DE1239727B - Transistor push-pull pulse generator with transformer coupling - Google Patents

Description

Transistor push-pull pulse generator with transformer coupling The invention relates to a transistor push-pull pulse generator with a transformer Coupling, in which part of the feedback circuit common to the two generator halves a frequency-determining RC element is switched on. By using a and the same RC element for both generator halves should be achieved that the pulse widths both generator halves are correctly identical to one another.

From the German Auslegeschrift 1 154 508 a transistor push-pull pulse generator of the required type is already known, in which the resistor and capacitor of the RC element are connected in series with the feedback winding, and the base-emitter path of each transistor is antiparallel to this switched diode bridged. In this generator, the tipping occurs when the feedback current has decayed so far that it is no longer sufficient as a control current for the conductive transistor, so that this is blocked. However, this means that the transistor data have an influence on the breakover frequency. Since a certain spread of these data has to be expected in all practical terms, equality of the pulse widths is not guaranteed despite the use of a common RC element.

The invention avoids this deficiency. According to the invention it is proposed to design the presupposed transistor Geggentaktimpulsgenerator that only the capacitor of the RC element with, connected in series, feedback winding C during its resistance to the one end to which the collector voltage supplying terminal of the supply voltage source and the other end is connected via respective directional couplers to the base electrodes of the transistors, such that - each of these directional couplers is located in a known manner, the negative pole at the base electrode - with the use of pnp transistors.

The generator designed according to the invention always tilts when the capacitor voltage has decayed so far that it is lower than the voltage supplied to the bases of the transistors via the resistor of the RC element, negative voltage in the case of pnp transistors, because this causes the transistor, which has been blocked until then, to be conductive will. The transistor, which has been conducting until then, is then blocked by the voltage reversal at the feedback winding of the transformer, which is associated with the tilting. The transistor data have no influence on the time of the tilting and thus on the pulse widths. The drawing shows a circuit example of a push-pull pulse generator according to the invention. Here 1 and 2 are the two amplifier transistors; In the present case, it may be pnp transistors. 3 is the primary winding of the output transformer and 4 is the feedback winding, the winding ends of which are connected to the base electrodes of transistors 1 and 2.

The capacitor 5 and the resistor 6 together form the frequency-determining RC element. The capacitor 5 is only connected to the center of the winding of the feedback winding 4 for reasons of symmetry; it could of course also be connected in series with the winding at a winding or end.

The resistor 6 is at one end to the negative pole of the supply battery 7 and the other end via a respective directional couplers 8 and 9 respectively connected to the base electrodes of the transistors 1 and 2 respectively. The directional conductors 8 and 9 are polarized so that the negative pole of a directional conductor is on each base electrode.

When using npn transistors, the supply battery 7 and the directional conductors 8 and 9 would have to be connected with the polarity reversed.

The current flow in the feedback circuit is as follows: Based on the state that transistor 1 is conductive and transistor 2 is blocked, i.e. the base of transistor 1 is negatively applied and the base of transistor 2 is positively applied by the feedback winding, a current flows from the positive pole of the battery via the emitter-base path of the transistor 1, the feedback winding and the capacitor 5, the directional conductor 9 and the resistor 6 to the negative pole of the battery. After the "toggle", i.e. when transistor 1 is blocked and transistor 2 is conductive, the current flow changes - apart from the current reversal in the feedback winding - only to the extent that the emitter-base current of transistor 2 then passes through directional conductor 8 flows.

Claims (1)

Patent claim: Transistor counter clock pulse generator with transforinatorischer coupling in which a frequency-determining RC-member is connected in the common to the two generator halves part of the feedback circuit, d a d u rch, aekennzei ch n et that only the capacitor (5) of the RC element with the feedback winding (4) is connected in series, while its resistance (6) having one end to which the collector voltage supplying terminal of the supply voltage source (7) and with the other end via a respective isolator (8 or 9) of the base electrodes Transistors (1, 2) is connected in such a way that - when using pnp transistors - the negative pole of each of these directional conductors is connected to the base electrode in a manner known per se. Publications considered: German Auslegeschrift No. 1 154 508.