DE3407310C2 - - Google Patents

Description

The invention relates to a line-less communication system with transmission of call and dial signaling via the power grid.

So far, for example, from the magazine for electronics and computers, "ELO", Issue 7, 1981, pages 57 to 61, known intrinsic communication systems, whose microphone units are directly connected to the power supply network are switched, are wireless intercoms. Depending on Number of independently managed over the power supply network Conversations are provided in certain transmission channels which the voice information especially with regard to the Frequency-modulated interference-independent transmission.

The object underlying the invention is that principle of intrinsic communication systems there to expand that of the individual microphone units also call and dial signaling from the individual Intercom stations are transmitted via the power supply network can, so that in connection with the well-known family tele a private branch exchange without a line can be realized with appropriate performance features. According to the invention, this is achieved by combining the features 1.1 to 1.8 reached.

It is to be regarded as essential to the invention that the communication system the central adapter device and the external adapter contains direction in which the respective connecting lines  through the corresponding fork switch devices into one Send and a receive channel are divided. Are corresponding pilot audio transmitters are assigned to the transmission channels in the idle state of the communication system via the Stromver supply network constantly a corresponding output signal wear. The reception channels have corresponding pilot tones receiver on which the output signals of the pilot tone transmitter receive. This ensures that the connection paths are constantly monitored via the power supply network.

In contrast, when speaking, H. when the loop is present status, the corresponding pilot tone transmitters are issued switches and only transmit the voice signals.

In the call state, the pilot tone transmitter is called in under broken so that the corresponding pilot tone receiver this Recognizes the call status and the call station to the corresponding call AC voltage can turn on.

Then in the release state and subsequent idle state again activated both pilot tone transmitters so that they correspond correspond to the pilot tone receiver via the power supply network Receive appropriate signals.

The invention is shown in a figurative embodiment Rungsbeispiel explained in more detail, only the ver understanding of the invention necessary switching devices are shown.

The secondary line NAL is divided by means of the first fork switching device GS 1 into the first transmission channel SK 1 and the second reception channel EK 2 . Within the central adapter device ZAE , the first transmission channel SK 1 in a known manner, the frequency modulator MOD and the second reception channel EK 2, the frequency demodulator DEM are switched on, which are merged via channel-specific filter devices (not shown) and are routed together to the power supply network SVN . It can also be seen from the exemplary embodiment that the first transmission channel SK 1 is connected to the first pilot tone transmitter PTS and the second receiving channel EK 2 is connected to the first pilot tone receiver PTE .

Furthermore, the intercom NST has the second hook switch device GS 2 , which divides the line in the same way into the first receive channel EK 1 and the second transmit channel SK 2 . As in the central adapter device ZAE , the transmission and reception channel of the frequency demodulator DEM and the frequency modulator MOD are also assigned to the transmission and reception channel in the external adapter device AAE , which are equally connected to the power supply network SVN via the channel-specific filter devices (not shown). The first reception channel EK 1 has the second pilot tone receiver PTE ' and the second transmission channel SK 2 has the second pilot tone transmitter PTS' . The switching relays T and R mark the loop status and the call status of the NST intercom.

The switching relays NSI, NSA are provided for receiving the dialing pulses, which interrupt the speech wires of the branch line NAL in the rhythm of the dialing pulses in a known manner. With the switching relay T , the speech wires of the branch line NAL are switched off by the call reception switching device, not shown, and the speech path is switched through. The switch contact r is actuated in the ringing rhythm of the call status of the extension line.

In the idle state, a pilot tone is transmitted from the first pilot tone transmitter PTS via the first transmission channel SK 1 as a first output signal, which is received via the power supply network SVN by the second pilot tone receiver PTE ' via the first receiving channel EK 1 . In the same way, a pilot tone is also transmitted from the second pilot tone transmitter PTS ' via the second transmission channel SK 2 from the second output signal, which also reaches the first pilot tone receiver PTE via the power supply network SVN via the second receiving channel EK 2 . This means that the transmission link is constantly monitored via the SVN power supply network.

If, for example, a call is signaled via the secondary line NAL , the switching contact r is actuated in the ringing rhythm and the first pilot tone transmitter PTS is therefore ineffective intermittently. The second pilot tone receiver PTE 'then switches off its output signal cyclically, so that under the condition that the intercom NST has not created a loop state by lifting the handset (the switching contacts t and s are not actuated) the call relay R is actuated clockwise and switches the call station to the AC voltage in a known manner. If the handset is lifted from the intercom NST , the loop contact s is actuated, which in turn switches off the second pilot tone transmitter PTS ' and simultaneously deactivates the call relay R. Switching off the second pilot tone of the PTS ' causes that there is also no output signal at the first pilot tone receiver PTE , and thus the relay T is switched on. In a known manner, the secondary line NAL is thereby switched off in a manner not shown by the call receiving relay and the speech path is switched through. This establishes the connection between the secondary line NAL and the call station NST .

If the call station NST specifically establishes a call connection to the secondary line NAL , the loop is closed and the switch contact s is actuated by lifting the handset. This in turn turns off the second pilot tone transmitter PTS ' , so that the first pilot tone receiver PTE no longer carries an output signal. Thereupon, the switching relay T is switched on, which preparatively connects the number plate pulse relay NSI to the first pilot tone receiver PTE with the switching contact t . With the opening of the number plate at the station NST the loop contact s is now operated in rhythm with the dialing impulses, so that the second pilot tone transmitter PTS ' and thus the first pilot tone receiver PTE contains its output signal in rhythm with the dialing pulses. The number plate pulse relay NSI is then operated in pulsed fashion via the switching contact t , so that, as is known, the auxiliary connection line NAL loop interruption is signaled. The number dialing impulses are thus transmitted from the intercom NST via the power supply network SVN to the secondary line NAL without a line.

Claims (1)

Dedicated communication system with transmission of call and dial signaling via the power supply network, characterized by the combination of features

• 1.1. the communication system contains a central adapter device (ZAE) , in which the respective connecting lines (NAL) are divided into a first transmission channel (SK 1 ) and a second reception channel (EK 2 ) by means of a first fork switch device (GS 1 ),
• 1.2. the communication system contains an external adapter device (AAE) in which the respective line of the intercom (NST ) is divided into a first receive channel ( EK 1 ) and a second transmit channel (SK 2 ) by means of a second hook switch device ( GS 2 ),
• 1.3. the central adapter device (ZAE) and the external adapter device (AAE) are coupled to one another via the power supply network (SVN) ,
• 1.4. a first pilot tone transmitter ( PTS ) connected to the first transmission channel (SK 1 ) delivers a first output signal to a second pilot tone receiver (PTE ′) connected to the first receiving channel (EK 1 ) ,
• 1.5. a second pilot tone transmitter ( PTS ′ ) connected to the second transmission channel (SK 2 ) delivers a second output signal to a first pilot receiver (PTE) connected to the second receiving channel (EK 2 ) ,
• 1.6. the first pilot signal (PTS) delivers the first output signal only when the call and loop closure status is not present (r, t not actuated) and the second output signal is present at the first pilot receiver (PTE) ,
• 1.7. the second pilot signal is emitted by the second pilot tone transmitter (PTS ′) if the loop criterion is not present (s not actuated),
• 1.8. If the first output signal is not available at the second dilton receiver (PTE ') or if the loop criterion (s, t not activated) is not available, a call status can be controlled.