DE1222131B - Switching device for television reception systems - Google Patents

Description

Switching device for television reception systems for television reception systems are used in which two antennas for the optional reception of two Transmitters can be connected to a receiving device. If the two transmitters are in non-adjacent Channels, you can filter the antennas intended to receive them connect to a common receiver lead.

For the high frequencies used for television reception, but you can no longer produce a filter with an effort that is acceptable for receiving devices, this is sufficient with moderate attenuation of the feedback between two antennas suppresses the reception of transmitters radiating in directly adjacent channels are determined. For these cases, mechanical relays are already known, which the Optionally connect the receiver lead to one of the two antennas. The control voltage for the relay is fed in via the antenna lead, so no additional Line is required.

For a diversity reception system in which the one of two antennas which is currently delivering the highest receiving voltage, through an automatically acting one Device is connected to the receiver, a switching device is known, with each antenna two pairs of diodes connected in push-pull and with different polarity are assigned as a switch that is switched by a control voltage that can be reversed are brought from the non-conductive to the conductive state and vice versa and the each between those fed by the antenna and connected in push-pull on the secondary side Transformers and a single one at the input of the receiver, on the primary side are in push-pull transformer. The control voltage is at this Arrangement via an additional line between the two interconnected Center taps on the secondary sides of the antenna transformers and the center tap fed to the secondary side of the receiver transformer. The own capacities of Semiconductor diodes used are thereby crossed between the respective Antenna transformer and the receiver transformer switched capacitors neutralized. However, this neutralization has little and dubious value because the over the neutralization capacitors coupled in out of phase voltages at the same time cause an increase in the transmission loss.

Due to the selected push-pull circuit of the switching diodes, the In the case of diversity reception, impermissible clicks when switching are avoided. at Switching devices for television reception systems with two for optional reception of two transmitters alternately needs antennas to be connected to a receiver the crackling of the switching not to be suppressed because the antennas during the reception time cannot be switched. In contrast to the commercial systems with diversity reception but have the lowest possible production costs of the components for television reception systems crucial importance. It is therefore the object of the invention to change the switching devices as inexpensive and reliable as possible for these systems with as few components as possible, especially for outdoor use, and without moving parts and without switching contacts to execute.

The invention is based on a switching device for television receiving systems with two for the optional reception of two transmitters alternately to one receiver antennas to be connected, in their connecting lines with a common feed line to the receiver director, z. B. semiconductor diodes, are turned on, of which each connected to the connection points of the common receiver feed line Directional conductors are polarized differently and by a reversible control DC voltage alternately jumping from the conductive to the non-conductive state, and vice versa, to be brought.

In the case of two symmetrical antennas, the invention consists in the union the following features: a) each of the directional conductors connected in each forward and return line a choke is connected in parallel in such a way that the with the blocking circuit formed by the self-capacitance of the directional conductor on the frequency range to be blocked is matched; b) the two directional guides on the same antenna are for the through the outgoing and return lines flowing control direct current polarized in the same direction; c) the current generated by the control voltage flows over the same lines as the high frequency current and is made by a single made of capacitors and chokes formed switch at the receiver input separated from the high-frequency current.

In the case of two asymmetrical antennas, the invention consists in the union the following features: a) one each connected to the ungrounded supply line Directional conductor is a choke connected in parallel with such dimensions, that the blocking circuit formed with the self-capacitance of the directional conductor to the blocking frequency range is tuned; -b) that of the DC control voltage The generated electricity flows over the same lines as the high-frequency electricity and is made by a single switch made up of capacitors and chokes at the receiver input separated from the high frequency current.

By combining the measures according to the invention is a very simple and cost-saving switching device has been created with the Remote control from the receiver location either one of two television reception antennas can be connected to the common receiver feed line. Under 'waiving failure-prone mechanical changeover contacts are the high demands on the high blocking attenuation and the low transmission attenuation at the high television frequencies (e.g. TV range 11I, 174 to 223 MHz).

The negligible disadvantage in television reception must be accepted that click disturbances arise from reversing the polarity of the DC control voltage, if the antenna is changed while the receiver is switched on.

The transmission attenuation depends on the forward resistance and the achievable Blocking depth at the high television frequencies depends on the inherent capacity of the used Judge from. The directional conductors should therefore have the smallest possible forward resistance and have the smallest possible self-capacitance. These contradicting one another There are no requirements for the semiconductor diodes currently available as directional guides fulfilled to the required extent. This deficiency is after appropriate training the invention compensated by the fact that the harmful self-capacitance of the directional conductor is supplemented by a parallel-connected choke to form a blocking circuit, the frequency range to be blocked, z. B. a television channel or a television area is matched. This prevents the receiving voltage of the antenna from getting through the directional capacitance is loaded and reduced. When the antenna connectors are non-conductive for direct current, these chokes are necessary anyway, to make this DC link.

In another expedient embodiment of the invention Switching device is a further directional conductor between the antenna connections on each antenna switched on, which short-circuits the voltage of the antenna whose current to the Receiving device is locked. This sets the reverse attenuation for the voltage of the unused antenna still enlarged. With two symmetrical antennas this will be Directional conductor on both sides of the high frequency current via a capacitor and each the direct current is supplied via a choke each. With unbalanced antennas is a condenser for the supply only on the non-earthed side of the directional conductor the high-frequency current and a choke for the supply of direct current are required. One choke each and the capacitor connected in series with it are in the respective Antenna feeder lying directional conductor connected in parallel, and each with the same name Poles of the directional conductor belonging to the same antenna are adjacent.

As a control voltage source, according to a further expedient development of the invention is not a power supply unit, but a primary element or an accumulator be used. The DC voltage must namely not have a significant proportion of the Mains AC voltage included, otherwise there is a risk of the mains voltage modulated in the switching diodes of the high frequency and in the television receiver as a brightness fluctuation becomes visible or audible as a humming sound.

In a power supply unit, sufficient screening would be considered Coming voltage of a few volts with a small power a relatively large one Require effort to sieve media. That is why it is more advantageous to have either a primary element to use, which is replaced from time to time, or a small accumulator, which is charged from time to time. This can be done on the accumulator in the light network to be connected charger also be constantly connected, so that the accumulator either only serves as a backup battery or can be charged without further ado when required can.

The basic circuits of two exemplary embodiments are shown in FIGS. 1 and 2 the switching device according to the invention reproduced.

The embodiment according to FIG. 1 is for asymmetrical antennas and Receiver with unbalanced input suitable. Of course she can too can be used for symmetrical antennas and receivers if the antennas and a balun in a known design is switched on at the receiver.

A diode 3 and 4 is connected to each of the antennas 1 and 2. The two diodes are polarized opposite and via two lines 5 and 6 with connected to the inner conductor 7 of a coaxial cable, which serves as a receiver lead. The inner conductor 7 is connected to the receiver 9 via the capacitor 8. One DC voltage source 11, e.g. B. a primary element, the polarity reversed with the pole changer 12 and can be switched off with the switch 11 a, is via a throttle 10 on the inside = conductor 7 connected. The switch 11 a is expediently designed in such a way that that it can only be switched on together with the receiver 9 so that the primary element 11 is not used up unnecessarily.

The serves as a return line for the high-frequency and direct current grounded shielding edge113 of the coaxial cable. The receiver 9 and the DC voltage source 11 (via the pole changer 12) are single-pole grounded so that the circuits for the both streams are closed. If the antennas aren't for direct current anyway are conductively connected to earth, a choke 14 or 15 must be switched on for each antenna which allows the direct current to pass unattenuated and for high frequency a high Resistance forms. The high frequency voltage is supplied by the choke 10 from the DC voltage source 11 and the DC voltage separated by the capacitor 8 from the receiver 9. Ever after the polarity of the DC voltage source 11 flows through one of the two diodes 3 and 4 a direct current, while the other is blocked for the direct current. the The diode through which the direct current flows also allows the much smaller high-frequency current by, while the diode blocking the direct current is also used for the high-frequency current has a high resistance. Depending on the polarity of the control voltage, only one antenna is connected to the receiver with good conductivity, while the other is at the same time is separated by a high resistance. The size of this blocking resistance, which is limited by the self-capacitance of the diodes 3 or 4, can thereby be considerable that the harmful diode capacitance can be increased by a parallel-connected Choke 48 or 49 is added to a blocking circuit for the frequency range to be blocked is matched. The isolating capacitors 46 and 47 are required so that the control DC voltages at the diodes 3 and 4 are not short-circuited by the chokes 48 and 49.

In order to further improve the locking depth, the additional Diodes 44 and 45 short-circuited the voltage of that antenna whose Current to the receiver is blocked by diode 3 or 4. The diodes 44 and 45, respectively are connected to earth on the one hand and to the connection points of the capacitors on the other 46 and 47 and the throttles 48 and 49 are connected.

The control direct current is fed to diodes 44 and 45 regardless of whether the diodes 3 or 4 pass or block, via the chokes 48 and 49 of the lines 5 and 6 respectively supplied. The isolating capacitors 46 and 47 prevent In addition, the short circuit of the DC control voltage through the chokes 14 or 15. The neighboring poles of the diodes 3 connected via the capacitors 46 or 47 and 44 or 4 and 45 must have the same name so that the diode 44 or 45 short-circuits, when diode 3 or 4 blocks, and vice versa. For the reception area of the respective Antennas, the chokes 14 or 15 are expediently with the self-capacitance of the diodes 44 or 45 matched to the reception frequency range of antennas 1 or 2, in order to achieve the Eliminate capacitive loading of the antennas through the diodes 44 and 45, respectively. the Separating capacitances 46 and 47 are to be chosen large in comparison to the diode capacitances.

The arrangement according to FIG. 2 is for balanced antennas and receivers suitable with balanced input.

At the terminals of the antennas 16 and 17 there are two opposite each other polarized diodes 18 and 19 or 20 and 21, which are connected via the double lines 22 and 23 are connected to the symmetrical receiver feed line 24. The ones over the lines 22 and 23 directly interconnected diodes 18 and 20 and 19 and 21, respectively, are also polarized opposite. The double line 24 is via the capacitors 25 and 26 connected to the receiver 27. At the connection points between the double line 24 and the capacitors 25 and 26 is via the chokes 28 and 29 and the pole changer 30 an accumulator 31 is applied as a DC voltage source, which is connected to the switch 32 is switched off. A charger is used to charge the accumulator 31. It exists from the rectifier 34 and the isolating transformer 35, which is switched via the switch 36 and the fuse 37 is connected to the AC mains. The two switches 32 and 36 are expediently operated together. You can do that too be that they can only be switched on together with the receiver. The DC voltage is separated from the receiver by the two capacitors 25 and 26, while from the two chokes 28 and 29 practically no high-frequency current to the accumulator 31 is let through.

Depending on the polarity of the accumulator 31, a control direct current flows through diodes 18 and 19 or diodes 20 and 21 while the other two Diodes do not let the direct current through. If the antennas don't like that The drawn folded dipoles already represent a conductive connection for the direct current, they must be bridged by chokes 38 and 39. The diodes made by direct current are flowed through, also let the much smaller alternating current through while the blocked diodes on the other antenna also for the high-frequency current form high resistance.

In order to increase this blocking resistance, the internal capacities are of the diodes 18, 19, 20, 21 in each case by parallel-connected chokes 50, 51, 52, 53 supplemented to blocking circuits, which are matched to the frequency range to be blocked are. Isolating capacitors 40, 41, 42, 43 prevent the DC control voltages be short-circuited at the diodes 18, 19, 20, 21 by the chokes 50, 51, 52, 53. In order to increase the blocking attenuation even further, between the connection points the choke 50 with the capacitor 40 and the choke 51 with the capacitor 41 or the choke 52 with the capacitor 42 and the choke 53 with the capacitor 43 additional diodes 54 and 55 switched on, each having the voltage of those Short-circuit the antenna whose current to the receiving device is blocked. To do this, the adjacent poles of the diodes, each via the capacitors 40, 41, 42, 43 are connected to each other, be of the same name. The DC control voltage is the Diodes 54 and 55 are fed through chokes 50 and 51 and 52 and 53, respectively. The isolating capacitors 40, 41, 42, 43 prevent these DC control voltages from flowing through the chokes 38 or 39 and the antennas 16 and 17 are short-circuited. The harmful self-capacitance the diodes 53 and 54 each become a blocking circuit through the chokes 16 and 17, respectively supplemented, which is matched to the reception area of the antennas 16 and 17 respectively.

Claims (7)

Claims: 1. Switching device for television reception systems with two for the optional reception of two transmitters alternately to one receiver antennas to be connected, in their connecting lines with a common feed line to the receiver directional conductor are switched on, each of which at the connection points the directional conductors connected to the common receiver feed line are polarized differently and by a reversible DC control voltage, alternating abruptly from the conductive one in the non-conductive State and vice versa by combining the following features in two symmetrical antennas: a) each the directional conductor connected in each forward and return line is a choke in parallel switched in such a dimension that that with the self-capacitance of the directional conductor The blocking circuit formed is matched to the frequency range to be blocked; b) the two directional guides on the same antenna are for the outgoing and return lines flowing control direct current polarized in the same direction; c) that of the control voltage The generated electricity flows over the same lines as the high-frequency electricity and is made by a single switch made up of capacitors and chokes at the receiver input separated from the high frequency current. 2. Switching device for television reception systems with two for the optional reception of two transmitters alternately to one receiver antennas to be connected, in their connecting lines with a common feed line to the receiver directional conductor are switched on, each of which at the connection points the directional conductors connected to the common receiver feed line are polarized differently and by means of a DC control voltage that can be reversed in polarity, leaps and bounds from conductive to non-conductive State, and vice versa, characterized by the union of the following Features of two asymmetrical antennas: a) one in each of the ungrounded antennas Lead switched on directional conductor is a choke in parallel. switched in dimensioning such that that formed with the self-capacitance of the directional conductor Trap circuit is matched to the frequency range to be blocked; b) of the The current generated by the DC control voltage flows over the same lines as the high-frequency current and is created by a single switch made of capacitors and chokes at the receiver input separated from the high frequency current. 3. Switching device according to claim 1, characterized characterized in that a further directional conductor between the antenna connections on each antenna is switched on, with symmetrical antennas on both sides of the high-frequency current Via a capacitor each and the direct current is supplied via a choke each, with a choke and the capacitor connected in series with that in the respective Antenna lead lying directional conductor are connected in parallel and each with the same name Poles of the directional conductor belonging to the same antenna are adjacent. 4. Switching device according to claim 2, characterized in that a further directional conductor on each antenna is switched on between the antenna connections, the same as with unbalanced antennas on the non-earthed side of the high-frequency current via a capacitor and the Direct current is supplied via a choke, the choke and the in The condenser lying in series with the directional conductor lying in the respective antenna feed line are connected in parallel and have poles of the same name for the same antenna associated directional director are adjacent. 5. Switching device according to claim 1 and 3 or 2 and 4, characterized in that the additional between the antenna connections lying directional ladders each a choke is connected in parallel, which the harmful Self-capacitance of the directional conductor added to a blocking circuit, which on the receiving frequency range the antenna connected to it is tuned. 6. Switching device according to claim 1 to 5, characterized in that a primary element or an accumulator as Control voltage source is used. 7. Switching device according to claim 1 to 5, characterized characterized in that an accumulator with a charger that can be connected to the alternating current network serves as a control voltage source. Publications considered: German patent specification No. 565,332; German interpretative document No. 1048 960; German utility model number 1710 975.