Patent ID: 8237632

Claim:
A display apparatus comprising: a pixel array; and a driver; said pixel array including rows of scanning lines, rows of feeding lines, columns of signal lines, and a matrix of pixels disposed at the crossings of said scanning lines and said signal lines, each of said pixels including at least a sampling transistor, a driving transistor, a light-emitting element, and a retentive capacitor, said sampling transistor having a control terminal connected to one of said scanning lines and a pair of current terminals connected between one of said signal lines and a control terminal of said driving transistor, said driving transistor having a pair of current terminals, one of which is connected to said light-emitting element and the other of which is connected to one of said feeding lines, said retentive capacitor being connected between the control terminal of said driving transistor and one of the current terminals of said driving transistor, said driver including a write scanner for supplying a control signal successively to said scanning lines, a power supply scanner for switching each of said feeding lines between a high potential, a low potential, and an intermediate potential between said high potential and said low potential, and a signal selector for supplying a video signal, which alternately switches between a signal potential and a reference potential, to each of said signal lines, wherein said driver performs a threshold voltage correcting process for supplying the control signal and the video signal and switching the feeding lines between the high, low, and intermediate potentials according to a predetermined sequence to energize the pixels for thereby correcting variations in a threshold voltage of the driving transistor, a writing process for writing the signal potential in the retentive capacitor, an energizing process for energizing the light-emitting element into an emission state depending on the written signal potential, and a de-energizing process for de-energizing the light-emitting element into a non-emission state, and immediately before the pixels perform the threshold voltage correcting process, said power supply scanner switches the feeding lines to the low potential in preparation for the threshold voltage correcting process, and during the emission period in which the pixels are energized, said power supply scanner switches the feeding lines to the high potential to supply a current for emission, and during the non-emission period in which the pixels are de-energized, said power supply scanner switches the feeding lines to the intermediate potential to stop supplying the current, wherein said pixel alternately repeats the emission period and the non-emission period in each field period, and said power supply scanner sets said intermediate potential to be supplied to the feeding line during the non-emission period for suppressing fluctuations of the signal potential written in the retentive capacitor in a non-emission period between two adjacent emission periods.