DE19724071C2 - Shortwave transmitter with audio signal feed via an analog main telephone connection - Google Patents

Description

The present invention relates to a shortwave Transmitting system with a short wave transmitter, an Au diosignal source and one at the low frequency pass of the shortwave transmitter connected medium for one output from the audio signal source benes audio signal.

For example, the following is available as an audio signal source for supplying the short-wave transmitter:

• - A recording device, such as a analog or a digital recorder, such as a cassette recorder or a data recorder or a mini disc recorder, and
• A pure playback medium, such as a CD Player, but also
• - "live" generated sound events, such as Re port agen.

The audio signal source can either be directly on Location of the shortwave transmitter or to this be transmitted.

The following alternatives, possibly in combination, are available as source media from an audio signal source to the input of the shortwave transmitter:

• - The transmission by satellite, the so-called Satellite downlink;
• - A terrestrial 7 kHz or 15 kHz tonlei processing;
• - an ISDN connection.

The above, currently used Zu However, game media are especially for Live calls agreed at short notice not in proved to be realizable. One reason for this is that, for example, renting a Satellite channel or a terrestrial tonlei often too time consuming and not least for is too expensive for customers.  

The ISDN (Integrated Services Digital Network) provides a purely digital transmission system stem represents different services such as Example Telex, Teletex and telephone network, too summarizes or integrated. For use To use this system, the user needs one special ISDN apparatus that can be used for communication special data transfer Protocol created, the connection of the ISDN Devices with the ISDN network via an ISDN Connection is made. ISDN has a variety of na tional types of protocol, the Proto different providers don't cooperate with each other are compatible. From this characteristic it follows that that a use of an ISDN connection is common the incompatibilities between the ISDN devices different manufacturers fail. That is, if an ISDN connection to the input of the shortwave transmitter is used, two functionally the same ISDN devices that have the same proto create koll for transmission, the first ISDN device at the input of the shortwave transmitter is closed and the second at the customer, wel want to use the shortwave transmitter. The white The ISDN device required at the entrance the shortwave transmitter is also connected a digital-to-analog converter to work with the analog ar working shortwave transmitter in communicative connection to be able to kick.

A live broadcast planned via ei NEN shortwave transmitter with an ISDN device is like this associated with a high technical effort, which costs the use of the shortwave transmitter becomes cheap.  

DE 42 32 294 A1 discloses a control device for Radio systems, which are preferably used in the ground which sea radio traffic finds. It is suggested, a radio system via an operating device, at for example in the manner of a telephone set Taxes. However, the system of the stand affects the technology only permanently installed arrangements, so that problems caused by incompatible di gital devices arise, not addressed become. The general problem of the state of the Technology is not affected.

An object of the present invention is in creating a shortwave transmitter that also the realization of short-term planned live  Broadcasts from almost anywhere in the world cost enables cheap.

This task is solved by the characteristic Features of claim 1. Advantageous further training endings of the invention are in the subclaims specified.

The invention is therefore based on the knowledge that that the main analog line of a telephone zes then excellently as a playback medium for the Short-wave transmitter in question is suitable if a special modified telephone connection is used on the part of the shortwave transmitter, the disadvantages of a conventional phone excludes advice for this purpose and as a qualita High-quality link between the telephone network and shortwave transmitter is suitable. Conventional Te telephones are for this purpose due to the Feedback loss, the distortion of the LF signal by the alarm clock of the telephone set (inductive Inputs) and the capacitor of the telephone ap parats (capacitive disturbances) not suitable.

The network connection module according to the invention consists in essentially from a call evaluation and a ver hesitating pulling relay, that, first of all adjustable, after a predetermined number of Ring signals, for example three ring signals, the required DC loop between the telephone network  and the shortwave transmitter switches and the Connection for the duration of the audio signal transmission hold. The power supply module itself is electrical constructed in such a way that it is mediated by an operator place of the telephone network like a conventional one Telephone set is manageable.

There is a possibility of speaking at the Netzanschlußmo dul basically not provided for the Einkopp distracting noises at the location of the network exclude conclusion.

Compared to a conventional telephone set is missing the power supply module is also the usual choice possibility of switching noises generated thereby to prevent.

An advantage of the shortwave Transmitting system based on the analog telephone Main connection and compared to the conventional tele Modified network connection module exists in that they have completely new marketing opportunities allowed because customers can be addressed, who either have no satellite channel or ISDN have rented, or those renting a fixed terrestrial line is too expensive. Besides, he the shortwave transmitter system according to the invention a relatively good transmission quality of the Audio signal through the short wave transmitter. Since the frequent public analog telephone network day and night  stands ready, can shorter response times be guaranteed.

Advantageous fields of application of the short-wave transmitter system according to the invention relate to:

• - Emergency concepts for broadcasters for the case that a normal modulation feed to the shortwave transmitter due to external influences foreseeable fails for a long time, so that Short-term replacement for the respective customer must be switched
• - a short-term realization of unscheduled customer requirements if a qualitative high-quality modulation feed not yet or no longer provided on time and the customer is not satisfied with other means can be put.

Another advantage is that this is invented appropriately provided playback medium for the Shortwave transmitter in the form of a network connection module and the telephone network inexpensive rea can be lized.

It is advantageously provided that signals from the power supply module via an output transformer decouple, especially via a transformer a transmission ratio of 1: 1 and an Im 600 Ω. Such a transformer ensures  a high quality decoupling of the Audio signal from the network on the short-wave transmitter side connection module and easy reworking speed of the audio signal with commercially available components th.

Basically, the audio signal can be short source remote from the wave transmitter via the public Telephony network with relatively high quality be. Because modern national and international tional telephone connections usually over digital switching centers or ISDN connections are only annoying cracking noises still available in exceptional cases. Through the inter national standardization of telephone network line amplifiers ker also the noise level is usually very low. The transmission range therefore exceeds often the classic telephone transmission area from 300 to 3,400 Hz, so that the audio signal norma not the dull character of a phone has connection.

Nevertheless, there is still a need for one higher transmission quality for shortwave Broadcasting, as the quality that is basically about the analog phone line will be provided can. An improvement in intelligibility leaves through an appropriate audio signal rework processing between the power supply module and the Reach short-wave transmitters, for example preferred  using an audio equalizer with which the Signal levels preferably for frequencies greater 1 kHz is raised to the maximum possible Ka channel width of the short-wave broadcasting, the 5 kHz be helps to be able to use better, which leads to a leads to improved subjective auditory impression.

Furthermore, the entrance of the short is advantageous wave transmitter a signal amplifier, approximately in shape of an audio amplifier with a power of 4 watts upstream to give the audio signal otherwise the audio processed with the equalizer signal on the necessary for the shortwave transmitter maximum input level of 1.55 V at 600 Ω too strengthen. This level corresponds to a modulati Degree of 100% at the transmitter input of the shortwave transmitter, which is thus fully controlled. before the output of the power ver strengths via another 1: 1 transformer with egg ner impedance of 600 Ω coupled and in the usual low-frequency crossbar distributor of the Shortwave broadcasting station fed.

In summary it can be stated that by the post-processing of the above audio signal received by the telephone set and the level adjustment to the shortwave transmitter Good quality audio signal provided can be.  

The shortwave transmitter system according to the invention is suitable is particularly good for spontaneous use, at for example for live broadcasts, because the playback medium in the form of the telephone network and the network final module, for example in the form of a correspondence accordingly modified telephone, very short-term can always be provided. In practice it was found that a calibration phase of about five Minutes is enough to connect the shortwave transmitter with the be optimally modulate the provided audio signal can. This calibration phase serves, among other things, set various parameters based on different signal levels at different na tional telephone networks are available. If the If the transmission is complete, the customer can broadcast tig the supply of the modulation signal or Audio signal by actively disconnecting the phone end connection.

The use of a second main connection as a feedback line can be useful if the Telephone connection, for example, due to an error unexpectedly collapses on the transmission path.

The invention is described below with reference to the drawing exemplified in more detail; show it:

Fig. 1 shows schematically a circuit diagram of the short wave transmitter system according to the invention, and

Fig. 2 is a circuit diagram of the invention provided for the short-wave transmitter system NEN connection module.

Fig. 1 shows a block diagram of the short wave transmitter system according to the invention. Accordingly, the short-wave transmitter system has a short-wave transmitter, for example a 100 KW short-wave transmitter 1 , which is connected with its low-frequency input to a low-frequency crossbar distributor 2 . Of course, it is also conceivable and advantageous to provide several short-wave transmitters. The short-wave transmitter 1 is supplied with an audio signal from an audio signal source (not shown) via a playback medium. The source medium he has according to the invention an analog main connection, which is symbolized in Fig. 1 by a telephone connection device or TAE 3 with output lines a and b, and a power supply module 4 , which is connected via lines a and b to the Telefonanlageneinrich device 3 , When the network connection module 4 is a device that has some functions of a conventional telephone, so that a remote switching center of the telephone network recognizes the network connection module as a telephone. In the following, the network connection module is therefore also referred to as a telephone. The telephone set 4 is connected on the output side to a transformer 5 which has an impedance of 600 Ω and a transmission ratio of 1: 1. This transmitter 5 can also be integrated into the telephone set 4 , as explained below with reference to FIG. 2.

The transmitter 5 is followed by an equalizer 6 with a prever. The output of the equalizer 6 is connected to the input of a power amplifier 7 , which can be a commercially available hi-fi amplifier with a power of, for example, 4 watts. Between the output amplifier 7 and the low-frequency crossbar distributor 2 , a further transformer 8 is connected with the same parameters as the transformer 5th In addition, a power supply unit 9 is provided, which obtains a low-voltage DC voltage from the AC voltage network, in order to supply it to the active components of the short-wave transmitter, as shown by lines 10 to 13 . These connecting lines are only shown as examples. In addition, connecting lines to the equalizer 6 are provided, but are not shown in FIG. 1.

As soon as a direct current loop is set up in the telephone apparatus 4 between the apparatus input and the apparatus output, the audio signal received by the telephone apparatus 4 from the analog telephone network is fed via the transmitter 5 into the equalizer 6 , where a post-treatment of the audio signal takes place, in particular an increase the frequencies <1 kHz. In the amplifier 7 , the level of the output signal of the equalizer is raised so far that the short-wave transmitter 1 is fully controlled by the maximum amplitude of the audio signal. The output signal from the amplifier 7 is distributed via the transformer 8 in the low-frequency crossbars 2 and fed by this to modulate the short-wave transmitter 1 in this.

The modified telephone set 4 is explained in more detail below with reference to FIG. 2.

The telephone set shown in FIG. 2 has an activation relay AR and an operating relay B, which are controlled by active components.

Terminals a and b are connected to the identically marked lines a and b of the Telefonanlagenein direction 3 . Relay contacts b ^I and b ^{II of} the operating relay B connect the connection terminals a and b depending on the relay position with a bridge rectifier B1 or with an output transformer. The transformer Ü has a transmission ratio of 1: 1, an input impedance of 600 Ω and an output impedance of the same level. On the output side, the transformer U is connected to output terminals A1 and A2, which are connected to the equalizer 6 (see FIG. 1). Diodes D ₁ and D ₂ are connected in parallel antiparallel to the output winding of the transformer U.

The AC voltage points of the bridge rectifier B1 are connected on the one hand a capacitor C ₁ and on the other hand a resistor R ₁ . The DC voltage points of the bridge rectifier B1 are connected to the input of an integrated optocoupler IC1, which is internally connected to a photodiode as a transmission element, which is opposite an NPN phototransistor as a reception element, the emitter of which is connected to ground and the collector of which is connected to the diode via a diode D ₃ Activation relay AR is connected, which on the other hand is connected to a +12 V supply voltage. A diode D _{4 is connected in} parallel to the relay AR, the cathode of which is connected to the +12 V supply voltage.

In addition, a timer IC2 is provided, which is implemented in example by an integrated circuit NE 555 and is connected to the +12 V voltage and the ground. In particular, this Zeitge is connected as a monostable multivibrator, and its set input is connected to the +12 V supply voltage via a resistor R ₂ . A resistor R ₃ and a capacitor C _{2 are also} connected to the set input, which are switched in parallel and can be connected to ground via a relay contact AR ^{II of} the activation relay AR, as explained below.

The output of the timer IC2 is connected to the +12 V DC voltage via a variable resistor P ₁ and to ground via a capacitor C ₄ . In addition, the timer is connected via a resistor R ₃ to the base of an NPN transistor T ₁ , the emitter of which is connected to ground, and the collector via a resistor R ₄ with a relay contact AR ^{I of} the relay AR and a relay contact b ^III of the operating relay B is connected. In addition, the collector of the transistor T _{1 is} connected to the base of a further NPN transistor T ₂ , the emitter of which is connected to ground via a trigger switch S, and the collector of which is connected to the control winding of the operating relay B. Furthermore, the operating relay B is connected to the cathode of a diode D ₆ , the anode of which is connected via a resistor R ₆ to a light-emitting diode LED whose cathode is at ground. A diode D7 is connected in parallel to the operating relay B, the cathode of which is at the connection point of the diode D ₆ with the relay B. A diode D _{5 is} connected to this connection point with its cathode, the anode of which is connected to a buzzer Su via a resistor R ₅ , which on the other hand is connected to ground. In addition, the anode of the diode D ₅ is intended to be connected to the relay contact ar ^I depending on the relay position. Similarly, the anode of the diode D ₆ is intended to be connected to the relay contact b ^III depending on the relay position.

The function of the telephone apparatus shown in Fig. 2 will now be explained.

The coming from a switching center via the TAE 3 incoming call is with an alternating voltage at the terminals a and b of the telephone set and is via the relay contacts b ^I and b ^II and via the decoupling capacitor C ₁ and the resistor R _{1 to} the bridge rectifier B1 , The positive half-wave of the alternating voltage rectified by the bridge rectifier B1 is used to control the optocoupler IC1, the resistor R ₁ serving as a series resistor for the optocoupler IC1. The photodiode of the optocoupler IC1 therefore lights up in rhythm with the outside call, so that the phototransistor of the optocoupler IC1 switches through and leads to ground potential at its collector terminal. Via the decoupling diode D ₃ , the activation relay AR can now call in the rhythm of the office.

As soon as the circuit of the telephone set is activated by the activation relay AR, the capacitor C _{2 is} discharged. When the first incoming call comes in, the relay contact ar ^II closes and sets the timer IC2, which is switched as a monostable multivibrator, at its set input. The capacitor T ₂ now charges up via the resistor R ₂ and prevents the set input of the timer IC2 from being set on the following outside calls.

At the output of the timer IC2 is for the duration of the time constant defined with the variable resistor P ₁ and the capacitor C _4, a signal high logic state at the level of the +12 V supply voltage.

About the series resistor R ₃ , the base-emitter path of the NPN transistor T _{1 is} conductive and blocks the NPN transistor T ₂ , so that the operating relay B can not yet attract, although the relay contact Ar ^{I is} closed at every call interval and The buzzer sounds in the rhythm of the outside call.

The time constant determined by the variable resistor P ₁ and the capacitor C ₄ keeps the output of the timer IC2 at the high logic level for a defined period of time. After about three to four calls, for example, the IC2 timer returns to its idle position; this means that 0 V is now present at its output and the NPN transistor T ₁ blocks again. Via the resistor R ₄ before, the NPN transistor T _{2 can} now switch through, so that when the relay contact ^I ar closed, the operating relay B can attract. The operating relay switches its own stop via relay contact b ^III and diode D ⁵ . The relay contacts b ^I and b ^II switch off the call evaluation around the bridge rectifier B1 and connect the output transformer Ü to the trunk of the main connection: the DC loop is closed and the switching center is now properly switched off in the exchange.

The diodes D ₁ and D ₂ serve as overvoltage protection and prevent undesirably high voltage spikes <0.65 V _ss on the input of the equalizer 6 . The light-emitting diode LED signals the successful establishment of the telephone connection via the series resistor R ₆ .

After the end of the telephone connection by the customer on the transmitter side (call side), the button S in the emitter branch of the NPN transistor T _{2 must} be actuated manually on the receiving side by an operator in order to interrupt the holding loop of the operating relay B. The operating relay B then drops out and the circuit of the telephone set is then ready for a new outside call.

Claims (16)

1. Short-wave transmitter system with at least one short-wave transmitter ( 1 ), an audio signal source and a playback medium ( 3 , 4 ) connected to the low-frequency input of the short-wave transmitter ( 1 ) for an audio signal output by the audio signal source, the playback medium being a Analog main connection ( 3 ) of a telephone network and a network connection module ( 4 ), which is designed as a device for receiving and forwarding the audio signals from the main connection to the low-frequency input of the short-wave transmitter ( 1 ) by using a call evaluation device (B1, AR, IC1 , IC2), characterized in that a delayed pickup relay (B) controlled by the call evaluation device (B1, AR, IC1, IC2) is provided which, after a predetermined number of incoming call signals, has a DC loop between the input and output of the Mains connection module ( 4 ) switches and holds for the duration of the audio signal transmission. 2. Short wave transmitter system according to claim 1, characterized characterized in that the predetermined number of incoming call signals is adjustable, preferred is three. 3. Short-wave transmission system according to claim 1 or 2, characterized in that the network connection module ( 4 ) has an output transformer (5, Ü) which couples out the audio signal with a predetermined ratio and a predetermined impedance. 4. Short-wave transmitter system according to claim 3, characterized characterized in that the predetermined ratio is 1: 1 is. 5. Short-wave transmitter system according to claim 3 or 4, characterized in that the predetermined Impe is 600 Ω. 6. Short-wave transmitter system according to one of claims 1 to 5, characterized in that the Netzan circuit module ( 4 ) has a switch (S) for manual interruption of the DC loop. 7. Short-wave transmitter system according to one of claims 1 to 6, characterized in that the Netzan circuit module ( 4 ) is followed by a device ( 6 ) for processing the audio signal. 8. Short-wave transmitter system according to claim 7, characterized in that the device ( 6 ) for Bear processing of the audio signal generates a level increase for frequencies <1 kHz. 9. Short-wave transmitter system according to claim 8, characterized in that the device ( 6 ) for processing the audio signal has an audio equalizer. 10. Short-wave transmitter system according to one of claims 1 to 9, characterized in that the low frequency input of the short-wave transmitter ( 1 ) a circuit device ( 7 ) for signal level adjustment is connected upstream. 11. Short-wave transmitter system according to claim 10, characterized in that the circuit ( 7 ) for Si signal level adjustment is an audio amplifier. 12. Short-wave transmitter system according to claim 11, there characterized in that the audio amplifier a HiFi amplifier is. 13. Short wave transmitter system according to claim 11 or 12, characterized in that the audio amplifier has a power of about 4 watts. 14. Short-wave transmitter system according to claim 11, 12 or 13, characterized in that the signal matching circuit ( 7 ) is a transformer ( 8 ) switched on, which couples the audio signal with a predetermined ratio and a predetermined impedance. 15. Short-wave transmitter system according to claim 14, there characterized in that the predetermined ratio nis ratio is 1: 1. 16. Short wave transmitter system according to claim 14 or 15, characterized in that the predetermined Impedance is 600 Ω.