SU1182423A1 - Alternating-to-direct voltage converter - Google Patents

Abstract

1. CONVERTER. VOLTAGE-VOLTAGE CONVERTER TO PERMANENT, containing the first and second operational amplifiers. An input resistor connected between the input bus and the inverting input of the first operational amplifier, the non-inverting input of which is connected to the common bus, the first feedback resistor connected between the inverting input of the first operational amplifier and the anode of the first rectifying diode, the second feedback resistor connected between the inverting input of the first opamp and the cathode of the second rectifying diode, the second leads of the rectifying diodes are connected to the output of the first opamp The first communication resistor connected between the anode of the first rectifying diode and the inverting input of the second operational amplifier, the output of which is connected to the output bus and through the third feedback resistor to its inverting input, the second communication resistor included between the cathode of the second rectifying diode and the non-inverting input of the second operational amplifier, which is connected via a resistor to a common bus, characterized in that, in order to increase the conversion accuracy in the range of tively vvedany two current sources, the connected. in parallel with the di-. Odem, with each current source made of the first plate of metalg. With a higher work function and a second metal plate with a smaller work function, a solid electrolyte gasket is placed between the plates in contact with them, the first plate is connected to the anode, and the second to the cathode of the corresponding rectifying anode. . 2. The converter according to claim 1, about t. ": L and h and n and with the fact that the plates of current sources are made of the same metal, the first plate is made with a greater thickness than the second.

Description

The invention relates to electrical measuring equipment, in particular to measuring transducers, and can be used in devices for measuring alternating voltage. The purpose of the invention is to improve the accuracy of the conversion in the temperature range by compensating for temperature changes in the reverse current of the output diodes. The drawing shows an electrical schematic diagram of the converter. The AC / DC converter contains the first and second 2 operational amplifiers of the input resistor 3 connected between the input bus and the inverting input of the first 1 operational dry l, the non-inverted input of which is connected to the common bus, the first feedback resistor 4 connected between the inverting input the first operational amplifier 1 and the anode of the first rectifying diode 5. The second feedback resistor 6 is turned on by the inverting input of the first operational amplifier 1 and the cathode of the second rectifier 7. The second guide diode conclusions rectifying diodes guides 5 and 7 are connected to the output of the first operational amplifier 1. Between invertiru1rschim operaTsIO1PYuGO input of the second amplifier 2 and the anode of the first diode vshr mL guide 5 included pervsh resistor 8 bond. The output of the second operational amplifier 2 is connected to the output bus and through the third feedback resistor 9 is connected to the inverted input of the same amplifier. A second communication resistor 10 is connected between the cathode of the second rectifying diode 7 and the non-inverting input of the second operational amplifier 2, which is connected via a resistor II to a common bus. Two other current sources 12 and 13 were added to the converter, connected in parallel to output diodes 5 and 7. Each current source 12 and 13 contains the first metal plate 14 with a higher output function, the second metal plate 15 with a smaller output function. and placed between them in contact with the plates 14 and 15 the lining of the solid electrolyte 16. The first plate 14 is connected to the anode, and the second 15 - to the cathode of the corresponding diode. Plates 14 and 15 can be made of the same metal, while the first plate 14 should be thicker than the second 15. A dielectric or high-resistance semiconductor can be used as a solid electrolyte. The AC to DC converter works as follows. The first operational amplifier 1, with feedback resistors 4 and 6 and rectifying diodes 5 and 7, is a full-wave capacitor. At its outputs — the anode of the first rectifying diode 5 and the cathode of the second diode 7 — pulsating voltages of different polarities are formed as a result of the half-wave rectification of the input voltage. The second operational amplifier 2 by means of resistors 8-11 discharges the voltage of one polarity without inversion to the output, and inverts the other, resulting in a pulsating voltage on the output bus of the converter resulting from the full-voltage rectifying of the input voltage. As a result of the temperature change, the reverse current of the rectifying diodes 5 and 7 changes. However, the output current of the current sources 12 and 13, resulting from the contact effects between the metal plates 14 and 15 and the solid electrolyte 16, is close to the reverse current of the diodes 5 and 7 and has a similar dependence on temperature. Since the current from sources 12 and 13 of the current in the external circuit is directed against the reverse current of the diodes. 5 and 7, its temperature variations compensate for the temperature variations of the reverse current of the diodes. . Thus, the conversion accuracy is improved.

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Claims (2)

: 1. VARIABLE · VOLTAGE CONVERTER CONSTANT, containing the first and second operational amplifiers, an input resistor connected between the input bus and the inverting input of the first operational amplifier, the non-inverting input of which is connected to the common bus, the first feedback resistor connected between the inverting input the first operational amplifier and the anode of the first rectifying diode, a second feedback resistor connected between the inverting input of the first operational amplifier and the cathode of the second rectified a diode, the second outputs of the rectifying diodes are connected to the output of the first operational amplifier, the first coupling resistor connected between the anode of the first rectifying diode and the inverting input of the second operational amplifier, the output of which is connected to the output bus and through the third feedback resistor with its inverting input, a second coupling resistor connected between the cathode of the second rectifying diode and the non-inverting input of the second operational amplifier, which is connected via a resistor to a common bus, in that, in order to increase the accuracy of the transformation in the temperature range, it is further introduced 'Dena two current sources, the connected, di- .vypryamlyayuschim GOVERNMENTAL parallel. odes, with each current source made of a first metal plate. with a larger work function and a second metal plate with a lower work function, a solid electrolyte gasket is placed between the plates in contact with them, the first plate is connected to the anode, and the second to the cathode of the corresponding rectifying '’anode. ..... ......... ' 2. The Converter according to claim 1, about t "; due to the fact that the plates of the current sources are made of the same metal, while the first plate is made with a larger thickness than the second.