein the inductance 14 acts as a choke for the higher frequency region III. for the niederkrequenten parts of the region III are the other hand, the signals are coupled to the upper end of the inductance 14, which results in a higher degree of gain for this area *, the lapasity 32 'is parallel to the inductance 14 and closes any higher frequencies, k capacitor 32 is chosen so that the required range of variation is maintained with the tuning condenser 15.

Claims (2)

P at a 11 tan ap r U_c he jl. High-frequency amplifier with tunable resonance circuits for separate frequency ranges, in particular UHF and VHF ranges, in which the output electrode has an amplifier that is effective for both ranges with the circuit associated with the higher frequency range (UHF) via an open "to a frequency at the upper end of this 1/4 stub line matched to the range and connected to the circuit assigned to the low range (VHF) via a low-pass filter "according to patent application T 27 920 IM / 21a4, characterized in that the base point of the inductance (13,14) of the low frequency range assigned Resonance circuit (3, 4) connected to earth via an impedance (30, 31) and the low-pass filter (12) is connected to the base point. 2. High frequency amplifier * according to claim 1, characterized in that for the amplification of the lower frequency ranges (VHF) two resonance circuits with eifier common tuning capacitance (15) proceed and whose inductances (13 "14) Uber.eir» n switches (5) optionally in -Series for the tuning capacitance (15) is held because the inductances (13.14) are connected to earth via separate impedances (30x31) and that the joints of the two oscillating circuits (3, 4) are connected via an inductance (29) . forming with the Fußpunktimpedanzen (30s31) of the two oscillating Kreine (3,4) comprises a low-pass filter. a high frequency amplifier according to Anspruch.1 or 29 characterized geke-= -zeichnet 'that the Mpunktimpedann is formed by a capacitor (30931) * 4. Still frequency amplifier according to Claim 19 dL4urch gekogaeiobaAtl that two oscillating circles are provided for the lower frequency range ei "# that the starting point of the first oscillating circle via a capacitor (32) with earth and with the high point of the with i Your M point grounded inductance (14) is directly connected and that the high points of both inductances are connected to one another via a switch.