SU733070A1 - Frequency duplicator - Google Patents

Description

The invention relates to the field of static valve frequency converters with direct connection and can be used as a power source, in particular, for electric motors increased® frequency. 5

Static gate frequency doublers are known in which frequency doubling is carried out using various rectifier circuits in combination with inductors or transformers (C - ° and G21. The disadvantage of these converters is the presence and insufficient use of a constant component in the current or magnetic flux, which significantly reduces the technical economic ¹⁵ indicators of the device [lj - {3J.

Also known chaototy doubler comprising two rectifier bridge, one of the same name conclusions constant ka TO- _2Q which are combined into a common output, and to the other terminal of the DC choke connected to the first bridge coupled to the resistor in serial kidney HA. This device does not provide full use of the DC component, which reduces the efficiency of the device. In addition, the presence of dividing 'tanks degrades the mass and overall performance and complicates the device.

The aim of the invention is to increase efficiency, improve weight and dimensions and simplify the device.

This goal is achieved by the fact that in the frequency doubler containing two rectifier. Bridges, one of the same DC outputs of which are combined into a common terminal, and a choke connected to the resistor in a series circuit is connected to the other at the DC terminal of the first bridge, and a rectifier bridge is additionally introduced and two chains, each of which consists of additional chokes and resistors connected in series, and the additional rectifier bridge is connected to a common the alternate output of the two bridges indicated, each of the other DC terminals of the second and additional bridges is connected to the free end of the inductor of one of the additional circuits, and the free ends of the resistors of all circuits are connected to a star, the zero point of which is connected to the common DC output of the bridges, the other DC outputs whose currents form the terminals for connecting a three-phase load.

In FIG. 1 shows a frequency doubler circuit; in FIG. 2 - time diagrams of stresses.

A three-phase frequency doubler contains three single-phase diode rectifiers, Bp ,, By assembled according to a bridge circuit, one of the same DC terminals of which are combined into a common terminal, and one of the chains consisting of an inductor L (L ₄ , Lg, L. ₃₎ and a resistor RiR ^, Rg, R ^) . Resistors, Rg, Rg are connected in a star, the zero point of which is connected to the common output of the rectifiers. Other DC terminals of rectifiers ВР В ₂ , В ₃ form conclusions a, b, c for connecting a three-phase load, for example, motor D. Resistors are heating elements. Rectifier power supply bridges from the secondary 'windings of the transformer, the primary winding of which is connected to phases A, B, C of the power source.

The doubler works as follows.

The doubling of the frequency at the load is due to the oncoming voltage action of two diode bridges. In the phase ab of the load, the voltage U = U _a -VJ _b ; in the bc phase, Ubc = U _b - U _c ; in the phase Co U _{C (S} = U _C - U _a Fig. 2 shows the time diagrams of voltage at active load. The circuit allows you to use the constant current component in the heating elements (heating elements), for example, in the separation of milk, and the alternating current component of double frequency for gearless 733070 4 whom drive separates high speed electric motors.

A high degree of utilization of the constant and variable components ensures a high efficiency of the device (~ 0.9), and the exclusion of separation capacities reduces the dimensions and simplifies the circuit.

Claims (3)

The invention relates to the field of direct-link static frequency converters and can be used as a power source, in particular, for high-frequency electric motors. Static valve doublers are known frequencies in which double the frequency is carried out using raalit rectifier circuits in combination with inductances or transformers (P and 2. The disadvantage of these transformers is the presence and insufficient conventional component of the current in the current OR magnetic flux, which significantly reduces the technician's on-economic indicators of the device 1 - 3. A frequency doubler is also known, containing two very powerful bridges, one of which of the same name DC A common choke connected to a resistor in a serial box is connected to the common DC output of the first bridge. This device does not fully utilize the constant component, which reduces the efficiency of the device. In addition, the separation capacitances degrade the mass performance and complexity of the device. The aim of the invention is to increase the efficiency, improve the weight and dimensions and simplify the device. This goal is achieved by the fact that a frequency doubler, containing two superimposed, bridges, one of the same DC outputs of which are combined into a common output, and the other connected to the DC output of the first bridge connected to a serial resistor, additionally, a rectifying bridge and two ts-POCh1SI were introduced, each of which consists of consecutively connected additional cords and a resistor, and the additional rectifying bridge is connected to the common one by one DC output terminal nominal vtodom the two bridges. Each of the other direct current pins of the second and additional bridges is connected to the free end of the throttles of one of the additional chains, and the CEEs of the resistors of all the chains are connected to a star, the zero point of which is connected to the common DC terminal of the bridges, the other DC outputs of which form pins for connecting a three-phase load. FIG. 1 shows a frequency doubler circuit; in fig. 2 - time diagrams of voltages. A three-phase frequency doubler contains three single-phase diode rectifiers Bi, Vl, B ,, assembled according to a bridge circuit, one of which of the same name of the direct current is combined into a common output and k each of the other outputs of the direct current is connected to one of the strings L {L, Lg, L. ) and resistor R (R, R, R ,,). Resistors R., R, R ,. connected to a star, the zero point of which is connected to the general output of the rectifiers. Other DC terminals of rectifiers B., Bg, B form terminals a, b, c for connecting a three-phase load, for example, an electric motor T). Resistors are heating elements. The rectifying power bridges from the secondary windings of the transformer, the primary winding of which is connected to phases A, B, C of the power source. Doubler works as follows. The doubling of the frequency at the load is due to the on-line de-force of avuh voltages. diode bridges. In phase ab of the load voltage and at, Uo-Uj; in phase Jbc Ufc, - USG d in phase Sa C: o, - a. In FIG. Figure 2 shows the time diagrams of the voltage under active load. The scheme allows the use of a constant current component in heating elements (heating elements), for example, for milk separation, and a variable current component of double frequency for a gearless drive of separates by high-speed electric motors. . The high degree of use of constant and variable components provides a high efficiency of the device (iO, 9), and the exclusion of separation tanks reduces the size and simplifies the circuit. The invention frequency doubler containing two rectifying bridges, one of the same name DC outputs of which are connected to a common terminal, and another DC terminal of the first bridge across, connected a choke connected to a series-line resistor, on.tl and h And so, in order to increase efficiency, improve weight and size, and simplify, an extra bridge and two chains are added, each of which consists of a series-connected additional droselsel and a resistor, An additional rectifying bridge is connected by one DC output to a common identical output of two indicated bridges, each of the other DC outputs of the second and additional bridges is connected to the free end of the throttles of one of the additional chains, and the free ends of the resistors of all the chains are connected in a star, zero the point of which is connected to the common DC output of the bridges, the other DC outputs of which form the output for connecting a three-phase load. Sources of information taken into account during the examination 1. USSR author's certificate number 5OO569, cl. H 02 M 5/16, 1974. 2. USSR Author's Certificate No. 450294, cl. H O2 M.5 / 38, 1974. 3. USSR author's certificate number 145929, cl. H O2 M 5/16, 1961.