DE1280344B - Circuit arrangement for monitoring a telecommunication line, in particular a telephone line, for loop interruptions - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

H04q

German class: 21 a3 - 67/50

Number: 1280 344

File number: P 12 80 344.0-31 (St 24002)

Filing date: June 19, 1965

Opening day: October 17, 1968

The invention relates to a circuit arrangement for monitoring a telecommunications, in particular Telephone line on loop breaks.

Interruptions can occur in both tone-frequency push-button selection and DC push-button selection of the subscriber loop can be used as key characters or dial characters. The duration of the Interruptions can be very short, starting at 2 ms.

Such short loop interruptions cannot be detected with certainty with the previously known and customary monitoring circuits. Known circuit arrangements for monitoring a line loop are the asymmetrical ones Reading and monitoring circuits for evaluating the characters and displaying the loop status measure the current in a wire, also symmetrical circuit arrangements, but the are complex or imprecise.

The known unbalanced circuits have the disadvantage, short interruptions of the Not being able to display the loop with certainty, the second disadvantage is that due to induced longitudinal stresses, which can occur in the vicinity of the power lines, the measurement is inaccurate and falsified can be.

In addition, in the circuit arrangements known up to now, mimicked loop interruptions can be used lead to a false report. Such mimicked loop interruptions occur, for example in that when the carbon microphone is hit, its resistance suddenly changes sharply is, the resistance increase occurring in the order of magnitude up to 1 kiloohm, but does not represent a real interruption with the resistance infinite.

The object of the invention is to provide a circuit arrangement that meets the requirements of Detection of short loop interruptions, the insensitivity to tolerances of the voltages and resistances as well as insensitivity to longitudinal voltages and simulated loop interruptions enough.

According to the invention, this is achieved by a circuit arrangement for monitoring a telecommunication line, in particular a telephone line, which is fed via two feed resistors inserted into one feed line each, by means of a bridge circuit connected to the operating voltage source via the one feed resistor, in which a bridge branch consists of two voltage divider resistors other bridge branch through the series connection of the other feed resistor and the circuit arrangement for monitoring a
Telecommunication lines, in particular telephone lines
Loop breaks

Applicant:

Standard Elektrik Lorenz Aktiengesellschaft,
7000 Stuttgart-Zuffenhausen,
Hellmuth-Hirth-Str. 42

Named as inventor:

Otto Baade, 7000 Stuttgart-Weilimdorf

Line impedance is formed and at the zero or Diagonal branch arranged an evaluation circuit is, characterized in that that voltage divider, which is directly connected to the line impedance connected, a capacitor is connected in parallel.

For the application of the invention it is expedient to choose the capacitance of the capacitor so

^a5 that the alternating current resistance (- ^ - j is small compared to the other resistance of the voltage divider. The invention will now be explained in more detail with reference to the drawings.

As shown in FIG. 1 is seen a line loop about two in the supply lines to the terminals A and B arranged feed resistors RSl and RS2 is supplied by a supply current source. The line loop is simulated by the parallel equivalent circuit with the concentrated elements RL and CL. The line should be subject to interference that is caused by the induced voltages of equal magnitude , here indicated by QS1 and QS2 . The directional arrows are intended to show that the longitudinal voltages are in phase. The resistors Rl and R2 form a voltage divider which is connected again via R2 to the negative terminal directly to the other via Rl on the side remote from the supply source terminal of the feed resistor RSl is located, ie RSl to the positive (grounded) pole of the supply source connected is. The evaluation device AE is located at the voltage divider between Rl and R2 and at point B of the line. The capacitor CA connected in parallel to the resistor Rl, its alternating current resistance

is very small compared to R2 , causes with respect to

ω C _a

809 627/911

the interference voltage sources QSl and QSl, which are AC voltage sources, that they are symmetrical to the evaluation device AE and therefore no longer influence it.

The advantage of the invention, which is that even short loop interruptions are recognized, is shown in FIG. 2 explained. For this example it is assumed that RSl = RS2 ^ RL ^ Rl, Rl and Rl <Rl. With these assumptions it follows that in operation, loop closed, in the steady state the point α has a potential φα which is greater than the potential (pb at point δ. The transistor Γ in this example is blocked and only opens when by opening the loop, RL = oo, the potential is <pb> φα . The time constant τL for the transient process of this system has the consequence that the time until the potential relationships are reversed is greater than the duration of possible loop interruptions, so that these do not lead to When the loop is interrupted, the capacitor CL is charged approximately to the voltage of the supply source from the voltage that corresponds to the voltage drop across RL , or the point receives the potential of the negative pole of the supply source CA is achieved that the potential at point b as a function of the charging process in CL and % L against the potential of the positive pole of The supply source runs, except for the value corresponding to its original charge, in order to then oscillate with the time constant τ A, which is linked to the charging process of CA , to the range that corresponds to the voltage drop across Rl when the loop is open. The decisive factor is the first process, ie the opposing course of the potentials φα and φb, whereby the rapid reversal of direction of the voltage between points α and b is achieved. The microphone cracking, which is synonymous with an increase in resistance in the loop, also triggers a corresponding process, but there is no reversal of the voltage on the evaluation device, which consequently does not respond.

The diode D protects the transistor from excessive base-emitter voltage.

In Fig. 3 shows the course of the potentials φα and φb at the terminals of the evaluation means for a real loop interruption (labeled I) and for a simulated loop interruption (labeled II) in the oscillogram. Only in the first case does the voltage reverse.

In the example shown, with the aid of the specified scale, it can be clearly seen that with a real loop interruption the response time is less than 2 ms.

When using complex feed resistors, only insignificant changes can be seen the response times.

Claims (2)

Patent claims: 1. Circuit arrangement for monitoring a telecommunication line, in particular a telephone line, for loop interruptions, which is fed via two feed resistors inserted into one feed line each, by means of a bridge circuit connected to the operating voltage source via one feed resistor, in which one bridge branch consists of two voltage divider resistors, the other bridge branch is formed by the series connection of the other supply resistor and the line impedance and in which an evaluation device is arranged in the zero or diagonal branch, characterized in that that voltage divider resistor (Rl) which is directly connected to the line impedance (RL and CL) has a capacitor (CA) is connected in parallel. 2. Circuit arrangement according to claim 2, characterized in that the alternating current resistance (—pr-j of the capacitor (CA) is very small compared to the other resistance (Rl) of the voltage divider by appropriate selection of the capacitance (Ca). 1 sheet of drawings 809 627/911 10.68 © Bundesdnickerei Berlin