SU781710A1 - Device for converting relative change of impedance elements into active value - Google Patents

Description

. Soyuyyona chain with a common bus and od :; . From the input points of the first exemplary element, the same conclusion of the exemplary EZhomyont is connected to the first vertex of one of the supply diagonals of the ring diode bridge, the second output of the exemplary element is connected to the second vertex of the same diagonal of the pit, the first ring of the diode and the second pin the second dyagShal y py cbpc dyOdnogo Sheta: Shdklyucheny by the end of the first and the beginning of the second secondary windings respectively 2.. A disadvantage of the known device is that in 3 kDyy dynamic ekii di ana of the zones of conversion of the relative and its own eYaMyMtoeb full sogratytyvle - yyyyyyyyyyy; rySht brigGes on its JwQffly l-ia-th | KAZAYa NO power supply and, ultimately, does not allow to achieve the highest possible sensitivity at a given dynamic range npeoapji; This is because, as the voltage increases, the sensitivity increases and the dynamic range of the conversion decreases. . The goal of the invention is a 1-DI-1G-D Dig on a myriad-6 conversion range and an increase in sensitivity. This goal is achieved by the fact that in a device for transforming a relative change of impedance elements into an active value, containing a power transformer with two main secondary. windings wound in opposite directions, the beginning of the first and the end of the second OCHOJBHEIX secondary windings are connected to the tops of the power diagrams of the measuring circuit composed of two complete resistance elements connected in series, the top of the measuring circuit is connected to a common busbar and to one of the terminals of the first exemplary element, two diode circuits, each of which consists of two series-connected diodes, the end of the first main secondary operating circuit of one diode of one diode of the second diode circuit and, and the beginning of the second main secondary winding is connected to the anode of another diode, two additional secondary windings are introduced, identical to the main secondary windings, the second exemplary element, with the beginning of the first and the end of the second complementary windings corresponding to each other with the first section and beginning of the first and the beginning of the first circuit and the beginning of the first circuit and the beginning of the second circuit. the end of the first dr.pluschno. about the motor to and from 6 dd y and e iodine 6m We jssOf about the diode, the first diode circuit, and p, rdlr second additional winding soy dyyo cathode of the second diode this - the same circuit, the top of the first - yy Dyyona with one of the conclusions of the second

Claims (2)

781710 model element, the other output of which is connected to the top of the measuring circuit and a common bus, the top of the second diode circuit is connected to the other output of the first model element. , -, FIG. 1 is a schematic diagram of the device; in fig. 2 - The amplitude of the output signal from the change in the parameter to be converted, at different constant values of the supply voltage. The device removes the common bus 1, a circuit composed of series-connected, x impedance elements, such as capacitors 2 and 3, в; The quality of which can be 11 differential kondensatrr, the middle lining of which is connected to the common bus 1, four secondary windings 4-7, and the windings 4 and 7, 5 and b are wound in mutually opposite directions and physically balanced relative to the primary winding of the transformer, four diodes 8-11 and exemplary elements 12 and 13, which may be composed of, for example, parallel-connected exemplary resistors 14 and 15 and capacitors 16 and 17. The output voltage of the device is removed from the clamps of the exemplary lementov 12 and 13. VtoriChnye power transformer winding 4-7 provide equal voltage point and are oriented as shown in FIG. 1, so that in one half-cycle of the supply voltage the diodes of one diode circuit are open, and in the second half-period - diodes of another diode circuit. The Pa6otS device is implemented as follows. During the first (negative) voltage period of the supply voltage, the diodes 8 and 9 of the first diode circuit are open, as a result, through the model element 12 two currents simultaneously flow: the current of the diode 8 and the current of diode 9 directed oppositely, and the current of diode 8 is determined in the extra capacitance the capacitor 2 and flows through the circuit: the end of the secondary winding 5 of the transformer, an open diode 8, an exemplary element 12, a capacitor 2, the beginning of the secondary circuit 5. The current of the diode 9 is determined by the impersonal capacitor 3 and flows through the circuit: the end of the second: Node pV of coil 6, KOND Isator 3, Exemplary element 12, open diode 9, start of secondary winding 6. Residual current through exemplary element 12 Determines the difference or relative magnitude of change of capacitors 2 and 3. In the other (positive) supply voltage half-period, diodes 10 and 11 are open, providing prohrzhdenie. oppositely directed currents of diode 10 and diode 11, detected by capacitors 2 and 3, respectively, through an exemplary element 13, the diode 10 flowing through the circuit: the beginning of the winding 4, the open diode 10, model element 13, capacitor 2, the end of the winding 4. The diode 11 current flows through the circuit: the beginning of the secondary winding 7, capacitor 3, sample element 13, open diode 11, end of the secondary winding 7. The strength of the resulting current flowing through the sample element 13 determines the difference or relative value of the capacitor change 2 and 3 So about At the same time, the introduction of two additional windings and a change in the connections allows a circuit composed of counter-connected diodes to be connected parallel to the output terminals of the device and the restrictions imposed on the dynamic conversion range while removing the maximum possible sensitivity as seen from the graphs (Fig. 2) where Graph 1 corresponds to a supply voltage of 10 V, and Graph 2 corresponds to 20 V, respectively. The maximum possible sensitivity, depending on the supply voltage of the device, is limited only by the maximum allowable value of the reverse voltage of the diodes and the voltage of the breakdown of the bone sensor used. The use of the device as a converter of the relative change of the elements of the impedance of the sensors into the active value allows to significantly increase the sensitivity and expand the range of changes of the monitored values, which is especially important when using the device in ACS TP systems. DETAILED DESCRIPTION OF THE INVENTION A device for converting a relative change in impedance elements to an active value. containing a power transformer with two main secondary windings wound in opposite directions, the beginning of the first and the end of the second main secondary windings are connected to the tops of the supply diagonal of the measuring circuit composed of two impedance elements connected in series, the top of the measuring circuit is connected to the common busbar and one of the conclusions of the first model element, two diode circuits, each of which consists of two series-connected diodes, the end of the first main secondary The second winding is connected to the cathode of one diode of the second diode circuit, and the beginning of the second main secondary winding is connected to the anode of another diode of the same circuit, characterized in that, in order to broaden the dynamic conversion range and increase the sensitivity, it introduces two additional secondary windings that are identical the main secondary windings, the second exemplary element, with the beginning of the first and the end of the second additional windings, respectively, connected to the end of the second and the beginning of the first main secondary windings, the end n The additional secondary winding is connected to the anode of the first diode of the first diode circuit, and the beginning of the second additional winding is connected to the cathode of the second diode of the same circuit, the top of the first diode circuit is connected to one of the terminals of the second exemplary element, the other terminal of which is connected to the top of the measuring circuit and common bus, the top of the second diode circuit is connected to another conclusions of the first exemplary element. Sources of information taken into account in the examination 1. US patent number 3271669, cl. NCI 324-60, 09.09.66. 2. For France No. 2178877, l. G 01 R 27/02, 1973 (prototype).