Claims
- 1. A deflection apparatus with raster distortion correction, comprising:
a deflection winding; a retrace, first capacitance coupled to said deflection winding to form a retrace resonant circuit with said deflection winding, during a retrace interval; a trace, second capacitor coupled to said deflection winding to form a trace resonant circuit with said deflection winding, during a trace interval; a source of a synchronizing signal at a frequency related to a first deflection frequency; a first switching semiconductor responsive to said synchronizing signal and coupled to said deflection winding and to said retrace first capacitance to generate a first retrace pulse voltage in said retrace first capacitance, during said retrace interval, and a deflection current in said deflection winding; a charge holding, third capacitance; a sampling switching semiconductor responsive to said first retrace pulse voltage and coupled to said third capacitance for sampling said first retrace pulse voltage and for developing a sampled voltage from a charge stored in said third capacitance that is indicative of a magnitude of said first retrace pulse voltage; and a first inductance coupled to said third capacitance for applying said sampled voltage to said first inductance, during said trace interval, to generate a current in said first inductance, said first inductance current being coupled to said trace, second capacitor for varying, in accordance with said first inductance current, a trace voltage in said second capacitor to provide raster distortion correction.
- 2. A deflection apparatus according to claim 1, further comprising a fourth capacitor for preventing a direct current component included in said first inductance current from charging said trace second capacitor.
- 3. A deflection apparatus according to claim 2, further comprising a third switching semiconductor coupled to said fourth capacitor for discharging, during said retrace interval, a charge that accumulates in said fourth capacitor, during said trace interval.
- 4. A deflection apparatus according to claim 3, further comprising a second inductance coupled in a current path of said first inductance current, during said trace interval, wherein said third switching semiconductor has a main current conducting terminal that is coupled in said first inductance current path, at a junction between said first and second inductances.
- 5. A deflection apparatus according to claim 2, further comprising a second inductance coupled to said fourth capacitor, wherein said second inductance and said fourth capacitor form a resonant circuit, during said trace interval.
- 6. A deflection apparatus according to claim 1, further comprising a source of a modulation signal at a frequency related to a second deflection frequency and a modulator coupled to said retrace first capacitance for modulating said first retrace pulse voltage at a frequency related to said second deflection frequency, wherein said first inductance current magnitude varies in accordance with said modulation signal.
- 7. A deflection apparatus according to claim 6, wherein said modulator provides at least one of inside pincushion distortion correction and outside pincushion distortion correction.
- 8. A deflection apparatus according to claim 6, wherein said modulator comprises a diode modulator.
- 9. A deflection apparatus according to claim 1, further comprising a supply inductance for developing a direct current voltage in said trace second capacitor, wherein a fourth capacitor is coupled in a current path that includes said first inductor and said supply inductance for blocking a direct current in said current path.
- 10. A deflection apparatus according to claim 1, wherein said first inductance current provides for linearity correction.
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This is a non-provisional application which claims the benefit of provisional application serial No. 60/311,508, filed Aug. 10, 2001.
Provisional Applications (1)
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Number |
Date |
Country |
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60311508 |
Aug 2001 |
US |