DE454896C - High-frequency system with tuning branch connected in parallel - Google Patents

Description

GERMAN EMPIRE

ISSUED ON JANUARY 19, 1928

REICH PATENT OFFICE

PATENT LETTERING

JV * 454896 CLASS 21 a ⁴ GROUP

Patented in the German Empire on May 24, 1924.

The invention relates to a particularly advantageous dimensioning of high-frequency systems.

Fig. Ι shows, for example, a known circuit for a high-frequency transmitter system. Here G denotes a high-frequency generator, L ₁ or L ₂ self-tuning inductions, C ₁ or C ₂ tuning capacitances, C ₁ , a parallel capacitance, which can also be replaced by a parallel inductance L ₁ , or a combination of the two. T is an iron choke that serves as a frequency transformer; Whether it "works with or without DC excitation, whether it has combined or separate primary and secondary windings, is irrelevant. The energy transformed to a higher frequency goes to circuit III, which can either be a useful circuit or an intermediate circuit or can lead to the next frequency increase stage In special cases some of the links L ₁ , L ₂ , C ₁ and C _{2 can be} missing, and the generator can feed the system instead of directly by means of a voltage transformer.
In all these cases, the system can be represented by the diagram in Fig. 2. Here the generator G has an internal voltage (open circuit voltage) E _iy which is either - with direct connection - equal to the real open circuit voltage or - with connection via a voltage transformer

- is equal to the real voltage, multiplied by the transformation ratio of the voltage transformer (ie converted to the secondary side of the voltage transformer). W ₁ is the resulting apparent resistance in ohms, which, in addition to the apparent resistance of the elements L ₁ and C _1, also includes the self-induction or the capacitance of the generator, the supply lines, any apparatuses and

- in the case of the voltage transformer - still contains its leakage reactances and in this latter case is converted to the secondary side of the voltage transformer. Zv ₁ can be both positive (inductive) and negative (capacitive). w _p is the apparent resistance in ohms of branch C ₁ (or Lp) of Fig. 1 and is either positive or negative. w " is the resulting apparent resistance, which is composed of the apparent resistances lying to the right of w _p. R is the equivalent ohmic resistance converted to circuit III.

According to the invention, a particularly favorable mode of operation with respect to the Voltages of the generator voltage and sta-

*! The patent seeker stated as the inventor:

Mendel Osnos in Berlin.

The ability of the system is brought about if W ₁ and W _{p are} chosen so that their algebraic sum is positive (inductive) or equal to zero.

The latter case is particularly advantageous if you change the system the saturation of the frequency transformer, for example by means of direct current, controls (gropes, discusses). 'In this case, as one can theoretically prove, the primary current remains of the frequency transformer approximately constant, namely approximately

same--; you then need to touch

fewer amp turns, and keying can be faster. aside from that In this case, the system starts up very easily and - as is also the case can prove - steadily (without tilting phenomenon), so that the telegraphic signs can develop more cleanly.

In many cases it is also useful to choose the constants so that W ₁ and W _{2 are} of the same character and w _{p of} the other character; if w _{p is} capacitive, W ₁ inductive and their sum is zero, then it is best to make the absolute value of w _p greater than W ₂ ; on the other hand , if w _{p is} inductive and W _{1 is} capacitive, it is better to make the absolute value of W ₁₁ smaller than W ₂ .

Claims (6)

Patent claims: 1. High-frequency system with parallel-connected tuning branch (w _p ), characterized in that the algebraic sum (w _p + «Ο ^νοη apparent resistances of the parallel branch and all of the part of the system in front of it is greater than or equal to or approximately equal to zero. 2. High frequency system according to claim i, characterized in that W ₁ and w _{p have} different characters. 3. High-frequency system according to claim 1 and 2, characterized in that w _p and W _{2 have} different characters. 4. High-frequency system according to claim 2 and 3, characterized in that W ₁ capacitive and w _p inductive is smaller than W _{2 in} terms of its absolute value . 5. High-frequency system according to claim 2 and 3, characterized in that W ₁ ~ \ - w _{p is} equal to zero and w _{p is} capacitive and its absolute value is greater than W ₂ . 6. High frequency system with frequency transformer according to claim 1 to 5> characterized in that the control by means of superimposed direct current Sj alternating current or speech current is carried out at the frequency transformer. 1 sheet of drawings.