DE849420C - Pulse generator - Google Patents

Description

The invention relates to a pulse generator, particularly for purposes the transmission of messages with pulse-modulated multi-channel systems, in which through non-linear elements from the vibrations originally generated by the generator Impulses are produced. Such circuits are known per se. In particular it is also known to place a tube amplifier behind an oscillator stage, in which an inductance is arranged in the tube outlet, with the help of which the impulse formation is generated is made.

According to the invention, in the resonant circuit of an oscillator tube even a transformer with an already before reaching the amplitude of the resonant circuit current arranged saturated iron core, whose secondary circuit removed the desired impulses will. With this arrangement, a pulse train is generated with only one tube, whose repetition frequency has the constancy of the frequency of a feedback generator. The special amplifier tube is created by the arrangement of an oscillating circuit, in the one compared to the anode alternating current of the tube with the resonance increase of the Circle multiplied electricity is generated, made unnecessary. The execution of the transmitter with an iron core that is already saturated at relatively low current values causes the approximately sinusoidal current in the oscillation circuit to be approximately square-wave Magnetizing flux in the iron core and thus narrow and clearly limited pulses supplies.

In order to obtain high frequency stability, it is advantageous to use a circuit known per se for the oscillator tube in which they are combined in one Negative and positive feedback circuit works. This can be achieved, for example, by that from the resonant circuit used to generate the pulses some of the energy directly on the grid of the tube, another part via a transmission link, which results in a phase reversal, fed back to a lattice resonant circuit of the tube will. This transmission link can be used at the same time to a. constant Amplitude of the oscillating current of the oscilloscope. To force lator tube by in the connecting line between the input winding and the output winding of this element there is a load-dependent Resistance (a light bulb or the like) is switched on. Is frequency determining in an arrangement like the one mentioned last, the lattice resonant circuit of the oscillator, while the oscillating circuit in the anode line intended for pulse generation is approximately must be tuned to the frequency of the oscillator.

For the purposes mentioned above, it may be advantageous to to obtain two pulse trains shifted by 180 ° in phase from one another, from each of which the impulses of one polarity are then cut away. The impulses the remaining polarity will be after modulation with some message voltages nested, with then the pulses of a sequence in the middle between the impulses of the other sequence fall. This can be tapped with one in the middle Secondary winding of the transformer can be achieved, which is then in the known push-pull circuit is working.

In the drawing is an embodiment of the invention Generator shown in the circuit diagram. R is the oscillator tube, its frequency by the resonant circuit consisting of the capacitor Cl and the inductance L1 is determined. In the anode line of tube R there is another resonant circuit, consisting of the inductance L2 of the capacitance C2 and the iron-saturated transformer Ü2. The transformer Ü2 has a tapped secondary winding in the middle, so that two pulse trains offset from one another by 180 ° can be taken from it. The resonant circuit in the anode line to the tube R becomes via the inductance L2 some of the energy directly to the control grid of the tube R, another via the transmission element G is fed back to the lattice resonant circuit (from Cl and L1). In the transmission element G, the light bulb H is located as an amplitude limiter.

Claims (3)

PATENT CLAIMS: i. Pulse generator with a self-excited oscillator tube, characterized in that a transformer with an iron core, which is saturated before the amplitude of the oscillating circuit current is reached, is arranged in a resonant circuit circuit known per se, from whose secondary circuit the pulses are taken. 2. Pulse generator according to claim i, characterized in that the oscillator tube is in a known combined feedback and negative feedback circuit. 3. Pulse generator according to claim i or 2, characterized in that in the feedback path a switching element stabilizing the oscillation amplitude, in particular a load-dependent one Resistance is arranged. q ,. Pulse generator according to one of claims i to 3, characterized in that the secondary winding of the transformer for the delivery of two anti-phase pulse trains is set up in push-pull.