SU1192123A1 - Sawtooth current generator - Google Patents

Abstract

A SECURITY CURRENT GENERATOR containing a series-connected master oscillator, a buffer stage and an output stage loaded onto a deflection coil, characterized in that, in order to expand the operating frequency range of the generator, a phase detector and a controlled voltage source are inputted, the first input the phase detector is connected to the output of the output stage, the second input is connected to the output of the master oscillator, and the output is connected via a controlled voltage source to the second input of the buffer stage.

Description

The invention relates to a pulse technique and may find application in the scanners of television systems with an increased frequency of sweep.

The purpose of the invention is the expansion of the range of operating frequencies by providing a minimum and stable delay when locking a high-voltage transistor in the output stage of a sawtooth current generator.

The drawing shows a structural diagram of a sawtooth current generator.

The sawtooth current generator comprises a master generator 1, the output of which is connected to the first input of the buffer stage 2. The output of the buffer stage 2 is connected to the input of the output stage 3, loaded on the deflecting coil 4. The first input of the phase detector 5 is connected to the output of the output stage 3, the second input of which connected to the output of the master oscillator 1. The output of the phase detector 5 is connected to the second input of the controlled voltage source 6, the output of which is connected to the second input of the buffer stage 2.

The buffer and output stages 2 and 3 can be performed according to the schemes of known stages. Phase detector 5 generates a voltage whose magnitude is proportional to the phase shift of the input and output voltages.

The controlled source 6 is a voltage regulator with a tunable reference voltage. The input of the stabilizer feedback signal is the input of a controlled source 6. The second input of the buffer stage 2 is its power bus.

The device operates as follows.

The pulses from the master oscillator 1, most often the blocking generator or multivibrator, are fed to the input of the buffer cascade ι 2. The buffer cascade 2 from the pulses of the master oscillator I generates a control signal of the required power for the output stage 3. The output stage 3 works as a two-way switch and generates deflecting coil 4 sawtooth current. Start back! about the sawtooth current in the deflecting coil 4 and, accordingly, the reverse voltage pulse at the output of the output stage 3 due to saturation of the transistor of the output stage 3 is delayed relative to the corresponding signal front from the master oscillator 1. The magnitude of this delay depends on many factors, and in particular from the amplitude of the output signal of the buffer stage 2. In the initial state, the reference voltage in the controlled source b is set such that the output of the buffer stage 2 has an amplitude of s drove, ensuring the operation of the transistor of the output stage 3 at the on-off axis, i.e. minimum delay while maintaining high efficiency.

The reverse voltage pulse from the output of the output stage 3 and the signal from the master oscillator 1 are fed to the inputs of the phase detector 5, The signal at the output of the phase detector 5 is proportional to the delay between the signal from the master generator 1 and the reverse pulse from the output stage 3. 'This signal ( voltage) from the output of the phase detector 5 through a controlled source 6 acts on the buffer stage 2 so that the amplitude of the output signal changes in the latter, and the duration of the delay in the output stage 3 remains unchanged. Suppose, for example, that the transistor coefficient of the output stage 3 has changed. Then its degree of saturation and the delay time when locking is changed. Feedback on the delay time through the phase detector 5 and the controlled source 6 changes the amplitude of the signal at the output of the buffer stage 2 so that the degree of saturation and, therefore, the delay time of the output stage 3 become equal to the set value at the boundary of the saturation region again.

Thus, it is possible to ensure a minimum and stable duration of the delay when locking the transistor of the output stage 3 of the sawtooth current generator, which makes it possible to use the device at higher horizontal frequencies.

Claims (1)

A PULSE CURRENT GENERATOR comprising a serially connected master oscillator, a buffer stage and an output stage loaded on a deflecting coil, characterized in that, in order to expand the operating frequency range of the generator, a phase detector and a controlled voltage source are introduced into it, and the first input of the phase detector is connected with the output of the output stage, the second input with the output of the master oscillator, and the output through a controlled voltage source is connected to the second input of the buffer stage. _from SU „„ AND 92123