Multi-channel variable optical attenuator
First Claim
1. A multi-channel variable optical attenuator for a wavelength multiplexed light, which contains a plurality of signal lights each having a specific wavelength, said attenuator comprising:
- a master control circuitry for detecting a wavelength dependence of the wavelength multiplexed light and outputting a single master control signal corresponding to the wavelength dependence;
a plurality of optical waveguides, the signal lights being transmitted in the corresponding waveguides, respectively;
a plurality of attenuation adjusting portions provided in the respective waveguides, the attenuation adjusting portions attenuating the signal lights transmitted therethrough; and
a control circuitry for controlling an attenuation amount of the respective signal lights, based on said single master control signal, by a predetermined rate specific to the respective adjusting portions.
1 Assignment
0 Petitions
Accused Products
Abstract
The present invention is to provide a multi-channel variable optical attenuator with a small size and a simple control circuitry, which requires a short time for adjusting the attenuation level of signal lights. The optical attenuator comprises an optical attenuating portion 10, a control circuitry 20 and a master control circuitry 21. The optical attenuating portion includes a plurality of optical waveguides 121-12N and a plurality of attenuation adjusting portions 131-13N, both of which is formed in a substrate 11. A signal light of a specific wavelength λi, which is derived from the wavelength multiplexed light, transmits in a respective waveguide 12i and is attenuated by a specific amount at the attenuation adjusting portion 13i. The control circuitry 20outputs a plurality of control signals 141-14N to attenuation adjusting portions 131-13N so that the attenuation in each optical waveguides 121-12N is varied by the specific amount to the master control 22 sent from the master control circuitry 21. Thus, optical output levels from waveguides 121-12N are equalized.
61 Citations
8 Claims
-
1. A multi-channel variable optical attenuator for a wavelength multiplexed light, which contains a plurality of signal lights each having a specific wavelength, said attenuator comprising:
-
a master control circuitry for detecting a wavelength dependence of the wavelength multiplexed light and outputting a single master control signal corresponding to the wavelength dependence;
a plurality of optical waveguides, the signal lights being transmitted in the corresponding waveguides, respectively;
a plurality of attenuation adjusting portions provided in the respective waveguides, the attenuation adjusting portions attenuating the signal lights transmitted therethrough; and
a control circuitry for controlling an attenuation amount of the respective signal lights, based on said single master control signal, by a predetermined rate specific to the respective adjusting portions. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
the optical attenuating portions include Mach-Zender interferometers having a pair of optical waveguides, at least one of the optical waveguides provided with a phase adjusting portion for varying a phase of the signal light transmitted therethrough, and the control circuitry controls the attenuation amount of the signal light by outputting a control signal to the phase adjusting portion. -
3. A multi-channel variable optical attenuator according to claim 2, wherein
the Mach-Zender interferometers provided in the respective waveguides have different configurations, and the control signal output from the control circuitry is single and commonly applied to Mach-Zender interferometers so as to attenuate respective signal lights by the predetermined rate. -
4. A multi-channel variable optical attenuator according to claim 2, wherein
the Mach-Zender interferometers provided in the respective waveguides have the same configuration, and the control signal output from the control circuitry is different to respective phase adjusting portions so as to attenuate respective signal lights by the predetermined rate. -
5. A multi-channel variable optical attenuator according to claim 2, wherein
the phase adjusting portion in the Mach-Zender interferometer includes a temperature varying device, the phase of the signal light transmitted therethrough being varied by temperature. -
6. A multi-channel variable optical attenuator according to claim 2, wherein
the phase adjusting portion in the Mach-Zender interferometer includes at least an electrode for applying an electric field, the phase of the signal light transmitted therethrough being varied by the electric field. -
7. A multi-channel variable optical attenuator according to claim 1, further comprising:
-
an arrayed waveguide grating provided in a preceding section of the attenuation adjusting portions, wherein the wavelength multiplexed light is inputted to the arrayed waveguide grating and the signal lights each having different wavelengths are output from the arrayed waveguide grating.
-
-
8. A multi-channel variable optical attenuator according to claim 1, further comprising:
-
an arrayed waveguide grating provided in a section following the attenuation adjusting portions, wherein the signal lights are inputted to the arrayed waveguide grating and a wavelength multiplexed light is output from the arrayed waveguide grating.
-
-
Specification
-
- Resources
-
Current AssigneeSumitomo Electric Industries Limited (Sumitomo Corporation)
-
Original AssigneeSumitomo Electric Industries Limited (Sumitomo Corporation)
-
InventorsNakazato, Koji, Nishimura, Masayuki
-
Primary Examiner(s)Lee, John D.
-
Assistant Examiner(s)Doan, Jennifer
-
Application NumberUS09/459,873Time in Patent Office623 DaysField of Search385/1-3, 385/5, 385/10, 385/37, 385/140US Class Current385/140CPC Class CodesG02B 6/12016 characterised by the input ...G02B 6/12021 Comprising cascaded AWG dev...G02B 6/12033 characterised by means for ...G02B 6/266 the optical element being a...G02F 1/0121 Operation of devices; Circu...G02F 1/0147 based on thermo-optic effec...G02F 1/0327 Operation of the cell; Circ...G02F 1/212 Mach-Zehnder typeH04B 10/294 in a multiwavelength system...
