RU2027306C1 - System for transmitting data along wires of broadcasting - Google Patents

Abstract

FIELD: communication engineering. SUBSTANCE: system has data transmitter 1, data receiver 2, two-wire line 3, user's line 4, amplifier 5, transformer 6, complex resistors 7 and 8, resistor 9, address code receiver 10, contacts 11 of controlled relay 12. Device may have according to variant of description of the invention of clause 2, threshold element 13, additional controlled commutator 14 provided with switching contact 15 and signal converter 16. Systems provide two-side communication among users of common electric communication system by means of simple means with low power losses of signals transmitted. EFFECT: improved efficiency; improved reliability of operation. 2 cl, 1 dwg

Description

 The invention relates to telecommunication systems and is intended to be used as a system for two-way communication between subscribers of a wire broadcasting line (PV).

 Similar systems are known based on the use of proprietary telecommunication lines specially laid for this purpose. Moreover, systems with galvanic separation between all subscribers are known. In this case, each subscriber is assigned a specific address code. There are various methods of encoding a subscriber address and a method of encoding transmitted address signals (their number is unlimited). However, all known systems are quite complex.

 The system does not violate the transmission of broadcasting signals, but provides each subscriber with a broadcast option to transmit their own information. For this, it is proposed to use an electric circuit: two PV wires - ground. The use of such electric circuits (phantom, artificial) is known (Picard circuit), but their use on the subscriber lines of the air supply is not known.

 The subscriber lines of the PV (excluding the stray complex resistance of wire leakage to ground) are symmetrical electrical circuits relative to the electrical "ground" (to which, for example, the neutral wire of the household power network is connected). The broadcast signal currents are closed in physical circuits, i.e. circuits between two wires of the subscriber line PV.

 The drawing shows an electrical diagram of the proposed system for transmitting information through the PV line.

 The system comprises an information transmitter 1, information receiver 2, two-wire broadcast line 3, subscriber line 4, amplifier 5, transformer 6, first and second complex resistances 7 and 8, resistor 9, address code receiver 10, contacts 11 of the managed switch 12, a threshold element 13, an additional managed switch 14 with a switching contact 15 and a signal converter 16.

 The information transfer system operates as follows.

 Since the subscribers of this information transmission system are interconnected by a common two-wire telecommunication line, each subscriber has an address code receiver 10 that responds only to the address code of this subscriber. The input of this receiver is not switched and is constantly connected to a circuit of telecommunication lines: two wires of the telecommunication line are ground, and currents of broadcast program signals flow through the physical circuit of this telecommunication line. The amplifier 5 amplifies information electrical signals (for example, speech, converted into electrical) and, very importantly, has a low output impedance. The electrical load of the amplifier 5 is the primary winding of the transformer 6, the first secondary winding of which transmits the power of information signals to the circuit: two wires of the PV line - ground. The electrical midpoint of the two wires of the PV line is formed by connecting two complex resistances 7 and 8, which are not equal to each other. This allows you to compensate for the asymmetry voltage between this point and the ground from the signals of the broadcast programs and the zero potential difference from the signals transmitted along the circuit: two wires of the PV line - ground between the wires of the PV line. Due to this, the impossibility of listening in each of the two indicated chains of information transmitted along the other circuit is ensured. In addition, it is important that the information signals in the circuit: two wires - the earth are closed to earth through a resistor 9. In this case, the voltage drop from the transmission signals, i.e. from the output of the amplifier 5, at this active resistance it is out of phase and equal to the transmission voltage acting between the terminals of the second secondary winding of the transformer 6. As a result, the transmission signals of this subscriber set are compensated at the inputs of the own receiver 10 of the address code and information receiver 2 for which these signals are an obstacle . The presence of contacts 11, controlled by the receiver 10 of the address code, provides simultaneous communication only with the called subscriber or group of subscribers.

 For reception signals, the presence of a small output resistance of the amplifier 5 ensures that all the transformer windings are bypassed by this recalculated resistance and, therefore, the attenuation of the received signals in the transformer 6 windings is almost close to zero. At the same time, some of the power of the received signals is spent on the resistor 9, the value of which is chosen as a compromise between large - to reduce the power loss of the reception signals and small - to reduce the power loss of the transmitted signals at this resistance and increase the power of the received information.

 The operation of the device according to claim 2 of the invention differs from the operation of the device according to claim 1 only in that the first threshold element 13 (which may have an input envelope detector of information signals and an integrator) is triggered only when the necessary address code is received and if there is received information signals. Address information of the called subscriber, as in the device according to claim 1, is formed by the transmitter 1 of the information of the calling subscriber. Thus, using pin 15 of the additional managed switch 14, the signal converter 16 is switched. Thus, two-way transmission of information is maintained.

Claims (2)

 1. INFORMATION TRANSMISSION SYSTEM FOR WIRELESS BROADCAST LINES containing, for each subscriber, an information transmitter and an information receiver, characterized in that the two-wire broadcast lines are connected to the subscriber line, and the first and second complex resistances are connected in series between the wires of the two-wire broadcast line, the connection point of which is connected with the first terminal of the first secondary winding of the transformer, the second terminal of which is connected to the first terminals of the second secondary winding of the transformer and the resistor the second output of which is grounded, while the second output of the secondary winding of the transformer is connected to the input of the address code receiver and through the contact of the managed switch to the input of the receiver, and the output of the address code receiver is connected to the control input of the managed switch, the first and second outputs of the information transmitter are connected through an amplifier with the first and second terminals of the transformer primary winding, the second terminal of the transformer primary winding, the second output of the information transmitter, the address code receiver, and ISRC information grounded, and the first and second transformer secondary windings included counter.  2. The system according to claim 1, characterized in that the additional input of the information receiver is connected to a grounded threshold element, the output of which is connected to the control input of the additional managed switch, the contacts of which are connected to additional terminals of the information receiver and information transmitter, and the switching contact of the additional managed switch connected to a grounded signal converter.