FR2536227A1 - METHOD AND APPARATUS FOR TRANSMITTING SIGNALS - Google Patents

Abstract

METHOD AND APPARATUS FOR THE SIMULTANEOUS AND MUTUALLY INDEPENDENT TRANSMISSION OF TWO NON-MODULATED SIGNALS A, B ON A SINGLE CONDUCTOR 1. AN OPERATIONAL AMPLIFIER 1 IS USED FOR THIS PURPOSE, CONNECTED TO THE FEEDBACK CIRCUIT AND WHICH REFLECTS A VOLTAGE SIGNAL B THE OPERATIONAL AMPLIFIER 4 AND MAINTAINS THIS VOLTAGE SIGNAL B AT A CONSTANT VALUE AND INDEPENDENT OF ANY CURRENT VARIATIONS, SUCH AS A CURRENT SIGNAL TO BE TRANSMITTED FROM THE OPPOSITE END OF SAID TRANSMISSION CONDUCTOR 1 , THAT THE VOLTAGE SIGNAL B CAN BE DETECTED ON THE OPPOSITE END OF CONDUCTOR 1 AND THAT THE CURRENT SIGNAL A CAN BE DETECTED ON THE END WHERE WE APPLY IT VOLTAGE SIGNAL B. APPLICATION A ANY INSTALLATION WHERE YOU WANT TO SIGNIFICANTLY REDUCE THE VOLUME AND LENGTH OF CONNECTION WIRES AND CABLES.

Description

The invention relates to a method for transferring

  simultaneous, and mutually independent, two non-

  modulated on a single driver, as well as to a device for

the implementation of this process -

  For the simultaneous transfer of two non-

  modulated, prior processes and apparatus require the pre-

  presence of a driver for each signal In many

  This resulted in the presence of bundles of

  extensive and extensive which not only occupy a lot of

  place, but are also very expensive.

  The object of the present invention is to provide

  a method and apparatus for enabling transmission

  signals, as mentioned above, by a single

  tor. This object is achieved according to the present invention by the fact that a current signal is applied at a first end of the conductor and that a signal of

  voltage at its other end, which is connected by

  of sensitive resistance, to a circuit which ensures

  the return of the opposite end of the driver in order to

  hold the voltage at this other end of the conductor to a value equal to that of the signal, and also by the fact that the current or intensity signal is taken at the terminals of the

  resistance or between sensible resistance and

  baked above, while the voltage signal is taken from

  the first end of the single conductor.

  The apparatus for implementing this method is

  characterized by the fact that the output of an amplifier

  rational with a signal input and a return input

  coupling is connected to the other-or second end of the con-

  driver of signal transmission through a

  sensible resistance and can maintain the tension in the-

  as a function of the signal input voltage and at a constant level, by a return coupling between the signal transmission conductor and the feedback coupling input of the operational amplifier, and that finally the first one end of the signal transmission conductor is connected to a circuit for the input of an input signal which can be detected at the output of the operational amplifier or across the sensitive resistor, while the voltage of the driver can be detected at the first end of

this driver.

  Thus, thanks to the method and apparatus according to the present invention, it is possible to transmit on a single conductor a voltage signal and a current or intensity signal, these signals not being modulated and being either

  in direct current, or in alternating current.

  Different possible modes of realization of the pre-

  This invention will now be described in more detail with reference to the accompanying drawings, in which: FIGURE 1 is a schematic diagram showing the principle upon which the present invention is based, and FIGURE 2 shows a relative circuit diagram

  to two possible variants of embodiment of the apparatus

the present invention.

  A single signal conductor, designated 1, connects two points or circuits 2 and 3, the last of which, 3, Can be considered to be located to the left of the double dashed line separating these two points, while point 2 is located right On this single signal conductor 1 it is desired to transmit simultaneously, and mutually

  two signals A and B, the signal A being trans-

  3 at point set point / 2, while signal B is transmitted from point 2 to point 3 Signal B is a voltage signal and signal A is a current or intensity signal Point 2 includes an amplifier 4 which corresponds to the signal B at its

  positive input and whose output is connected, via

  The end of the resistor 5, which is connected to the conductor 1, is further coupled back to the negative input of the operational amplifier 4 via a resistor 5. dbrne resistance 6 The opposite end of the signal conductor 1 is connected to the base of a transistor T1 and the base of a transistor T 2 The collector of transistor T1 is connected to a positive voltage source (+) , while the emitter of the same transistor T1 is grounded through a resistor 7, the emitter of this transistor T1 is also the output of the signal B Thus, the signal B at the positive input of the operational amplifier 4 can be detected on the emitter of the transistor T1. In the circuit represented in FIG. 1, the base of the transistor T1 is coupled to the collector of the transistor T 1 while the base of the transistor

  T 2 is connected to the coupling between the two resistors 8 and 9.

  The emitter of the transistor T 2 is connected to an input for the signal A via a resistor 10. At point 2, there is provided another operational amplifier 11 whose negative input is connected, via a diode 12, at the output of the operational amplifier 4 as well as at the positive voltage supply (+) via a resistor 13 The connection between the diode 12 and the output of the operational amplifier 4 is connected to the base of a third transistor T 3 through a resistor 14 The collector of this transistor T 3 is set to

  by means of a resistor 15, while the emitter

  of the same transistor T 3 is connected to the transmission conductor 1

  signal assignment This conductor 1 is also connected to the positive input of the operational amplifier 11 via a resistor 16 The resistor 9 and the point 3 are connected to the positive voltage supply (+) while the resistor 7 is grounded M) As shown in FIG. 1, the voltage change produced by the signal B is verified in the signal transmission conductor 11 and will be coupled back to the negative input of the amplifier operational 4 going through the

  Thus, the operational amplifier 4, independently

  of the current flowing in the conductor 1 of

2536227-

  signal transmission, maintains the voltage change provided by the signal B in this conductor 1, this voltage change can be obtained via the emitter of transistor T1, as shown in B The change in current produced through signal A in the conductor 1 does not interfere in any way with the voltage change effected by the signal B, given the feedback coupling of the operational amplifier 4, but the current signal A will give rise to a voltage between the terminals of the resistor 5, a voltage that can be detected thanks to the transistor T 3 and

  the operational amplifier 11, so that this last

  The highest circuit shown in Figure 2 shows a slightly modified version;

  on the slave side, an alternating current signal

  tif is transmitted and applied in the direction of arrow A to the pilot or master circuit and can be detected by the

  capacitor at the output of the operational amplifier.

  A DC signal is applied to the positive input of the operational amplifier and can be detected on the

slave side in 8.

  The lower circuit of FIG. 2 is able, on the slave side, to transmit a direct current signal to the pilot-circuit side. The dashes c and d further show that the two slave sides and the two pilot circuits can

  possibly be combined with each other.

Claims (2)

  1 Method for Simultaneous and Mutual Transmission   independent of two non-modulated signals by a   single carrier, characterized in that a current signal (A) is applied to a first end (3) of the conductor (1), and a voltage signal (B) is applied to the second end (2) the driver (1),   this second end being coupled through the intermediary   resisting (5) a circuit having feedback coupling from the second end (2) of the conductor (1) to maintain the voltage at the second end of the conductor at a value equal to that of the signal voltage supply (B), and furthermore that the current signal (A) is obtained through said sensitive resistor or between this sensitive resistor (5) and said circuit, while the voltage signal - (A) is obtained from said first end (3) of the conductor (1).   Apparatus for carrying out the process according to   vendication 1, characterized in that it comprises an operational amplifier (4) having a signal output (+) and a feedback coupling input (-), while its output is connected to the second end (2) d 'a   signal transmission conductor (1), via   sensitive amplifier (5), this amplifier being able to ensure that the voltage of the conductor (1) is dependent on the voltage that exists at the input (+) of the signals and unchanged, thanks to a feedback coupling ( 6) between the signal transmission conductor (1)   and the feedback coupling input (-) of the amplifier.   (4), and that the first end (3) of the   signal transmission conductor (1) is connected to a circuit for the input of a current signal (A) which can be detected at the output of the operational amplifier (4), or via said sensitive resistor ( 5), while the voltage (B) present on the conductor (1) can be detected on the first end (3) said driver.