Claims
- 1. An optical data signaling apparatus, comprising:
a trans-impedance amplifier having a pair of inputs and a pair of outputs, the amplifier producing a differential voltage between the pair of outputs in response to a current differential between the pair of inputs; a sensing photodiode that provides a data signal current to one of the amplifier inputs in accordance with a received optical signal; and a dark photodiode that provides an ambient current to the other of the amplifier inputs, the current differential being a difference between the data signal current and the ambient current.
- 2. An optical data signaling apparatus according to claim 1, wherein the sensing photodiode and the dark photodiode are both comprised of substantially the same photodiode.
- 3. An optical data signaling apparatus according to claim 2, wherein the sensing photodiode and the dark photodiode are both comprised of substantially the same parasitic elements.
- 4. An optical data signaling apparatus according to claim 1, wherein the sensing photodiode and the dark photodiode are both comprised of a PIN photodiode.
- 5. An optical data signaling apparatus according to claim 1, wherein the sensing photodiode and the dark photodiode are both comprised of an avalanche-type photodiode.
- 6. An optical data signaling apparatus according to claim 1, wherein the sensing photodiode and the dark photodiode are arranged in a common anode configuration.
- 7. An optical data signaling apparatus according to claim 1, wherein the sensing photodiode and the dark photodiode are arranged in a common cathode configuration.
- 8. An optical data signaling apparatus according to claim 1, wherein the trans-impedance amplifier includes:
a first conduction path coupled between the one amplifier input and one of the amplifier outputs; and a second conduction path coupled between the other amplifier input and the other of the amplifier outputs, wherein the differential voltage is established by an amount of current drawn in each respective conduction path in accordance with the current differential.
- 9. An optical data signaling apparatus according to claim 1, wherein the differential voltage is in accordance with one of a LVDS and a CML signaling standard.
- 10. An optical data signaling apparatus according to claim 8, wherein the differential voltage is in accordance with one of a LVDS and a CML signaling standard.
- 11. An optical data signaling apparatus according to claim 8, further comprising a pair of feedback paths respectively coupled between the pair of inputs and pair of outputs.
- 12. An optical data signaling apparatus, comprising:
means for receiving a data signal current corresponding to a received optical signal from a sensing photodiode; means for receiving an ambient current from a dark photodiode; means for establishing a differential between the data signal current and the ambient current; means for providing a differential voltage in accordance with the established differential.
- 13. An optical data signaling apparatus according to claim 12, wherein the sensing photodiode and the dark photodiode are both comprised of substantially the same photodiode.
- 14. An optical data signaling apparatus according to claim 13, wherein the sensing photodiode and the dark photodiode are both comprised of substantially the same parasitic elements.
- 15. An optical data signaling apparatus according to claim 12, wherein the sensing photodiode and the dark photodiode are both comprised of a PIN photodiode.
- 16. An optical data signaling apparatus according to claim 12, wherein the sensing photodiode and the dark photodiode are both comprised of an avalanche-type photodiode.
- 17. An optical data signaling apparatus according to claim 12, wherein the sensing photodiode and the dark photodiode are arranged in a common anode configuration.
- 18. An optical data signaling apparatus according to claim 12, wherein the sensing photodiode and the dark photodiode are arranged in a common cathode configuration.
- 19. An optical data signaling apparatus according to claim 12, further including:
means for providing a first conduction path coupled to the means for receiving the data signal current; and means for providing a second conduction path coupled to the means for receiving the ambient current, wherein the means for establishing the differential includes means for comparing an amount of current drawn in each respective conduction path.
- 20. An optical data signaling apparatus according to claim 12, wherein the differential voltage is in accordance with one of a LVDS and a CML signaling standard.
- 21. An optical data signaling apparatus according to claim 19, wherein the differential voltage is in accordance with one of a LVDS and a CML signaling standard.
- 22. An optical data signaling method, comprising:
receiving a data signal current corresponding to a received optical signal from a sensing photodiode; receiving an ambient current from a dark photodiode; establishing a differential between the data signal current and the ambient current; providing a differential voltage in accordance with the established differential.
- 23. An optical data signaling method according to claim 22, wherein the sensing photodiode and the dark photodiode are both comprised of substantially the same photodiode.
- 24. An optical data signaling method according to claim 23, wherein the sensing photodiode and the dark photodiode are both comprised of substantially the same parasitic elements.
- 25. An optical data signaling method according to claim 22, wherein the sensing photodiode and the dark photodiode are both comprised of a PIN photodiode.
- 26. An optical data signaling method according to claim 22, wherein the sensing photodiode and the dark photodiode are both comprised of an avalanche-type photodiode.
- 27. An optical data signaling method according to claim 22, further comprising the step of arranging the sensing photodiode and the dark photodiode in a common anode configuration.
- 28. An optical data signaling method according to claim 22, further comprising the step of arranging the sensing photodiode and the dark photodiode in a common cathode configuration.
- 29. An optical data signaling method according to claim 22, wherein the step of establishing the differential includes comparing an amount of current drawn in respective conduction paths associated with the data signal current and the ambient current.
- 30. An optical data signaling method according to claim 22, wherein the differential voltage is in accordance with one of a LVDS and a CML signaling standard.
- 31. An optical data signaling method according to claim 29, wherein the differential voltage is in accordance with one of a LVDS and a CML signaling standard.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] The present application is based on, and claims priority from, U.S. appln. Ser. No. 60/298,427, filed Jun. 14, 2001, commonly owned by the assignee of the present application, the contents of which are incorporated herein by reference.
Provisional Applications (1)
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Number |
Date |
Country |
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60298427 |
Jun 2001 |
US |