RU96115402A - POWER SUPPLY FOR A RASTER CENTRAL CONTROLLER FOR VIDEO DISPLAY - Google Patents

Claims (3)

1. A power supply for a raster central controller for video display having a horizontal flyback transformer for generating a high voltage for driving a CRT and a raster central controller connected to a horizontal deflection coil to control the movement of the raster on the CRT, the power source comprising inductors installed in secondary winding of the horizontal output transformer, for generating and supplying a pulse voltage signal to the raster central controller having a pulse width corresponding to the pulse width of the high voltage occurring in the horizontal output transformer, characterized in that it comprises a first power supply element connected between the inductors and the raster central controller to obtain a pulse voltage signal that occurs in the inductors, and providing a positive voltage potential difference for the raster central controller and the second power supply element, connected nenny between coils and raster central controller for receiving the signal pulse voltage developed in the inductor coils, and to provide a negative power supply potentials to the difference bitmap central controller.  2. The power source according to claim 1, characterized in that the first element of the power source contains a diode for rectifying the pulse voltage signal arising in the inductors and providing a positive voltage potential difference that is higher than the deflecting voltage introduced at the tap from the midpoint inductors, and a capacitor charged and discharged by the positive potential difference of the power supply supplied from the diode.  3. The power supply according to claim 1, characterized in that the second power supply element contains a diode for rectifying the pulse voltage signal arising in the inductors and providing a negative voltage potential difference that is lower than the deflecting voltage introduced at the tap from the midpoint inductors, and a capacitor charged and discharged by the negative potential difference of the power supply supplied from the diode.