RU2525170C1 - Ac voltage rectifier - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: AC voltage rectifier comprises an ohmic area, to which AC voltage is supplied, via an insulating area connected to provide proper thermal contact to a thermoelectric structure, from which DC voltage is taken. At the same time a heat source made in the form of a through reservoir with geothermal water is coupled to the surface of the ohmic area that is opposite to the one in contact with the thermoelectric structure, and the surface of the thermoelectric structure opposite to the one in contact with the ohmic area is coupled with the system of evaporation cooling.

EFFECT: increased value of DC voltage generated by a device.

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Description

The invention relates to electronics, in particular to means for rectifying an alternating electric voltage.

The prototype of the invention is the device described in [1].

In it, the alternating voltage generator is connected to the ohmic contacts of the resistive region, in which thermal energy is released during the passage of alternating current. Heat propagates through a thin insulating region to a thermoelectric region, in which a certain stationary temperature distribution is established, as a result of which a thermo-emf appears. Since the structure has sufficient heat capacity and, therefore, inertia, the temperature distribution in the thermoelectric region does not change during the period of alternating voltage and the constant voltage is removed from the contacts at a small amplitude of output pulsations.

The disadvantage of this device is the low value of the obtained constant voltage compared to the current value of the alternating voltage. This is associated with significant losses in the conversion of AC energy to heat due to the Joule-Lenz effect and in the conversion of thermal energy to DC energy due to the Seebeck effect.

The aim of the invention is to increase the value of the constant voltage generated by the device.

The goal is achieved by the fact that with the surface of the ohmic region opposite in contact with the thermoelectric structure, a heat source is paired, made in the form of a flow tank with geothermal water. In this case, the surface of the thermoelectric structure opposite to that in contact with the ohmic region is associated with an evaporative cooling system.

The design of the device is shown in figure 1. The device consists of an ohmic region 1, to which a thermoelectric structure 3 is connected through an insulating region 2 to ensure good thermal contact. A heat source 4 is connected to the surface of the ohmic region 1 opposite to the thermoelectric structure 3, made in the form of a flow tank with geothermal water. The surface of the thermoelectric structure 3 opposite to the contact with the ohmic region 1 is associated with the evaporative cooling system 5.

The device operates as follows.

From the alternating voltage generator U ~, the signal enters ohmic region 1, where heat is generated due to the Joule-Lenz effect. At the same time, the ohmic region 1 is subjected to additional heating by a heat source 4, made in the form of a flow tank with geothermal water. The heat propagates through a thin insulating region 2 to the heated junctions of the thermoelectric structure 3, in which a certain stationary temperature distribution is established, as a result of which thermo-emf appears. Since the structure has sufficient heat capacity and, therefore, inertia, the temperature distribution in the thermoelectric region does not change during the period of alternating voltage and the constant voltage is removed from the contacts at a small amplitude of output pulsations. The value of constant voltage increases due to additional heating of the ohmic region 1 by a heat source 4, made in the form of a flow tank with geothermal water. The evaporative cooling system 5 is used to remove heat from the cold junctions of the thermoelectric structure 3, thereby increasing the temperature difference between its junctions, and, accordingly, the value of the constant voltage on its contacts.

Literature

1. Efimov I.E., Kozyr I.Ya., Gorbunov Yu.I. Microelectronics: Design, types of microcircuits, functional microelectronics. M .: Higher school, 1987 .-- 416 p.

Claims (1)

An alternating voltage rectifier, consisting of an ohmic region to which an alternating voltage is applied, is connected through the insulating region to ensure good thermal contact to the thermoelectric structure, with which a constant voltage is removed, characterized in that it is paired with the surface of the ohmic region opposite to the thermoelectric structure a heat source made in the form of a flow tank with geothermal water, while the surface of the thermoelectric structure, pr opposite to that in contact with the ohmic region, it is associated with an evaporative cooling system.