Noise removal circuit

What is claimed is: 1 . A noise removal circuit that asserts an output signal when an input signal continuously maintains a predetermined first level throughout a predetermined judgment time, the noise removal circuit comprising: a first timer that starts a time measurement operation when the input signal transits to the first level from a second level that is a complementary level of the first level; a second timer that measures a time during which the input signal continues at the second level when the input signal transits to the second level after the first timer starts the time measurement operation; and a judgment unit configured such that (i) the judgment unit holds the measurement time obtained by the first timer when the input signal transits to the second level, (ii) when the relation between a measurement time obtained by the second timer and the measurement time of the first timer thus held satisfies a predetermined relation, the first timer is reset, and (iii) when the measurement time obtained by the first timer exceeds the judgment time, the output signal is asserted. 2 . The noise removal circuit according to claim 1 , wherein the first timer comprises a first counter that counts a clock, and wherein the second timer comprises a second counter that counts the clock. 3 . The noise removal circuit according to claim 2 , wherein the judgment unit comprises memory that latches a count value of the first counter when the input signal transits to the second level. 4 . The noise removal circuit according to claim 3 , wherein the judgment unit further comprises a comparator unit that generates the output signal based on a count value held by the memory and a count value of the second counter. 5 . The noise removal circuit according to claim 4 , wherein, when the count value of the second counter exceeds the count value held by the memory, the comparator unit resets the first counter. 6 . The noise removal circuit according to claim 4 , wherein the comparator unit resets the first counter based on a difference between the count value of the second counter and the count value held by the memory. 7 . The noise removal circuit according to claim 4 , wherein the comparator unit resets the first counter based on a ratio between the count value of the second counter and the count value held by the memory. 8 . A noise removal circuit that asserts an output signal when an input signal continuously maintains a predetermined first level throughout a predetermined judgment time, the noise removal circuit comprising: a first counter that starts a count operation when the input signal transits to the first level from a second level that is a complementary level of the first level; a second counter that performs time counting during a time in which the input signal continues at the second level when the input signal transits to the second level after the first counter starts the count operation; and a judgment unit configured such that (i) the judgment unit holds the count value of the first counter when the input signal transits to the second level, (ii) the judgment unit resets the first counter based on a comparison result between the count value of the second counter and the count value of the first counter thus held, and (iii) when the count value of the first counter exceeds a predetermined threshold value, the output signal is asserted. 9 . The noise removal circuit according to claim 1 , wherein the judgment unit generates a noise detection signal which is asserted when the input signal transits to the second level after the output signal is asserted. 10 . The noise removal circuit according to claim 1 , monolithically integrated on a single semiconductor substrate. 11 . A timing controller that receives image data including pixel data and a data enable signal, and that controls a source driver and a gate driver, the timing controller comprising the noise removal circuit according to claim 1 , wherein the data enable signal is input to the noise removal circuit. 12 . The timing controller according to claim 11 , further comprising: a receiver that receives the image data; line memory that holds pixel data included in the image data received by the receiver; a noise detector that generates a noise detection signal which is asserted when noise is detected; a memory controller that suspends updating of the line memory during a predetermined period after the noise detection signal is asserted; and a transmitter that outputs the pixel data stored in the line memory to the source driver. 13 . The timing controller according to claim 12 , wherein the predetermined period is set to a period required to complete an operation for each line. 14 . The timing controller according to claim 12 , wherein the noise detector judges the presence or absence of noise based on the data enable signal. 15 . The timing controller according to claim 14 , wherein the noise detector asserts the noise detection signal when the data enable signal is negated in a period in which the data enable signal is to continuously remain asserted after the data enable signal is asserted. 16 . A display apparatus comprising: a display panel comprising a gate driver as a built-in component; a source driver; and the timing controller according to claim 11 , that controls the source driver. 17 . An electronic device comprising: a display panel comprising a gate driver as a built-in component; a source driver; and the timing controller according to claim 11 , that controls the source driver. 18 . A method for detecting whether or not an input signal continuously maintains a predetermined first level throughout a predetermined judgment time, the method comprising: starting a count operation by a first counter when the input signal transits to the first level from a second level that is a complementary level of the first level; performing time counting by a second counter during a time in which the input signal continues at the second level when the input signal transits to the second level after the first counter starts the count operation; holding the count value of the first counter when the input signal transits to the second level; resetting the first counter when the count value of the second counter exceeds the count value of the first counter; and asserting an output signal when the count value of the first counter exceeds a predetermined threshold value. 19 . A timing controller that receives image data including pixel data, the timing controller comprising: a receiver that receives the image data; line memory that holds pixel data included in the image data received by the receiver; a noise detector that generates a noise detection signal which is asserted when noise is detected; a memory controller that suspends updating of the line memory for a predetermined period after the noise detection signal is asserted; and a transmitter that outputs the pixel data stored in the line memory to the source driver. 20 . The timing controller according to claim 19 , wherein the predetermined period is set to a period required to complete an operation for each line. 21 . The timing controller according to claim 19 , wherein the image data further comprises, in addition to the pixel data, a data enable signal which is asserted during a period in which effective pixel data is transmitted, and wherein the noise detector judges the presence or absence of noise based on the d