Patent ID: 8102335

Claim:
Display screen including: light emitters arranged as rows of light emitters and columns of light emitters to form an array of light emitters, a silicon substrate on which control means to control the emissions of the light emitters are fabricated, the said control means including: means for powering the light emitters, a plurality of addressing electrodes arranged according to the columns of light emitters, and intended to transmit a voltage representing an image datum to each column of light emitters, a plurality of selection electrodes arranged according to the rows of light emitters, and intended to transmit a selection signal to each row of light emitters, a plurality of modulation transistors, each associated with a light emitter of the array, the said modulation transistors including a gate electrode intended to be connected to an addressing electrode and two current-carrying electrodes, each modulation transistor intended to have a drain current pass through it to power the said light emitter for a voltage between its gate electrode and one of its current-carrying electrodes that is greater than or equal to a trigger voltage, the said modulation transistors being arranged in columns associated with the columns of light emitters and being geometrically aligned on the substrate along a guiding line, a load capacitor connected to the terminals of each modulation transistor and intended to set an electric potential at the gate electrode of the associated modulation transistor, and a plurality of compensating transistors intended to compensate for the trigger voltage of the modulation transistors by adjusting the charge on the capacitor, wherein a single compensating transistor is connected to all the modulation transistors of a given column and is intended to compensate for the trigger voltages of all the said modulation transistors of this column, wherein said compensating transistor of a given column is formed in the geometrical extension of the line-arrangement of the said modulation transistors of said given column along said same guiding line, wherein said modulation transistors and said associated compensating transistor are fabricated on a polycrystalline silicon substrate obtained by heating an amorphous silicon substrate, using a laser beam, said beam being intended first to heat a first rectangular heating surface of the substrate then to move in a direction of movement and then to heat a second rectangular heating surface, and wherein said modulation transistors associated with the light emitters of a given column and the associated compensating transistor are aligned in one and the same heating surface, the guiding alignment line extending approximately perpendicularly to the direction of movement of the laser beam.