DD141720B1 - CIRCUIT ARRANGEMENT FOR CHECKING MEASURING DEVICES AND FOR RESISTANCE MEASUREMENT - Google Patents

Description

Title of the invention

Circuit arrangement for testing electrical measuring devices and for checking resistance

Field of application of the invention

The invention relates to a circuit arrangement for testing electrical measuring devices, such as DrehspulmeSgeräte, transducer, Korapensationsraeßgeräts , amplifier and bridge scarf lines, with numerical adjustment of the test values and for the numerical determination of '.Viderstandswerten.

Characteristic of the known technical solutions

Oie examination of the electrical measuring devices takes place z. Z. either with the aid of a compensator or with an O-Rectifier The compensation method test requires, in particular in the case of rotary pulse devices, a large number of adjustment and adjustment processes, which are subject to subjective errors due to the manual operation Although the saving of a large number of operations, but the Sinregelung to a given voltage value still much time consuming.Seven test method is based on the common disadvantage that in matches and internal resistance of Drehspulmeßgeräten a change in resistance in the measuring circuit and a constant readjustment of the voltage or Electricity is required, but it is usually not

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possible to check the eligibility and the Urakehrspanne. In addition, the test is only one measuring device possible.

Furthermore, a multiple test instrument for current and voltage measurement as well as a current and voltage generator has become known in which the numerical adjustment of current and voltage values takes place in three decades. However, this instrument achieves only a class accuracy of 0.5 and is therefore unsuitable for most test purposes. An examination of Orehspulmeßgeräten is not possible without additional equipment. When used as a compensator with additional voltage input is expected with the known disadvantages. The internal resistance of the tester depends on the selected measuring range, so that the cinstellprobleme already described occur.

Object of the invention

The aim of the invention is to further reduce the adjustment and adjustment operations, to ensure the simultaneous testing of several new devices and make with the same device the .Viderstandsabgleich and to tap further applications.

Explanation of the essence of the invention

The invention has for its object to develop a circuit arrangement in which the internal resistance for alia output voltage values remains constant at an adjustable value, a simple and secure setting of Spannungsbzw. Strora levels in stages with high accuracy is possible, so da3 a variety of test tasks feasible and dia circuit arrangement is suitable as a tester. In addition, with the same circuitry, a measurement of resistances, especially for equalization purposes, should be possible. This is achieved in that according to the invention to the P? Eferenzspannungsquella the mahrstufige Setriebsartenschalter

connected to the input of which are fed by a constant current precision resistor decade and the adjustable resistor and at the outputs of the mode switch depending on an operational amplifier with downstream Darlington emitter stage, to which one emitter stage an adjustable emitter resistor arrangement is connected while in the collector circuit the emitter stage is a series connection of resistors with voltage outputs and the current output or the resistance to be determined and that a compensation resistor is arranged in the collector circuit of the other DaTlington emitter stage, wherein between the compensation resistor and dera resistance to be determined lying on the mode switch voltmeter.

embodiment

Based on the schematic diagram shown in the drawing, the inventive circuit arrangement will be explained in more detail using an exemplary embodiment.

To the reference voltage source UM of the mode switch Sl is connected. The six series connected precision Wallsrstandsdekaden Rl5 - R20 (IO χ O ₁ oil, 10 χ 0.1, 10 χ 10, 10 χ 100OiT) are traversed by a constant current IN ¹ , whereby at point A a dsr sum of the switched l '/ iderstandswarte proportional voltage results. This voltage is in switch position 2 of the mode switch Sl, the input voltage for the operational amplifier OVl, which is an Oarlington circuit Tl; T2 is followed as emitter follower.

The voltage across the emitter resistor 33 - Rl is fed via the range switch S3 to the inverting input of the operational amplifier OVl, whereby the collector current of the Darlington circuit 71; T2 is almost completely determined by the ratio input voltage: Emittsrwiderstand. The collector current of Tl; T2 causes Rl to be connected in series with resistors R1; R2 the output voltages UAl; UA2 for testing voltage input measuring devices,

while he is at the terminals 3; 4 as output current IA for testing measuring devices with current input or for balancing purposes. Thus, several identical voltage outputs are designed for simultaneously testing a plurality of measuring devices. Likewise, several measuring devices can be tested simultaneously at the current output by series connection. By switching on one of the emitter resistors R3-R6 with the Berexchsschalter S3 output voltage or Ausgangsstrorabereich are selectable (z · 3. 1; 10; 100; 1000 mV or 0Д; 1; 10; 100 n »A). The internal resistance of the circuit arrangement at the voltage outputs UAl; UA2 is adapted to the measuring device to be tested with the aid of the switch S2 and the resistors RIO-R13 and is constant regardless of the set output saving range and output voltage value. This makes it possible, the internal resistance at the voltage output UAl; UA2 equal to the line resistance prescribed for the rotary coil device to be tested. With '.Vresistor changes in MeSstromkrsis the Drehspulgerätes the set voltage value (no-load voltage), which determines the current in the measuring circuit, remains constant. Likewise, the output current IA remains up to a max. permissible resistance value at terminals 3; 4 constant. In the switch position 3 of the mode switch 31 can be made with dam adjustable resistor R 14 made a continuous change in current or voltage value, while ci.t the variable resistor R7 in switch position 5 of the range switch 33, any output current or output voltage range is adjustable. Using a galvanometer G, a voltage measurement according to the compensation method can be carried out with this circuit arrangement. If Batriebsartsnschaltsr Sl is in position 1, then with the circuit resistors rneßbac. ! Hierbai the input is applied, the operational amplifier OVI to a reference voltage (e.g. 3 to 5V.), Wodruch depending on the switched Ermittarwiderstand R3 - .16, a constant output current (e.g., 0.1,. 1; 10; 100 mA) yields , the resistor Rx is a voltage proportional to the resistance value

· The required Koropensationsspannung is at the resistor R8 by the collector current of the Darlington circuit T3; T4, which is the operational amplifier 0V2 downstream. By the connection of the voltage ara emitter resistor R9 to the inverting input of the operational amplifier 0V2 receives the collector current of the Darlington circuit T3; T4 a proportional assignment to the input voltage, which is determined by the switched decade resistors on the precision resistor decades R15 - R20. By means of a galvanometer or öigitalspannungsmessers is the voltage across the resistor R8 by adjustment to precision Z / iderstandsdeka- the R15 - 320 aligned with the voltage at .Viderstand Rx, and the set of the precision resistance decades resistance value corresponds under consideration of the Bereiehsfaktors ( x 0.01, χ 0.1, χ 1, χ 10) the value of the resistance Rx to be measured . By selecting the corresponding emitter resistor R3- R6, the range switch 53 selects the resistance range (eg 3. 0-100, 0-1000, 0-10,000, C-ICO 000XL).

The mode of action is the following:

The constant current IA effected at adjustable resistor is in Raihe connected precision .Vidsrstandsdekaden a voltage dam in the "Check" operation amplifier OVI and the operational amplifier 0V2 is supplied as an input voltage in the operating mode "resistance measurement", the operational amplifier OVI; 0V2 each with downstream emitter follower stage act as voltage-stagnated current sources, in which the collimator current of the emitter follower stage is determined by the ratio input voltage: Enxttarwiderstand. In the test mode, the collector current causes the output voltages UA1 at the terminals connected in Леіпе. UA2 for testing gauges with voltage input. In addition, the collector current at the terminals 3; 4 for current output IA for testing of measuring devices with current input removed.

In the "resistance measurement" mode, a reference voltage is applied to the input of the operational amplifier OV1, resulting in a constant output current IA which causes a voltage proportional to the IV resistance value at the resistor Rx to be measured - Resistance decade adjustable input voltage, which has a proportional collector current of the subsequent emitter follower stage, which causes a voltage at the resistor RS, which has a common potential point with the voltage across the measured resistance Rx · With a galvanometer, the voltage across the resistor R3 by Adjust the setting on the precision resistor to the voltage across the resistor Rx , so that the value of the resistor set to the precision resistor resistance corresponds to the resistance Rx to be measured, taking into account the range factor d of the circuit arrangement remains adjustable at the voltage outputs to predetermined values and is constant for all ranges and output voltage values. The output voltage and output current range as well as the 'ViderstandsmeSbereich' can be selected by dsm Sereichsschalter S3 by switching on a corresponding Emitterwiderstandas of the operational amplifier OVl nachgeschaiteten Smitterfolgerstufѳ.

The invention provides the following advantages:

- By numerical adjustment of the specified current or voltage values results in the least effort when testing · measuring equipment.

Due to the stepwise change of the output value and its complete reproducibility, reverse voltage and sensitivity are relevant.

- With a single setting зіпез test value, several measuring devices can be tested simultaneously.

- Stable output current IA when changing the load resistance, making Abieichvorgänge much easier.

- No readjustment of the set voltage value in the adjustment of Drehspulmeßgeräten when supply resistance = internal resistance of the circuit is.

Constant but adjustable internal resistance of the circuit arrangement at the voltage outputs for all ranges and output voltage values

With the help of a galvanometer the measurement of a voltage according to the compensation method is possible.

The circuit arrangement allows the measurement of resistance values.

By the possibility of testing of measuring devices and the resistance measurement, the required change in resistance for the adjustment of the measuring device to be tested has been carried out at the same test site.

Claims (1)

invention claim A circuit arrangement for testing electrical measuring devices and for resistance measurement according to the compensation method using eaner reference voltage source with the operational amplifier and a multi-stage mode switch in conjunction with a precision iViderstandsdekade and an adjustable resistor, wherein a voltage meter placed at the output of the multistage 3etriebsartenschalters and a multi-stage switch selectable Innenvvi- derstandvjerte are adjustable, characterized in that at dia Г? этerenzspannungsquelle the multi-stage mode switch is connected, at its decease the fed by a constant current precision lViderstandsdekade and the adjustable '.Viderstand and at the outputs of the mode selector switch, depending an operational amplifier with downstream Darlington emitter stage, wherein the эіпе emitter stage a einallbarerbare emitter resistor arrangement is connected, w In the collector circuit of the Hmitter stage there is a series connection of resistors with voltage outputs and the current output or the resistance to be determined, and in the collimator circuit of the other Darlington Emittarstuf a a Kompsnsatrions'.viderstand is zv / ізслзп the Komponationsationsv / iderst3nd and dstf to be determined V / iderstand lying on the mode switch voltmeter. For this 1 sheet drawing