DE1258511B - Circuit arrangement for DC voltage measurement with nominal range expansion - Google Patents

Description

Circuit arrangement for DC voltage measurement with nominal range expansion In electrical measurement technology, there is often the task of detecting voltage deviations can be precisely determined from a certain nominal value. There are under the names »Volt magnifier, voltage magnifier, nominal voltage range - indicator, setpoint indicator« after Different methods working devices have become known, which the desired spreading of a certain target range of display and recording devices.

A known arrangement for the precise determination of voltage deviations consists of a bridge circuit that has a temperature-dependent circuit in at least one branch Contains resistance. The measuring voltage is applied to two diagonally opposite points the bridge while the measuring resp.

Recording device is connected to the other bridge diagonal. The bridge resistances are dimensioned in such a way that at the nominal value of the measuring voltage the Bridge is at least approximately matched. Detuned when the measuring voltage changes the bridge changes according to the conductance of the temperature-dependent resistance. In the exit diagonal of the bridge there is a voltage that is a measure for is the deviation of the measuring voltage from the nominal value. It has been found to be particularly useful proved to provide an incandescent lamp as a temperature-dependent resistor, which is about operated at 8 to 100 / o of the nominal voltage.

With this known arrangement, given suitable conditions achieve a very high measurement accuracy (about 0.1 to 0.2%), however, it is disadvantageous that some of these prerequisites can only be met with expensive means, which severely limit the use of the bridge circuit described and in particular question their suitability as teletransmitters.

To calibrate the circuit, the measuring or measuring device belonging to the bridge must be used. Recording instrument must also be connected, as the resistance is the output diagonal is included in the display. A change in the resistance by a switched on Line also changes the calibration of the display device.

Furthermore, it is the conductance of the filament acting as a PTC thermistor depends on the temperature of the lamp bulb. The heating of the lamp bulb through the filament after switching on the device causes a significant shift of the display value, which only takes place after a longer heating-up time (approx. 20 minutes) is completed.

The state of the art also includes one from the German interpretative document 1108950 known strain measuring bridge with downstream equalization current amplifier, which is fed from a battery provided with taps. The primary measuring effect is caused by a mechanical change in resistance of the stretch marks. To the A constant voltage is used to feed the measuring bridge with the amplifier.

The disadvantage here is that an additional one is used to feed the amplifier Voltage source is required.

The invention relates to a circuit arrangement for measuring DC voltage with nominal range expansion, which is a bridge circuit with an incandescent lamp as a temperature-dependent Has resistance in a bridge branch, indirectly at the output diagonal the measuring instrument is lying.

The invention consists in that on the bulb of the incandescent lamp a resistor coil with a positive temperature coefficient, which is so in the Bridge is on so that it is reheating the filament from the lamp bulb and that on the exit diagonal of the bridge in front of the measuring instrument in a transistor is connected in a manner known per se, which, as is known per se, together with the bridge circuit from a voltage source of the bridge as operating voltage of the transistor is used.

With these inventive measures, the circuit arrangement is for Specified area expansion particularly suitable as a remote transmitter. The impedance conversion at the exit of the bridge allows a great freedom in the choice of the display or recording instrument, its internal resistance when calibrating the transmitter need not be taken into account. The line resistance to the display instrument is not critical. The transistorized impedance converter relates his Operating voltage from the measuring point, so it does not need a separate voltage source.

With reference to the drawing, an embodiment of the invention Circuit arrangement described.

The circuit arrangement represents a bridge circuit with the corner points 1 to 4. In the branch 2-3 is the thread of a nonlinear element R2 Lightbulb. A linear resistor R3 is connected in branch 1-2, the opposite one the filament is high resistance. Branch 1-4 contains an adjustable, linear one Resistor R3. Points 3 and 4 are about a copper-constantan resistor combination R4, R5 connected, with the copper resistor R5 on the bulb of the incandescent lamp is wrapped. This combination of resistors shows a similar temperature behavior like the filament of the light bulb. The base-emitter path is located in the bridge diagonal 2-4 an npn transistor Tr, the emitter being preceded by a resistor R6. The collector of the transistor is connected to a connection terminal of the trunk line via a diode tied together. The second terminal of the capillary is at point 1 on the bridge. Of the A capillary, shown in dashed lines, leads to the measuring device M between the two terminals. The bridge-side terminals of the long-distance line are bridged with a capacitor C. The input terminals t and 3 of the bridge are in via a rectifier arrangement Graetz circuit G, and a transformer Ü connected to the measuring voltage. the The actual measuring bridge is operated with direct voltage and is applied to the input terminal t the positive potential and the negative potential at terminal 2. If the measuring voltage occurs - as assumed in the exemplary embodiment - as AC voltage, then must they are first rectified. The transformer Ü is used for electrical isolation and to adapt the measuring voltage to the measuring bridge.

The circuit arrangement according to the invention has the following mode of operation: With constant ambient temperature and even heating of the incandescent lamp the resistances Rt, R3, R4, R5 are constant. The resistance of the PTC resistor R2 grows with the PTC thermistor current, which is impressed according to the resistance Rt is. The resistance ratios present in the measuring bridge thus depend on the transformed and rectified measurement voltage Ue.

The working point of the filament, which acts as a PTC thermistor, is located at about 8 to 10 0 / o of the nominal voltage of the lamp. This working point becomes set with the resistance Ri. With the resistor R3 the zero point becomes the Bridge output voltage adjusted between points 2 and 4. So that is Given at the beginning of the display area. The bridge resistances are dimensioned so that the current of the output diagonal 2-4 is zero when the measuring voltage is the lowest still has a value to be measured Umin. As a result, the transistor Tr blocks because in its base does not flow any electricity. The measuring device in the collector line shows the value zero.

If the measuring voltage falls below the value Um in, the resistance drops of the PTC resistor R2. A residual current flows out of the base of the transistor, the so that it remains in its locked state. On the other hand, if the measuring voltage exceeds the value Urine, then the resistance of the PTC thermistor increases. At the base of the transistor there is a positive potential. The transistor conducts. That in his collector circle A current flows through the lying measuring device, that of the one flowing into the base Electricity is proportional. The collector current is due to the modulation state of the transistor and the size of the negative feedback resistor R6. The bigger the negative feedback resistance, the greater the voltage drop, the the emitter current can arise on it. This voltage drop increases the potential of the emitter, so that the voltage at the base-emitter path is less than the output voltage of the bridge between points 2 and 4.

The negative feedback resistance determines the control range of the transistor and thus the display area of the M.

A transistor with a low residual current is used, so preferably a silicon transistor of the npn type. In other embodiments of the remote transmitter pnp transistors could also be installed, with the output polarity of the Rectifier G, would have to be reversed. The output current flowing through the measuring device is controlled by the transistor according to the voltage applied to the diagonal 2-4 imprinted. The resistance of the display circuit acted upon by the transistor can change within wide limits without affecting the display of the instrumentM would be falsified. In parallel with the connections of the long-distance line is a capacitor C, which is the alternating current components of the output current from the trunk line keep away.

This eliminates interference from other long-distance lines in the vicinity avoided. Due to the presence of the filter capacitor C is a rectifier G2 in the collector circuit of the transistor is necessary to allow the capacitor charge to flow away prevented via the collector-base section.

The following are used for temperature compensation of the circuit arrangement Measures planned: The copper-constantan resistor combination R4, R5 has a similar temperature dependence as the filament. By arranging this Combination in the bridge will be the influence of room temperature on the PTC thermistor R2 balanced.

The temperature of the filament is also increased by its reheating influenced by the glass bulb of the lamp. The reheating occurs after the Switching on the measuring device gradually and only achieved after a long period Period of time to have its full effect. The impact of this annoying phenomenon on the display of the measuring device is avoided by using the resistor R5 as a copper wire winding is applied to the glass body of the lamp. This copper resistor heats up with the vitreous. Its resistance changes according to the rewarming of the Filament.

This change in resistance of the PTC thermistor cannot affect the Tension of the diagonal 2-4 will have an effect as the potential of the point 4 against the point 3 changes in the same way as the potential of point 2 against point 3.

The embodiment of the arrangement according to the invention can change in details: If the measurement voltage Ue is available as a direct voltage, then the transformer Ü and the rectifier G1 are omitted. The adaptation of the measuring voltage to the Bridge can in this case with the help of a series resistor be made.

Is the DC voltage at input terminals 1 and 3 of the bridge smooth, d. That is, if the harmonic content is not greater than about 10 / o, then use a zener diode as a non-linear element. The smoothing of the measuring voltage can be improved by an upstream filter element.

It is finally possible to use the entire resistor combination R4, To apply R5 for temperature compensation on the glass body of the incandescent lamp.

The circuit arrangement according to the invention is thus used as a remote transmitter particularly suitable because their function depends on the one hand on the resistance of the display circuit is not critically influenced and there on the other hand when using an incandescent lamp as a non-linear element of the encoder immediately after switching on the measuring voltage is ready for operation, so that it is particularly suitable for changing, temporary detection several measuring points particularly suitable.

Claims (4)

Claims: 1. Circuit arrangement for DC voltage measurement with nominal range expansion, which is a bridge circuit with an incandescent lamp as a temperature-dependent Has resistance in a bridge branch, at the output diagonal-indirect The measuring instrument is marked by the fact that it lies on the lamp bulb the incandescent lamp (R2) has a resistor coil (R5) with a positive temperature coefficient which is switched into the bridge in such a way that it reheats the filament from the lamp piston balances, and that to the exit diagonal of the bridge in front the measuring instrument is connected to a transistor (Tr) in a manner known per se, which, as is known per se, together with the bridge circuit from a voltage source is fed, so that the measuring voltage on the input diagonal of the bridge as the operating voltage of the transistor is used. 2. Arrangement according to claim 1, characterized in that in one Bridge branch a copper-constantan resistor combination (R5, R4) is provided, which compensates for the influence of the ambient temperature on the PTC thermistor, the Resistance (R5) is on the bulb of the light bulb. 3. Arrangement according to claim 1 or 2, characterized in that to suppress the alternating current component of the bridge output current in the collector line of the transistor bridges the connections for the measuring instrument with a capacitor (C) are and that in the collector line a diode (G2) is turned on, which is a The capacitor charge drains through the collector-base path of the transistor prevented. 4. Arrangement according to one of claims 1 to 3, characterized in that that the emitter of the transistor is preceded by a resistor (R6) that controls the spread of the voltage measuring range. Considered publications: German Patent Specifications No. 537 222, 901 083; German Auslegeschrift No. 1 108 950; British patent specification No. 637487.