DE2304211C2 - Line auditor - Google Patents

Description

The invention relates to a line tester with a test voltage source and one in resistance units calibrated display instrument.

Such a line tester is described in German Patent 1 010 161, Class 21c, 29-11. According to the information in this patent, the measuring ranges of this device are within the limits of 0.001 to 500 megohms. To identify lines that have also Nebenwiderständc kön- "CIX breeder '" \ c to search votl Wartplknntaktrn required iedoch devices that can distinguish still resistances in milliohms range. In order to make the known device suitable for this task, a test item would have to be loaded with unacceptably high currents or voltages! will. A still conceivable resistance measurement with the help of bridge circuits would be time-consuming and laborious to carry out.

The invention was based on the object of creating a simple line tester that is still in the Milliohm range can divide resistors.

In the case of a line tester according to the invention mentioned at the outset, this object is achieved by that the input circuit of the line tester consists of a voltage divider made up of three resistors for the test voltage than the one between the two external resistances Resistance the test section is used and that the two hanging terminals at the two ends of the test section of an operational amplifier, the output of which is connected to the display instrument and or to a Oscillating circuit with downstream loudspeaker is connected.

By inserting the test track in a voltage divider for the test voltage, a more sensitive and accurate operational amplifier can as ersiarker ^v for the voltage drop across the test section are used, the required voltage is generally a weight-symmetrical as input. This balancing is established in that the test section is used as a mitllcrcr resistance of a voltage divider consisting of three resistors. The test voltage source is used as the operating voltage source for the operational amplifier and the oscillating circuit.

In order to operate the letter tester further · / u Simplify and to ensure at the same time that in the unused state md the operational amplifier and the oscillating circuit do not load the test voltage source, is in a development of the invention the control electrode of one with its sound path in the Bs. mebsspannungs / uleitung for the Operational amplifier and the oscillating circuit lying switching transistor to one of the terminals for the Test track created. If the test section is connected to the terminals provided for it, this will cause the voltage drop across your / wipe the relevant Clamp and the pole of the test voltage source lying part resisted turning on the switching transistor.

A selector switch with which several external negative feedback resistors connected in series is used as the measuring range switch of the operational amplifier can optionally be short-circuited.

An integrated module available on the market is provided as the oscillating circuit.

An embodiment of the invention is explained in more detail using a circuit diagram

A voltage divider consisting of resistors R I, Rx and R 2 is connected via terminals K 1 and K 2 to a test voltage source (not shown), for example a dry battery with a voltage of 9 volts. The resistance Rx, which is shown in dashed lines, is formed by a test section to be connected to terminals KxI and KxI. The terminals Kx i and Kx 2 are connected to two input terminals of an operational amplifier V via series resistors R 3 or Λ 4. Connections of the operational amplifier V for the operating voltage of the amplifier are connected to the supply lines / from the terminals K \ and K2 for the test voltage. I or L'l. The output terminal of the operational amplifier / is via three Gegenkoppiungswifierstands RG ϊ ... RG3 with the negative 1 iniiangsklemme of the operational amplifier in connection. This wi! First would be short-circuited by a 1 selector switch S. This takes into account the choice of a measuring range iiec ^ neten for the applied test section. The output of the operational amplifier V is also connected to one terminal of an internal instrument A. The other terminal of the instrument is via an adjustable resistor

ß 5 placed on the tap of a resistor R 6 and three series-connected diodes Dl, D 2 and D 3 existing voltage divider. The voltage divider from the resistor R 6 and the diodes Dl ... D 3 connects the two lines carrying the test voltage /. 1 and L 2. The voltage divider is used to hold a terminal of the indicating instrument A to a certain potential, for example, 1.7 volts to the output of the ^Operaf: onsverstärkerb V is also at a Eingangsklemmc S an oscillating circuit TG shown as an integrated component is. The operating voltage is supplied via the lines /. 1 and L 2 are applied to corresponding connections 1 and 8, respectively, of the oscillating circuit. At terminal 8 and one = .I ~ ..ime 3 of the oscillating circuit there is also a loudspeaker LS via .. a series resistor R 7. At a iossenen on the lines Li and L2 ANGC -'- series connection of two resistors :, "i 5 and R 9 and a capacitor C are connected to 'erbindungspunklen of the two resistors R 8 and K 9 and the resistor R9 and the capacitor C two further input terminals 7 and 6 of the Schwingschaltun ^ TG are connected. The voltages tapped from the series circuit are used to set a basic frequency for the oscillating circuit. However, the audio frequency emitted to the loudspeaker depends on the output current of the operational amplifier. Therefore, the size of the resistance of the test section can be inferred from the pitch of the acoustic display. In particular, loose contacts are noticeable due to rapidly changing pitch fluctuations that the ear can easily distinguish. The display instrument A would be too sluggish to visually display such rapidly changing loose contacts. The base electrode of a Schah transistor T , the collector-emitter path of which lies in the line L 2, is connected to the test path terminal Kx2 via a resistor R 10. If the line tester is connected to a test section with terminals KxI and Kx2, the voltage drop across resistor R 2 causes transistor T to switch from the blocking state to the saturation state and thus switching on the operating voltage for the operational amplifier V and the oscillating circuit TG.

1 sheet of drawings

Claims (5)

Patent claims: 1. Line tester with a test voltage source and a display instrument calibrated in resistance units, characterized in that the input circuit of the line tester consists of a voltage divider for the test voltage formed from three resistors (AI, Rx, R2) , as its between the two external resistors (Al, R 2) the lying resistor (Rx) is used for the test section and that the two input terminals of an operational amplifier (K) are located at the two ends (KxI, Kx2) of the test section, the output of which is connected to the auxiliary instrument (A) and / or to a Schwina- '5 Circuit (TG) with downstream loudspeaker (LS) is connected. 2. Line tester according to spoke 1. characterized in that the test voltage source at the same time as an operating voltage source for the Operationsverstä '* er (V) and the Schwingscha! i (7G) serves. 3. Line tester according to claim 1 or 2, characterized in that the control electrode of a switching transistor (7) lying on one of the terminals ( 7) is connected to one of the terminals (L 2) for the operational amplifier (V) and the oscillating circuit (TG). Kx2) is connected for the test section. 4. I ^ itungsprüf.T according to claim 1 or one of the following.n, characterized in that a range selector switch (S) over several series-connected sweeter coupling resistors (RGl ... RGi) of the operational amplifier (I ). 5. L <- device tester according to claim 1 or one of the following, characterized in that the Oscillating circuit (7G) is an integrated component. 40