DE1035697B - Attenuation and interference voltage indicator for telecommunication connections - Google Patents

Description

the input side with a measuring AC voltage is applied to a connection via an amplifier and a rectifier to a DC amplifier, in whose output circuit Scholtmittel wachung known, which are arranged at impermissible level deviations 25 different response thresholds switch on an alarm signal. In this case, one _of them is displayed with increasing input voltage, but with only brief level fluctuations, one when one of the attenuation setpoints of the permanent deviation from the normal level is reached. In order to bind the corresponding voltage value, the other avoidance of such erroneous controls, it is further known only after this voltage value has been exceeded that a relay that responds to the level monitoring currents should be used, controlled by these switching means, where display devices are provided , by which deviations from the respective permissible damping value in the event of brief level fluctuations are avoided by triggering an alarm or control device, and / or within a specified time will.

level changes within a certain time Fig. 1 shows schematically one over several selections of longer lasting impermissible attenuation levels VW, I./II. GW, LW ongoing connection changes. · _We g. At the input terminals al, b 1 is a measuring ¹ Since the quality of an established connection path frequency or a sequence of measuring frequencies and ari of the transmission behavior 40, the output terminals a 2, b2, which is also influenced by the subject of the individual selector stages, is an invention Formative attenuation and interference voltage flawless determination of the transmission value indicator D switched on. The measurements are only guaranteed upstream of a connection path if, in some cases, the entire connection transmission frequency of 800 Hz is carried out with the same measuring process, which is common in such cases, i.e. including the individual dialing paths will. or a frequency band can be used without the

The invention relates to affecting such anord- essence of the invention, In Fig. 2, the attenuation and interference voltage

advantageously reduce the test time and a display D is shown in more detail, with a schematic determination of the type of the transmission table representation of the parts that do not ensure directly good impairing conditions. The idea of the invention includes, to a large extent, the simple determination of the use made.

Sources of error make it easier to eliminate them quickly. By pressing a button with the contacts

This is achieved by the fact that the voltage at the end ^ iTl ... AT 3, which remains activated during the test time,

809 580/374

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is being prepared for the exam. Attenuation measured at key contact ATl is not exceeded. On the other hand, if the attenuation is too great for the windings II of the polarized relays T1, that is, the anode circuit of the tube Rö2 flows in and T2 via resistors R3 and RA circuits so less. The relays do not respond at first, but current that the relay Tl cannot respond, so they are only pre-excited, and to a different extent, the contact il does not cause the relay PE to differ to a different degree, d'a the resistances R 3 and i? 4 switched on, and the signal lamp SL 2 shows by different levels. On key contact AT2 lighting is exceeding the Dämpfungssollein circuit for the relay AV established, the value of having.

his contact avi disconnects the resistor Rl and occurs during the examination period if

the windings! the relay T1, T2 and the measured value exceeding the attenuation setpoint (lamp 5 "L2 instrument / in the anode circuit of the electron dark, relay PE is in the holding circuit) jamming tube Rö2 switches. Via contact av2 and the voltages within the connection path, the resistor R2 discharges a Ansprechverzöge- by brief line interruptions, poor tion of the can relay AV inducing capacitor Cl, relay or Wä'hkrkontakte, brittle selector lines a location in the circuit 15 stone (caused during the contact av3, etc. or are negated External signal lamp SL2 closes, the meaning of which induces voltages in the connection path, so in the course of the description these disturbances in the anode circuit of the tube Rö2 have such an effect that (in the event of interruptions) the

Before the start of the measurement, relay T1 drops out briefly at the terminals or (when α 2, b2 occurs temporarily with disconnected connection overvoltages), in addition to relay T1, an alternating voltage relay T2 is also sprayed on to calibrate the device. The latter gives over the drawing of 800 Hz with a level of, for example, the side of the contact £ 2 which is connected via its break contact - 4.5 N to 600 ohms, in order to charge the capacitor C 3 in the anode via the circuit of the electron tube Rö2 Measuring resistors R5, R6 on the capacitor C 4 from. instrument / is formed by a the grid current circuit 25, the arrangement in order to avoid that isolated amplifier stage V 3 associated voltage divider occurring voltage surges are signaled to regulate so. Signed as to the center position and dripped the reinforce- that set until several discharges of the Kondenkungsgrad . After the calibrator C 3 is switched off one after the other or almost one after the other infrequently, the connection path to be tested is connected to the terminals a2, b 2 within the test time of a connection path through which there are enough of the inputs to clamp the capacitor C 4 al, bl (Fig. 1) to load the measuring frequency ode-r that the relay Λ spridht. In the same way, a band of measurement frequencies with the same level are also transmitted (in the event of interruptions) via the cone. This measuring frequency is sent via a tactile way the charges of the capacitor C2 to the transformer, initially of a first amplifier stage capacitor C4. Durdb fed to the relay St Vl . A controllable resistor R 7 connected upstream in the anode circuit of the amplifier can be used as a tubular bandpass filter (not shown) to determine the amount of charge in the capacitor C 4, the measurement frequency and the possibly one which makes the relay St respond. It closes relevant interference voltages in a frequency-weighted manner and then, after its excitation, feeds the contact stl and thus the lowing amplification stages V2, VZ . The circuit of the signal lamp SLl, which lights up and the overall transmission curve of the filter, is so designed that interference voltages (overvoltages or formed that they interrupt the average frequency characteristic) influence the quality of the connection between the human ear and the telephone, whereby each other Relay St sees through its contact. With this measure, a correct st2 and key contact AT 3 is maintained. Frequency weighting achieved during the measurement of the calibration of the attenuation

Noise is to be observed. In the anode _{circuit of the 45 UIK} } Störvoltageanzeigers it was stated that the third amplification stage F3 is a similar bandpass filter (voltage divider not arranged in the grid circuit of the third amplification frequency band) (also not arranged in the voltage divider V3). The amplified degree of alternating voltage and thus the limits of the display is frequency-weighted, fed to the rectification, the level range of the device, permanently set, and rectified. Who were through 50. The measuring instrument / stood in the middle. The rectification resulting DC voltage is set, with the relay Tl responding when the grid does not exceed the setpoint value of a level acting as a DC amplifier. In order to be supplied with cyclic electron tube Rö2. Depending on the test of the same or similar structure of the potential on this grid, this fixed setting also flows in the anode circuit with a different current that can be retained if the polarized relays assigned to this circuit are small, e.g. B. influenced by different wires or Tl, T 2. As a result of the differences mentioned -lengths caused deviations are present, the sensitivity of this and a related relay within certain limits is set so that, if the setpoint to create the tolerance range, the second amplification attenuation is not exceeded, only borrowed pre-excitation the relay Tl 60 kung level V 2 a (for example, to respond within the limits ± 0.1. It includes over the contact 11 (in drawing ± 0.5 N) adjustable automatic gain control passage position) and the normally closed contact ei associated with a lung, not shown. For this purpose, a circuit is used in the known Eidhrelais, in which a charge of the capacitor C 2 responds to the relay PE via alternating voltage to the grid of the electron tube winding I during the up-way behind the first amplification stage Vl , which is supplied with its contact 65 Rö 1 . One of the controllable resistor R 8 arranged in the anode circuit ange- pe2 via the winding II and the key contact ^ T2 is then held, with the contact pe 2 picking up the circuit of the alternating voltage, which interrupts the signal lamp SL2 at the rectifier. GrI is short-circuited in a half-wave. the

The fact that the DC voltage signal lamp SL2 generated in this way at the resistor R 9 does not rise or goes out means that the setpoint value is reached via an RC element RIO, C5 in a known manner

Claims (9)

Way to the control grid of the electron tube of the second amplification stage V2 for automatic electronic control of the operating point of this tube. It is thereby achieved that brief level fluctuations (interference voltages) as a result of the control which is delayed by the Z-C element remain without any influence on the control and are passed on to the detection device. The arrangement can of course also be designed so that one of the known electron tubes with two systems is used for amplification and control in the second amplification stage. The adjustable resistor R 8 is expediently provided with a scale on which the set tolerance range of the display device can be read. P Λ T E N "T Λ N S P R (1 C H E: 1. Attenuation and interference voltage indicator for telecommunication connections, characterized in that the voltage at the end of the connection on the input side with a measuring AC voltage applied via an amplifier (Fl ... V3) and a rectifier (Gr) to a direct current amplifier (Rö2) is supplied, in which Output circuit switching means (Tl, T2) of different response thresholds are arranged, of which one (Tl) responds when a voltage value corresponding to the desired damping value of the connection is reached, the other (T 2) only responds after this voltage value is exceeded, and that of these Switching means (Tl, TZ) controlled display devices (SLl, SL2) are provided, by means of which deviations from the respective permissible damping setpoint and / or interference voltages occurring within a specified time unit are made separately visible. 2. Attenuation and interference voltage indicator according to claim 1, characterized in that if the attenuation setpoint is not exceeded, one of the switching means of different responsiveness (Tl ) causes the device (SL 2) which indicates excessive attenuation to be switched off, while the other switching means ( T 2) controls the activation of a further display device (5 "Ll). 3. Attenuation and interference voltage indicator according to claim 1 and 2, characterized in that the switching means (Tl) controlling the attenuation indicator also acts on the switching elements for switching on the indicator device for overvoltages (SLl) in the event of interruptions occurring in the connection path to be tested. 4. Attenuation and interference voltage indicator according to claims 1 to 3, characterized in that that the switching elements in the event of interference voltages (interruption or overvoltage) Charge capacitor (C 4) gradually, dfer is dimensioned so that only after repeated occurrence of interference voltages, the charge required to display an interference voltage has been reached. 5. Attenuation and interference voltage indicator according to claim 3, characterized in that the response point of a switch-on relay (St) of the display device for interference voltages is adjustable by a controllable resistor (R7). 6. Attenuation and interference voltage indicator according to claim 1, characterized in that an automatic level control associated with an amplification stage (V2) for the received AC voltage to be displayed characterizes a certain tolerance range of the received voltage, within which changes in the attenuation level cannot be evaluated for the display . 7. attenuation and interference voltage indicator according to claim 6, characterized in that the automatic gain control is assigned to the first or second gain stage. 8. Attenuation and interference voltage indicator according to claim 7, characterized in that the control voltage supplied to the control stage of the level control to maintain this in the DC amplifier (RöZ) set measuring range by a variable resistor ' (RS) according to the required by the attenuation setpoint of the connection being checked Gain level is adjustable. 9. Attenuation and interference voltage indicator according to claim 6, characterized in that the automatic level control by an i? C element (C 5, R 10) begins with a delay and thereby a reduction in sensitivity of the interference voltage indicator is avoided. Documents considered: German Patent No. 588 889. 1 sheet of drawings © 809 580/374 7.58