TH13413A - Modulation, beam sweep speed, signal modulation - Google Patents

Abstract

A system consisting of an variable gain amplifier for the visual signal illumination component. The first derivative finds the derivative of the amplified luminance component. The output amplifier modulates the electron beam sweep speed by powering the auxiliary horizontal protrusion in response to the luminance component. Derivative The integrate integrates two times the luminance component. The integrate's output is a gain control signal. Such variable gain amplifiers have an gain that is inversely proportional to the frequency component of the luminance component. The second derivative and the integrate form a protective loop. The feedback loop has a sufficient time constant relative to the transition of the level of the said visual component at the signaling signal corresponding to the first derivative of the signal component. Such image without conforming to the aforementioned variable magnification.

Claims (4)

Claims (all) that will not appear on the advertisement page: 1. The system includes - a path for electronization for modulation of such electron beam sweep speed. - A path that can be adjusted gain in response to the component of the image signal for generating the beam sweep speed modulation signal - the amplification path which responds to the beam speed modulation signal to drive the trajectory. And - A control path which responds to the sweep speed modulation signal for generating gain control signals indicating a second derivative of the component of such image signal for the path. The way that the gain can be adjusted is as follows: 2. The system according to claim 1, where the aforementioned rate will vary according to the frequency component of the said component of the said video signal 3. System according to claim 1 Where the gain is inversely proportional to the frequency component of that component of the said video signal. 4.The system according to claim 1, where the sweep speed modulation signal indicates the derivative of the said component of the video signal, and the gain control signal indicates the derivative of the modulation signal. Let the speed of the aforemention be swept 5. System according to claim 1, where the aforementioned scalable path consists of the second extension and the first derivative and the method for controlling it. It consists of a second derivative and an integrator. 6. A system consisting of - a path for generating an amplitude modulation signal in response to a component of a video signal with a component that is amplitude modulated. Variable frequency - the path for modulation of electron beam sweep speed in response to such an occurrence of the signal; and - the path for generating the amplitude control signal to adjust the amplitude of the signal. Such occurrence in a manner indicating the rate of change of the frequency component of the said video signal component. 7. System according to claim 6 where the path for generating such a signal consists of: And - a path for generating derivatives of the components of such amplitude modulated video signal 8. System according to claim 7, whereby the path The method for modulating the above amplitude consists of a variable amplitude path 9. System according to claim 7 where the path for such amplitude modulation consists of a path for variable attenuation. 1 0. System according to claim 6, whereby the method for generating such a signal is And - a path for modulating the amplitude of said derivatives of the said video signal components 1 1. System according to claim 10, where The method for modulating the amplitude consists of a variable attenuation path 1 2. Clause 10, where the path for modulating the amplitude consists of a variable attenuation path. Yes 1. 3. System according to claim 6, where such method for generating such amplitude control signal will respond to such signal 1 4. System according to claim 6 where The above method for generating such amplitude control signals consists of a path for generating an intermediate signal indicating the derivative of the said signal. 6 Where such pathways for generating such amplitude control signals consist of - the path for generating the neutral signal indicating the derivative of the said control signal and - the path for detecting negative peak values. 1 6. A system consisting of - a path for derating and modulating the amplitude of the luminance component of a video signal - a way that responds to the amplitude of the signal. Optimized amplitude The luminance component, whose derivatives are to be modulated, the electron beam sweep speed, and - a second way, which responds to the tuned amplitude. Such derivative luminance components to generate a signal that further indicates the derivative of the said derivative luminance component to control such amplitude modulation 1 7. System according to clause Holds the 16th right where the path for generating such a signal consists of a path for integrating the aforementioned additional derivative luminance components 1 8. System according to claim 16 where the path The path for such modulation consists of an auxiliary horizontal protrusion 1 9. System according to claim 16, where the aforementioned amplitude modulation of the luminance component is inversely proportional to. Such frequency components 2 0. System according to claim 16, where the method for derivative and modulation of the aforementioned amplitude consists of a variable gain amplifier 2. 1. System according to claim 16. Where the component of the aforementioned luminosity has two derivatives 2. 2. The system according to claim 16 consists of - the method for taking the first derivative of the component of the luminosity; - the path for Take the second derivative of the component. - Pathways for the aforementioned double-derivative integrate components 2 3. The system of integrating - Pathways for generating an amplitude-modulated differential signal. Jude and indicate the derivative of the component of the video signal - the path for the igetron beam sweep speed modulation, which responds to the signal, and - the path for generating the amplitude control signal. 2. The system according to claim 23, where the path for such modulation consists of Supplementary horizontal principle 2 5. System according to claim 23, whereby the amplitude of the said signal is inversely proportional to the high frequency component of the component of the video signal 2. 6. The system consists of: - A path for modulation of electron beam sweep speed in response to a signaling signal that indicates the frequency component of the visual signal component; - a path for derating and integrating. Square to generate an amplitude control signal with a first rate of change in response to an increase in the component at This is the high frequency of the components of the video signal and the second rate of change, which is different from The first rate of such a change in response to the reduced duty of the said high-frequency components and - a means for amplifying such a signal in a variable manner in response to Such amplitude control signal 2 7. System according to claim 26, where such amplitude control contract is proportional to the amplitude of the boolean peak of the second derivative. 2. 8. System according to claim 26, whereby the amplitude control contract is changed in response to an increase in the component that is This high frequency is faster than the lower duty response of the aforementioned high frequency components. Tron responds to the first derivative of one component of the image signal - a feedback circuit for generating a correction signal indicating the rate of change in the said signal, and - a path for amplifying the signal. It is said in a variable manner in response to such rectification signals where such feedback circuit has a sufficient time constant. It is related to the level transitions of the said video component that such signaling signals correspond to the aforementioned derivative of that video signal component without conforming to the variable amplification. 3 0. System according to claim 29, where the correction signal indicates the second derivative of the said component of the signal 3. 1. A system according to claim 29 where the feedback circuit consists of a path for the second derivative of the component and the second derivative of the said component 3. 2. System according to claim 31, where the said revision signal is proportional to the amplitude of the negative peak of the second derivative of the said component of the said signal 3. 3. System according to claim 29, where the component of such video signal is luminance 3. 4. System according to claim 29 where the period constant is more than one period of the field.