CS195059B1 - Connection for adjusting and synchronization of the frequency of the push-pull transistor generator of the non-sinus cycles - Google Patents

Description

The invention relates to a circuit for adjusting and synchronizing the frequency of a double-acting transistor generator of non-sinusoidal oscillations by an external sine wave. ,

Transistor pulse stabilized converters are used to supply multi-channel systems with frequency and time separation of channels, which ensure smooth operation of the system from mains and battery. For their excitation, two rectangular oscillating transistor generators are used. The generator frequency must be an integral multiple of the frequency of 4 kHz, which is the width of one telephone channel, to avoid pulse interference in the telephone channels by residual high-frequency voltage from the inverters. Therefore, the natural frequency of the generator is synchronized by a frequency derived from a system carrier frequency source, e.g., f _s = 40 kHz. The transducer and hence the generator must be operated at a frequency close to the frequency f _s for a transient period from the moment the system is connected to the supply voltage, before the synchronization frequency f _{s is} supplied from a carrier frequency source.

The prior art circuit utilizes an auxiliary transistor in the common base circuit to set the natural frequency of the generator and to synchronize it with the external frequency.

The pulses generated by the trapezoidal voltage derivation from the sinusoidal synchronization signal amplitude limiter are supplied to the auxiliary transistor emitter. The base currents of the double-acting generator transistors are then controlled from the collector of the auxiliary transistor via the coupling winding.

In this connection, the natural frequency of the ge2 of the generator is adjusted by a variable resistor in the base of the auxiliary transistor, which in turn not only achieves a frequency change but also disadvantageously changes the working point of the auxiliary transistor and generator and the level of synchronization pulses on the collector of the auxiliary transistor.

The connection therefore shows a great dependence on the parameters of the transistors, temperature and supply voltage changes and the range of synchronization is then unsatisfactory for these reasons.

The object of the present invention is to overcome these disadvantages, which is achieved in principle by connecting a fixed resistor and a variable resistor in series between the collector and the grounded limiter emitter via a first capacitor. An adjustment resistor is connected to the common point of the first capacitor and the fixed resistor via the second capacitor, the other end of which is connected to the source. The bases of the two transistors of the generator are always connected to the same common point via the respective transformer windings. The circuit according to the invention is not dependent on the parameters of the transistors used. Also the temperature dependence is negligible and the extent of synchronization is considerable.

An example of a circuit according to the invention is further described with reference to the drawing. The circuit consists of a double-acting transistor generator with transistors T2 and T3, a transformer Tr with windings and a limiter T1 of amplitude.

A collector resistor R1 is connected between the collector of the limiter T1 and the source terminal. They are further connected to the collector of the limiter 11 via the first and second capacitors C1 and C2 and the windings 2, 3 of the transistors T2 and T3 of the generator.

A fixed resistor R2 and a variable resistor R3 are connected in series between the common point of both capacitors C1 and C2 and ground. The RT setting resistor is connected between the power supply terminal and the second terminal of the second capacitor C2. The working points of transistors T2 and T3 are set at R4.

The generator frequency is determined by the inductance of the windings of transformer Tr connected to the collectors of transistors T2 and T3, the adjusting resistor R4, the capacitor C2, the fixed resistor R2 and the variable resistor R3. The natural frequency of the generator can be changed by a variable resistor R3. The sinusoidal synchronization signal at frequency f ^ is supplied on the basis of a limiter T1. The trapezoidal voltage from the collector of this limiter T1 is applied to the derivative cell C1, R2 + R3. The pulses produced by the derivative are via the second capacitor C2 and the winding. 2 ^ and transformer Tr are controlled by Tase of transistors «2 and T3. This results in synchronization of the generator's own frequency with the frequency f _s . The signal with frequency f _s from the generator is taken from the output winding 5 of the transformer Tr,

By proper selection of circuit elements, the natural frequency of the generator can be set in the range + 25-Z.-In the same range, the generator can be synchronized by frequency f _s if the natural frequency is set about 5 Ž below frequency f ₆ .

Changing the natural frequency of the generator in the temperature range of +10 to +50 ° C is less than 5 7a _f depending on the parameters of transistors je.zanedbatelná.

Claims (1)

• Wiring for setting and synchronizing the frequency of a double acting transistor generator of non-sinusoidal oscillations by external sinusoidal waveform, with amplitude limiter and transformer, characterized in that between the collector and the grounded limiter emitter (T1) R2 / a variable resistance (R3), BACKGROUND OF THE INVENTION wherein a common resistor (R4), the other end of which is connected to the power supply, is connected via a second capacitor (C2) to the same common point via a corresponding winding / to the same point 2, 3 (transformer / Tr) connected base of both transistors (T2, T3) of generator.