Patent application number | Description | Published |
20090080364 | SUPPORTING A MULTICAST SESSION WITHIN A WIRELESS COMMUNICATIONS NETWORK - Methods of supporting a multicast session within a wireless communications network are provided. An access terminal adjusts a monitoring rate of a downlink control channel either (i) after transmitting a multicast registration message in a sector that is not supporting a given multicast session or (ii) after receiving an announce message announcing the given multicast session. An access network anticipates the monitoring rate adjustment, and sends a message advertising the given multicast session (e.g., a broadcast overhead message (BOM)) based on the adjusted monitoring rate. Further, the announce message sent by the access network can be sent on the downlink control channel, and can be sent based on expected paging cycles, or monitoring rates, of the downlink control channel at one or more access terminals within the network prior to the monitoring rate adjustment. | 03-26-2009 |
20090080365 | GENERATING MULTICAST FLOW IDENTIFIERS - Methods of generating multicast flow identifiers are provided. In an example, a multicast flow identifier (e.g., a broadcast multicast service (BCMCS) flow identifier (ID)) is generated, with the multicast flow identifier including a portion of a multicast Internet Protocol (IP) address and a portion of a port designation number, the multicast IP address and port designation number collectively designating a given multicast group. | 03-26-2009 |
20090080396 | SELECTIVE REVIEW OF BUNDLED MESSAGES FROM A WIRELESS COMMUNICATION DEVICE - A system, method, and computer device that allow a wireless communication device to selectively bundle messages in an access channel communication packet being sent to another computer device on the wireless communication network, such as a base station are disclosed. The bundled messages are typically sent in response to a request sent to the wireless communication device for response to a specific event, such as the setup of a group communication call. The receiving computer device determines if the access channel communication packet contains data indicating one or more bundled messages are therewithin such that resources only then will expended to review the bundled messages to check for the availability of the requested resources. | 03-26-2009 |
20110021202 | QUALITY OF SERVICE (QoS) RESOURCES WITHIN A WIRELESS COMMUNICATIONS SYSTEM - In an embodiment, an access terminal sends a request for a level of Quality of Service (QoS) resources to an access network, the QoS resource request associated with a call attempt by the access terminal. The access terminal proceeds with call set-up for the call attempt irrespective of whether the access network grants the QoS resource request. Alternatively, the access terminal waits for an extended period of time before the call attempt is permitted to fail. In a further example, in the event of call failure, the access terminal can refrain from informing a user thereof of the call failure. In another embodiment, the access network can respond to the QoS resource request with an allocation of a lower level QoS resources than requested if the requested QoS resources are not available. The access terminal can likewise be permitted to participate in the call with the lower level QoS resources. | 01-27-2011 |
20110182272 | APPLICATION-LAYER HANDOFF OF AN ACCESS TERMINAL FROM A FIRST SYSTEM OF AN ACCESS NETWORK TO A SECOND SYSTEM OF THE ACCESS NETWORK DURING A COMMUNICATION SESSION WITHIN A WIRELESS COMMUNICATIONS SYSTEM - Embodiments are directed to an application-layer handoff of an access terminal from a first system of an access network to a second system of the access network during a communication session within a wireless communications system. In an embodiment, the access terminal sets up a communication session on the first system. A multimedia client measures application-layer performance parameters for the communication session supported by the first system, and determines whether to handoff the communication session to a second system based at least in part on the application-layer performance parameters. If the multimedia client determines to handoff the communication session to the second system, the multimedia client initiates the handoff and the communication session is transitioned to the second system. | 07-28-2011 |
20120127973 | SYSTEM AND METHOD OF SENDING ACKNOWLEDGMENTS THROUGH CONTROL CHANNELS TO PREVENT UNNECESSARY RETRANSMISSION IN A LIMITED BANDWIDTH WIRELESS COMMUNICATION NETWORK - Techniques for increasing throughput during a file sharing operation including a mobile device are provided. Throughput can be increased by reducing the number of times packets are retransmitted due to ACK signals being delayed due to the lossy nature of over-the-air transmissions. | 05-24-2012 |
20140078898 | HANDING OFF BETWEEN NETWORKS WITH DIFFERENT RADIO ACCESS TECHNOLOGIES DURING A COMMUNICATION SESSION THAT IS ALLOCATED QUALITY OF SERVICE - In an embodiment, a UE performs an IRAT handoff from a source network with a first RAT to a target network with a second RAT, and obtains a channel from the target network. The UE reports a level of QoS on the channel to a server via the target network. The server issues instructions to the UE and/or the target network for modifying the level of QoS in response to the report based on if the level of QoS is insufficient to support a particular type of communication session. In another embodiment, in conjunction with an IRAT handoff, the source network sends a handoff preparation message to the target network to facilitate the target network to initiate setup of a set of channels with a non-IMS application-specific QoS configuration for the UE on the target network in conjunction with the handoff. | 03-20-2014 |
20140119267 | APPLICATION-LAYER HANDOFF OF AN ACCESS TERMINAL FROM A FIRST SYSTEM OF AN ACCESS NETWORK TO A SECOND SYSTEM OF THE ACCESS NETWORK DURING A COMMUNICATION SESSION WITHIN A WIRELESS COMMUNICATIONS SYSTEM - The disclosure uses a low-cost local wireless network to expand coverage of a multicast service. A user device determines whether a signal strength for a detected wireless multicast service is greater than a threshold, determines whether a low cost local wireless network is available, and communicates with an application server over the low cost local wireless network based on the signal strength being not greater than the threshold and the low cost local wireless network being available. A server receives a request from a user device to send multicast communications to the user device over the low cost local wireless network serving the user device, wherein the user device sends the request based on a signal strength of a detected wireless multicast network being less than a threshold and the low cost local wireless network being available, and communicates with the use device over the low cost local wireless network. | 05-01-2014 |
20140192698 | SELECTIVELY ADJUSTING A RATE OR DELIVERY FORMAT OF MEDIA BEING DELIVERED TO ONE OR MORE MULTICAST/BROADCAST SINGLE FREQUENCY NETWORKS FOR TRANSMISSION - In an embodiment, a first MBSFN area is configured to support a higher data rate than a lower data rate portion of a second MBSFN area, and an application server executes a common data rate mode by delivering a data stream for a group session to the first and second MBSFN areas via IP multicast at a common data rate that is regulated by quality feedback. In a further embodiment, the application server exits the common data rate mode and delivers the data stream to the first MBSFN area via IP multicast at an MBSFN-specific data rate that is higher than the common data rate, while delivering the data stream to the lower data rate portion of the second MBSFN area via IP unicast. In another further embodiment, the application server resumes the common data rate mode. | 07-10-2014 |
20140219083 | DYNAMIC QUALITY OF SERVICE (QOS) FOR SERVICES OVER CELLULAR - The disclosure is related to dynamically applying quality of service (QoS) to a call. An aspect determines a packet transmission state of a subscriber on the call, determines whether or not the QoS is allocated to the subscriber, and allocates the QoS to the subscriber based on the QoS not being allocated to the subscriber and the packet transmission state indicating that the subscriber is sending packets. | 08-07-2014 |
20140219167 | QUALITY OF SERVICE FOR WEB CLIENT BASED SESSIONS - The disclosure generally relates to network-initiated and client-initiated mechanisms to enable quality of service (QoS) for web-based client applications that may high efficiency, high performance, or otherwise guaranteed service levels. For example, to enable QoS for calls or other sessions associated a web-based application, one or more signaling messages may be exchanged between a server and a first user equipment (UE) to establish a call between the first UE and a second UE and to establish a peer connection between the server and at least the first UE. As such, QoS may be activated for at least the peer connection between the first UE and the server, wherein the server may route data associated with the web-based application between the first UE and the second UE over the established peer connection to implement the activated QoS. | 08-07-2014 |
20140221023 | SERVER-INITIATED PAGING CYCLES - In an embodiment, a server registers a client application installed on a user equipment (UE), and evaluates one or more paging cycle criteria for the registered client application. The server determines to establish a target paging cycle used for downlink paging of the UE by a network component (e.g., an access network component or a core network component) of a serving network based on the evaluation, and the server transmits, to the network component, a request for the network component to transition the given UE to the target paging cycle based on the determination. The network component receives the request and assigns the target paging cycle to the UE as requested. | 08-07-2014 |
20140369327 | PAGING ACCESS TERMINALS IN A WIRELESS COMMUNICATIONS SYSTEM - An embodiment is directed to an access network that configures set of paging indicator (PI) bits within a quick paging channel (QPCH) cycle to page a group of access terminals. An access terminal within the group receives the QPCH cycle, and evaluates the PI bits to determine whether a unicast page and/or group page is present. Another embodiment is directed to selecting less than all timeslots in one or more control channel cycles of a downlink control channel, and configuring a page message to convey the selected timeslots to an access terminal. The access terminal receives the configured page message and decodes information only within the selected timeslots. Another embodiment is directed to generating a transport-layer message for transmission to at least one access terminal, and configuring the transport-layer message by modifying an application-layer portion of the transport-layer message. An access terminal receives the message and extracts the application-layer portion. | 12-18-2014 |
20150195317 | EXCHANGING DATA ASSOCIATED WITH A COMMUNICATION SESSION WITHIN A COMMUNICATIONS SYSTEM - In an embodiment, objects are downloaded to an access terminal (AT) based on which window(s) are prominently displayed on the AT. In another embodiment, objects are downloaded to the AT based on a set of user-specified object download priorities. In another embodiment, a portion of a streaming data session to the AT is de-prioritized in response to a transition of a display of the AT from a first set of windows associated with the streaming data session to a second set of windows associated with a different session. For example, the de-prioritization can result in the portion (e.g., a video-portion of a audio and video conference) being omitted or reduced. In another embodiment, in response to the AT entering a limited environment, objects being downloaded to the AT can be dynamically altered to conform with the AT's limited environment. | 07-09-2015 |
20150195835 | EXCHANGING DATA ASSOCIATED WITH A COMMUNICATION SESSION WITHIN A COMMUNICATIONS SYSTEM - In an embodiment, a communications device exchanges, between first and second access terminals, higher priority data in association with a communication session of a first type and also lower priority data in association with a communication session of a second type. If the communications device determines a transition of the first access terminal to a lower data-rate environment, the communication device reduces a size of data packets exchanged between the first access terminal and an application server for the communication session of the second type. If the communications device determines an upcoming data packet is a low-data packet (e.g., a silence packet), the low-data packet is suppressed. If the communications device determines that the first access terminal has attempted transmission of a set of last or near-last data packets in the sequence, the communications device re-transmits the set of last or near-last data packets without waiting for ACKs. | 07-09-2015 |
Patent application number | Description | Published |
20100034177 | TWO-TIER RANDOM BACKOFF AND COMBINED RANDOM BACKOFF AND TRANSMIT POWER CONTROL IN WIRELESS NETWORKS - Systems and methods for two-tier backoff interval randomization are presented. An initial message transmission can have both a chip level and an access cycle duration level backoff applied to avoid potential collisions. Additionally, improved transmit power calculations and the random backoff can be combined to further improve the probability of a successful message reception and decoding. | 02-11-2010 |
20100080179 | METHODS OF ANNOUNCING A CALL AND TRANSMITTING APPLICATION DATA TO AN ACCESS TERMINAL IN A WIRELESS COMMUNICATIONS SYSTEM - Exemplary embodiments of the present invention are directed to systems and methods for announcing a call to an access terminal in a wireless communications system. Receiving, at an access network, a request to call a given access terminal and determining whether a cluster to which the given access terminal belongs is known at the access network by querying a location database. The location database includes a list of access terminals and clusters, which themselves include sectors of the wireless communications system. Thereafter, transmitting an announce message announcing the requested call to the given access terminal based on the determiniation of whether the cluster is known to the access network. | 04-01-2010 |
20140192697 | EVOLVED MULTIMEDIA BROADCAST/MULTICAST SERVICES (eMBMS) CLUSTER MANAGEMENT - In an embodiment, a server determines a first support state for the group communication session that defines a first set of sectors belonging to a multicast/broadcast single frequency network (MBSFN) area for transmission of the session media for the group communication session via Internet Protocol (IP) multicast. The server then transitions the group communication session from the first support state to a second support state that defines a second set of sectors belonging to the MBSFN area for transmission of the session media for the group communication session via IP multicast. Before the transition, the server delivers the session media to the first set of sectors via IP multicast in accordance with the first support state. After the transition, the server delivers the session media to the second set of sectors via IP multicast in accordance with the second support state. | 07-10-2014 |
20150087310 | MANAGING PAGES OF AN ACCESS TERMINAL WHEN THE ACCESS TERMINAL IS ENGAGED IN A COMMUNICATION SESSION WITHIN A WIRELESS COMMUNICATIONS SYSTEM - At least one embodiment of the invention is directed to communicating in a wireless communications system, including monitoring a communication session on a first network, ignoring pages from a second network during the communication session, the first and second network configured for operation on different physical layers, and upon termination of the communication session over the first network, selectively sending a query to an application server to request information related to failed attempts by the application server to contact the access terminal on the second network during the communication session. | 03-26-2015 |
20150131619 | Differentiated VoLTE Based on Dual Radio and DRVCC - Various embodiments provide methods and apparatus for network-controlled DRVCC. In an embodiment method, a wireless user equipment may include requesting handover of a voice over Internet protocol (VoIP) call from a first network to a second network, activating a second radio, continuing the voice call on the circuit switched (CS) domain of the second network, and communicating data for applications other than the voice call via the first network. An embodiment method may include determining whether the first network supports voice-over-LTE (VoLTE) calls, and deactivating a radio in response to determining that the first network supports VoLTE calls. An embodiment method may include determining whether a quality of the VoIP call satisfies a quality threshold, deactivating the radio continued to the second network when the quality of the VoIP call satisfies the quality threshold, and activating the second radio when the VoIP call quality does not satisfy the quality threshold. | 05-14-2015 |
20150245266 | APPARATUS AND METHOD TO EXPEDITE AN INTER RADIO ACCESS TECHNOLOGY RESELECTION - Various aspects directed towards expediting an inter-RAT (radio access technology) reselection are disclosed. A user equipment (UE) operates according to a first RAT and utilizes an evolved multimedia broadcast multicast service (eMBMS) via the first RAT. A second RAT, which is unable to support eMBMS, is selected such that operation of the UE transitions from the first RAT to the second RAT. A reselection of the first RAT is then expedited by modifying at least one of a dormancy timer value initialization, a reselection timer value initialization, or a frequency priority. | 08-27-2015 |
20150245271 | FAST ACQUISITION OF SYSTEMS USING A PRIORITIZATION AND A COMBINATION OF RECENTLY FOUND SYSTEMS AND RECENTLY USED SYSTEMS - Methods, systems, and devices for improved acquisition of wireless communication systems or networks are described. A wireless communication device may be connected to a first network that uses a first radio access technology (RAT). When a failure occurs (e.g., lost connection), the device may attempt to acquire a cell or channel of another network that uses a second RAT. The time consumed for acquiring the channel of the second RAT may be reduced by providing a suitably prioritized list of channels. In some examples, the device may identify a channel for initial access or following a call failure based on prior successful access on that channel, or based on information provided by a server, or both. | 08-27-2015 |
20150282044 | METHODS AND APPARATUS FOR COORDINATING SYSTEM SELECTION AMONG A SET OF NODES - Methods, computer-readable medium, and apparatus are described for coordinating system selection among a set of nodes. The described aspects include determining that a node is part of a subset of nodes, wherein each node in the subset of nodes performs one or more system scans for a set of nodes that includes the subset of nodes, performing the one or more system scans by the node on one or more Radio Access Technologies (RATs) in response to determining that the node is part of the subset of nodes, obtaining one or more system scan results from the one or more system scans on the one or more RATs, and transmitting the one or more system scan results to the set of nodes. | 10-01-2015 |
20150312843 | PROVIDING GROUP CALL PRIORITY ACCESS IN LTE AND PRIORITY ACCESS FOR USER EQUIPMENTS WITH DUAL ACCESS CLASSES - The disclosure relates to determining priority access with dual access barring classes. An aspect receives, at a client device, at least one high priority access barring class and at least one low priority access barring class, switches to the low priority access barring class, receives an access barring message, and switches to the high priority access barring class in response to receiving the access barring message. An aspect receives a call request for a high priority call among a group of client devices, transmits a notification to a network instructing it to transmit an access barring message in response to receiving the call request, wherein one or more members of the group of client devices switch to a high priority access class in response to receiving the access barring message, and suppresses call announcements for non-priority call requests after transmitting the notification. | 10-29-2015 |
Patent application number | Description | Published |
20090162996 | REMOVAL OF SURFACE DOPANTS FROM A SUBSTRATE - A method and apparatus for removing excess dopant from a doped substrate is provided. In one embodiment, a substrate is doped by surfaced deposition of dopant followed by formation of a capping layer and thermal diffusion drive-in. A reactive etchant mixture is provided to the process chamber, with optional plasma, to etch away the capping layer and form volatile compounds by reacting with excess dopant. In another embodiment, a substrate is doped by energetic implantation of dopant. A reactive gas mixture is provided to the process chamber, with optional plasma, to remove excess dopant adsorbed on the surface and high-concentration dopant near the surface by reacting with the dopant to form volatile compounds. The reactive gas mixture may be provided during thermal treatment, or it may be provided before or after at temperatures different from the thermal treatment temperature. The volatile compounds are removed. Substrates so treated do not form toxic compounds when stored or transported outside process equipment. | 06-25-2009 |
20090215250 | Plasma immersion ion implantation process with reduced polysilicon gate loss and reduced particle deposition - In plasma immersion ion implantation of a polysilicon gate, a hydride of the dopant is employed as a process gas to avoid etching the polysilicon gate, and sufficient argon gas is added to reduce added particle count to below 50 and to reduce plasma impedance fluctuations to 5% or less. | 08-27-2009 |
20090215251 | PLASMA IMMERSION ION IMPLANTATION PROCESS WITH CHAMBER SEASONING AND SEASONING LAYER PLASMA DISCHARGING FOR WAFER DECHUCKING - In a plasma immersion ion implantation process, the thickness of a pre-implant chamber seasoning layer is increased (to permit implantation of a succession of wafers without replacing the seasoning layer) without loss of wafer clamping electrostatic force due to increased seasoning layer thickness. This is accomplished by first plasma-discharging residual electrostatic charge from the thick seasoning layer. The number of wafers which can be processed using the same seasoning layer is further increased by fractionally supplementing the seasoning layer after each wafer is processed, which may be followed by a brief plasma discharging of the supplemented seasoning before processing the next wafer. | 08-27-2009 |
20090280628 | PLASMA IMMERSION ION IMPLANTATION PROCESS WITH CHAMBER SEASONING AND SEASONING LAYER PLASMA DISCHARGING FOR WAFER DECHUCKING - In a plasma immersion ion implantation process, the thickness of a pre-implant chamber seasoning layer is increased (to permit implantation of a succession of wafers without replacing the seasoning layer) without loss of wafer clamping electrostatic force due to increased seasoning layer thickness. This is accomplished by first plasma-discharging residual electrostatic charge from the thick seasoning layer. The number of wafers which can be processed using the same seasoning layer is further increased by fractionally supplementing the seasoning layer after each wafer is processed, which may be followed by a brief plasma discharging of the supplemented seasoning before processing the next wafer. | 11-12-2009 |
20100173484 | SAFE HANDLING OF LOW ENERGY, HIGH DOSE ARSENIC, PHOSPHORUS, AND BORON IMPLANTED WAFERS - A method of preventing toxic gas formation after an implantation process is disclosed. Certain dopants, when implanted into films disposed on a substrate, may react when exposed to moisture to form a toxic gas and/or a flammable gas. By in-situ exposing the doped film to an oxygen containing compound, dopant that is shallowly implanted into the layer stack reacts to form a dopant oxide, thereby reducing potential toxic gas and/or flammable gas formation. Alternatively, a capping layer may be formed in-situ over the implanted film to reduce the potential generation of toxic gas and/or flammable gas. | 07-08-2010 |
20100190324 | REDUCING PHOTORESIST LAYER DEGRADATION IN PLASMA IMMERSION ION IMPLANTATION - A method of plasma immersion ion implantation of a workpiece having a photoresist mask on its top surface prevents photoresist failure from carbonization of the photoresist. The method includes performing successive ion implantation sub-steps, each of the ion implantation sub-steps having a time duration over which only a fractional top portion of the photoresist layer is damaged by ion implantation. After each one of the successive ion implantation sub-steps, the fractional top portion of the photoresist is removed while leaving the remaining portion of the photoresist layer in place by performing an ashing sub-step. The number of the successive ion implantation sub-steps is sufficient to reach a predetermined ion implantation dose in the workpiece. | 07-29-2010 |
20110256691 | REMOVAL OF SURFACE DOPANTS FROM A SUBSTRATE - A method and apparatus for removing excess dopant from a doped substrate is provided. In one embodiment, a substrate is doped by surfaced deposition of dopant followed by formation of a capping layer and thermal diffusion drive-in. A reactive etchant mixture is provided to the process chamber, with optional plasma, to etch away the capping layer and form volatile compounds by reacting with excess dopant. In another embodiment, a substrate is doped by energetic implantation of dopant. A reactive gas mixture is provided to the process chamber, with optional plasma, to remove excess dopant adsorbed on the surface and high-concentration dopant near the surface by reacting with the dopant to form volatile compounds. The reactive gas mixture may be provided during thermal treatment, or it may be provided before or after at temperatures different from the thermal treatment temperature. The volatile compounds are removed. Substrates so treated do not form toxic compounds when stored or transported outside process equipment. | 10-20-2011 |
Patent application number | Description | Published |
20120088356 | INTEGRATED PLATFORM FOR IN-SITU DOPING AND ACTIVATION OF SUBSTRATES - An integrated platform for processing substrates, comprising: a vacuum substrate transfer chamber; a doping chamber coupled to the vacuum substrate transfer chamber, the doping chamber configured to implant or deposit dopant elements in or on a surface of a substrate; a dopant activation chamber coupled to the vacuum substrate transfer chamber, the dopant activation chamber configured to anneal the substrate and activate the dopant elements; and a controller configured to control the integrated platform, the controller comprising a computer readable media having instructions stored thereon that, when executed by the controller, causes the integrated platform to perform a method, the method comprising: doping a substrate with one or more dopant elements in the doping chamber; transferring the substrate under vacuum to the dopant activation chamber; and annealing the substrate in the dopant activation chamber to activate the dopant elements. | 04-12-2012 |
20120238074 | METHODS AND APPARATUS FOR CONFORMAL DOPING - Methods and apparatus for processing a substrate are provided herein. In some embodiments, a method of doping a substrate may include forming a dopant region on a substrate by implanting one or more dopant elements into the dopant region of the substrate using a plasma doping process; forming a cap layer atop the dopant region; annealing the dopant region after forming the cap layer; and removing the cap layer after annealing the dopant region. | 09-20-2012 |
20120289036 | SURFACE DOSE RETENTION OF DOPANTS BY PRE-AMORPHIZATION AND POST IMPLANT PASSIVATION TREATMENTS - The invention generally relates to pre-implant and post-implant treatments to promote the retention of dopants near the surface of an implanted substrate. The pre-implant treatments include forming a plasma from an inert gas and implanting the inert gas into the substrate to render an upper portion of the substrate amorphous. The post-implant treatment includes forming a passivation layer on the upper surface of the substrate after doping the substrate in order to retain the dopant during a subsequent activation anneal. | 11-15-2012 |
20120302048 | PRE OR POST-IMPLANT PLASMA TREATMENT FOR PLASMA IMMERSED ION IMPLANTATION PROCESS - Methods for implanting ions into a substrate by a plasma immersion ion implanting process are provided. In one embodiment, the method for implanting ions into a substrate by a plasma immersion ion implantation process includes providing a substrate into a processing chamber, flowing a gas mixture including a hydride dopant gas and a fluorine-containing dopant gas into the processing chamber, wherein the hydride dopant gas comprises P-type hydride dopant gas, N-type hydride dopant gas, or a combination thereof, and the fluorine-containing dopant gas comprises a P-type or N-type dopant atom, generating a plasma from the gas mixture, and co-implanting ions from the gas mixture into a surface of the substrate. | 11-29-2012 |
20140248759 | SAFE HANDLING OF LOW ENERGY, HIGH DOSE ARSENIC, PHOSPHORUS, AND BORON IMPLANTED WAFERS - A method of preventing toxic gas formation after an implantation process is disclosed. Certain dopants, when implanted into films disposed on a substrate, may react when exposed to moisture to form a toxic gas and/or a flammable gas. By in-situ exposing the doped film to an oxygen containing compound, dopant that is shallowly implanted into the layer stack reacts to form a dopant oxide, thereby reducing potential toxic gas and/or flammable gas formation. Alternatively, a capping layer may be formed in-situ over the implanted film to reduce the potential generation of toxic gas and/or flammable gas. | 09-04-2014 |
Patent application number | Description | Published |
20100049880 | Circuits and Methods for Reliable Automatic USB Speed Detection - The Universal Serial Bus (“USB”) 2.0 Specification defines three speeds of communication for its bus, and each has its own signaling characteristics. Due to the uniqueness of each speed, PHYs must be placed in a separate mode for each signaling rate. Although USB devices may know its communication speed, a general purpose USB analyzer must be able to analyze all USB communications. Rather than force the user to manually set the operating mode of the analyzer, this invention describes circuits for automatically and reliably determining the monitored USB communication speed. | 02-25-2010 |
20120246348 | METHODS FOR ANALYZING USB DATA TRAFFIC USING A SINGLE USB HOST CONTROLLER - A method is described for capturing USB data traffic for a monitored device by a USB analyzer using a single USB host controller. It comprises the steps of: generating and storing an address and communication speed associated with the USB analyzer; reading a USB packet; discarding selected read packets based on the stored analyzer address and communication speed; and transmitting the remaining packets to an analysis computer. | 09-27-2012 |
20130111076 | REAL-TIME USB CLASS LEVEL DECODING | 05-02-2013 |
20150229547 | REAL-TIME HIERARCHICAL PROTOCOL DECODING - Real-time USB class level decoding is disclosed. In some embodiments, a first packet associated with a USB class level operation associated with a target USB device that is being monitored is received. A second packet generated by a USB hardware analyzer configured to observe USB traffic associated with the target USB device is received. It is determined based at least in part on a time associated with one or both of the first packet and the second packet that the class level operation has timed out. | 08-13-2015 |
20150263930 | METHODS FOR EMBEDDING AN OUT-OF-BAND SIGNAL INTO A USB CAPTURE STREAM - One or more out-of-band input signals (GPIO) are handled and efficiently embedded into a USB capture stream. In order to conserve resources, the state of the input signals can be sent only when a change occurs. The signals are accurately time-stamped, and then presented within the context of the captured USB data. In order to provide maximum visibility, if the digital inputs occur during a normally filtered multi-packet sequence, the filter is canceled and the surrounding packets will also be sent to an analysis computer. Furthermore, because digital inputs may happen during a USB packet, the digital inputs are queued in a FIFO buffer until there is an opportunity to send the digital inputs. Even though the state of the inputs may be sent at a later time, the state of the inputs may be time-stamped when the state of the inputs is perceived by the analyzer. | 09-17-2015 |
Patent application number | Description | Published |
20090080268 | Integrated Circuit with Separate Supply Voltage for Memory That is Different from Logic Circuit Supply Voltage - In one embodiment, an integrated circuit comprises at least one logic circuit supplied by a first supply voltage and at least one memory circuit coupled to the logic circuit and supplied by a second supply voltage. The memory circuit is configured to be read and written responsive to the logic circuit even if the first supply voltage is less than the second supply voltage during use. In another embodiment, a method comprises a logic circuit reading a memory cell, the logic circuit supplied by a first supply voltage; and the memory cell responding to the read using signals that are referenced to the first supply voltage, wherein the memory cell is supplied with a second supply voltage that is greater than the first supply voltage during use. | 03-26-2009 |
20100214815 | MULTIPLE THRESHOLD VOLTAGE REGISTER FILE CELL - In one embodiment, a memory circuit comprises a pair of cross-coupled inverters configured to store a bit of data and a first transistor coupled to a first node of the pair of cross-coupled inverters. A plurality of transistors that form the pair of inverters have a first nominal threshold voltage. The first transistor is coupled to a first bit line, and has a second nominal threshold voltage that is lower than the first nominal threshold voltage. More specifically, in one embodiment, the first transistor is a write transistor and another write transistor having the second nominal threshold voltage is coupled to the other node of the pair of cross-coupled inverters. In an embodiment, a register file comprises a bit storage section comprising at least one pair of cross-coupled inverters, wherein transistors forming the inverters have a first nominal threshold voltage; a write transistor section comprising a first plurality of transistors; and a read transistor section comprising a second plurality of transistors. The first transistors and the second transistors have a second nominal threshold voltage that is lower than the first nominal threshold voltage. The write transistor section is physically located on a first side of the bit storage section, and the read transistor section is physically located on a second side of the bit storage section opposite the first side. | 08-26-2010 |
20100238745 | Integrated Circuit with Separate Supply Voltage for Memory That is Different from Logic Circuit Supply Voltage - In one embodiment, an integrated circuit comprises at least one logic circuit supplied by a first supply voltage and at least one memory circuit coupled to the logic circuit and supplied by a second supply voltage. The memory circuit is configured to be read and written responsive to the logic circuit even if the first supply voltage is less than the second supply voltage during use. In another embodiment, a method comprises a logic circuit reading a memory cell, the logic circuit supplied by a first supply voltage; and the memory cell responding to the read using signals that are referenced to the first supply voltage, wherein the memory cell is supplied with a second supply voltage that is greater than the first supply voltage during use. | 09-23-2010 |
20110235442 | Integrated Circuit with Separate Supply Voltage for Memory That is Different from Logic Circuit Supply Voltage - In one embodiment, an integrated circuit includes at least one logic circuit supplied by a first supply voltage and at least one memory circuit coupled to the logic circuit and supplied by a second supply voltage. The memory circuit is configured to be read and written responsive to the logic circuit even if the first supply voltage is less than the second supply voltage during use. In another embodiment, a method includes a logic circuit reading a memory cell, the logic circuit supplied by a first supply voltage; and the memory cell responding to the read using signals that are referenced to the first supply voltage, wherein the memory cell is supplied with a second supply voltage that is greater than the first supply voltage during use. | 09-29-2011 |
20130016575 | Integrated Circuit with Separate Supply Voltage for Memory That is Different from Logic Circuit Supply Voltage - In one embodiment, an integrated circuit includes at least one logic circuit supplied by a first supply voltage and at least one memory circuit coupled to the logic circuit and supplied by a second supply voltage. The memory circuit is configured to be read and written responsive to the logic circuit even if the first supply voltage is less than the second supply voltage during use. In another embodiment, a method includes a logic circuit reading a memory cell, the logic circuit supplied by a first supply voltage; and the memory cell responding to the read using signals that are referenced to the first supply voltage, wherein the memory cell is supplied with a second supply voltage that is greater than the first supply voltage during use. | 01-17-2013 |
20130182493 | Integrated Circuit With Separate Supply Voltage For Memory That Is Different From Logic Circuit Supply Voltage - In one embodiment, an integrated circuit includes at least one logic circuit supplied by a first supply voltage and at least one memory circuit coupled to the logic circuit and supplied by a second supply voltage. The memory circuit is configured to be read and written responsive to the logic circuit even if the first supply voltage is less than the second supply voltage during use. In another embodiment, a method includes a logic circuit reading a memory cell, the logic circuit supplied by a first supply voltage; and the memory cell responding to the read using signals that are referenced to the first supply voltage, wherein the memory cell is supplied with a second supply voltage that is greater than the first supply voltage during use. | 07-18-2013 |
20140092676 | Integrated Circuit With Separate Supply Voltage For Memory That Is Different From Logic Circuit Supply Voltage - In one embodiment, an integrated circuit includes at least one logic circuit supplied by a first supply voltage and at least one memory circuit coupled to the logic circuit and supplied by a second supply voltage. The memory circuit is configured to be read and written responsive to the logic circuit even if the first supply voltage is less than the second supply voltage during use. In another embodiment, a method includes a logic circuit reading a memory cell, the logic circuit supplied by a first supply voltage; and the memory cell responding to the read using signals that are referenced to the first supply voltage, wherein the memory cell is supplied with a second supply voltage that is greater than the first supply voltage during use. | 04-03-2014 |
20140362639 | Integrated Circuit With Separate Supply Voltage For Memory That Is Different From Logic Circuit Supply Voltage - In one embodiment, an integrated circuit includes at least one logic circuit supplied by a first supply voltage and at least one memory circuit coupled to the logic circuit and supplied by a second supply voltage. The memory circuit is configured to be read and written responsive to the logic circuit even if the first supply voltage is less than the second supply voltage during use. In another embodiment, a method includes a logic circuit reading a memory cell, the logic circuit supplied by a first supply voltage; and the memory cell responding to the read using signals that are referenced to the first supply voltage, wherein the memory cell is supplied with a second supply voltage that is greater than the first supply voltage during use. | 12-11-2014 |
20150332754 | Integrated Circuit With Separate Supply Voltage For Memory That Is Different From Logic Circuit Supply Voltage - In one embodiment, an integrated circuit includes at least one logic circuit supplied by a first supply voltage and at least one memory circuit coupled to the logic circuit and supplied by a second supply voltage. The memory circuit is configured to be read and written responsive to the logic circuit even if the first supply voltage is less than the second supply voltage during use. In another embodiment, a method includes a logic circuit reading a memory cell, the logic circuit supplied by a first supply voltage; and the memory cell responding to the read using signals that are referenced to the first supply voltage, wherein the memory cell is supplied with a second supply voltage that is greater than the first supply voltage during use. | 11-19-2015 |