DE733149C - Modulation circuit for shortwave or ultra shortwave television transmitters - Google Patents

Description

. Modulation circuit for shortwave or ultra-shortwave television The subject of the present invention is a modulation circuit for shortwave or. Ultra-short wave television transmitter, which allows an extremely extensive modulation, as it is required for television purposes.

In the circuit arrangement according to the invention, various circuit measures known per se are used in general radio technology, which together result in a modulation circuit which is particularly advantageous for television purposes is, because it allows an immaculate through modulation of up to 85 to 20%.

There are already a variety of modulation circuits for general High frequency or telegraphy purposes became known, which on the one hand with frequency multiplication and on the other hand with the supply of the modulation symbols and excitation vibrations separate grids work. Furthermore, it has already become known in telegraphy circuits to use a screen grid tube for frequency multiplication at the same time the screen grid is touched in time with the telegraphic characters.

According to the invention, a screen grid tube operating with frequency doubling with an anode and as steep as possible is now used as a modulation tube in a modulation circuit for shortwave wire ultra-shortwave television transmitters, which has two control grids, which are controlled in phase opposition at high frequencies by an oscillating circuit tuned to the fundamental frequency and are thus highly biased are that only positive half-waves of the control voltage control the current in the anode circuit, which is tuned to twice the fundamental frequency, and its screen grid is controlled by the modulation voltage. It is therefore essential that: # A screen grid tube with two control grids with the same control effect is used as the transmitter and modulator, to which the energy is supplied to a generator tuned to half the frequency of the anode circuit of the tube. It is also essential that the modulation takes place on the screen grid of the tube and that the control grid of the tube is biased so far that only the positive halves of the voltage lines cause an anode stress. The latter measure ensures that the control effects of the two grids do not compensate each other, but add up, and so the anode circuit of the tube, which is tuned to twice the frequency, is excited by both control effects. It is useful to connect one or more resonance amplifiers behind the modulation arrangement. One embodiment of the arrangement according to the invention is shown in Fig. 111111, for example. Therein i means the two control grids-screen grids with the two control grids 2 and 3 and (lem screen grid 4 and the anode 5. The two control grids 2 and 3 are connected via the capacitors 6 and 7 to the voice coil 8 of the grounded in the middle (for example 14 in) tuned and excited by the generator 9 circuit io. At the same time, the two control grids receive the required negative bias voltage from the voltage source ii via the two resistors 12 and 13. In the anode circle of the anode 5 , the circle 14, which is sharply tuned to n (for example 7 in), is arranged. The anode voltage can expediently be supplied from terminal 1 5 via the choke 16. The modulation voltage is fed to the terminals and 18 ül), -, r the choke 1 9 and the capacitor 2o through the screened line 21 to the screen grid 4 of the tube, which is positive via the resistor 22 and the potentiometer 23 from the terminal 1 5 is biased. The modulated voltage is picked up at the circuit 14 and, if necessary, amplified in the resonance amplifier 26. The capacitors 24 and 25 can, expediently, have a size of ioaF each , the capacitor 20 a size of o'i fiF, the resistor 22 to o.oi megolim. The bias of the screen grid is to be selected so that the sum of the screen grid voltage and modulation voltage is always smaller than the difference between the anode voltage and the maximum voltage of the resonant circuit arranged in the anode circuit of the tube.

This condition need not be met - if # according to the invention between the screen grid and anode, for example, in a manner known per se the cathode verotnidenes catching grid is arranged. In this case they are bigger Oscillating cracks are readily permissible.

Claims (2)

PATENT CLAIMS: i. Modulation circuit for short-wave or ultra-short-wave television transmitters, characterized by the simultaneous use of the following features: a) Use of a screen grid roller with two control grids, a screen grid and an anode and the greatest possible steepness. whose two control grids have the same control effect and are controlled by an oscillation circuit tuned to half the carrier frequency. b) The two control grids are negatively biased to such an extent that only positive flow waves control the current in the anode circuit, which is tuned to the carrier frequency (frequency doubling). c -) Control of the screen grid by the television modulation signs. 2. Modulation circuit according to claim i., Characterized in that the bias voltage of the screen grid is chosen so that the sum of the screen grid bias voltage and modulation voltage is always smaller than the difference between the anode voltage and the maximum transmission voltage. 3. Modulation circuit according to claim i, characterized in that a catching grid is arranged between the screen grid and the anode. 4. Transmission arrangement using a modulation circuit according to claim x, 2 or 3, characterized in that the modulation tube is followed by one or more resonance amplifiers.