SU1401548A1 - Self-excited oscillator - Google Patents

Abstract

This invention relates to radio engineering and increases power output. When the power is turned on, the switch 8 is in the initial state — its 1st signal input is connected to the 1st output, the 2nd input is connected to the 2nd output. In this case, the chain 9 pos. the feedback is connected to the base of the transistor (T) 6. The feedback signal, which is removed from the 3rd output of the Bkkha 4 e-ti, is fed into the ballast load (N) 10 simulating the input 1h) 1enation of the composite T formed by T i and 6 and preserving the setting of block 4 on the operating frequency of oscillation. T 6 and circuit 9 form an auxiliary auto-generator (AG), the excitation mode of which is set soft by supplying a bias voltage from the voltage divider 5. The phase conditions necessary for self-excitation of additional AG at frequency f ,,, are provided by an appropriate choice of the parameters of circuit 9. From the moment the switch 8 triggers, the AG starts to excite itself and the amplitude of oscillations in H 3 increases until it reaches a value corresponding to the steady-state steady state. Because AG in the stationary mode is completely phased, then the power given to H 3 is maximum. 1 il. And I ate 4 OS

Description

The invention relates to radio engineering and can be used as a powerful source of electrical oscillations.

The purpose of the invention is to increase the output power.

The drawing shows a structural electrical circuit of the proposed auto generator.

The oscillator contains the first transistor 1, choke 2, load 3, block

the amplitudes of the oscillations cease and the auto-generator thus enters the main mode of operation.

The parameters of unit 4 are selected so that in steady state, complete phasing of the oscillator is achieved. In this case, at high frequencies in the oscillator, the self-excitation mode will be hard. However, the process of self-excitation of the oscillator is carried out in two stages,

4 communication elements, voltage divider 5, 10 on the first of which the second transistor 6 self-excites, transformer 7, co-auxiliary autogenerator, thanks to mutator 8, positive feedback circuit 9, ballast load 10.

The autogenerator works as follows.,

When the power is turned on, the switch 8 is in the initial state — its first signal input is connected to the first output, the second signal input is connected to the second output. In this case, the circuit 9 is connected to the base of the second transistor b, and 20 the second stage, the self-oscillator self-feedback signal, which is removed is given and goes to a stationary mode and, from the third output of the block 4, is fed to the ballast load 10, simulating the input resistance of the composite a transistor formed by the first 1 and the second 6 transistors and allowing to keep the setting of 25 good power.

block 4 on the operating frequency of oscillation ".

which is why the first transistor i is outputted to the mode when the phase relations in the circuit are such that a gentle self-excitation of the oscillator becomes possible.

Thus, oscillations in the autogenerator do not arise from amplitudes due to the presence of fluctuations in its circuit, but from larger amplitudes excited by the auxiliary autogenerator.

since it is fully phased in a stationary mode, the power delivered to the load 3 is maximum, which determines the resulting increase in bb) 1The second transistor 6, together with the circuit 9, forms an auxiliary autogenerator, the excitation mode of which is set by supplying the direct formula the invention

Oscillator containing the first transistor whose collector through a choke

No displacement from the divider 5. Phase ones are connected to the power bus, and the emitter, which is necessary for self-excitation of the additional oscillator at the frequency fo, is provided by an appropriate choice of the parameters of circuit 9, allowing the sphago to be connected to the common bus, load, block of communication elements, the first and the second inputs of which are connected respectively to the collector and the emitter of the first transistor, and

the amplitudes of the oscillations cease and the auto-generator thus enters the main mode of operation.

The parameters of unit 4 are selected so that in steady state, complete phasing of the oscillator is achieved. In this case, at high frequencies in the oscillator, the self-excitation mode will be hard. However, the process of self-excitation of the oscillator is carried out in two stages,

the first of which is self-excited by an auxiliary auto-generator, thanks to

 In the second stage, the auto-generator is self-excited and comes to a stationary mode and with good power.

which is why the first transistor i is outputted to the mode when the phase relations in the circuit are such that a gentle self-excitation of the oscillator becomes possible.

Thus, oscillations in the autogenerator do not arise from amplitudes due to the presence of fluctuations in its circuit, but from larger amplitudes excited by the auxiliary autogenerator.

  In the second stage, the auto-generator is self-excited and comes to a stationary mode and with good power.

since it is completely phased in a stationary mode, the power given to the load 3 is maximum, which determines the resulting increase in cb) 1

Oscillator containing the first transistor whose collector through a choke

connected to the power bus, and the emitter of which is connected to the power bus, and the emitter of which is connected to a common bus, load, block of communication elements, the first and second inputs of which are connected respectively to the collector and emitter of the first transistor, and

Yes, the oscillation on load 3 also increases.

When the voltage amplitude at the load 3 reaches a value at which the phase conditions necessary for self-detecting the auxiliary autogenerator to the first and second outputs of which are connected to a small amplitude, i.e. to the initial MO are, respectively, to the first and second moment of the occurrence of oscillations. load outputs, voltage divider.

With the development of the process of self-excitation, which is connected between the power bus and not in the auxiliary auto-oscillator, the am-bus, characterized in that, with the oscillation amplitude begins to increase. When the output power increases, Block 4 is tuned to the frequency fo and the amplitude of the second transistor, the base of which is connected to the tap of the voltage divider, and the collector of which is connected to the collector of the first transistor, the transformer whose primary winding is turned on, between the base of the first transistor and the oscillator of the auto-oscillator become the battery of the second transistor, and the secondary one is intrinsic (i.e., the test is switched on between the base and the phase balance), then guide to a control input of the switch 8, the latter is activated and the third output of block 4 is connected. the ballast load, which is connected to the base of the second transistor 6, and the circuit 9 otkdyu- between the first output of the switch and handles, and further does not affect the operation of the oscillator.

From the moment the switch 8 triggers, the auto-oscillator starts to oscillate and the oscillation amplitude at load 3 55 the output and control input of the switch increases until it reaches the torus connected to the base of the second value corresponding to the fixed transducer unit mode, followed by the growth of communication elements.

the emitter of the first transistor, the switch of the first signal input of which is connected to the third output of the block of communication elements.

and a positive feedback circuit, which is connected between the emitter of the second transistor and the second signal input of the switch, while the secondary of the second transistor, and the secondary winding of which is connected between the base and the ballast load, which is connected between the first output of the switch and

the emitter of the first transistor, the switch of the first signal input of which is connected to the third output of the block of communication elements.

second transistor, and the secondary winding of which is connected between the base and the ballast load, which is connected between the first output of the switch and the

 the output and control input of the switch are connected respectively to the base of the second transistor and to the first output of the communication element block.

bus, and the positive feedback circuit, which is connected between the emitter of the second transistor and the second signal input of the switch, while

Claims (1)

Claim An oscillator containing a first transistor, the collector of which is connected via a choke to a power bus, and whose emitter is connected to a common bus, a load, a block of communication elements, the first and second inputs of which are connected respectively to the collector and emitter of the first transistor, and the first and second outputs of which are connected respectively, to the first and second terminals of the load, a voltage divider that is connected between the power bus and the common bus, characterized in that, in order to increase the output power, a second transistor, bases which is connected to the tap of the voltage divider, and whose collector is connected to the collector of the first transistor, a transformer whose primary winding is connected between the base of the first transistor and the emitter of the second transistor, and whose secondary winding is connected between the base and the emitter of the first transistor, the switch is the first signal input of which is connected to the third output of the block of communication elements, the ballast load, which is connected between the first output of the switch and the common bus, and the positive feedback circuit the first is connected between the emitter of the second transistor and the second signal input of the switch, while the second output and the control input of the switch are connected respectively to the base of the second transistor and the first output of the block of communication elements.