Claims
- 1. An optical module, comprising:
at least one active optical component configured in a package having an exterior surface and having plural electrical contacts substantially flush with said exterior surface to receive power and to transmit or receive electrical signals; and a flexible circuit board having a base portion coupled to and conforming with said outside surface of said package and electrically coupled to said plural electrical contacts of said active optical component and having plural electrical interface contacts for interfacing said active optical component to circuitry external to the module.
- 2. An optical module according to claim 1, wherein the optical module further comprises a housing and said active optical component is configured in a package mounted in the housing, wherein the electrical contacts comprise a plurality of pins extending outward from the package and wherein the flexible circuit board comprises a plurality of apertures extending through the flexible board to fit over the plurality of pins extending outward from the package.
- 3. An optical module according to claim 1, wherein the flexible circuit board comprises circuitry for impedance matching of the optical component and the external circuitry.
- 4. An optical module according to claim 1, wherein said flexible circuit board comprises a power supply circuit and filter circuitry coupled to the power supply circuit for providing a power supply filter for the optical component.
- 5. An optical module according to claim 4, wherein said flexible circuit board further comprises a ground connection and wherein said filter circuitry comprises one or more capacitors coupled between the power supply circuit and said ground connection.
- 6. An optical module according to claim 3, wherein said circuitry for impedance matching comprises one or more resistors.
- 7. An optical module according to claim 1, wherein said plural electrical interface contacts comprise plural solderable pads to electrically connect the flexible board to the external circuitry.
- 8. An optical module according to claim 1, wherein said flexible circuit board comprises a multi-layer flexible structure including a conductive trace layer and a conductive ground plane layer separated by an insulating layer.
- 9. An optical module according to claim 8, wherein said flexible circuit board further comprises a capacitor electrically connected between a trace on the conductive trace layer and the conductive ground plane layer.
- 10. An optical module according to claim 1, further comprising one or more optical fibers optically connected to said optical component.
- 11. An optical module according to claim 1, wherein the optical component comprises a laser diode.
- 12. An optical module according to claim 11, wherein the optical component further comprises a back facet monitoring photodiode.
- 13. An optical module according to claim 11, wherein the flexible circuit board further comprises a ground layer, an impedance matching resistor coupled to the laser diode and a capacitor coupled between the ground layer and the laser diode.
- 14. An optical module according to claim 12, wherein the flexible circuit board further comprises a ground layer, an impedance matching resistor coupled to the laser diode, a first capacitor coupled between the ground layer and the laser diode and a second capacitor coupled between the ground layer and the back facet monitoring photodiode.
- 15. An optical module according to claim 1, wherein the optical component comprises a receive photodiode and a transimpedance amplifier and wherein the flexible circuit board comprises a ground layer, a first power supply connection for the photodiode, a second power supply connection for the transimpedance amplifier, a first capacitor coupled between the ground layer and the first power supply connection and a second capacitor coupled between the ground layer and the second power supply connection.
- 16. An optical module according to claim 1, wherein the optical module and interface contacts are configured to interface with a small form-factor (SFP) optical transceiver module.
- 17. An optical module according to claim 1, wherein the optical component comprises an avalanche photodiode.
- 18. An optical module according to claim 1, wherein the optical component comprises an avalanche photodiode with a transimpedance amplifier.
- 19. An optical module according to claim 1, wherein the optical component comprises a PIN photodiode.
- 20. An optical module according to claim 1, wherein the optical component comprises a PIN photodiode with a transimpedance amplifier.
- 21. An optical module according to claim 1, wherein the optical module includes an analog PIN amplifier.
- 22. A method of interfacing an optical module and a circuit on a printed circuit board (PCB), the optical module having a plurality of pins extending outward from the module, the method comprising:
providing a flexible board having circuitry to electrically connect the optical module to the circuit on the PCB; positioning the flexible board over the plurality of pins extending outward from the module, wherein the pins fit through a plurality of apertures in the flexible board at one location; cutting the excess length of the plurality of pins; soldering the remaining pin portions to electrically connect the optical module to the flexible board; and soldering interface contacts at a second location on the flexible board to the PCB to electrically connect the flexible board to the PCB.
- 23. The method of claim 22, wherein the optical module, flexible board and the circuit on the PCB have electrical impedances and further comprising the step of providing circuitry on the flexible board to provide an impedance to substantially match the impedances of the optical module to the circuit on the PCB.
- 24. A fiber optic assembly, comprising:
an optical module comprising one or more active optical components coupled to an optical fiber and configured in a package having an exterior surface; a printed circuit board comprising electrical transmitter and/or electrical receiver circuitry; and one or more flexible circuit boards having a base portion coupled to and conforming with said outside surface of said package and a flexed portion electrically connecting the module to the printed circuit board.
- 25. The fiber optic assembly according to claim 24, wherein the flexible board connects the optical module on top of the PCB.
- 26. The fiber optic assembly according to claim 24, wherein the flexible board connects the optical module at a different vertical position than the PCB.
- 27. An optical module, comprising:
at least one active optical component having plural electrical contacts to receive power and to transmit or receive electrical signals; and a flexible circuit board electrically coupled to said plural electrical contacts of said active optical component and having plural electrical interface contacts for interfacing said active optical component to circuitry external to the module, wherein the flexible circuit board comprises circuitry for impedance matching of the optical component and the external circuitry and a co-planar wave-guide with controlled characteristic impedance.
- 28. An optical module according to claim 1, wherein the flexible circuit board comprises a discrete electrical component configured on said base portion adjacent an electrical contact of said active optical component to minimize the impedance of the connection to the contact.
- 29. An optical module according to claim 28, wherein said discrete electrical component is a capacitor.
- 30. An optical module according to claim 28, wherein said discrete electrical component is a resistor.
RELATED APPLICATION INFORMATION
[0001] The present application is related to U.S. Provisional Patent Application serial No. 60/350,580, filed on Jan. 22, 2002 and to U.S. Provisional Application No. 60/353,150 filed Feb. 1, 2002, which are incorporated herein by reference and to which priority is claimed pursuant to 35 USC 119 (e).
Provisional Applications (2)
|
Number |
Date |
Country |
|
60350580 |
Jan 2002 |
US |
|
60353150 |
Feb 2002 |
US |