Optical transmitter and method for controlling the same

The invention claimed is: 1. A method for controlling an optical transmitter, comprising the steps of: (a) making direct current biases for driving children Mach-Zehnder modulators of an IQ modulator in the optical transmitter converge to values close to null driving points of the children Mach-Zehnder modulators; (b) driving the children Mach-Zehnder modulators with special driving data including a pair of training patterns between which there is a significant correlation; (c) scanning direct current biases for setting quadrature angle of the IQ modulator; (d) monitoring output of the IQ modulator during step (c); (e) setting the direct current bias for setting quadrature angle on the basis of the driving data and monitored results in step (d); and interchanging the driving data between the children Mach-Zehnder modulators of the IQ modulator, depending on the direct current bias for setting the quadrature angle set in step (e). 2. An optical transmitter, comprising: an IQ modulator provided with children Mach-Zehnder modulators; an auto bias control circuit making direct current biases for driving the children Mach-Zehnder modulators converge to values close to null driving points of the children Mach-Zehnder modulators; a data selector selecting special driving data including a pair of training patterns between which there is a significant correlation, for driving the children Mach-Zehnder modulators; a scan circuit scanning direct current biases for setting quadrature angle of the IQ modulator; a monitor photo diode monitoring output of the IQ modulator during scanning direct current biases for setting the quadrature angle; a control circuit setting the direct current bias for setting the quadrature angle on the basis of the driving data and results monitored by the monitor photo diode; and a data switch interchanging the driving data between the children Mach-Zehnder modulators of the IQ modulator, depending on the direct current bias for setting the quadrature angle. 3. A method for controlling an optical transmitter, comprising the steps of: (a) making direct current biases for driving children Mach-Zehnder modulators of an IQ modulator in the optical transmitter converge to values close to null driving points of the children Mach-Zehnder modulators; (b) driving the children Mach-Zehnder modulators with special driving data including a pair of training patterns between which there is a significant correlation; (c) scanning direct current biases for setting quadrature angle of the IQ modulator; (d) monitoring output of the IQ modulator during step (c); (e) setting the direct current bias for setting quadrature angle on the basis of the driving data and monitored results in step (d); and interchanging the driving data between the children Mach-Zehnder modulators of the IQ modulator, depending on the direct current bias for setting the quadrature angle set in step (e), wherein the training patterns of step (b) have a correlation selected from strictly positive correlation and strictly negative correlation. 4. A method for controlling an optical transmitter, comprising the steps of: (a) making direct current biases for driving children Mach-Zehnder modulators of an IQ modulator in the optical transmitter converge to values close to null driving points of the children Mach-Zehnder modulators; (b) driving the children Mach-Zehnder modulators with special driving data including a pair of training patterns between which there is a significant correlation; (c) scanning direct current biases for setting quadrature angle of the IQ modulator; (d) monitoring output of the IQ modulator during step (c); (e) setting the direct current bias for setting quadrature angle on the basis of the driving data and monitored results in step (d); and interchanging the driving data between the children Mach-Zehnder modulators of the IQ modulator, depending on the direct current bias for setting the quadrature angle set in step (e), wherein both of the children Mach-Zehnder modulators are driven with the same electrical signal generated from binary data to be modulated on optical data. 5. A method for controlling an optical transmitter, comprising the steps of: (a) making direct current biases for driving children Mach-Zehnder modulators of an IQ modulator in the optical transmitter converge to values close to null driving points of the children Mach-Zehnder modulators; (b) driving the children Mach-Zehnder modulators with special driving data including a pair of training patterns between which there is a significant correlation; (c) scanning direct current biases for setting quadrature angle of the IQ modulator; (d) monitoring output of the IQ modulator during step (c); (e) setting the direct current bias for setting quadrature angle on the basis of the driving data and monitored results in step (d); and interchanging the driving data between the children Mach-Zehnder modulators of the IQ modulator, depending on the direct current bias for setting the quadrature angle set in step (e), wherein, in step (b), the special driving data includes data generated for pre-equalization. 6. An optical transmitter, comprising: an IQ modulator provided with children Mach-Zehnder modulators; an auto bias control circuit making direct current biases for driving the children Mach-Zehnder modulators converge to values close to null driving points of the children Mach-Zehnder modulators; a data selector selecting special driving data including a pair of training patterns between which there is a significant correlation, for driving the children Mach-Zehnder modulators; a scan circuit scanning direct current biases for setting quadrature angle of the IQ modulator; a monitor photo diode monitoring output of the IQ modulator during scanning direct current biases for setting the quadrature angle; a control circuit setting the direct current bias for setting the quadrature angle on the basis of the driving data and results monitored by the monitor photo diode; and a data switch interchanging the driving data between the children Mach-Zehnder modulators of the IQ modulator, depending on the direct current bias for setting the quadrature angle, wherein the training patterns have a correlation selected from strictly positive correlation and strictly negative correlation.