Liquid crystal display device and method for driving same

The invention claimed is: 1. A liquid crystal display device formed on an insulating substrate and performing pause drive in an alternating-voltage drive mode, the device comprising: a plurality of scanning signal lines; a plurality of data signal lines crossing each of the scanning signal lines; pixel forming portions provided at intersections of the scanning signal lines and the data signal lines; a correction circuit that outputs either a corrected image signal generated by adding a correction value to an input image signal or an uncorrected image signal generated by not adding anything to the input image signal; a scanning signal line driver circuit that sequentially selects and scans the scanning signal lines; a data signal line driver circuit that writes to the data signal lines correction voltages in accordance with the corrected image signal outputted by the correction circuit or uncorrected signal voltages in accordance with the uncorrected image signal; and a timing control circuit that controls the scanning signal line driver circuit and the data signal line driver circuit, wherein, the pause drive alternatingly repeats a drive period consisting of a plurality of drive frames and a pause period following the drive period and lasting until the start of the next drive period, the correction circuit outputs one of the corrected image signal and the uncorrected image signal to the data signal line driver circuit at least during the first drive frame of the drive period and also outputs the uncorrected image signal to the data signal line driver circuit during the last drive frame, and the correction voltages in accordance with the corrected image signal has the same polarity as the uncorrected signal voltages and an absolute value greater than or equal to an absolute value of the uncorrected signal voltages. 2. The liquid crystal display device according to claim 1 , wherein, the correction circuit includes: frame memory that stores the input image signal every frame; a comparator circuit that obtains grayscale values for a current frame for the input image signal and grayscale values for a previous frame stored in the frame memory; a table having stored correction values correlated with combinations of grayscale values for the current and previous frames for the input image signals; and an adder circuit that outputs either the corrected image signal or the uncorrected image signal to the data signal line driver circuit in accordance with the input image signal, the table provides the adder circuit with the correction values correlated with the grayscale values for the current and previous frames every time the comparator circuit provides the grayscale values for the current and previous frames for the input image signal, and the adder circuit outputs the corrected image signal by correcting the grayscale values for the input image signal with the correction values provided by the table and also outputs the uncorrected image signal without correcting the grayscale values for the input image signal. 3. The liquid crystal display device according to claim 2 , wherein the adder circuit outputs the corrected image signal in each of two or more consecutive drive frames including the first drive frame, and outputs the uncorrected image signal during the last drive frame. 4. The liquid crystal display device according to claim 1 , wherein, the correction circuit includes: frame memory that stores the input image signal every frame; a comparator circuit that obtains grayscale values for a current frame for the input image signal and grayscale values for a previous frame stored in the frame memory; a table having stored correction values correlated with combinations of grayscale values for the current and previous frames for the input image signals when the grayscale values for the current and previous frames are equal; and an adder circuit that outputs either the corrected image signal or the uncorrected image signal in accordance with the input image signal, the comparator circuit provides the table with grayscale values for the current and previous frames for the input image signal only when the grayscale values for the current and previous frames for the input image signal are equal or substantially equal, the table provides the adder circuit with the correction values correlated with the grayscale values for the current and previous frames provided by the comparator circuit, when the grayscale values for the current and previous frames for the input image signal are essentially equal, the adder circuit outputs the corrected image signal by correcting the grayscale values for the input image signal with the correction values provided by the table and also outputs the uncorrected image signal without correcting the grayscale values for the input image signal, and when the grayscale values for the current and previous frames for the input image signal are essentially not equal, the adder circuit outputs the corrected image signal at least once without correcting the grayscale values for the input image signal. 5. The liquid crystal display device according to claim 4 , wherein, when the grayscale values for the current and previous frames for the input image signal are not equal, the adder circuit outputs the corrected image signals successively without correcting the grayscale values for the input image signal. 6. The liquid crystal display device according to claim 4 , wherein, the comparator circuit further obtains an inverting direction in which the input image signal is inverted in polarity for each of the drive periods, and the table includes first and second tables having stored different correction values in accordance with directions of the polarity, such that every time grayscale values for the current and previous frames for the input image signal and a direction of the polarity are provided by the comparator circuit, the adder circuit is provided with the correction values correlated with the grayscale values for the current and previous frames from one of the first and second tables corresponding to the direction of the polarity. 7. The liquid crystal display device according to claim 1 , wherein, the correction circuit includes: frame memory that stores the input image signal every frame; a table having stored correction values correlated with grayscale values for a current frame for the input image signal; and an adder circuit that outputs either the corrected image signal or the uncorrected image signal in accordance with the input image signal, the table provides the adder circuit with correction values corresponding to the grayscale values for the current frame every time the input image signal is provided, and the adder circuit outputs the corrected image signal by correcting the grayscale values for the input image signal with the correction values provided by the table and also outputs the uncorrected image signal without correcting the grayscale values for the input image signal. 8. The liquid crystal display device according to claim 1 , wherein, the correction circuit includes: frame memory that stores the input image signal every frame; and an adder circuit that outputs either the corrected image signal or the uncorrected image signal in accordance with the input image signal, and the adder circuit stores one correction value and outputs the corrected image signal by correcting the grayscale values for the input image signal with the correction value, while outputting the uncorrected image signal without correcting the grayscale values for the input image signal. 9. The liquid crystal display device according to claim 2 , further comprising a temperature sensor tha