TH15218B - Horizontal refraction waveform correction circuit - Google Patents

Abstract

Integrated circuit with digital signal path control with horizontally refracted signal. and the refractive amplitude control signal with the East-West waveform correction signal is combined by several fabrication-based schemes to obtain a pincushion-like concave correction circuit, which is connected to a horizontal refraction amplifier. The circuit according to the first invention changes the amplitude of the East-West waveform correction signal. to be related to the amplitude of the refraction amplitude control signal. The circuit following the second invention generates an asymmetric East-West waveform correction signal. The third invention connects the pincushion correction circuit voltage comparator to the comparator voltage of the regulated integrated circuit.

Claims (3)

1. The refraction device consists of a refraction expander. Modulation cycle Refraction waveform Which is connected to the aforementioned refraction expander A source for generating parabolic modulation signals. Which the signal consists of AC and DC, each of which has a level which is defined as the amplitude ratio. The linear to DC is connected between the source and the refracted waveform modulation circuit. The source and modulation circuit of such a refracted waveform and the amplifier are positioned in line with the said AC and responding to the modulation signal. To change the AC component Of such modulation signal So that the amplitude ratio is changed The changed amplitude ratio signal is connected to the said waveform modulation circuit for the refraction waveform modulation. 2. Device of claim 1, where the amplifier is It is controlled in such a way that the amplitude ratio changes in response to a pulsating control signal. 3. The device of claim 2 where the control signal is connected to the transistor switch to change the app ratio. 4. Device of claim 3 where such control signal will consist of an AC component connected through a processing path. 5. Device of claim 1 where such DC element will conditional upon. Of the DC voltage at the aforementioned waveform modulation circuit The condition of the DC voltage is not altered by the changed AC element. 6. Device of claim 1, where such a refracted waveform modulation circuit. It consists of a modulated diode. 7. Refraction device consists of a refraction expander. The refracted waveform modulation circuit is a DC coupled with a refractive amplifier, where the amplitude of the refracted waveform is controlled in response to the modulation signal. Comparator with two entry points And one exit point Where the above entry point has a DC potential with a defined amplitude between them The source for generating the first modulation signal. Where the signal consists of an AC element and an element Each DC has a level which is defined as the amplitude ratio. The path for changing such amplitude ratios is connected to the source for the first modulation signal.The changing amplitude ratio signal is connected to one of the two entry points. Said of the aforementioned comparator Where the specified DC potential amplitude is determined by the aforementioned DC element and the source of the horizontal repeating pulses joined together is AC. That is connected to one of the two entry points of the comparator It is the second modulation signal in such a way that it promotes a DC potential at that amplitude. The exit point of the comparator is connected to the said refraction waveform modulation circuit. For controlling the amplitude of the refracted waveform. In such a way that the waveform amplitude has Such refraction is regulated by the DC element. 8. The refraction device consists of a refraction expander. Modulation cycle Refraction waveform Which is connected to the aforementioned refraction expander A source for generating parabolic modulation signals. Which the signal consists of AC and DC, each of which has a level defined as the amplitude ratio. The linear to DC is connected between the source and the refracted waveform modulation circuit. The power supply and modulation circuit such a refracted waveform and the gain-controlled amplifier are aligned in line with the The AC and responds to the pulsating control signal for dynamic change of the aforementioned amplitude ratio of the said modulation signal. To provide Amplitude ratio that changes signal, such changing amplitude ratio Will be connected to the modulation cycle Such waveform For the modulation of the refracted waveform 9. The device of claim 8, where the amplifier controls such gain for the dynamic change of the aforementioned amplitude ratios, consists of an attenuator. The semiconductor-controlled signal 1 0. Device of claim 9, where the control signal is generated by a processing path connected to the said AC component 1. 1. Device of claim 10, where the said AC element will consist of a parabolic signal 1. 2. Device of claim 8, where such AC component of the said modulation signal is dynamically altered to alter the aforementioned amplitude ratio 1. 3. Device of claim 12, where such AC elements are dynamically increased in amplitude. To change the amplitude ratio thereof