JP2643874B2 - Optical output stabilization circuit of optical transmitter - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical transmission device,
In particular, the present invention relates to an optical output stabilization circuit of an optical transmission device using an external modulator.

[0002]

2. Description of the Related Art Conventionally, as this type of optical transmission device,
FIG. 2 shows such a block diagram. The optical transmitter includes a driving circuit 2 for converting an input data signal into light.
The input data signal converted into light by the drive circuit 2 is supplied to the external modulator 3 to modulate the intensity of the light output from the semiconductor laser 1 and transmit it as an optical output signal. In this case, the transmitted optical output signal is split by the optical coupler 4 and is supplied to the monitoring photodiode 5. The monitoring photodiode 5 optically / electrically converts the supplied branched light output signal, detects an average value of the power, and supplies the average value to the automatic output constant control circuit 8. Automatic output constant control circuit 8
Controls the power of the semiconductor laser 1 via the drive circuit 9 based on the average value of the power of the branched light output signal supplied from the monitoring photodiode 5 in order to stabilize the light output signal.

[0003]

However, according to such a conventional optical transmitter, when the mark ratio of the input data signal (the average value of the input data signal) fluctuates, the peak value changes. The power has changed,
There is a problem that the operating point of the external modulator 3 cannot always be kept constant.

The present invention has been made to solve such a problem, and an object of the present invention is to make it possible to follow an optimum operating point of an external modulator with respect to a change in a mark rate of an input data signal. An object of the present invention is to provide an optical output stabilization circuit of an optical transmission device capable of stabilizing an output.

[0005]

Means for Solving the Problems] To achieve the above object, the present invention provides an optical output stabilizing circuit of the optical transmission device described above, the average of the input data signal converted into light by the driving circuit A mark ratio detection circuit for detecting the value, a photodiode for optical / electrical conversion of the branched light output signal and detecting the average value of the power, an average value of the power of the branched light output signal detected by the photodiode and the mark ratio A comparison circuit is provided for comparing the average value of the input data signal detected by the detection circuit, and an automatic output constant control circuit for controlling the power of the semiconductor laser based on the comparison result of the comparison circuit.

[0006]

In accordance with the thus this invention, the average value of the input data signal converted into light is detected by the drive movement circuit, the branched light output signal detected by the average value and the photodiode of the detected input data signals The power is compared with the average value, and the power of the semiconductor laser is controlled based on the comparison result.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail based on embodiments. FIG. 1 is a block diagram showing one embodiment of the present invention. 2, the same reference numerals as those in FIG. 2 indicate the same or equivalent components. In this embodiment, a mark ratio detection circuit 6 and a comparison circuit 7 are further provided in the conventional circuit shown in FIG.

That is, the mark rate detection circuit 6 detects the average value of the input data signal converted into light by the drive circuit 2 and compares the average value of the input data signal detected by the mark rate detection circuit 6. It is provided to the circuit 7. The average value of the power of the branched light output signal detected by the monitoring photodiode 5 is given to the comparison circuit 7, and the comparison circuit 7 compares the average value of each of the branched light output signal and the average value of the input data signal. The comparison result is given to the automatic output constant control circuit 8.

The automatic output stabilization control circuit 8 performs stabilization of the optical output signal based on the comparison result of the average value of each of the branched optical output signal and the input data signal in the comparison circuit 7.
The power of the semiconductor laser 1 is controlled via the drive circuit 9. As a result, control is performed in consideration of the mark ratio of the input data signal, and the operating point of the external modulator 3 can always be kept optimal.

In this embodiment, the loss of the external modulator 3 and the optical coupler 4 can be controlled by detecting the average value of the power of the branched optical output signal and the average value of the input data signal. Further, by connecting the mark ratio detection circuit 6 to the drive circuit 2, control when the duty of the input data signal fluctuates in the drive circuit 2 is also possible.

[0011]

According to apparent the present invention since it has been described above, the average value of the input data signal converted into light is detected by the drive dynamic circuit, the average value of the detected input data signals The average value of the power of the branched light output signal detected by the photodiode is compared with the average value, and the power of the semiconductor laser is controlled based on the comparison result, and the optimum operating point of the external modulator follows the fluctuation of the mark ratio of the input data signal. And stabilization of light output can be achieved.

[Brief description of the drawings]

FIG. 1 is a block diagram showing one embodiment of the present invention.

FIG. 2 is a block diagram of a conventional optical transmission device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Semiconductor laser, 2 ... Drive circuit, 3 ... External modulator, 4
... Optical coupler, 5 ... Monitoring photodiode, 6 ... Mark ratio detection circuit, 7 ... Comparison circuit, 8 ... Automatic output constant control circuit, 9 ... Drive circuit.

Claims (1)

(57) [Claims] A driving circuit for converting an input data signal into light; providing an input data signal converted into light by the driving circuit to an external modulator to modulate a light output from the semiconductor laser to generate a light output; While transmitting as a signal, in the optical output stabilizing circuit of the optical transmitting device that controls the power of the semiconductor laser based on the branched optical output signal obtained by branching the optical output signal, the optical output signal is converted into light by the driving circuit. Flat of input data signal
A mark rate detecting circuit for detecting the average value, the average of the power said branched optical output signal / electrical conversion
A photodiode for detecting the value and the power of the branched light output signal detected by the photodiode.
Average value and input data detected by the mark ratio detection circuit.
A comparison circuit for comparing the average value of the semiconductor laser with the semiconductor laser based on a comparison result of the comparison circuit.
An optical output stabilization circuit for an optical transmission device, comprising: an automatic output constant control circuit for controlling power .