DE1158104B - Television receiver with combined tuning device - Google Patents

Description

Television receiver with combined tuning device The invention relates to a television receiver with a combined tuning device for the areas VHF and UHF, with the same mixer and / or oscillator tube for both areas, dieselbi pre-tube in grid basis circuit, the same resonant circuit circuit and the same capacitive tuning element are used.

There are combined voting devices for the areas VHF and UHF known that have the same tube assembly as known UHF tuning devices, d. H. a triode operated in a grid base circuit as a pre-tube and one in the Mixer or oscillator tube operated with the same circuit. With the known combined However, tuning devices are the input selection that is too low for VHF reception, the insufficient gain and the insufficient input gain control disadvantageous.

These disadvantages can be avoided if according to the invention at VHF reception in front of the pre-tube operated in the grid basis circuit an additional, in cathode: iba sis circuit operated; Input tube is switched such that the Pre-tube operated in a grid basis circuit added to a cascode input stage is. An effective input gain control for VHF reception is achieved if the grid of the input tube has a control voltage dependent on the input amplitude is fed. It is also advantageous if the areas are switched Volume by volume, especially in the three stages Volume I, Volume III and Volume IV / V, Some of the VHF or UHF inductances are switchable and in the UHF range junction trimmers are used for balancing and junction trimmers and a Part of the inductances of the UHF range. Parts of the resonant circuit for the VHF area are.

It is also advantageous if for an adjustment of the VHF resonant circuits additional trimmer capacitors, especially junction trimmers, are used, which are switched together with the VHF inductors. Stepping in the making the tuning unit has only slight manufacturing deviations, so can instead of the adjustable junction trimmer also fixed capacitors with small capacitance spread be used.

According to a further development of the inventive concept, it is advantageous to if part of the inner conductor of the combined tuning device of the type specified in Art a UHF resonant circuit and the inductances for the UHF resonant circuits are arranged on a rotor in such a way that when a range is switched , either the part of the inner conductor located on the rotor or one of the inductances is effective for the VHF resonant circuits. Thereby ground connections for the on Trimmers or fixed capacitors arranged on the rotor via the grounded rotor axis or via a special ground contact. The rotor can be disc-shaped or be designed in the manner of a revolver spool drum, with the pre-, mixing and / or Oscillator circuits are housed in chambers divided by partition walls and the necessary couplings of the input circuits z. B. by special slots in, the partition walls are reached, so that there are no additional switch contacts are needed.

To avoid detuning the intermediate frequency output circuit When tuning the oscillator, it can also be advantageous if one of the UHF mixer and / or oscillator tube downstream amplifier tube is switchable in such a way that it is used as a mixer tube at VHF and as the first intermediate frequency amplifier tube at UHF works, with a mix in the UHF range in the oscillator tube at the same time or takes place in a special mixer diode, and the downstream amplifier tube is organically built into the combined tuning device. It is still there advantageous if the anode of the oscillator tube has a UHF choke coil and a small capacitance is connected to the grid of the downstream amplifier tube and in the case of UHF reception, the intermediate frequency from the anode of the mixer oscillator tube Via a series resonance circuit and a changeover contact to the grid of the downstream Amplifier tube arrives, the changeover contact or a separate changeover switch is arranged on the rotor shaft of the tuning device. After a Another embodiment of the invention, it may also be advantageous to switch of the ranges using rotary switches, pushbuttons or slide switches.

To adapt the antenna to the input circuit can advantageously in addition to a well-known broadband ferrite transformer for the VHF ranges as well a broadband ferrite transmitter can be used for the UHF ranges. Furthermore it is cheap, for suppressing cross modulation and oscillator interference, which can be emitted via the antenna or the antenna cable, a bandstop filter for Band II (VHF) and / or a high-pass filter with a lower cut-off frequency of around 40 MHz to switch.

The invention extends not only to the use of tubes as Amplifier elements. To further simplify this electrical and mechanical Transistors and / or tunnel diodes can be used in place of the tubes will.

Two exemplary embodiments of the invention are shown in the drawing.

Fig. 1 shows a basic circuit diagram of the combined according to the invention Tuning device and FIG. 2 shows a section through a chamber with a rotor built-up combined voting device.

A 240-ohm VHF antenna 1 is connected via two isolating capacitors 2 and 3 to a ferrite broadband balun 4, the 60-ohm output of which is connected via a. High-pass filter 5, a bandstop filter 6 and an isolating capacitor 7 are connected to a waveguide switch 8, 8 '. A 240-ohm UHF antenna 9 is connected via two isolating capacitors 10 and 11 to a 2/2 detour line 12, the 60-ohm output of which via a isolating capacitor 13, 1.3 'with .einem UHF wave switch contact 14, 14', with a switching arm of the waveband switch 15 and is connected via an inductive or capacitive coupling element 16 to the cathode of a pre-tube 17 operated in a grid-based circuit. The input circuits consist of the inductors 18, 19 or 20, which can be switched on by the waveband switch 8, 8 'and, in the case of UHF, additionally by the contacts 14, 14', the inductance 20 consisting of a short-circuit clip so that the line sections 21 and 22 in the UHF range can be added to a Z / 2 pot circle, a unilaterally grounded tuning capacitor 23 and a unilaterally grounded junction trimmer 24 and 25 respectively. With UHF reception, the waveband switch contact 8, 8 "is connected to ground via a 60-ohm terminating resistor 28. The connection point of the capacitor 7 and the waveband switching contact 8 is connected to the control grid of an input tube 29 operated in a cathode base circuit A control voltage dependent on the input signal amplitude is supplied to a resistor 30 at a terminal 31. The cathode is connected to ground via the parallel connection of a resistor 32 and a capacitor 33. The anode is connected to a terminal 36 and which carries a positive voltage via a high-frequency choke 34 and a resistor 35 connected via a capacitor 37 to two parallel contacts 38 and 39 of the waveband switch 15. The switching arm of the waveband switch 15 is at the contacts 38 or 39 for VHF reception and at an open contact 40 for UHF reception, so that the tube 29 then The grid of the tube 17 lies directly t and the cathode via the series connection of a choke 41 and a resistor 42 to ground. The anode of the tube 17 is connected to a first band filter circuit via a capacitor 43 and to a second band filter circuit via a coupling element 44. The band filter circuits are constructed in the same way and consist of inductances 47 or 48 or 49 in the first and inductances 50 or 51 or 52 in the second band filter circuit, which can be switched on by a waveband switch 45, 45 'or 46, 46'. The inductors 49 and 52 in turn consist of short-circuit clips, so that the line sections 53, 54 and 55, 56 in the UHF range are supplemented to form << / 2-pot circles. In addition, the band filter circuits each consist of a tuning capacitor 57 or 58 grounded on one side and node trimmers 59, 60, 61 and 62 grounded on one side , 66 provided. The second band filter circuit is connected via a coupling element 67 to the cathode of an oscillator or mixer-oscillator tube 68 operated in a grid-based circuit. The grid of this tube is directly and the cathode via a choke 69 and the parallel connection of a resistor 70 and a capacitor 71 to ground. The anode of the tube 68 is connected to the oscillator circuit via a capacitor 72, to the cathode via a trimmer capacitor 73 and to a coil 75 tuned to the intermediate frequency via a choke 74. The connection point of the choke 74 and the coil 75 is connected to ground by means of a feed-through capacitor 76. The oscillator circuit, the frequency of which is higher or lower by the amount of the intermediate frequency, has the same circuitry and structure as an input or band filter circuit. For the UHF range, line sections 77 and 78 as well as a Kurzsdhlußbügel180, which can be switched on by the waveband switch 79, 79 ', together with the tuning capacitor 81 and two nodes 82 and 83, again trimmer a 2/2 pot circle. educated. In the VHF ranges, VHF coils 84 or 85 are connected to the line sections 77 and 78 by the waveband switch 79, 79 ', the coil 84 having two junction trimmers 86 and 87 for adjustment. The VHF coils 85, 51, 48 and 19 are also equipped with junction trimmers (not shown in detail).

The control grid of a tube 88 is connected to ground via a resistor 89 and via the series connection of a small capacitance 90 of approximately 1 pF and a UHF choke coil 91 at the anode of the tube 68 a changeover switch 93 either with VHF reception via the coupling element 67 the amplified input frequency or with UHF reception via the coil 75 the intermediate frequency. As a result, the tube 88 works as a mixer tube for VHF reception and as a mixer tube for UHF reception. additional intermediate frequency amplifier tube. The anode of the tube 88 is connected to a positive voltage via an adjustable intermediate frequency coil 94 and a resistor 95. At the connection point of the coil 94 and the resistor 95, which is routed to ground via a feed-through capacitor 96, the intermediate frequency is picked up at a terminal 97.

In the section shown in Fig. 2 through a pre-circuit chamber of a combined tuning device built up with a switching rotor, only parallel trimmers 98 and 99 are present in the VHF areas to simplify the effort, instead of junction trimmers, which are routed to ground via the standby switch axis 100.

Claims (7)

PATENT CLAIMS: 1. Television receiver with combined tuning device for the VHF and UHF ranges, with the same mixer and / or oscillator tube for both ranges, the same pre-tube in a grid basis circuit, the same resonant circuit circuit and the same capacitive tuning element are used, characterized in that at VHF reception in front of the pre-tube (17) operated in: grid base circuit an additional, input tube (29) operated in cathode base circuit is connected in such a way that the pre-tube operated in grid-based connection is added to a cascode input stage is. 2. television receiver with combined tuning device according to claim 1, characterized in that the grating of the input tube (29) is one of the input amplitude dependent control voltage is supplied. 3. Television receiver with combined Tuning device according to Claims 1 and 2, characterized in that a switchover of the areas in volume, especially in the three levels Volume I, Volume III and Volume IV / V takes place, with some of the VHF or UHF inductances being switchable. 4. Television receiver with combined tuning device according to one of the preceding Claims, characterized in that node trimmers in the UHF range for balancing are used and the junction trimmers and some of the inductances of the UHF range Parts of the resonant circuit for the VHF range are. 5. Television receiver with combined tuning device according to one of the preceding claims, characterized characterized that additional trimmer capacitors are used to adjust the VHF oscillating circuits, Especially junction trimmers are used, which together with the VHF inductors be switched. 6. Television receiver with combined tuning device according to claim 5, characterized in that fixed capacitors instead of the junction trimmers with a small capacity spread are used. 7. Television receiving device with combined Tuning device according to one of the preceding claims, characterized in that that part of the inner conductor of the UHF resonant circuit, which is constructed in the manner of a pot circle and the inductances for the UHF resonant circuits are arranged on a rotor in this way are that either the part located on the rotor when the range is switched of the inner conductor or one of the inductances for the VHF resonant circuits is effective are. B. TV: hempfangsgerät with combined voting device according to one of the preceding claims, in particular according to claim 7, characterized in that that ground connections for the trimmers or fixed capacitors arranged on the rotor via the grounded rotor axis or via a special ground contact. 9. Television receiver with combined tuning device according to one of the preceding Claims, characterized in that a downstream amplifier tube of this type It can be switched that it is used as a mixer tube for VHF and as the first intermediate frequency amplifier tube for UHF works, with the mixture in the UHF range at the same time in the oscillator tube or takes place in a special mixer diode. 10. Television receiver with combined Tuning device according to Claim 9, characterized in that the downstream Amplifier tube is organically built into the combined tuning device. 11. Television receiver with combined tuning device according to Claims 9 and 10, characterized in that the anode of the oscillator tube has a UHF choke coil and a small capacitance connected to the grid of the downstream amplifier tube is. 12. Television receiving device with combined tuning device according to claim 9, 10 or 11, characterized in that the intermediate frequency for UHF reception from the anode of the oscillator-mixer-tube via a series resonant circuit and a Changeover contact reaches the grid of the downstream amplifier tube. 13. Television receiver with combined tuning device according to claim 12, characterized in that the changeover contact is arranged on the rotor shaft of the tuning device. 14th Television receiver with combined tuning device according to Claims 1 to 6, characterized in that the ranges can be switched by rotary switches, pushbuttons or slide switch takes place. 15. Television receiver with combined tuning device according to claim 1, characterized in that for adapting the antenna to the input circuit in addition to a well-known broadband ferrite transformer for the VHF ranges as well a broadband ferrite transmitter for the UHF ranges is available. 16. Television receiver with combined tuning device according to claim 1, characterized in that a band stop for band in front of the input tube operated in cathode base circuit II (VHF) and / or a high-pass filter with a lower cut-off frequency of about 40 MHz is.