SU951649A1 - Device for adding electric oscillation generator power - Google Patents

Description

a three-wire linn and the end of the third water source is a second three-wire picnic, and two symmetric with respect to the total: loads, the first of which are connected between the connected end of the first three-wire line and the beginning of the third conductor of the second three-wire line and connected together by the end of the third conductor of the first three-wire water line and the beginning of the first conductor of the second three-wire line, the second load is connected between the connected beginnings of the second conductors of the first and second three-wire water lines - connected together by the ends of the second wire of NIKS of the first and second three-drive lines. In each three-wire wire, the resistance between the first and second conductors, as well as between the third and second conductors, is three times longer than the waveguide . resistance between the first and second conductors, as well as between the third:, and second conductors in the line segment from the middle to the point of connection of the first load. The drawing shows a circuit diagram of the proposed folding device. The device contains two three-wire lines 1 and 2, consisting of wire-. NIKOV 1.1 - 1.3 and 2.1 - 2.3, two generators 3 and 4, the first 5 and the second 6 Haj narrow: u1 The dashed lines show the mean electrical lengths of the three-wire - “lines, 1 dots denote the conductors of the lines, and the first and second conductors and the third three-wire research institutes 1 and 2 have areas of higher impedance from the point of connection: and of generators 3 and 4 to the middle and areas of smaller impedance. resistance from the middle to the point of connection of the load .-. 5, respectively. The device works as follows. With the field oscillations of generators 3 and 4 indicated in the drawing, the potentials of conductors 1.2 and 2.2 are zero because they are in the plane of zero potential, respectively, HTIKOB 1.1 - 1.3 and 2.1 - 2.3. Therefore, oscillations from oscillators 3 and 4 propagate through two two-wire pins: the first is formed by conductors 1.1 and 1.Z., and the second by conductors 2.1 and 2.3. The outputs of these lines are connected in parallel and connected to a load 5 in which the full power of the generators 3 and 4 is released; If the value of load resistance 5 is two times less than the wave resistance of each of the two above-mentioned two-wire lines, then both these lines are matched, and the load for each of the generators 3 and 4 is twice as large as the resistance of the battery 5. When the polarity of one of the generators, for example, 3, on the reverse potentials of the conductors 1.1 - .1.3 and 2.1 - 2.3 become the same, and therefore the oscillations do not flow into these lines. Accordingly, in load 5 they are not released. Due to the fact that the potentials of the conductors 1.1-1.3 turn out to be opposite to the potentials of the conductors 2.1-2.3, the oscillations flow through the conductors 1.2-2.2 into the load 6. Since this, the load 6 is connected to the ends. connections of parallel conductors 1.2 and 2.2, and the length (number of turns) of each of these conductors is half the total length (number of turns) of conductors connected to generators 3 or 4, the load 6 is 8 times less than the load resistance of each of the generators 3 and 4, i.e. there is a significant (usually necessary) transformation of resistances. In order for the generators 3 and 4 to be matched in this mode, it is necessary to perform certain ratios for the wave impedances of the lines, one i3 of which is formed by the conductor 1 2 and connected together (equipotential) conductors 1.1 -1.3, and the other - by the conductor 2.2 and connected together by conductors 2.1 - 2.3. Both of these lines must be identical, since the load 6 is symmetrically located relative to them. Due to the fact that the load 6 is connected between the ends of the lines 3 and 4 opposite to the generators, the oscillations come from two sides of the lines formed by the conductors 1.2 and 1.1 - 1. 2.2 I 2.1. - 2.3. Therefore, a reflected wave appears at the junction of the midpoints of these lines. This reflection can be compensated for by performing half the lines of different wave resistance. The calculation shows that if the wave impedances of the halves of the lines differ by a factor of three, then the generators 3 and 4 work for consistent loads, the same in magnitude as for the in-phase (first considered) mode.

Claims (1)

Claim 1. A device for adding the powers of electric oscillation generators with outputs symmetrical to the common bus, containing two generators, two three-wire lines and two loads, the first generator being connected between the beginning of the first conductor of the first three-wire line and the end of the first conductor of the second three-wire line, the second between the beginning of the third conductor the first three-wire line and the end of the third conductor of the second three-wire line,