Optical: systems and elements – Deflection using a moving element – Using a periodically moving element
Reexamination Certificate
1997-10-20
2001-04-10
Pascal, Leslie (Department: 2633)
Optical: systems and elements
Deflection using a moving element
Using a periodically moving element
C359S199200, C359S199200
Reexamination Certificate
active
06215571
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a feed-forward distortion compensating system in optical communication, and more particularly, to a feed-forward distortion compensating system which can restrain modulation distortion of a light output by feed-forward control, in a light transmission unit which is used for analog light transmission such as light SCM transmission in CATV and so on.
2. Description of the Related Art
FIG. 1
is a block diagram illustrating the structure of a light transmission unit to which a conventional feed-forward distortion compensating system is applied. Referring to
FIG. 1
, the conventional feed-forward distortion compensating system is composed of a signal generator
1
, a first laser diode
2
, a splitter
3
, a photoelectric converter
4
of a PIN diode and so on, an inversion type amplifier
5
, a distortion signal detector
6
, a second laser diode
7
, a synthesizing unit
8
, a first delay section
9
, and a second delay section
10
. In this case, thick lines indicate optical fibers and thin lines indicate coaxial cables.
The signal generator
1
outputs an analog electric carrier signal a in which a plurality of electric signals have been multiplexed in frequency. The analog carrier signal a is branched into a carrier signal a′ and a carrier signal a″. One of the branched carrier signals, a′, is supplied to the first laser diode
2
. The first laser diode
2
modulates the branched carrier signal a′ from the signal generator
1
in light intensity to emit a main light signal b. As a result, the main light signal b contains modulation distortion together with the carrier signal. The main light signal b which has been outputted from the first laser diode
2
is branched into two parts, i.e., light signals c and d by the splitter
3
.
The light signal c from the splitter
3
is supplied to the photoelectric converter
4
. The photoelectric converter
4
converts the light signal c into an electric signal e. The electric signal e is supplied to the distortion signal detector
6
as an electric signal f after being amplified by the inversion type amplifier
5
. The branched carrier signal a″ is supplied to the distortion signal detector
6
after being delayed by a predetermined time period by the delay line
9
to match to the electric signal f in synthesization timing. The distortion signal detector
6
synthesizes the electric signal f from the inversion type amplifier
5
and the delayed carrier signal a″.
At this time, because the phase of the electric signal f from the inversion type amplifier
5
and the phase of the delayed carrier signal a″ are opposite to each other, the carrier components of these signals are canceled. Therefore, the electric signal g which is outputted from the distortion signal detector
6
contains only a distortion component which has been generated in the first laser diode
2
.
The distortion component g which has been detected by the distortion signal detector
6
is supplied to the second laser diode
7
. The second laser diode
7
modulates the distortion signal g from the distortion signal detector
6
in light intensity and generates an auxiliary light signal h.
The auxiliary light signal h from the second laser diode
7
is supplied to the synthesizing unit
8
. The synthesizing unit
8
synthesizes the main light signal d from the first laser diode
2
, i.e., the other of the light signals branched by the splitter
3
and the auxiliary light signal h from the second laser diode
7
. In this case, the main light signal d is supplied to the synthesizing unit
8
after being delayed by a predetermined time period by the delay line
10
to match to the auxiliary light signal h in synthesization timing.
At this time, the phase of the main light signal generated in the first laser diode
2
and delayed by the delay line
10
is opposite to the phase of the auxiliary light signal h generated by the second laser diode
7
. Therefore, a distortion component is substantially removed in the signal i which is output from the synthesizing unit
8
such that the signal is a low distortion signal.
Such a feed-forward distortion compensating system is disclosed in Japanese Laid Open Patent Disclosure (JP-A-Heisei 2-143732).
However, in the above-mentioned conventional feed-forward distortion compensating system, the amplitude characteristic and phase characteristic of the distortion signal generated in the second laser diode
7
is not always coincident with those of the distortion signal generated in the first laser diode
2
. Therefore, it is difficult to achieve a large distortion improving quantity.
SUMMARY OF THE INVENTION
The present invention is made in the view of the above circumstances. Therefore, an object of the present invention is to provide a feed-forward type distortion compensating system which can solve the above-mentioned problems.
Another object of the present invention is to provide a feed-forward type distortion compensating system which can improve signal distortion solve by using a pair of laser diodes.
In order to achieve an aspect of the present invention, a feed-forward distortion compensating system includes first and second laser diodes provided on a same semiconductor chip, for modulating first and second electric signals in light intensity to produce first and second light signals, respectively, a photoelectric conversion unit for converting a part of the first light signal into a third electric signal, a distortion compensating signal generator for synthesizing the third electric signal and a fourth electric signal associated with the first electric signal into the second electric signal, the second electric signal being light-intensity-modulated into the second light signal, and a light signal synthesizing unit for synthesizing the first light signal and the second light signal into a transmission light signal.
In this case, a delay section delays the fourth electric signal such that the delayed fourth electric signal has a phase opposite to that of the third electric signal. As a result, the distortion compensating signal generator includes an adder for adding the delayed fourth electric signal and the third electric signal.
Also, the first light signal is outputted from the first laser diode to the light signal synthesizing unit to have a predetermined delay time such that the first light signal has a phase opposite to that of the second light signal.
In order to achieve another aspect of the present invention, a method of feed-forward compensating a transmission light signal for distortion, includes the steps of:
modulating a first electric signal in light intensity by a first laser diode to produce a main light signal;
converting a part of the main light signal into a second electric signal;
synthesizing the second electric signal and a third electric signal associated with the first electric signal into the fourth electric signal; modulating the fourth electric signal in light intensity by a second laser diode to produce a distortion compensation signal, the first and second laser diodes being formed on a same semiconductor chip; and
removing distortion from the main light signal based on the distortion compensation signal to produce a transmission light signal.
REFERENCES:
patent: 5214524 (1993-05-01), Shigematsu et al.
patent: 5691759 (1997-11-01), Hanson
patent: 2524229 (1983-09-01), None
patent: 1-204235 (1989-08-01), None
patent: 2-134732 (1990-05-01), None
patent: 2-143733 (1990-06-01), None
patent: 2-143732 (1990-06-01), None
patent: 3-104331 (1991-05-01), None
patent: 7-245599 (1995-09-01), None
patent: 07245599 (1995-09-01), None
patent: 9-312611 (1997-12-01), None
Japanese Office Action, dated May 23, 2000, with English language translation of Japanese Examiner's comments.
Japanese Office Action, dated Feb. 8, 2000, with English language translation of Japanese Examiner's comments.
McGuireWoods LLP
NEC Corporation
Pascal Leslie
Phan Hanh
LandOfFree
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