DE1909244A1 - Circuit arrangement for a television receiver with switchable receiver input filter - Google Patents

Description

Circuit arrangement for a remote receiver with switchable Receiver input filter The invention relates to a circuit arrangement for a Television receiver with a tuning and switching device for two television frequency bands in range I and III of the ultra-short wave, switching the receiver input filter takes place by diode switch with the help of a switching voltage.

: 1 In many countries, television signals are used in the ultra-short wave (VHF) range broadcast in two television bands (area I and III). Between these two Television bands is another frequency band that is used to broadcast other programs (Tonrundfunk-VHF) is used. To in a receiver with a common antenna connection and a switchable tuning device for both television bands (area I and III) a good separation from those between and adjacent to these television bands To enable unwanted signals, must be between the antenna input and the Voting device a switchable input filter can be provided. With recipients With diode tuning and diode switching in the tuning device, it is useful to with the switching voltage required for this, also the input filters through diode switches to switch. This is especially true for recipients for whom the setting and it should be possible to switch the device via a remote control.

In known circuit arrangements, the respective connection one filter and switching off the other filter at least two switching diodes required to which via switching line; corresponding in each case Switching voltages are supplied.

Care must be taken that there are no unwanted coupling of the two filters, no derivation of the received signal and there must be no signal interference that could lead to cross-modulation, for example could. Furthermore, since the switch diodes are located at circuit points that carry the input signal, additional decoupling elements are required. In order to partially reduce these disadvantages, it is known to use the switch diodes for to connect the switching voltage in series, then a higher switching voltage and selected diodes must be used, which have approximately the same currents in forward and have blocking direction.

These disadvantages can largely be avoided if according to the invention for the one television band (III) a first filter wipe the antenna input and the Abstinimeinriohtung is made in parallel to this filter via a switch diode a second filter for the other television band (I) is located, on the receiver input voltage having connection point of the two! i the filter via the switch diode and the Series connection of an LC element of the second filter is connected to ground and the LC element forms a suction circuit for frequencies of the first filter. This makes it possible to switch the two filters with a single switch diode, always only the desired television band 4 reaches the tuning device without being attenuated. One special favorable circuit results when the filter for the television band (I) with the low frequencies is designed as a low-pass filter and the switching voltage over the in series inductances of this low pass and one for the input signal inductance led to ground is fed to the switch diode.

The invention is based on an embodiment shown in the drawing explained in more detail.

Fig. 1 shows a circuit of a filter combination according to the invention at the antenna input of a television receiver, FIG. 2 shows the frequency response of the input signals at the tuning device with the diode blocked and FIG. 3 the frequency response according to Fig. 2 with a low-resistance diode.

At the two sockets 1 of the antenna input for the television bands Area 1 (47-68 MHz) and area III (174-230 MHz) of the VHF waveband of a The television receiver is a balancing transformer via a protective capacitor 2, 3 each 4 connected, at the output 5 of which a series resonant circuit 6 is routed to ground is. The output 5 is also via a coupling capacitor 7 with a first Connection point 8 of two filters 9, 10 connected in parallel, at which via a resistor 11 blocked by a capacitor 12 switching voltage source 13 is connected. The first filter 9 consists of a series connection of two also series-connected LC members 14, 15 at their connection point 16 a parallel resonance circuit 17 via a bridging capacitor 18 to ground is led. The second pole 19 of the switching voltage source is on the bridging capacitor 18 13 connected, the switching voltage across the coil of the parallel resonant circuit 17, an inductance 20 bridging the capacitor of the second LC element 15 and the inductance of this LC element at the second connection point 21 of the parallel-connected Filter 9, 10 is performed.

The second filter consists of four inductors in series 22, 23, 24, 25, each of which has a capacitor 26, 27, 28 connected to its connection points all of which are connected to earth with their other connection. The first inductor is connected to the first connection point 8 via a switch diode 29 the two filters 9, 10 and with the other end via the capacitor 26 to ground and at the connection of the second inductance 23. While the first filter 9 with blocked Switch diode 29 has a bandpass filter for the higher frequency television band area III of 174 to 230 NHz, the second filter is a low-pass filter for frequencies below 70 MHz of the other television band, area I. In the passage area controlled diode, the inductance 22 acts together with the capacitor 26 as Suction circuit for frequencies that are detuned by switching on the switch diode and the bandpass filter of the first filter 9, which has become narrower, could get there. As a result, the filter 9 is heavily attenuated when the diode is switched on and it gets there essentially only frequencies below 70 NHz via the low-pass filter on the second connection point 21 of the two filters, the one at input 30 of the tuning device (VHF tuner).

In Fig. 2 and 3 the frequency response is up to input 30 of the tuning device shown, with blocked switch diode (Fig. 2) by disconnecting the filter 10 only the frequency band of the band pass is transmitted undamped. This frequency band is strongly suppressed when the switch diode 29, according to FIG. 3, is switched on. In order to prevent intermediate frequency voltages from being transmitted to the device via the low-pass filter Antenna and signals lying below the frequency range (area I) can interfere, is the series resonant circuit connected to output 5 of the balancing transformer 4 6 provided. It is matched to the intermediate frequency of the receiver and is attenuated the frequencies 31 below 40 MHz.

The entire filter combination 32 can be printed on a common Circuit board be arranged, especially the smaller capacitors, the Balancing transformer 4 and the inductances not provided with winding information in FIG. 1 in printed form can be formed by the lines of the circuit board. The numbers of turns indicated in FIG. 1 result from single-layer air-core coils with approx. 4mm winding diameter. The inductance 22 can also be correspondingly Form bent connecting wires of the switch diode.

The structure of the individual filters can be varied in many ways, so For example, the second filter 10 can also be designed as a bandpass filter, or it can the series resonance circuit 6 resp.

other circles can be included in the filters 9,10.

Claims (8)

Claims 1. Circuit arrangement for a television receiver with a tuning and switching device for two television frequency bands (I and III) in the range of Ultra-short wave, the switching of the receiver input filter by diode switch takes place with the help of a switching voltage, characterized in that for one Television band (III) a first filter (9) between the antenna input (1) and the Tuning device (30) is connected in parallel to this first filter (9) a switch diode (29), a second filter (io) for the other television band (I), a connection point (8) of the two filters which has the receiver input voltage (9, 10) via the switch diode (29) and the series connection of an LC element (22, 26) of the second filter (tO) is on Nasse, and the iC element (22, 26) has a suction circuit for frequencies of the first filter (9). 2. Circuit arrangement according to claim 1, characterized in that the switch diode (29) in the filter input of the second X age (10) and behind the diode (29) a low-pass capacitor (26) is provided to ground, which is connected to a in series with the switch diode (29) lying inductance (22) a series resonant circuit forms, which is tuned to the pass frequency band of the first filter (9). 3. Circuit arrangement according to claim 1 or 2, characterized in that that the first filter (9) is designed as a bandpass filter for the high-frequency television band (III) is, the second filter (from a low-pass filter with several inductors connected in series (22 to 25), which are connected to ground by low-pass capacitors (26, 27, 28) are and the switching voltage (19) of the switch diode (29). about the Inductors (22 to 25) is supplied. 4. Circuit arrangement according to one of claims 1 to 3, characterized in that that the interconnected input (8) of the filter (9, 10) via a capacitor (7) is connected to the output of a system transmitter (4) and the input (8) the filter (9, 10) is supplied with the switching voltage (13) via a resistor (11) is. 5. Circuit arrangement according to one of claims 1 to 4, characterized in that that the first filter (9), designed as a bandpass filter, consists of two series-connected LC members (14, 15), the connection point (16) of which via a parallel oscillating circle (17) and a bridging capacitor (18) is connected to Nasse, to the capacitor (18) one pole (19) of the switching voltage source is connected and the switching voltage Via the inductance of the parallel resonant circuit (17), the inductance of one of the two LC elements (15) and one bridging the capacitor of this LC element (15) Coil (20) reaches the switch diode (29) located in the second filter (10). 6. Circuit arrangement according to one of claims 1 to 5, characterized in that that in addition to the two filters (9, 10) between the antenna input (1) and the tuning device (30) an oscillating circuit (6) for suppressing the intermediate frequency generated in the receiver is provided. 7. Circuit arrangement according to claim 6, characterized in that From the connected input (5) of the filter (9, 10) a series resonance circuit (6) is connected to ground, which is tuned to a frequency (31) below the lowest frequency of the two television bands. 8. Circuit arrangement according to one of claims 1 to 7, characterized in that that the two filters (9,10) on a circuit board (32) with printed Beitungszügen are housed and at least a large part of the filter inductances in printed Circuit technology is executed.