SU819908A1 - Magnetic transistorized direct-coupled frequency multiplier by odd number - Google Patents

Description

The invention relates to static sources of electrical energy, namely, devices without a DC link, and can be used as directly coupled frequency multipliers.

Magnetic thyristor frequency multipliers with direct coupling are known, which contain a Lerromagnetic phase number converter, to the output of which the Pointer is connected to a thyristor. The load in such frequency multipliers is connected between the zero point of the ferromagnetic phase number converter and the common point of the thyristor group.

The magnetically thyristic1 frequency multiplier is an odd number of times with the SzU direct connection closest to npejviaraeMOMy. which contains a ferromagnetic converter of the number of phases, transformations of the input three-phase voltage into the required multi-phase voltage, and thyristors. In such frequency multipliers, to each output of the HCI and to the terminal of the ferromagnetic converter of the number of phases, two anti-parallel-connected thyristors are connected. The load is connected between the common point of the thyristors and the left point of the ferromagnetic number of phases.

The disadvantages of such magnetically thyristor frequency multipliers should be attributed to large weight-dimensional indicators.

The purpose of this photograph is to reduce the weight and size of magnetically thyristor frequency multipliers by an odd number of times with a direct link.

The goal is achieved in that in a magnetically thyristor 1 multiply at an odd number of times with a direct connection containing a ferromagnetic number of zero-phase phases, the output of which is counter-parallel to

the included thyristor pairs are connected to the output pins of the multiplier, the zero point of the ferromagnetic transducer of the number of phases is connected to both output pins of the multiplier part-

tots through the additionally inserted anti-parallel thyristor pairs, and each of the output pins of the phase number converter is connected via anti-parallel

connected thyristor pairs to one

the corresponding output of the multiplier.

Figure 1 shows a block diagram of an odd number of magneto-triacter multipliers with an unmatched link / Figure 2 is a circuit diagram of the proposed frequency multiplier with a multiplication factor of five; Fig. 3 shows the output phase voltage curves of a ferromagnetic phase number converter, a 250 Hz output duty curve, explaining the principle of operation of the multiplier.

The magnetically thyristor frequency multiplier at odd number-times with a direct connection (Fig. 1.2) contains an asymmetrical ferromagnetic phase number converter 1, a thyristor block 2. The three-phase input voltage is applied to terminals 3-5 with ac of clamps 6.7, the output voltage is removed with a frequency of an odd number of times the frequency of the mains supply.

The ferromagnetic transducer of the number of phases 1 of the magnetic frequency multiplier of the frequency multiplier 5 times (FIG. 2) contains three input phase windings 8-10 and conventionally designated output phase windings 11-15, which are formed by connecting the zigzag windings with the corresponding number of turns placed on various rods of a three-phase magnetic circuit, and converts the input three-phase voltage system into a five-phase asymmetrical system of the same frequency. The angular coordinates of these phases can be obtained from a 10-phase symmetric voltage system by choosing from each phase shifted relative to each other by 180 el., One that has a smaller angle with the input phase closest to it, 8.9 or 10. K the zero point of the ferromagnetic converter of the number of phases 1 is connected to two pairs, and to each of its output windings 11-15 there is one pair of thyristors connected anti-parallel.

For a magnetically thyristor frequency multiplier 5 times with a direct link (Fig. 2), the sequence of operation of the thyristors is as follows (Hiaie is indicated in brackets, the thyristors are included at the same time):

. (16,17); (18.19); (20.21); (22.23 (24, G /); (25,13); (26, .17); (27.23); (28.21); (29.19).

When thyristors 16, 17 are switched on at time t, the positive voltage of phase 11 is applied to terminal 7, and terminal 6 has zero potential and a positive half-wave voltage of 250 Hz is formed on the load. After turning off the thyristors 16, 17, at time t, the thyristors 18, 19 turn on, and the negative voltage of phase 14 is applied to terminal 7, and terminal 6 has zero potential. On the load, a half-wave voltage of 250 Hz is formed at the same time. After turning off the thyristors for 18.19 seconds at time ty, thyrisgori 20.21 turns on, and the negative voltage of phase 15 is applied to terminal 6, and terminal 7 is under zero: potential, and on the load forms Q with a positive half-wave voltage of 250 Hz . At time t, thyristors 20, 21 turn off, thyristors 22, 23 turn on, and a positive voltage of phase 12 is applied to terminal 6, and terminal 7 has

5 is zero potential, and a negative half-wave of the output voltage frequency 250. Hz is formed on the load. The formation of the remaining half-voltages of a voltage of 250 Hz with the frequency listed above of the thyristors working can be seen from Fig. 3.

The use of the proposed circuit interrelations with the choice of the optimal direction of the output phases of a ferromagnetic phase converter entails a reduction in the weight and dimensions of the latter, and consequently, in the whole frequency multiplier, since the weight of the ferromagnetic

The Q phase converter makes up 70-80% of the weight of the total multiplier.

The high energy performance of the proposed device is achieved by switching on capacitors in series or parallel to the load.

An odd-numbered frequency multiplier | 1 can be used to power high-frequency HatpysoK: incubators for heating metals, separators, centrifuges when performing multipliers with a three-phase output.

Claims (3)

1. US patent number 3715647, CL. 321-7, 1973. 2. Authors certificate of the USSR Yu 587574, cl. H 02 M 5/22, 1978. / h d T T T 3. Shapiro S.V., Los Yu.A. Magnetic thyristor multipliers are often an even number of times with direct communication. Thyristor frequency converters for induction heating of metals. Proceedings of AIM, vol.48, collection 3 (prototype). IT her in "& five