| Patent application number | Description | Published |
|---|
| 20090060530 | OPTICAL NETWORK INTERFACE DEVICES AND METHODS - A system comprises an optical network terminal (ONT) that provides an interface to a passive optical network (PON). The ONT is coupled to a subscriber gateway device via at least one cable. The ONT may be located outside a subscriber premises while the subscriber gateway device may be located within the subscriber premises. The ONT converts optical signals received from PON to electrical signals and transmits the electrical signals to the subscriber gateway device without performing any MAC layer functions. The subscriber gateway device includes an optical media access control (MAC) unit that converts the electrical signals into MAC layer signals and a gateway unit that distributes the MAC layer signals to one or more subscriber devices. In this manner the MAC and gateway layer functions are relocated from the ONT to the subscriber gateway device. | 03-05-2009 |
| 20090060531 | OPTICAL NETWORK INTERFACE DEVICES AND METHODS - A system comprises an optical network terminal (ONT) that terminates an optical fiber link of an optical network to provide an optical network interface. The ONT may include an optical module that receives optical signals via the optical fiber link and converts the optical signals to electrical signals and an optical media access control (MAC) unit that converts at least some of the electrical signals to data units. The optical MAC unit may be selectively configurable to support a plurality of optical network protocols. For example, the optical MAC unit is selectively configurable to support two or more of BPON protocol, a GPON protocol, a GEPON protocol and an active Ethernet protocol. In one instance, the optical MAC unit is selectively configurable to support at least one active optical network protocol and at least one passive optical network protocol. | 03-05-2009 |
| 20100104287 | RETURN PATH FOR USPSTREAM COMMUNICATIONS ORIGINATING FROM OPTICAL NODE - This disclosure describes techniques for providing a communication path for upstream communications originating from a node of an optical network. In particular, methods and devices are described for combining upstream communications originating from the node of the optical network with upstream communications originating from subscriber devices coupled to the node. The upstream communication originating from the node may, for example, include status information about the node. The upstream communication, which may include status information about the node, essentially piggy-backs onto upstream communication originating from the subscriber devices coupled to the node. | 04-29-2010 |
| 20100183298 | PASSIVE OPTICAL NETWORK PROTECTION SWITCHING - This disclosure relates to detection of optical fiber failure and implementation of protection switching in a passive optical network (PON). A protection switch determines whether there is an optical fiber failure in a fiber link between an OLT and a group of ONTs. In the case of an optical fiber failure, an optical fiber may be physically cut or damaged, causing the optical fiber link to be disabled. A protection switch may detect an optical fiber failure by determining a peak optical power of at least a portion of an upstream optical signal transmitted from one or more ONTs via the optical fiber link. If the peak optical power is less than a threshold value, the protection switch may detect a fiber failure. In response to a detected fiber failure, the protection switch may switch upstream and downstream PON transmissions from a primary optical fiber to a secondary optical fiber. | 07-22-2010 |
| 20100239251 | ONT-BASED MICRONODE MANAGEMENT - This disclosure describes ONT-based management of micronodes in an RFOG network. A micronode is configured to permit remote management via an ONT in an optical network. An optical networking protocol, such as a PON protocol, may be used to exchange information with an ONT for management of the micronode. Management may include configuration and monitoring of the micronode. The micronode may have a management interface that supports remote configuration and monitoring via an ONT coupled to the management interface. An operator may use the ONT as a management terminal for the micronode. The ONT may permit an operator to effectively manage micronodes, and also may offer a ready upgrade path to provide optical networking services such as PON services to a subscriber when the operator is ready to upgrade its CO equipment and CPE. | 09-23-2010 |
| 20110033189 | RETURN PATH COMPLIANCE IN NETWORKS - This disclosure is directed to techniques for facilitating return path compliance in networks. A device, such as an optical network terminal (ONT), may, for example, buffer a digital representation of an upstream analog signal to facilitate return path compliance specified by a Data Over Cable Service Interface Specification (DOCSIS) 3.0 standard. The ONT may comprise a first conversion module that converts an upstream analog signal into a corresponding digital signal and a signal detection module that determines whether the upstream analog signal represents a valid upstream communication. The device may further comprise a buffer that buffers the corresponding digital signal while the signal detection module makes the determination, a second conversion module that converts the buffered digital signal into a reconverted upstream analog signal upon the determination that the upstream analog signal is valid and a laser that transmits the reconverted upstream analog signal via a fiber optical cable. | 02-10-2011 |
| 20110069956 | OPTICAL NETWORK DEVICE WITH MULTI-TRANSPORT SUPPORT - In general, this disclosure relates to optical network devices with support for multiple physical layer transport standards. An optical network device may include an optical receiver that can be adaptively configured to support different physical layer transport standards. For example, the optical receiver may include a photodiode and a control unit to adjust a characteristic of the photodiode to support different optical physical layer transport standards on an adaptive basis. For example, the control unit may adjust the photodiode characteristic to prevent an overload condition when an optical signal is received according to the physical layer access standard. | 03-24-2011 |
