TTLW. The collected longitudinal and transverse waves together
In the previous Chapter, we gathered the first part of the transformer transversely to the longitudinal waves. We managed a fairly simple means to EDS with a transverse wave which is generated by the pulse generator and a long line (DL). This EMF will not be enough for serious currents and power, but as a Coulomb of gain — quite: additional charges will very by the way. Now in our transformer has to talk we will talk about it in this Chapter.
The architecture of the first part of the transformer will use the most simple presented on figure 1.3 of the previous Chapter. Although it is not the perfect, but to understand the principle of operation is sufficient. Replace it with a different architecture, dear readers, you can own either using the ready-made recipes (figures 2.1-2.6), or developing your own.
Add the current in the coil L1 can be very simple method of a conventional transformer using the classical transverse waves. This is, the primary winding should be positioned so that the plane of the turns of the primary and the secondary match. Try to reconcile these requirements with the already developed the first part of the TTLW: place another coil L2 near lines DL in the frame T1.3 (figure 1.1, red winding). Its magnetic lines of force (H) are arranged like a conventional transformer, hence the connectors X3-X4 we can apply the classic alternating current. The ratio of turns, dimensions and the presence of a L2 core, will depend on the current in the coil L1.
Figure 1.2 shows the side view for a given architecture, which shows the location of the windings of the coils L1 and L2. For simplicity, it is not displayed frame to the first coil, but it can real design and not to be. For other architectures the arrangement of the elements may differ. So for example, if the architecture of figure 2.1 from the previous Chapter, the coil L1 is to be wound on top of L2 on the frame T1.3, and the whole structure will simply be placed next to T1.1-T1.2 that, for example, will allow you to adjust the size of that gap without restrictions.
Electric schematic diagram of the entire device are displayed in the following figure. Almost all of its elements are already familiar. Added Rn and Gs. Rn is the resistive load, where there is a mix of current and additional "pendants", Gs is a generator of sinusoidal oscillations, whose task is, together with coil L2 to generate the current in the coil L1. By the way, the mode shape of Gs may differ from the sinus. Apparently, it will be necessary galvanic isolation between the circuits T1.1-T1.2 and L1-L2. Also, you may need synchronization of the two generators: Gs and Gw.
Thus, we have managed to combine in one device the longitudinal and transverse types of waves, and to provide their interaction. Unfortunately, the calculation of the elements this transformer is at the moment impossible, so we set out only the principle of operation and some of the architectural features of the location of its elements. Will be happy if you, our dear readers, will submit your work in this direction. We are going to systematize them and put them here.