DE1766884A1 - Electronic resistance-time converter - Google Patents

Description

Electronic resistance-time converter In the previously known digital resistance measuring devices, the current flowing through the resistor (current method) or the voltage drop of an impressed current is measured (voltage method) and according to a known method of analog-digital technology into a digital one Reshaped statement. However, this measuring method has the disadvantage that only the absolute value the resistance can be measured. When determining resistance differences difficulties arise and the effort becomes very great. The invention relates focuses on a method for the digital measurement of absolute and differential values electrical Resistances by converting these values into time values.

The invention consists in that the resistance to be measured (ru) and a comparison resistor (rv), each via a switch i 's2) with one each Pole can be placed on one pole of a plague resistor (r1) that on the other pole of the plague resistance on the one hand and the two turned away from the counters, with each other connected poles of the to be measured and the comparison resistance on the other hand one linearly increasing voltage is applied that with a smaller resistance value of the Comparison resistance compared to that of the resistance to be measured, initially the The switch in the branch of the comparison resistor is closed and the switch in the branch of the resistance to be measured is open - otherwise vice versa that with the help of a voltage level switch (S), which is parallel to the Fes resistance (r1) lies, a bistable element (B) is actuated, which the two Switch positions reversed, and that the time interval between this and the following Tilting process as a measure proportional to the resistance difference value for the digital display is evaluated.

The determination of the absolute value of the resistance to be measured is in this method in a simple manner possible that this is the comparison resistance is bridged, whereby the resistance value in this branch is zero. So is the difference value is equal to the absolute value of the resistance to be measured.

The invention is explained with reference to the figure. In this means 1 shows an exemplary embodiment of a circuit for carrying out the method according to the invention FIG. 2 shows a diagram of individual voltage-time relationships the circuit of FIG. 1.

The measuring circuit consists of a combination of 3 resistors Or1 is a fixed resistor, r1 the resistance to be measured and rv the comparison resistance for the differential measurement.

The double switch s1-s2 can be designed as an electronic switch be. A linearly increasing voltage is applied to this combination of resistors. s1 is open, 82 is closed. The voltage level switch lying parallel to r1 S is tuned in such a way that it becomes the bistable element at a certain voltage at r1 B, e.g. B. a flip-flop circuit, causes it to tip over.

As a result, the switch s1-s2 changes its switching state. s1 is closed, s2 open. Assuming that r is less than v than rx, the voltage decreases abruptly at r1. Only when the switching voltage of the voltage level switch is reached again tilts the bistable element and puts the at the beginning of the Measurement existing states. The voltages at r1 and at the output of the bistable Elements result in an image according to FIG. 2.

The switching voltage of the voltage level switch is denoted with -U5, the switching points with t1 and t (Fig. 2), the 2 sawtooth voltage at the input with U = at (a constant of proportionality, t time), the voltage drop across resistor r1 with Ur1, so: Time t1 is reached when Ur1 = Us: After switching over, the resistor rx is connected in series with r1 instead of rv. The following applies to Ur1: Time t2 is reached when Ur1 = U5: The difference # 5 = t2-t1 gives the pulse width at the output of the bistable element: The pulse width is therefore directly proportional to the difference between the resistances rx and rv. If rx is less than rv, the circuit must be designed so that when the saw tooth voltage begins, s1 closes and s2 conducts.

The same results are obtained if a linearly decreasing voltage is used instead of a linearly increasing voltage. However, if the absolute value of a resistance is to be measured, rv must be bridged:

Claims (4)

Claims 1. A method for digitally measuring absolute and differential values electrical resistances by converting these values into time values, characterized in that that the resistance to be measured (rx) and a reference resistance (rV), each about a switch (91 92) with one pole each to one pole of a fixed resistor (r1) be placed that on the other pole of the fixed resistor on the one hand and the two The interconnected poles of the to be measured and the connected poles facing away from the switches On the other hand, a linearly increasing voltage is applied to the comparison resistance, that with a smaller resistance value of the comparison resistance compared to that of the to measuring resistance, first of all, the one in the branch of the reference resistance Switch closed and the switch in the branch of the resistance to be measured is open, - otherwise the other way around that with the help of a voltage level switch (s), which is parallel to the fixed resistor (r1), actuates a bistable element (B) that reverses the two switch positions, and that the time interval between this and the following tilting process as the resistance difference value proportional Measure for digital display is evaluated. 2. Modification of the method according to claim 1, characterized in that that instead of a linearly increasing voltage, a linearly decreasing voltage is used will. 3. The method according to claim 1 or 2, characterized in that for Determination of the absolute value of the resistance (ru) the comparison resistance (rv) is bridged. 4. Resistance maintenance as a basic circuit for carrying out the process according to one of claims 1 to 3, characterized in that a fixed resistor (r1) in series with a combination from a double switch (S1, 92), a comparison resistance (rv) and the resistance to be measured (rx), because # the two switches of the double switch are coupled in such a way that one switch is open when the other is closed, and that each switch has one of the two resistors (rv, rx) of the combination in series with the fixed resistor r1.