SU1140253A1 - Versions of coaxial cable line - Google Patents

Abstract

1. A coaxial cable line containing intermediate corrections connected in series with a coaxial cable to amplifiers with a power supply voltage regulator and a common source of remote power supply, which is designed to expand the frequency band and reduce distortions during remote power supply corrective amplifiers, the external wire of the coaxial cable is connected to ground at the input and output of the line, intermediate corrective amplifiers are made with differential The input input and between the external wires of the coaxial cable of the input and output of the intermediate correction amplifier are connected to the converter's input (power supply voltage converter, and the common source of the remote power supply is connected in series to the external wire of the coaxial cable.

Description

2. Coaxial cable line, containing intermediate corrections of amplifiers connected in series with coaxial cable, amplifiers with a power supply voltage regulator and a common source of remote power supply, characterized in that in order to extend the frequency band and reduce distortions during remote powering of intermediate correction amplifiers , the external wire of the coaxial cable is insulated from the ground, the intermediate correction amplifiers are wired with inverting inputs in the first and Next, the intermediate corrective amplifiers invert the input connected to the external wire of the coaxial cable, in the remaining intermediate corrective amplifiers the inverting input is connected to earth, and the inputs of the intermediate voltage amplifier converters and the common voltage source of the remote power supply are connected between the external wire of the coaxial cable connecting the first and last intermediate corrective amplifiers, and ground.

3. A coaxial cable line popp.1 and 2, characterized in that, in order to provide remote control, the input of the voltage supply voltage regulator converter of each intermediate corrective amplifier is switched on via a rectifying bridge, parallel to the shoulder of which the remote control relay is connected This remote power supply voltage is turned on via a remote control switch with reversing polarity contacts of the remote power supply.

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The invention relates to a communication technique, specifically to long coaxial cable lines with intermediate correction amplifiers, and can be used for remotely powering and controlling a coaxial cable when transmitting signals, in particular television, telephone and digital, in the original spectrum from zero frequency.

Known coaxial cable line video transmission of a television signal in the original spectrum with zero frequency. Its intermediate correction amplifiers are powered from local power supply sources located along line 1J.

However, due to the lack of remote power supply of intermediate corrective amplifiers and remote control, such a line cannot be made long.

Closest to the present invention, there is a coaxial cable LININ containing intermediate correctional amplifiers connected in series with a coaxial cable with a transformer, alternating voltage supply voltage and a common source of remote supply voltage 2J

However, in the known coaxial cable line it is impossible to transmit signals of zero and adjacent low frequencies, i.e. video-frequency transmission over the television signal line in the original spectrum from zero frequency is impossible and the television signal transmission over coaxial lines is conducted at higher frequencies in the linear spectrum. In addition, the well-known coaxial cable line is complex, since it contains a large number of power filters, to which about half of the voltage of the remote power falls, and the transmitted signal is significantly distorted. This reduces the efficiency of remote power supply.

The purpose of the invention is to expand the frequency band and reduce distortion when remotely supplying intermediate corrective amplifiers.

The goal is achieved by the fact that in the first version of a coaxial cable line containing intermediate correctional amplifiers connected in series with a coaxial cable with a converter-stabilizer of supply voltage and a common source of remote power supply voltage is connected to ground at the input and output lines, intermediate amplifiers are made with a differential input, and between the external wires of the coaxial cable of the input and output of the intermediate coaxial The correction amplifier included the input of a voltage stabilizer converter, and the common source of the remote power supply is connected in series to the external wire of the coaxial cable. In the second variant of a coaxial cable line containing intermediate correctional amplifiers connected with a coaxial cable with a power supply voltage regulator and a common source of remote power supply, the external wire of the coaxial cable is isolated from the Zempi, intermediate correction amplifiers are made with inverting inputs, in the first and last intermediate correction Amplifier x inverting input is connected to an external wire of a coaxial cable l, in the rest Intermediate corrective amplifiers invert the input to ground, and the inputs of the voltage regulator-power converters of the intermediate corrective amplifiers and the common source of the remote power supply voltage are connected between the external wire of the coaxial cable connecting the first and the last intermediate corrective amplifiers and the Zempei. In addition, in any variant of the coaxial cable line for the liver remote control, the input of the voltage stabilizer converter of the power supply of each intermediate corrective amplifier is switched on via a relay bridge, parallel to the arm of which the remote control relay is turned on, and the common source of remote power supply voltage is switched on through remote control switch with reversing contacts or remote power supply polarity. FIG. Figure 1 shows an electrical structural diagram of a coaxial cable line with a series of remote power supply, the first one. riant; in fig. 2 - the same, with parallel remote power, the second option. In the first variant, the coaxial cable line contains intermediate corrections of amplifiers 1 with a converter-stabilizer 2 of the supply voltage and a common source 3 of the distance of the remote control power supply. The external wire of the coaxial cable 4 is insulated from earth and grounded only at the input 5 and the output of the -6 line. In each intermediate amplifier 1, input 7 is filled with a differential and between the external wires of input 7 and output 8 of intermediate correction amplifier 1, the input of the converter-stabilizer 2 of the power supply voltage of this amplifier 1 is connected, and the common source 3 of the remote supply voltage is connected in series to the external wire of the coaxial cable 4 lines. In the second version, coaxial ica-. The hospital line contains intermediate corrections 1 of the amplifiers 1 with a converter-stabilizer 2 of the supply voltage and a common source 3 of the voltage of the remote supply. The external wire of coaxial cable 4 is insulated from earth. Each intermediate correction amplifier is made with an inverting input 9. In the first and last intermediate correction amplifiers 1, the inverting input 9 is connected to the external wire of the incoming coaxial cable 4. In the other intermediate correction amplifiers 1 the inverting input 9 is grounded, and the inputs of the stabilizing converters 2 The supply voltage of the intermediate correction amplifiers 1 and the common source 3 of the remote supply voltage are connected between the external wire of the coaxial cable 4 connecting the first and last intermediate correction amplifiers 1, and ground. Each version of the coaxial cable line also contains a rectifying bridge 10, a remote control relay 11, and a remote control switch 12 with remote power polarity reversal contacts. Coaxial cable line operates as follows. The attenuation of the coaxial cables 4 and its increase with frequency are corrected by corresponding gain and increment with the frequency of the intermediate correction amplifiers 1. In the first variant (Fig. 1) the remote power supply of the intermediate correction amplifiers 1 is performed from a common source 3 of the remote supply voltage via converters- Power supply voltage regulators 2, connected in series with external wires, are coaxial with cables 4 and ground connections of input 5 and output; ode 6 lines. In addition, stabilizer voltage converters 2 supply power supply circuits of intermediate corrective amplifiers against the low frequency (background) voltage noise Vrj operating in the remote power supply circuit combined with the total source voltage of the remote supply voltage 3. The voltage of the common remote power source consists of the writing voltage of the converter-stabilizer 2, which is an increase of the number of intermediate correction amplifiers 1 in the line, and the voltage drops on the external wire of the coaxial cables 4 and the resistances of the glands of the input 5 "and output 6 lines. In the signal circuit (Fig. 1), the low frequency (background) interference of the potential difference acting between the grounds of input 5 and output 6 of the line is suppressed by intermediate corrections of the main amplifiers 1. The suppression is ensured by the fact that the voltage of the disturbance on the output impedance of each converter voltage stabilizer 2, which is interrupted by interference in the remote power supply circuit, is applied to the direct and inverting inputs of the differential input 7 of the fed intermediate correction amplifier 1 and therefore does not affect signal given. Some inequality in the voltage drop of the interference on the internal and external wires of the coaxial cables 4 is compensated by balancing the gain of the direct and inverting inputs of the intermediate correction amplifiers 1.. In the second embodiment (Fig. 2), the intermediate correction amplifier 1 is supplied from a common source 3 of the remote supply voltage via converter voltage stabilizers 2, connected in parallel to the line with an external wire of the coaxial cables 4 and the grounds of the intermediate correction amplifier 1. In this case power supply voltage transducer-stabilizers 2 protect the power supply circuits of intermediate corrective amplifiers 1 from low-voltage (background) interference voltage acting between their grounds total voltage with a common source of 3 constant voltage remote power supply. The voltage of the common source of remote power 3 consists of the power supply voltage of the converter-stabilizers 2 of the power supply voltage and the voltage drops of the remote power supply on the external wire of the coaxial cables 4 and the grounding of the intermediate corrective amplifiers 1. In the signal circuit (Fig. 2) low frequency (background) a) interferer U acting between the grounds of each pair of adjacent intermediate corrective amplifiers 1 is fed to the input inverting input 9 of the intermediate court of the rectifying amplifier 1, which is turned on to the output of cable 4 connecting this pair of amplifiers 1, and is subtracted from the sum of the signal and this interference acting on its direct input. The maximum interference suppression of each line section is determined by selecting the gain of the input inertia input 9 of the intermediate correction amplifier 1 switched on at the input of this section. In both variants of the coaxial cable line, the remote control is performed by changing the polarity of the constant voltage of the remote power supply with the remote control switch 12. At the same time, according to the established polarity of the voltage of the remote power supply via rectifying bridges 10, the remote control relay 11 is released (released).

Perform a command corresponding to the position of the relay 11. In the process of control, at any polarity of the voltage of the remote power supply, through the rectifying bridges 11, the power supply voltage of the transformers-stabilizers 2 is supplied with the voltage of one polarity required for their operation. In addition, pilot bridges 10 protect intermediate correction amplifiers 1 in case of a random change in the polarity of the remote power supply.

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Thus, the proposed coaxial cable line with remote power supply of intermediate correction amplifiers, in comparison with the known one, eliminates a variety of power filters, eliminates the frequency multiplexing of the transmitted signal, provides the video frequency transmission of the television signal in the original spectrum, increases the coefficient of useful power of the remote power and reduces interference and distortion coaxial cable line.

Claims (3)

1. A coaxial cable line containing intermediate corrective amplifiers connected in series with a coaxial cable with a converter-stabilizer of the supply voltage and a common source of remote supply voltage, which is related to the fact that, in order to expand the frequency band and reduce distortion at remote power supply of intermediate correction amplifiers, the external wire of the coaxial cable is connected to ground at the input and output of the line, intermediate correction amplifiers are made with differential the input, and between the external wires of the coaxial cable of the input and output of the intermediate correction amplifier, the input of the converter-stabilizer of the supply voltage is turned on, and the common voltage source of the remote power supply is connected in series to the external wire of the coaxial cable. 1 140253 2. A coaxial cable line comprising intermediate corrective amplifiers connected in series with a coaxial cable with a converter-stabilizer of the supply voltage and a common source of remote supply voltage, characterized in that, in order to expand the frequency band and reduce distortion during the remote supply of intermediate corrective amplifiers, an external coaxial cable cable is isolated from earth, intermediate correction amplifiers are made with inverting inputs, in the first and last m of intermediate correction amplifiers, the inverting input is connected to the external wire of the coaxial cable, in the other intermediate correction amplifiers, the inverting input is turned on to the ground, and the inputs of the converter-voltage stabilizers of the intermediate correction amplifiers and the common voltage source of the remote power supply are connected between the external wire of the coaxial cable connecting the first and the last intermediate corrective amplifiers, and ground. 3. Coaxial cable line according to claims 1 and 2, characterized in that, in order to provide remote control, the input of the converter-stabilizer of the supply voltage of each intermediate correction amplifier is connected through a rectifier bridge, parallel to the shoulder of which a remote control relay is connected, and a common constant source The remote power supply voltage is turned on via the remote control switch with the reverse polarity reversing contacts of the remote power supply.