Two-wavelength WDM Analog CATV transmission with low crosstalk
First Claim
1. An apparatus for transmitting signals over an optical fiber, said apparatus comprising:
- a plurality of fiber optic sources producing a plurality of wavelengths, a first one of said fiber optic sources producing a first output having a first wavelength and a second one of said plurality of fiber optic sources producing a second output having a second wavelength, wherein the first output wavelength and the second output wavelength has a difference of substantially 2.2 nanometers;
a means for modulating the first and second outputs of the fiber optic sources with signals to produce first and second modulated outputs;
a means for combining the first and second modulated outputs to produce a wavelength-division-multiplexed output;
an optical fiber having a transmitter end and a receiver end, the transmitter end of the optical fiber being adapted to receive the wavelength-division-multiplexed output; and
means for applying a dither to at least one of the fiber optic transmitters such that the dither reduces crosstalk in the signals of the wavelength division multiplexed output at the receiver end of the optical fiber.
8 Assignments
0 Petitions
Accused Products
Abstract
A two-wavelength WDM analog CATV transmission system which utilizes wavelength channel spacing of about 2.2 nm and laser-dithering. The system includes a pair of optical transmitters (DBF lasers), a pair of modulators, a dithering device, a polarization controller, a 3-dB combiner, an optical amplifier (EDFA), an attenuator, a length of optical fiber, a filter and a CATV receiver. The two lasers have wavelengths of λ1 and λ2, where the difference between λ1 and λ2 is approximately 2.2 nm. The modulators are driven with analog signals comprising 77 NTSC channels between 55.25 and 535.25 MHz A 2-GHz dithering tone is applied to the λ1 laser and the output of the λ2 laser is passed through the polarization controller to align the polarization of the two transmitters. The two modulated and aligned outputs are combined by the 3-dB combiner and launched into the EDFA The output of the EDFA is divided by the splitter four ways and one of the four outputs is passed through the attenuator and launched into the transmitting end of the optical fiber. The receiving end of the fiber is connected to a filter, which provides input into the CATV receiver. By utilizing a wavelength channel spacing of about 2.2 nm and dithering one of the lasers, worst-channel Composite Triple Beat distortion is reduced to -60 dBc, an acceptable level for deployment of WDM analog CATV systems.
237 Citations
37 Claims
-
1. An apparatus for transmitting signals over an optical fiber, said apparatus comprising:
-
a plurality of fiber optic sources producing a plurality of wavelengths, a first one of said fiber optic sources producing a first output having a first wavelength and a second one of said plurality of fiber optic sources producing a second output having a second wavelength, wherein the first output wavelength and the second output wavelength has a difference of substantially 2.2 nanometers; a means for modulating the first and second outputs of the fiber optic sources with signals to produce first and second modulated outputs; a means for combining the first and second modulated outputs to produce a wavelength-division-multiplexed output; an optical fiber having a transmitter end and a receiver end, the transmitter end of the optical fiber being adapted to receive the wavelength-division-multiplexed output; and means for applying a dither to at least one of the fiber optic transmitters such that the dither reduces crosstalk in the signals of the wavelength division multiplexed output at the receiver end of the optical fiber. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
-
-
18. A method of transmitting wavelength-division-multiplexed signals over an optical fiber, the method comprising the steps of:
-
providing a plurality of fiber optic sources, one of said plurality of fiber optic sources producing an output having a first wavelength and another one of said plurality of fiber optic sources producing an output having a second wavelength, the difference between the first and second wavelengths being approximately 2.2 nanometers; modulating the first and second outputs of the fiber optic transmitters with signals to produce first and second modulated outputs; multiplexing the first and second modulated outputs to produce a wavelength-division-multiplexed output; providing an optical fiber having a transmitter end and a receiver end, launching the wavelength-division-multiplexed output into the transmitter end of the optical fiber; and dithering at least one of the fiber optic transmitters to reduce crosstalk between the signal at the receiver end of the optical fiber. - View Dependent Claims (19, 20)
-
-
21. An apparatus for transmitting signals over an optical fiber, said apparatus comprising:
-
a plurality of fiber optic sources producing a plurality of wavelengths, a first one of said plurality of fiber optic sources producing a first output having a first wavelength and a second one of said plurality of fiber optic sources producing a second output having a second wavelength, the difference between the first wavelength and the second wavelength being approximately 2.2 nanometers; means for modulating the first and second outputs of the fiber optic sources with signals to produce first and second modulated outputs; means for combining the first and second modulated outputs to produce a wavelength-division-multiplexed output, and an optical fiber having a transmitter end and a receiver end, the transmitter end of the fiber optic cable being adapted to receive the wavelength-division-multiplexed output; and means for applying a dither to at least one of the fiber optic sources such that the dither reduces crosstalk in the analog video signals of the wavelength-division-multiplexed output at the receiver end of the optical fiber; wherein the difference of about 2.2 nanometers between the first wavelength and the second wavelength reduces crosstalk noise in the signals of the wavelength-division-multiplexed output at the receiver end of the optical fiber. - View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 37)
-
-
34. An apparatus for wavelength-division-multiplexed transmission over an optical fiber, the apparatus comprising:
-
a plurality of optical transmitters producing outputs launched into an optical fiber at a wavelength spacing of about 2.2 nanometers; and means for dithering at least one of the optical transmitters such that CATV signals are satisfactorily transmitted over the optical fiber while exhibiting a sufficiently small amount of crosstalk. - View Dependent Claims (35)
-
-
36. A method of wavelength-division-multiplexed transmission over an optical fiber, the steps of the method comprising:
-
providing a plurality of optical transmitters producing outputs launched into an optical fiber at a wavelength spacing of about 2.2 nanometers; and applying a dithering tone to at least one of the optical transmitters such that CATV signals are satisfactorily transmitted over said optical fiber while exhibiting a sufficiently small amount of crosstalk.
-
Specification