Electro-optical communications link

US 8,805,196 B2
Filed: 09/30/2010
Issued: 08/12/2014
Est. Priority Date: 09/30/2010
Status: Active Grant

First Claim

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1. A communications link for carrying data between a transmitter and a receiver according to a communications protocol specifying a reduced-power link operating state in which the transmitter generates a reduced-amplitude electrical output signal at an electrical output and the receiver is to operate in a power-save mode, the communications link comprising:

an electro-optical link having an E/O converter for generating an optical signal from an electrical input signal at an electrical input, an optical transmission medium for carrying the optical signal, and an O/E converter for generating an electrical output signal from the optical signal, the electrical output signal provided to the receiver; and

a circuit coupling the electrical output of the transmitter to the electrical input of the electro-optical link, the circuit being configured to (1) forward the electrical output signal of the transmitter to the electrical input of the electro-optical link during normal-power link operation, and (2) detect initiation of the reduced-power link operating state and, during the reduced-power link operating state, to periodically send Idle messages to the receiver via the electro-optical link to maintain a normal amplitude of the optical signal on the electro-optical link causing the receiver to maintain normal-power operation during the reduced-power link operating state.

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Abstract

A communications link for carrying data between a transmitter and a receiver operates according to a communications protocol (such as PCI Express (PCIe)) specifying a reduced-power link operating state in which the transmitter generates a reduced-amplitude electrical output signal and the receiver is to operate in a power-save mode. The communications link includes an electro-optical link and a circuit coupling an output of the transmitter to an electrical input of the electro-optical link. The circuit is configured to detect initiation of the reduced-power operating state and to send messages to the receiver to maintain a normal amplitude of an optical signal on the electro-optical link.

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18 Claims

1. A communications link for carrying data between a transmitter and a receiver according to a communications protocol specifying a reduced-power link operating state in which the transmitter generates a reduced-amplitude electrical output signal at an electrical output and the receiver is to operate in a power-save mode, the communications link comprising:
- an electro-optical link having an E/O converter for generating an optical signal from an electrical input signal at an electrical input, an optical transmission medium for carrying the optical signal, and an O/E converter for generating an electrical output signal from the optical signal, the electrical output signal provided to the receiver; and
  
  a circuit coupling the electrical output of the transmitter to the electrical input of the electro-optical link, the circuit being configured to (1) forward the electrical output signal of the transmitter to the electrical input of the electro-optical link during normal-power link operation, and (2) detect initiation of the reduced-power link operating state and, during the reduced-power link operating state, to periodically send Idle messages to the receiver via the electro-optical link to maintain a normal amplitude of the optical signal on the electro-optical link causing the receiver to maintain normal-power operation during the reduced-power link operating state.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. A communications link according to claim 1, wherein the reduced-power link operating state is accompanied by an entry message and an exit message to be sent from the transmitter to the receiver to cause the receiver to enter and exit a power-save mode respectively, and wherein the circuit detects the entry message from the transmitter, the circuit refraining from sending the entry message to the receiver to prevent the receiver from entering the power-save mode.
  - 3. A communications link according to claim 2, wherein the circuit sends a substantially normal amplitude signal to the receiver after detecting the entry message.
  - 4. A communications link according to claim 3, wherein the substantially normal amplitude signal is a logical idle message.
  - 5. A communications link according to claim 2, wherein the circuit monitors for the exit message from the transmitter and in response to detection of the exit message re-enters a normal operating state in which the circuit passes the output of the transmitter to the input of the electro-optical link and monitors for the entry message from the transmitter.
  - 6. A communications link according to claim 1, wherein the electro-optical link includes a transmit optical subassembly housing the E/O converter, and a receiver optical subassembly housing the O/E converter, the transmit optical subassembly being operative to generate the optical signal on the optical transmission medium having a level corresponding to a level of the electrical input signal, and the receiver optical subassembly including a variable-gain circuit having a gain-adjustment delay capable of causing transitory saturation resulting in the inaccurate reproduction of a transmitted message, the gain-adjustment delay being prevented by the maintaining of the normal amplitude of the optical signal on the electro-optical link during the reduced-power link operating state.
  - 7. A communications link according to claim 1, wherein the electrical output from the transmitter is a differential output having two signal lines driven to different voltage levels for a normal-amplitude electrical output signal and being driven to substantially equal voltage levels for the reduced-amplitude electrical output signal.

8. A computer system, comprising:
- a host controller;
  
  a peripheral device; and
  
  a communications link connecting the host controller as a transmitter to the peripheral device as a receiver, the communications link operating according to a communications protocol specifying a reduced-power link operating state in which the transmitter generates a reduced-amplitude electrical output signal at an electrical output and the receiver is to operate in a power-save mode, the communications link including;
  
  an electro-optical link having an E/O converter for generating an optical signal from an electrical input signal at an electrical input, an optical transmission medium for carrying the optical signal, and an O/E converter for generating an electrical output signal from the optical signal, the electrical output signal provided to the receiver; and
  
  a circuit coupling the electrical output of the transmitter to the electrical input of the electro-optical link, the circuit being configured to (1) forward the electrical output signal of the transmitter to the electrical input of the electro-optical link during normal-power link operation, and (2) detect initiation of the reduced-power link operating state and, during the reduced-power operating link state, to periodically send Idle messages to the receiver via the electro-optical link to maintain a normal amplitude of the optical signal on the electro-optical link causing the receiver to maintain normal-power operation during the reduced-power link operating state.
- View Dependent Claims (9, 10, 11, 12, 13, 14)
- - 9. A computer system according to claim 8, wherein the reduced-power link operating state is accompanied by an entry message and an exit message to be sent from the transmitter to the receiver to cause the receiver to enter and exit a power-save mode respectively, and wherein the circuit detects the entry message from the transmitter, the circuit refraining from sending the entry message to the receiver to prevent the receiver from entering the power-save mode.
  - 10. A computer system according to claim 9, wherein the circuit sends a substantially normal amplitude signal to the receiver after detecting the entry message.
  - 11. A computer system according to claim 10, wherein the substantially normal amplitude signal is a logical idle message.
  - 12. A computer system according to claim 9, wherein the circuit monitors for the exit message from the transmitter and in response to detection of the exit message re-enters a normal operating state in which the circuit passes the output of the transmitter to the input of the electro-optical link and monitors for the entry message from the transmitter.
  - 13. A computer system according to claim 8, wherein the electro-optical link includes a transmit optical subassembly housing the E/O converter, and a receiver optical subassembly housing the O/E converter, the transmit optical subassembly being operative to generate the optical signal on the optical transmission medium having a level corresponding to a level of the electrical input signal, and the receiver optical subassembly including a variable-gain circuit having a gain-adjustment delay capable of causing transitory saturation resulting in the inaccurate reproduction of a transmitted message, the gain-adjustment delay being prevented by the maintaining of the normal amplitude of the optical signal on the electro-optical link during the reduced-power link operating state.
  - 14. A computer system according to claim 8, wherein the electrical output from the transmitter is a differential output having two signal lines driven to different voltage levels for a normal-amplitude electrical output signal and being driven to substantially equal voltage levels for the reduced-amplitude electrical output signal.

15. A communications link for carrying data between a transmitter and a receiver according to a communications protocol specifying a reduced-power link operating state in which the transmitter generates a reduced-amplitude electrical output signal at an electrical output and the receiver is to operate in a power-save mode, the communications link comprising:
- an electro-optical link having an E/O converter for generating an optical signal from an electrical input signal at an electrical input, an optical transmission medium for carrying the optical signal, and an O/E converter for generating an electrical output signal from the optical signal, the electrical output signal provided to the receiver; and
  
  a circuit coupling the electrical output of the transmitter to the electrical input of the electro-optical link, the circuit being configured to (1) forward the electrical output signal of the transmitter to the electrical input of the electro-optical link during normal-power link operation, and (2) detect initiation of the reduced-power link operating state and to send messages to the receiver via the electro-optical link to maintain a normal amplitude of the optical signal on the electro-optical link,wherein the electro-optical link includes a transmit optical subassembly housing the E/O converter, and a receiver optical subassembly housing the O/E converter, the transmit optical subassembly being operative to generate the optical signal on the optical transmission medium having a level corresponding to a level of the electrical input signal, and the receiver optical subassembly including a variable-gain circuit having a gain-adjustment delay capable of causing transitory saturation resulting in the inaccurate reproduction of a transmitted message, the gain-adjustment delay being prevented by the maintaining of the normal amplitude of the optical signal on the electro-optical link during the reduced-power link operating state.
- View Dependent Claims (16)
- - 16. A communications link according to claim 15, wherein the reduced-power link operating state is accompanied by an entry message and an exit message to be sent from the transmitter to the receiver to cause the receiver to enter and exit a power-save mode respectively, and wherein the circuit detects the entry message from the transmitter, the circuit refraining from sending the entry message to the receiver to prevent the receiver from entering the power-save mode.

17. A computer system, comprising:
- a host controller;
  
  a peripheral device; and
  
  a communications link connecting the host controller as a transmitter to the peripheral device as a receiver, the communications link operating according to a communications protocol specifying a reduced-power link operating state in which the transmitter generates a reduced-amplitude electrical output signal at an electrical output and the receiver is to operate in a power-save mode, the communications link including;
  
  an electro-optical link having an E/O converter for generating an optical signal from an electrical input signal at an electrical input, an optical transmission medium for carrying the optical signal, and an O/E converter for generating an electrical output signal from the optical signal, the electrical output signal provided to the receiver; and
  
  a circuit coupling the electrical output of the transmitter to the electrical input of the electro-optical link, the circuit being configured to (1) forward the electrical output signal of the transmitter to the electrical input of the electro-optical link during normal-power link operation, and (2) detect initiation of the reduced-power link operating state and to send messages to the receiver via the electro-optical link to maintain a normal amplitude of the optical signal on the electro-optical link,wherein the electro-optical link includes a transmit optical subassembly housing the E/O converter, and a receiver optical subassembly housing the O/E converter, the transmit optical subassembly being operative to generate the optical signal on the optical transmission medium having a level corresponding to a level of the electrical input signal, and the receiver optical subassembly including a variable-gain circuit having a gain-adjustment delay capable of causing transitory saturation resulting in the inaccurate reproduction of a transmitted message, the gain-adjustment delay being prevented by the maintaining of the normal amplitude of the optical signal on the electro-optical link during the reduced-power link operating state.
- View Dependent Claims (18)
- - 18. A computer system according to claim 17, wherein the reduced-power link operating state is accompanied by an entry message and an exit message to be sent from the transmitter to the receiver to cause the receiver to enter and exit a power-save mode respectively, and wherein the circuit detects the entry message from the transmitter, the circuit refraining from sending the entry message to the receiver to prevent the receiver from entering the power-save mode.

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Current Assignee
Teradyne Incorporated
Original Assignee
Teradyne Incorporated
Inventors
Kasprzyk, Marlon Zbigniew
Primary Examiner(s)
Wolf, Darren E

Application Number

US12/894,804
Publication Number

US 20120082463A1
Time in Patent Office

1,412 Days
Field of Search
US Class Current

398/140
CPC Class Codes

H04B 10/40 Transceivers

Electro-optical communications link

First Claim

4 Assignments

0 Petitions

Accused Products

Abstract

14 Citations

18 Claims

Specification

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Electro-optical communications link

First Claim

4 Assignments

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0 Petitions

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Accused Products

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Abstract

14 Citations

18 Claims

Specification

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Use Cases

Quick Links

Others