DD272016A3 - CIRCUIT ARRANGEMENT FOR GENERATING A TEST SIGNAL - Google Patents

Abstract

The invention relates to a circuit arrangement for generating a Pruefsignals in electronic evaluation circuits for resistance bridges in electromechanical scales. The concern of the invention is to produce with a small number of components, in particular Praezisionswiderstaenden, an analog test signal, which is independent of the internal resistance of the measuring bridge and has a high stability. This is achieved in that an adjustable current source can be connected to an operational amplifier input connected to the amplification resistor of the differential amplifier, the current being chosen so that the test signal and the maximum measurement signal of the measuring bridge are equal.

Description

Contains current source and that for generating the test signal, the current source can be connected to a connected to the gain-determining resistors operational amplifier input, wherein the current source is adjustable so that the resulting test signal corresponds to the load signal generated at maximum load load of the scale. In a further advantageous embodiment, the A / D converter connected downstream of the differential amplifier is switched to a fixed resolution when the test signal is actuated.

Furthermore, the current source consists of a multiplying D / A-Wandlor, an operational amplifier and this controlled by a resistor field effect transistor, wherein the current source can be switched off by applying the gate terminal of the field effect transistor to a corresponding reference potential.

The function of the circuit according to the invention is that a targeted detuning is achieved by feeding a current into the gain-determining resistors contained in the differential amplifier. The resulting output signal causes a change in the mass display. The magnitude of the current is adjusted so that the mass display resulting from activation of the test signal when the balance is unloaded corresponds to the maximum load of the balance. This maximum load varies depending on the scale used. If, however, the resolution of the A / D converter is switched to a fixed value simultaneously with actuation of the check number, a constant check number indication is obtained regardless of the maximum load of the balance on all evaluation circuits. The switching on and off of the current source is effected in that the field effect transistor contained in the current source either operates as a current source by the driving operational amplifier or is blocked by applying the gate terminal to a reference potential. As a result, an additional power switch is not required.

embodiment

The circuit arrangement according to the invention is explained in more detail using an example and with reference to a drawing.

The resistance measuring bridge 1 is connected to a feed part 2. The output voltage of the resistance measuring bridge 1 is fed to a differential amplifier, consisting of the operational amplifiers 3 to 5 and the resistors R1 to R7, in which an A'D converter 6 is connected downstream. The feed part 2 is also connected to a reference input of a D / A converter 7.

At the control inputs 11 to I η the output voltage of the D / A converter 7 is adjustable. This serves as input for the downstream current source, consisting of an operational amplifier 8, a field effect transistor 9 and the

Resistors R8 and R9. A switch S1 is connected between the gate terminal of the field effect transistor and Misünpotential. The output of the current source leads to the inverted input of the resistor R3 and R4

Operational amplifier 3.

3-way switch S1 is closed during normal operation of the balance. As a result, the field effect transistor 9 blocks, and the power source is turned off. When the switch S1 is opened with unloaded balance, the current source generates a current which is determined by the output voltage of the D / A converter 7 and the resistor R8. This current flows into the junction point of R3 and R4 and causes an increase in the output voltage of the operational amplifier 5 and thus ur.r display. The switching of display resolution and number step to a fixed value, effected with the operation of the Schakers S1, causes the analog check number to have a constant value for all balances, regardless of their maximum load, when the D / A converter 7 is set up accordingly. Expediently, the constant display resolution of the check number is selected at least equal to the highest display indication of the balance occurring in practice and the number step 1.

The resolution of Jes D / A converter 7 and possibly a fine adjustment by means of potentiometers are adapted to the requirements for the Eirv. Reliability of the test number. Since the reference voltages of D / A converter 7 and A / D converter 6 with the

Supply part are connected, fluctuations in the supply voltage have no effect on the accuracy of the displayed

Check number.

From the drawing it can be seen that the internal resistance of the Widerstandsmoßbrücke 1 has no effect on the value of

Has check number. The output of the resistance measuring bridge 1 is directly coupled to the input of the differential amplifier. In this way, errors that may arise by switching the amplifier inputs, avoided.

Due to the high stability of the D / A converter 7, the accuracy of the current generated by the current source in the

essentially determined by resistor R8. From this it can be seen that instead of realized with conventional methods

Test signal generation in the inventive solution only a precision resistor is required. Instead of in the

Drawing instrumentation amplifier shown, other modified differential amplifier can be used.

Claims (3)

1. Circuit arrangement for generating a test signal in electronic evaluation circuits for resistance bridges in electromechanical scales, comprising a differential amplifier with operational amplifiers whose gain is determined by two or more resistors and whose output voltage is fed to an A / D converter, and an adjustable current source whose size the supply voltage of the measuring bridge is proportional, characterized in that the current source can be connected to a connected to the gain-determining resistors Oporationsverstärker-Ei; .cjann. 2. A circuit arrangement according to claim 1, characterized in that at the same time the resolution of the A / D converter and the digit step in the display are switchable to a fixed value with actuation of the test signal. 3. A circuit arrangement according to claim 1, wherein the current source in a conventional manner a multiplying D / A converter, operational amplifier and controlled by this resistor via a field effect transistor, characterized in that the current source by applying the gate terminal of the field effect transistor a corresponding reference potential can be switched off. For this 1 page drawing Field of application of the invention The invention relates to a Schal'ungsanordnung for generating a test signal in electronic evaluation circuits for resistance bridges in electromechanical scales. Characteristic of the known state of the art To check the accuracy of evaluation circuits for electromechanical scales, it is customary by generating egg. a; analcgen test signal to achieve a certain change in the mass value display. On the adjustability, temperature and long-term stability of this test signal high demands are made. For the realization of this test signal several circuits have been started. Thus, it is customary to achieve a targeted bridge detuning by connecting a resistor in parallel to a branch of the measuring bridge. The same effect is, as described in DE-OS 2841839, by parallel connection of an additional bridge circuit to the measuring bridge ei.e ^ ht. Both solutions have the disadvantage that the value of the test resistor or the bridge circuit used for the test for generating a predetermined test signal from the internal resistance of the measuring bridge used is dependent. Since up to 8 load cells of different internal resistances are connected in parallel in electro-mechanical scales, the resulting internal resistance of the measuring bridge varies over a wide range. To the same extent, the resistors used to generate the test signal must be adapted to this internal resistance. To ensure a sensitive adjustability of the test signal, therefore, a variety of finely graded resistors or potentiometer of high accuracy is required. The error of this test signal is also increased by temperature-dependent cable resistances to the measuring bridge and Durchlaßwiderstände the electronic switch used. Another possibility is to set the inputs of the amplifier used for correcting the Nullp'jnktfehlers at ground potential, turn on the d> e measuring bridge during the measurement and switch to generate a test signal to a F'üfspannung derived from the bridge supply voltage via voltage divider. This circuit requires a larger number of electronic switches whose reverse currents and error voltages can adversely affect the sensitive amplifier input. In addition, occur when switching the amplifier by the different common-mode potential at the amplifier inputs static and dynamic Fehlor on the amplifier output, whereby the displayed value can be influenced uncontrollably. Object of the invention The object of the invention is the required in the known technical solutions effort on components for generating a test signal? in electronic evaluation circuits for resistance bridges. Explanation of the essence of the invention The invention has for its object to provide a circuit arrangement for generating a test signal in evaluation circuits for resistance measuring bridges in electromechanical scales, which is characterized by a small number of components, in particular precision resistors, and high stability and accuracy. According to the invention the object is achieved in that the evaluation circuit is a differential amplifier with operational amplifiers whose gain is determined by two or more resistors, and an adjustable