DE1129178B - Circuit arrangement for generating electrical pulses - Google Patents

Description

Circuit arrangement for generating electrical pulses The invention relates to an arrangement that allows sequences of electrical pulses to be determined exactly and to generate directly, the time of the start of a pulse train being completely is arbitrary and selectable.

There are arrangements for generating pulse trains known that one Switch the sine wave generator or a pulse generator on and off by means of control pulses. The point in time of the start of pulse groups generated in this way is arbitrary.

The known arrangement using a sine wave generator does not provide any impulses per se. The output sinusoidal voltage must only be added afterwards be shaped into pulses in special shaping circuits. Also are additional Facilities to reduce the unavoidable swing-in and swing-out processes are necessary.

Arrangements with simple pulse generator circuits also have unwanted swing-in and swing-out processes. The frequency constancy is this Circuits low. With the frequency stabilization that is often additionally required, for example by means of delay lines, must therefore when changing frequency In addition to the delay lines, the other frequency-determining elements (RC elements) of the generator can also be switched.

In particular, cathode-coupled univibrators are already known, which, in contrast to known ones, requires two control pulses for a full tilting process Flip-flop circuits only work with a control pulse. Such circuits are also not available as directly switchable pulse generators for any pulse group usable with a single switching pulse, the duration of which is then equal to the entire Impulse group is. Flawless function is not due to time constants and associated, here unavoidable transient processes are given.

The invention now has the task of addressing these shortcomings of the known Avoiding arrangements. It achieves this through an as. "Schmitt trigger" known Circuit arrangement with a, preferably short-circuited, delay line certain running time is interconnected, either at the anode of the first Tube or to the control grid of the second tube. The well-known Schmitt trigger circuit itself works as a double galvanically coupled two-tube amplifier. When the control grid is the first; Tube is at zero potential is the first Tube blocked and the second tube energized. When the potential is increased on The control grid of the first tube becomes the first tube at a certain voltage energized, the circuit flips, and the second tube is blocked. One lowers the potential at the control grid of the first tube again, so the circuit flips a defined voltage on the control grid of the first tube back to the initial state return. A pulse can be picked up at the anode of the second tube.

By suitably connecting a delay line to the Schmitt trigger circuit the intended new properties result.

At a certain potential at the control grid, the first tube oscillates this arrangement. At the anode of the second tube, square-wave pulses of the duration 2, t and the distance 4 z are taken. The vibrations of the arrangement can phase-locked to the control grid of the first tube by electrical impulses these control pulses can be switched on and off.

When adapting the Schmitt trigger to the wave resistance of the delay chain the arrangement is free of swing-in and swing-out processes. Due to the special properties of the Schmitt trigger, the distance between two impulses is practically only dependent on the transit time r dependent on the delay line. When the frequency changes, only the delay line is there to switch.

An exemplary embodiment of the invention is shown in the drawing.

The delay line 1 is connected to the anode of the first tube 4 in the figure. The Schmitt trigger can also be implemented with transistors. The arrangement is also operable with modification of the circuit, for example in such a way that the cathode resistor 10 (Rk) is replaced by tubes. Likewise, anode resistances 3.8 can be compensated with self-induction and clamping diodes can be provided on the anodes.

The circuit arrangement according to the invention is particularly advantageous They are used for time stamp generators (oscilloscopes), "clock" pulse generators for Multi-channel pulse height analyzers with amplitude-time transformation and the like with that Element 2 provides a coupling capacitor to delay line 1, the elements 5, 6, 7 are coupling elements or voltage divider between the two tubes. For understanding of the invention, the latter parts are of no importance.

Claims (1)

PATENT CLAIM: Arrangement for generating electrical pulses, characterized by a known Schmitt trigger circuit in connection with a preferably short-circuited delay line that is either connected to the The anode of the first tube or the control grid of the second tube can be connected. References considered: USA: Patent No. 2,564,824.