Claims
- 1. An optical signal receiver, comprising:
a circuit operable to provide a voltage; and a photo-diode coupled to the circuit to receive the voltage, the photo-diode operable to generate a photo-current in response to a received optical signal, wherein the circuit is configured to adjust a current gain of the photo-current according to a power of the received optical signal by adjusting the voltage.
- 2. The optical signal receiver of claim 1, wherein the photo-diode comprises an avalanche photo-diode.
- 3. The optical signal receiver of claim 1, wherein the circuit further comprises:
a voltage source; and a resistor having a resistance in a range between about 10K-Ohms and about 200 K-Ohms coupled between the voltage source and the photo-diode to provide the voltage.
- 4. The optical receiver of claim 3, wherein the resistor has a resistance of approximately 50 K-Ohms.
- 5. The optical signal receiver of claim 4, wherein the optical signal receiver is capable of detecting optical signals that range from approximately 1 mwatt of power to approximately 0.5 μwatts of power.
- 6. The optical signal receiver of claim 4, wherein the current gain is approximately at unity when the photo-current approaches a saturation level of a pre-amplifier circuit that is coupled to the photo-diode.
- 7. The optical signal receiver of claim 4, wherein the optical signal receiver has an input dynamic range of approximately 33 dB.
- 8. The optical signal receiver of claim 2, wherein the circuit comprises:
a current sensor operable to detect the photo-current; a controller coupled to the current sensor, the controller operable to generate control signals in response to the photo-current; and a voltage converter coupled to the controller, the voltage converter operable to provide the voltage according to the control signals.
- 9. The optical receiver of claim 8, wherein the current sensor includes a current mirror.
- 10. An optical signal receiver, comprising:
a resistor; and a photo-diode coupled to the resistor to receive a reverse bias voltage, the photo-diode operable to generate a photo-current in response to a received optical signal, wherein the resistor lowers a gain of the photo-diode according to a power of the received optical signal by lowering the reverse bias voltage.
- 11. The optical signal receiver of claim 10, wherein the photo-diode comprises an avalanche photo-diode.
- 12. The optical signal receiver of claim 10, wherein the resistor has a resistance in a range between about 10 K-Ohms and about 200 K-Ohms.
- 13. The optical signal receiver of claim 10, wherein the resistor has a resistance of approximately 50K-Ohms.
- 14. The optical signal receiver of claim 13, wherein the optical signal receiver is capable of detecting optical signals that range from approximately 1 mwatt of power to approximately 0.5 μwatts of power.
- 15. The optical signal receiver of claim 13, wherein the optical signal receiver has an input dynamic range of approximately 33 dB.
- 16. The optical signal receiver of claim 10, further comprising a pre-amplifier coupled to the photo-diode to receive the photo-current.
- 17. The optical signal receiver of claim 16, wherein the gain of the photo-diode is approximately at unity when the photo-current approximates a saturation level of the pre-amplifier.
- 18. An optical signal receiver, comprising:
an adjustable voltage source operable to provide a voltage; a photo-diode coupled to receive the voltage and operable to generate a photo-current in response to a received optical signal; a current sensor operable to detect the photo-current; and a controller coupled to the current sensor, the controller operable to generate control signals in response to the photo-current, wherein the adjustable voltage source adjusts a gain of the photo-diode according to a power of the received optical signal by adjusting the voltage.
- 19. The optical signal receiver of claim 18, wherein the photo-diode comprises an avalanche photo-diode.
- 20. The optical signal receiver of claim 18, further comprising a pre-amplifier coupled to the photo-diode to receive the photo-current.
- 21. The optical signal receiver of claim 20, wherein the gain of the photo-current is approximately at unity when the photo-current approximates a saturation level of the pre-amplifier.
- 22. The optical signal receiver of claim 18, wherein the current sensor includes a current mirror.
- 23. An optical signal detector, comprising:
an avalanche photo-diode having a terminal; and a resistor coupled to the terminal to provide a reverse bias voltage to the avalanche photo-diode, wherein the resistor has a resistance in a range between about 10 K-Ohms and about 200 K-Ohms.
- 24. The optical signal detector of claim 23, wherein the resistor has a resistance of approximately 50K-Ohms.
- 25. The optical signal detector of claim 23, further comprising a transimpedance amplifier coupled across the resistor to generate an output voltage that is proportional to the photo-current.
- 26. An optical signal receiver, comprising:
an avalanche photo-diode operable to generate a photo-current in response to a received optical signal; a pre-amplifier circuit coupled to the avalanche photo-diode operable to amplify the photo-current; and a circuit coupled to the avalanche photo-diode and operable to reduce a current gain of the avalanche photo-diode so as to cause the avalanche photo-diode to behave similarly to a p-intrinsic-n photo-diode when the photo-current approaches a saturation level of the pre-amplifier circuit.
- 27. The optical signal receiver of claim 26, further comprising an amplifier circuit coupled to the avalanche photo-diode to receive the photo-current.
- 28. The optical signal receiver of claim 26, wherein the circuit comprises a resistor.
- 29. The optical signal receiver of claim 28, wherein the resistor has a resistance in a range between about 10 K-Ohms and about 200 K-Ohms.
- 30. The optical signal receiver of claim 28, wherein the resistor has a resistance of approximately 50K-Ohms.
- 31. An optical signal receiver, comprising:
means for generating a photo-current in response to a received optical signal; and means for adjusting a gain of the photo-current according to a power of the received optical signal.
- 32. The optical signal receiver of claim 31, further comprising means for sensing the photo-current.
- 33. The optical signal receiver of claim 32, wherein the means for adjusting further comprises means for adjusting a reverse bias voltage for the means for generating.
- 34. The optical signal receiver of claim 32 further comprising means for amplifying the photo-current to produce an output.
Parent Case Info
[0001] The present application claims priority to U.S. Provisional Patent Application serial No. 60/355,024, filed Feb. 8, 2002, which is incorporated herein by reference.
Provisional Applications (1)
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Number |
Date |
Country |
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60355024 |
Feb 2002 |
US |