CH656717A5 - CIRCUIT ARRANGEMENT FOR LEVEL EVALUATION OF A MEASUREMENT. - Google Patents

Description

656717

Claims (1)

PATENT CLAIM Circuit arrangement for level evaluation of a measured variable, which is composed of a measuring element, a level circuit and comparators, characterized in that the first inputs (31,41... kl) of the comparators (3,4... k ), whose outputs (33.43 ... k3) form the circuit arrangement outputs, an output (12) of the measuring element (1) is connected, while the second inputs (32.42 ... k2) of the comparators (3.4 ... k) the outputs (23,24 ... 2k) are connected to the level circuit (2), the input (11) of the measuring element (1) and the input (21) of the level circuit (2) being connected to the voltage -supply source (U) are connected. The invention relates to a circuit arrangement for evaluating the level of a measured variable, which is composed of a measuring element, a level circuit and comparators. Until now, such circuit arrangements have been used for level evaluation of the measurand that required the use of stabilized supply voltages both for the measuring element and for the level circuit to ensure the required accuracy. The disadvantage of these circuit arrangements is that they require an additional device for stabilizing the supply voltages. The accuracy achieved then depends on the type and quality of the stabilizer used. The object of the invention is to create a circuit arrangement which does not have the disadvantages mentioned above. In a circuit arrangement of the type mentioned at the outset, this object is achieved according to the invention in that an output of the measuring element is connected to the first inputs of the comparators, the outputs of which form the circuit arrangement outputs, while the outputs of the level circuit are connected to the second inputs of the comparators, whereby the input of the measuring element and the input of the level circuit are connected to the voltage supply source. An exemplary embodiment of the subject invention is shown in the drawing. It represents an evaluation circuit of the contactless logic for fault status tracking from a thyristor converter. The input 11 of the measuring element 1 is connected to the voltage supply source U. Parallel to the entrance 11 of the measuring element 1, the switches 115, 116... 1 In are connected, the second end of which is connected to the resistors 15, 16,... In. The second ends of the resistors 15,16... In are connected to each other and connected on the one hand to the inverting input of the first operational amplifier 13, the non-inverting input of which is grounded, and on the other hand to one end of the first resistor 14, the second end of which is connected to the output of the first Operational amplifier 13 is connected, which also forms the output 12 of the measuring element 1. The exit 12 of the measuring element 1 is connected to the first inputs 31,41... kl of the comparators 3,4... k, which are connected to the inverting inputs of the operational amplifiers 34,44... k4, to which also via the second Inputs 32.42... k2 the outputs 23.24... 2k of level circuit 2 are connected. The outputs of the operational amplifiers 34, 44 . . . k4, whose non-inverting inputs are grounded, simultaneously form the outputs of the entire circuit arrangement. The input 21 of the level circuit 2, which is formed by a voltage divider, is connected to. A supply voltage is fed to the input 11 of the measuring element 1 . The voltage is processed by the s first operational amplifier 13, the gain of which, determined by the ratio of the first resistor 14 to the parallel combination of resistors 15,16...In, is variable according to which of the switches 115,116...1 In is on . The voltage at the output 12 of the measuring element 1 is therefore proportional to the number of switched-on switches 115, 116... 11n and the supply voltage magnitude. This supply voltage is also fed to the input 21 of the level circuit 21 . It supplies the voltage divider which generates the required voltage levels for ls the switching over of the comparators 3,4...k. The level values depend on the one hand on the voltage divider setting and on the other hand on the supply voltage. When the output voltage from the measuring element 1 exceeds the relevant comparator level 20, the comparator formed by the operational amplifier changes its output. The advantage of the solution according to the invention, in addition to a simple circuit arrangement, is that without using a quality voltage stabilizer for the measuring element and the level circuit, high level evaluation accuracy is achieved even with large fluctuations in the supply voltage. The application of the invention comes into question in the fields of measurement technology and regulation technology, where an evaluation of the state of failure in the defined series of elements is required. List of reference symbols used 35 1 measuring element 2 level circle 3 comparator 4 Comparator K Comparator 40 11 entrance 12 exit 13 first operational amplifier 14 first resistance 15 resistance 45 16 resistance In resistance lln switch 21 entrance 23 exit so 24 exit 2k output 31 first entrance 32 second entrance 33 exit 55 34 operational amplifiers 41 first entrance 42 second entrance 43 exit 44 operational amplifiers 60 115 switches 116 switch kl first input k2 second input k3 output 65 k4 op amp U power supply source B 1 sheet of drawings