Analog line connection
First Claim
1. In a line connection circuit of the type in which an amplifier has first and second symmetrical outputs respectively connected via first and second connecting resistors to first and second terminals of a first winding of a transformer which has a second winding connected to a transmission line, in which a first voltage divider comprises first and second divider resistors connected in series at a first connecting point for a receiver and is connected between said first output of said amplifier and said second terminal of said transformer, and in which a second voltage divider comprises third and fourth divider resistors connected in series at a second connecting point for the receiver and is connected between said second output of said amplifier and said first terminal of said transformer, the improvement therein comprising:
- a first auxiliary resistor connected between said first divider resistor and said first output of said amplifier;
a second auxiliary resistor connected between said third divider resistor and said second output of said amplifier;
said first divider resistor and said fourth divider resistor being of identical values;
said third divider resistor and said second divider resistor being of identical values; and
a complex impedance connected between said first and second auxiliary resistors, the impedance ratio of said complex impedance to said auxiliary resistors optimally corresponding to the ratio of the input impedance of the transmission line transformed onto the first winding of the transformer to that of the first and second connecting resistors.
7 Assignments
0 Petitions
Accused Products
Abstract
An analog line connection circuit provides that the transmission voltage is not superimposed on the received voltage given a data transmission in duplex operation via a two-wire line. The line connection circuit is provided with an amplifier that comprises two symmetrical outputs, the first of these outputs being connected via a first ohmic connecting resistor to a first terminal of a first winding of a transformer and the second output being connected via a second ohmic connecting resistor to a second terminal of the first winding of the transformer. The transformer comprises a second winding connected to a transmission line. A series circuit of a first auxiliary resistor, a complex impedence and a second auxiliary resistor is connected between the outputs of the amplifier. The two ohmic voltage dividers are respectively arranged cross-connected between a terminal point of the first winding of the transformer and a junction of an auxiliary resistor with the complex impedance, the received voltage being output at the outputs of these ohmic divider resistors for a receiver unfluenced by the transmission voltage.
11 Citations
8 Claims
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1. In a line connection circuit of the type in which an amplifier has first and second symmetrical outputs respectively connected via first and second connecting resistors to first and second terminals of a first winding of a transformer which has a second winding connected to a transmission line, in which a first voltage divider comprises first and second divider resistors connected in series at a first connecting point for a receiver and is connected between said first output of said amplifier and said second terminal of said transformer, and in which a second voltage divider comprises third and fourth divider resistors connected in series at a second connecting point for the receiver and is connected between said second output of said amplifier and said first terminal of said transformer, the improvement therein comprising:
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a first auxiliary resistor connected between said first divider resistor and said first output of said amplifier; a second auxiliary resistor connected between said third divider resistor and said second output of said amplifier; said first divider resistor and said fourth divider resistor being of identical values;
said third divider resistor and said second divider resistor being of identical values; anda complex impedance connected between said first and second auxiliary resistors, the impedance ratio of said complex impedance to said auxiliary resistors optimally corresponding to the ratio of the input impedance of the transmission line transformed onto the first winding of the transformer to that of the first and second connecting resistors. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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Specification