Patent application number | Description | Published |
20120073650 | METHOD OF FABRICATING AN EMITTER REGION OF A SOLAR CELL - Methods of fabricating emitter regions of solar cells are described. Methods of forming layers on substrates of solar cells, and the resulting solar cells, are also described. | 03-29-2012 |
20140273331 | METHODS FOR WET CHEMISTRY POLISHING FOR IMPROVED LOW VISCOSITY PRINTING IN SOLAR CELL FABRICATION - A method of fabricating a solar cell is disclosed. The method includes forming a polished surface on a silicon substrate and forming a first flowable matrix in an interdigitated pattern on the polished surface, where the polished surface allows the first flowable matrix to form an interdigitated pattern comprising features of uniform thickness and width. In an embodiment, the method includes forming the silicon substrate using a method such as, but not limited to, of diamond wire or slurry wafering processes. In another embodiment, the method includes forming the polished surface on the silicon substrate using a chemical etchant such as, but not limited to, sulfuric acid (H | 09-18-2014 |
20150280018 | PASSIVATION OF LIGHT-RECEIVING SURFACES OF SOLAR CELLS - Methods of passivating light-receiving surfaces of solar cells, and the resulting solar cells, are described. In an example, a solar cell includes a silicon substrate having a light-receiving surface. An intrinsic silicon layer is disposed above the light-receiving surface of the silicon substrate. An N-type silicon layer is disposed on the intrinsic silicon layer. A non-conductive anti-reflective coating (ARC) layer is disposed on the N-type silicon layer. In another example, a solar cell includes a silicon substrate having a light-receiving surface. A tunneling dielectric layer is disposed on the light-receiving surface of the silicon substrate. An N-type silicon layer is disposed on the tunneling dielectric layer. A non-conductive anti-reflective coating (ARC) layer is disposed on the N-type silicon layer. | 10-01-2015 |
20150364625 | METHODS FOR WET CHEMISTRY POLISHING FOR IMPROVED LOW VISCOSITY PRINTING IN SOLAR CELL FABRICATION - A method of fabricating a solar cell is disclosed. The method includes forming a polished surface on a silicon substrate and forming a first flowable matrix in an interdigitated pattern on the polished surface, where the polished surface allows the first flowable matrix to form an interdigitated pattern comprising features of uniform thickness and width. In an embodiment, the method includes forming the silicon substrate using a method such as, but not limited to, of diamond wire or slurry wafering processes. In another embodiment, the method includes forming the polished surface on the silicon substrate using a chemical etchant such as, but not limited to, sulfuric acid (H | 12-17-2015 |
Patent application number | Description | Published |
20100207588 | Detecting and Responding to Unexpected Electric Vehicle Charging Disconnections - An electrical vehicle charging station establishes a charging session with an electric vehicle which includes energizing a power receptacle in the charging station and receiving a charging cord at the power receptacle. While the charging session is established and responsive to detecting that a charging connection between the electric vehicle and the electric vehicle charging station has been unexpectedly disconnected, the power receptacle is de-energized to prevent electricity from flowing through the charging cord. | 08-19-2010 |
20100211340 | SYSTEM AND METHOD FOR MANAGING ELECTRIC VEHICLES - A system and method for managing a plurality of electric vehicles with a fleet management portal is described herein. In one embodiment, a machine implemented method for managing one or more fleets of electric vehicles includes monitoring one or more fleets of electric vehicles using a fleet management portal associated with a server. Next, the method includes monitoring a plurality of charge transfer devices using the fleet management portal. Next, the method includes receiving charging information from the charge transfer devices. Next, the method includes determining a charging status for each electric vehicle based on the charging information. Next, the method includes generating one or more reports having the charging status for each electric vehicle. | 08-19-2010 |
20100211643 | Transmitting Notification Messages for an Electric Vehicle Charging Network - An electric vehicle charging station network server which manages a plurality of charging stations receives subscriber notification message preferences for a subscriber (e.g., electric vehicle operator) which indicate one or more events of interest that the subscriber wishes to receive notification messages for. A set of one or more contact points associated with the subscriber is also received. The server authorizes the subscriber to use one of the plurality of charging stations. The server receives data associated with the subscriber from that one of the charging stations which indicates that a charging session has been established for an electric vehicle associated with the subscriber. The server detects an event of interest for the subscriber and transmits a notification message for that event to at least one of the set of contact points associated with the subscriber. | 08-19-2010 |
20100315197 | AUTHORIZATION IN A NETWORKED ELECTRIC VEHICLE CHARGING SYSTEM - Networked electric vehicle charging stations for charging electric vehicles are coupled with an electric vehicle charging station network server that performs authorization for charging session requests while the communication connection between the charging stations and the server are operating correctly. When the communication connection is not operating correctly, the networked electric vehicle charging stations enter into a local authorization mode to perform a local authorization process for incoming charging session requests. | 12-16-2010 |
20110153474 | ELECTRIC VEHICLE CHARGING AND ACCOUNTING - Electric vehicle charging stations include a time of use meter that can be programmed with different time periods so that different tariffs can be applied to energy readings of those different time periods. The time periods may be specific to electric vehicle operators. The tariffs may also be specific to electric vehicle operators and apply to charging stations that are supplied with electricity from different electric utilities. | 06-23-2011 |
20110191265 | ELECTRIC VEHICLE CHARGING STATION HOST DEFINABLE PRICING - An electric vehicle charging station network includes multiple electric vehicle charging stations belonging to multiple charging station hosts. Each host controls one or more charging stations. A charging station network server provides an interface that allows each of the hosts to define one or more pricing specifications for charging electric vehicles on one or more of their electric vehicle charging stations belonging to that host. The pricing specifications are applied to the charging stations such that a cost of charging electric vehicles using those charging stations is calculated according to the pricing specifications. | 08-04-2011 |
20110208953 | EVENT TIME MANAGEMENT IN AN ELECTRIC VEHICLE CHARGING STATION WITHOUT A BATTERY-BACKED REAL TIME CLOCK - An electric vehicle charging station, which does not include a battery-backed Real Time Clock, is in a charging station network managed by a charging station network server. Upon booting, the charging station requests actual real time from a remote source. While the charging station has not received the actual real time, it records the time of charging station specific events in a local system time format that resets when the charging station loses power. The charging station maintains the events recorded in their local system time until actual time is received. When actual real time is received, the charging station synchronizes its local system clock with the actual real time and converts the time of each event into real time format. When actual time is received, the charging station converts the time of each event into real time format. After the time of the events are converted to real time format, they are communicated to the charging station network server for further processing. After synchronizing its local clock with actual real time, the charging station records the time of any subsequent events in actual real time. | 08-25-2011 |
20120173292 | RESERVABLE ELECTRIC VEHICLE CHARGING GROUPS - An electric vehicle charging network server establishes electric vehicle charging reservation groups. The electric vehicle charging network server is coupled with multiple electric vehicle charging stations that each include one or more charging ports and are owned by a charging station host. The server receives input from the charging station host to configure an electric vehicle charging reservation group. The server configures the electric vehicle charging reservation group according to the received input. The configured electric vehicle charging reservation group includes multiple charging ports and allows a limited number of electric vehicle charging group reservations that are each applicable to all of the charging ports that are part of the configured electric vehicle charging reservation group. | 07-05-2012 |
20130046660 | Taxable Fringe Benefit Accounting for Electric Vehicle Charging Service - A charging station network server receives a message that indicates a set of parameters of an electric vehicle charging session. The set of parameters provides an indication of an electric vehicle operator associated with the charging session. The server determines that at least a portion of a cost of the electric vehicle charging session is to be paid by an employer of the electric vehicle operator. The server determines a fair market value of the electric vehicle charging session reduced by any amount that is not paid by the employer. The server stores, in association with a profile of the electric vehicle operator, the determined fair market value of the electric vehicle charging session reduced by any amount that is not paid by the employer. | 02-21-2013 |
20130090936 | Configurable Visibility of Electric Vehicle Charging Stations - In one embodiment, an electric vehicle charging network server provides an interface for electric vehicle charging station owners to selectively configure whether their electric vehicle charging station(s) are displayable on a charging station locator application to a specific set of one or more electric vehicle operators. For example, the interface may allow an electric vehicle charging station owner to specify that one or more of its charging stations are capable of being displayed on a charging station locator application to only a group of one or more electric vehicle operators (those charging station(s) will not be displayed on a charging station locator application used by other electric vehicle operators). | 04-11-2013 |
20130141044 | AUTHORIZATION IN A NETWORKED ELECTRIC VEHICLE CHARGING SYSTEM - Networked electric vehicle charging stations for charging electric vehicles are coupled with an electric vehicle charging station network server that performs authorization for charging session requests while the communication connection between the charging stations and the server are operating correctly. When the communication connection is not operating correctly, the networked electric vehicle charging stations enter into a local authorization mode to perform a local authorization process for incoming charging session requests. | 06-06-2013 |
20130311249 | CONNECTING ELECTRIC VEHICLE OPERATORS AND ORGANIZATIONS - An organization extends an affiliation offer to electric vehicle operators. The affiliation offer communicates a set of benefits for the electric vehicle operators provided by the organization, and also communicates a set of conditions for acceptance of the affiliation offer. An acceptance of the affiliation offer is received from an electric vehicle operator, where the acceptance includes an identifier associated with that electric vehicle operator. Responsive to verifying that the electric vehicle operator is allowed to be affiliated with the organization, the electric vehicle operator is associated with the organization to provide the set of benefits. | 11-21-2013 |
20130311264 | CONNECTING ELECTRIC VEHICLE OPERATORS AND ORGANIZATIONS - An electric vehicle operator inputs a secret affiliation code. In response to determining that the secret affiliation code is valid and corresponds with an affiliation offer, an affiliation offer is extended to that electric vehicle operator. The affiliation offer communicates a set of benefits for the electric vehicle operator provided by an organization, and also communicates a set of conditions for acceptance of the affiliation offer. An acceptance of the affiliation offer is received from an electric vehicle operator, where the acceptance includes an identifier associated with that electric vehicle operator. Responsive to verifying that the electric vehicle operator is allowed to be affiliated with the organization, the electric vehicle operator is associated with the organization to provide the set of benefits. | 11-21-2013 |
20130311658 | FLEXIBLE ADMINISTRATIVE MODEL IN AN ELECTRIC VEHICLE CHARGING SERVICE NETWORK - A method and apparatus for creating one or more groups of electric vehicle charging objects includes receiving input from an organization to group a selected set of electric vehicle charging objects, creating the group in response to the received input, where the created group includes as its members the selected set of electric vehicle charging objects, and performing a set of acts for the members of the group as a whole. | 11-21-2013 |
20140103866 | Electric Vehicle Charging Station Dynamically Responding to Power Limit Messages Based on a Recent History of Power Provided - An electric vehicle charging station charging electric vehicles dynamically responds to power limit messages. The charging station includes a charging port that is configured to electrically connect to an electric vehicle to provide power to charge that electric vehicle. The charging station also includes a power control unit coupled with the charging port, the power control unit configured to control an amount of power provided through the charging port. The charging station also includes a set of one or more charging station control modules that are configured to, in response to receipt of a message that indicates a request to limit an amount of power to an identified percentage and based on a history of power provided through the charging port over a period of time, cause the power control unit to limit the power provided through the charging port to the identified percentage. | 04-17-2014 |
20140210412 | Detecting and Responding to Unexpected Electric Vehicle Charging Disconnections - An electrical vehicle charging station establishes a charging session with an electric vehicle which includes energizing a power receptacle in the charging station and receiving a charging cord at the power receptacle. While the charging session is established and responsive to detecting that a charging connection between the electric vehicle and the electric vehicle charging station has been unexpectedly disconnected, the power receptacle is de-energized to prevent electricity from flowing through the charging cord. | 07-31-2014 |
20150134188 | SYSTEM AND METHOD FOR MANAGING ELECTRIC VEHICLES - A system and method for managing a plurality of electric vehicles with a fleet management portal is described herein. In one embodiment, a machine implemented method for managing one or more fleets of electric vehicles includes monitoring one or more fleets of electric vehicles using a fleet management portal associated with a server. Next, the method includes monitoring a plurality of charge transfer devices using the fleet management portal. Next, the method includes receiving charging information from the charge transfer devices. Next, the method includes determining a charging status for each electric vehicle based on the charging information. Next, the method includes generating one or more reports having the charging status for each electric vehicle. | 05-14-2015 |
20150202975 | COMMUNITY SHARING OF ELECTRIC VEHICLE CHARGING PORTS - A method and apparatus for generating and managing community sharing and queuing for electric vehicle charging ports is described. Upon a charging port becoming available or about to become available, a notification is sent to an EV operator that is in the queue that indicates that they can use the charging port. The notification may allow the EV operator to accept and acknowledge the availability of the charging port that provides their intention to use the charging port and may allow the EV operator to pass on using the charging port. If the EV operator accepts, the charging port will be placed on hold for at least a predefined amount of time such that only that electric vehicle operator may use that charging port. If the EV operator passes, a notification is sent to another EV operator in the queue (if any) indicating that they can use the charging port. | 07-23-2015 |
Patent application number | Description | Published |
20090201711 | MEMORY MODULE WITH A CIRCUIT PROVIDING LOAD ISOLATION AND MEMORY DOMAIN TRANSLATION - A memory module includes a plurality of memory devices and a circuit. Each memory device has a corresponding load. The circuit is electrically coupled to the plurality of memory devices and is configured to be electrically coupled to a memory controller of a computer system. The circuit selectively isolates one or more of the loads of the memory devices from the computer system. The circuit comprises logic which translates between a system memory domain of the computer system and a physical memory domain of the memory module. | 08-13-2009 |
20100091540 | MEMORY MODULE DECODER - A circuit is configured to be mounted on a memory module connectable to a computer system so as to be electrically coupled to a plurality of memory devices on the memory module. The plurality of memory devices has a first number of memory devices. The circuit comprises a logic element configurable to receive a set of input signals from the computer system. The circuit further comprising a register and a phase-lock loop circuit, the phase-lock loop circuit configurable to be operatively coupled to the plurality of memory devices, the logic element, and the register. The set of input signals corresponds to a second number of memory devices smaller than the first number of memory devices. | 04-15-2010 |
20100128507 | CIRCUIT PROVIDING LOAD ISOLATION AND MEMORY DOMAIN TRANSLATION FOR MEMORY MODULE - A circuit is configured to be mounted on a memory module so as to be electrically coupled to a plurality of double-data-rate (DDR) memory devices arranged in one or more ranks on the memory module. The circuit includes a logic element, a register, and a phase-lock loop device. The circuit is configurable to respond to a set of input signals from a computer system to selectively isolate one or more loads of the plurality of DDR memory devices from the computer system and to translate between a system memory domain of the computer system and a physical memory domain of the plurality of DDR memory devices. | 05-27-2010 |
20110085406 | CIRCUIT PROVIDING LOAD ISOLATION AND MEMORY DOMAIN TRANSLATION FOR MEMORY MODULE - A circuit is configured to be mounted on a memory module connectable to a computer system so as to be electrically coupled to a plurality of memory devices on the memory module. The memory module has a first number of ranks of double-data-rate (DDR) memory devices activated by a first number of chip-select signals. The circuit is configurable to receive bank address signals, a second number of chip-select signals, and row/column address signals from the computer system. The circuit is further configurable to generate phase-locked clock signals in response to clock signals received from the computer system, to selectively isolate one or more loads of the first number of ranks from the computer system, and to translate between a system memory domain and a physical memory domain of the memory module. | 04-14-2011 |
20110090749 | CIRCUIT FOR PROVIDING CHIP-SELECT SIGNALS TO A PLURALITY OF RANKS OF A DDR MEMORY MODULE - A circuit is configured to be mounted on a memory module connectable to a computer system so as to be electrically coupled to a plurality of memory devices on the memory module. The memory module has a first number of ranks of double-data-rate (DDR) memory devices activated by a first number of chip-select signals. The circuit is configurable to receive bank address signals, a second number of chip-select signals, and row/column address signals from the computer system. The circuit is further configurable to generate phase-locked clock signals in response to clock signals received from the computer system and to provide the first number of chip-select signals to the first number of ranks in response to the phase-locked clock signals, the received bank address signals, the received second number of chip-select signals, and at least one of the received row/column address signals. | 04-21-2011 |
20120250386 | CIRCUIT PROVIDING LOAD ISOLATION AND NOISE REDUCTION - Certain embodiments described herein include a memory module having a printed circuit board including at least one connector configured to be operatively coupled to a memory controller of a computer system. The memory module further includes a plurality of memory devices on the printed circuit board and a circuit including a first set of ports operatively coupled to at least one memory device. The circuit further includes a second set of ports operatively coupled to the at least one connector. The circuit includes a switching circuit configured to selectively operatively couple one or more ports of the second set of ports to one or more ports of the first set of ports. Each port of the first set and the second set comprises a correction circuit which reduces noise in one or more signals transmitted between the first set of ports and the second set of ports. | 10-04-2012 |
20120271990 | Non-Volatile Memory Module - Certain embodiments described herein include a memory system which can communicate with a host system such as a disk controller of a computer system. The memory system can include volatile and non-volatile memory and a controller which are configured such that the controller backs up the volatile memory using the non-volatile memory in the event of a trigger condition. In order to power the system in the event of a power failure or reduction, the memory system can include a secondary power source which is not a battery and may include, for example, a capacitor or capacitor array. The memory system can be configured such that the operation of the volatile memory is not adversely affected by the non-volatile memory or the controller when the volatile memory is interacting with the host system. | 10-25-2012 |
20130019076 | REDUNDANT BACKUP USING NON-VOLATILE MEMORY - Data stored in a volatile memory subsystem is backed up redundantly into first and second channels of a non-volatile memory subsystem. The data is retrieved from the volatile memory subsystem upon detection of a trigger condition indicative of real or imminent power loss or reduction and multiple copies are stored in dedicated non-volatile memory channels. The stored copies may be error checked and corrected, and re-written if necessary. The redundantly backed up data can be subsequently retrieved from the non-volatile memory subsystem, error-corrected, and an error-free copy communicated to the volatile memory subsystem. | 01-17-2013 |
20130086309 | FLASH-DRAM HYBRID MEMORY MODULE - A memory module that is couplable to a memory controller hub (MCH) of a host system includes a non-volatile memory subsystem, a data manager coupled to the non-volatile memory subsystem, a volatile memory subsystem coupled to the data manager and operable to exchange data with the non-volatile memory subsystem by way of the data manager, and a controller operable to receive read/write commands from the MCH and to direct transfer of data between any two or more of the MCH, the volatile memory subsystem, and the non-volatile memory subsystem based on the commands. | 04-04-2013 |
20130254456 | ISOLATION SWITCHING FOR BACKUP MEMORY - Certain embodiments described herein include a memory system having a volatile memory subsystem, a non-volatile memory subsystem, a controller coupled to the non-volatile memory subsystem, and a circuit coupled to the volatile memory subsystem, to the controller, and to a host system. In a first mode of operation, the circuit is operable to selectively isolate the controller from the volatile memory subsystem, and to selectively couple the volatile memory subsystem to the host system to allow data to be communicated between the volatile memory subsystem and the host system. In a second mode of operation, the circuit is operable to selectively couple the controller to the volatile memory subsystem to allow data to be communicated between the volatile memory subsystem and the nonvolatile memory subsystem using the controller, and the circuit is operable to selectively isolate the volatile memory subsystem from the host system. | 09-26-2013 |
20130254497 | ISOLATION SWITCHING FOR BACKUP OF REGISTERED MEMORY - Certain embodiments described herein include a memory system having a register coupled to a host system and operable to receive address and control signals from the host system, a volatile memory subsystem, a non-volatile memory subsystem, a controller coupled to the non-volatile memory subsystem, and a circuit coupled to the register, the volatile memory subsystem, and the controller. In a first mode of operation, the circuit is operable to selectively isolate the controller from the volatile memory subsystem, and to selectively couple the volatile memory subsystem to the register to allow data to be communicated between the volatile memory subsystem and the host system. In a second mode of operation, the circuit is operable to selectively couple the controller to the volatile memory subsystem to allow data to be communicated between the volatile memory subsystem and the non-volatile memory subsystem using the controller, and is operable to selectively isolate the volatile memory subsystem from the register. | 09-26-2013 |
20140156919 | Isolation Switching For Backup Memory - Certain embodiments described herein include a memory system having a volatile memory subsystem, a non-volatile memory subsystem, a controller coupled to the non-volatile memory subsystem, and a circuit coupled to the volatile memory subsystem, to the controller, and to a host system. In a first mode of operation, the circuit is operable to selectively isolate the controller from the volatile memory subsystem, and to selectively couple the volatile memory subsystem to the host system to allow data to be communicated between the volatile memory subsystem and the host system. In a second mode of operation, the circuit is operable to selectively couple the controller to the volatile memory subsystem to allow data to be communicated between the volatile memory subsystem and the nonvolatile memory subsystem using the controller, and the circuit is operable to selectively isolate the volatile memory subsystem from the host system. | 06-05-2014 |
20140156920 | Isolation Switching For Backup Of Registered Memory - Certain embodiments described herein include a memory system having a register coupled to a host system and operable to receive address and control signals from the host system, a volatile memory subsystem, a non-volatile memory subsystem, a controller coupled to the non-volatile memory subsystem, and a circuit coupled to the register, the volatile memory subsystem, and the controller. In a first mode of operation, the circuit is operable to selectively isolate the controller from the volatile memory subsystem, and to selectively couple the volatile memory subsystem to the register to allow data to be communicated between the volatile memory subsystem and the host system. In a second mode of operation, the circuit is operable to selectively couple the controller to the volatile memory subsystem to allow data to be communicated between the volatile memory subsystem and the non-volatile memory subsystem using the controller, and is operable to selectively isolate the volatile memory subsystem from the register. | 06-05-2014 |
20140281661 | Hybrid Memory System With Configurable Error Thresholds And Failure Analysis Capability - A system and method for configuring fault tolerance in nonvolatile memory (NVM) are operative to set a first threshold value, declare one or more portions of NVM invalid based on an error criterion, track the number of declared invalid NVM portions, determine if the tracked number exceeds the first threshold value, and if the tracked number exceeds the first threshold value, perform one or more remediation actions, such as issue a warning or prevent backup of volatile memory data in a hybrid memory system. In the event of backup failure, an extent of the backup can still be assessed by determining the amount of erased NVM that has remained erased after the backup, or by comparing a predicted backup end point with an actual endpoint. | 09-18-2014 |
20150242313 | FLASH-DRAM HYBRID MEMORY MODULE - A memory module that is couplable to a memory controller hub (MCH) of a host system includes a non-volatile memory subsystem, a data manager coupled to the non-volatile memory subsystem, a volatile memory subsystem coupled to the data manager and operable to exchange data with the non-volatile memory subsystem by way of the data manager, and a controller operable to receive read/write commands from the MCH and to direct transfer of data between any two or more of the MCH, the volatile memory subsystem, and the non-volatile memory subsystem based on the commands. | 08-27-2015 |
20150248249 | REDUNDANT BACKUP USING NON-VOLATILE MEMORY - Data stored in a volatile memory subsystem is backed up redundantly into first and second channels of a non-volatile memory subsystem. The data is retrieved from the volatile memory subsystem upon detection of a trigger condition indicative of real or imminent power loss or reduction and multiple copies are stored in dedicated non-volatile memory channels. The stored copies may be error checked and corrected, and re-written if necessary. The redundantly backed up data can be subsequently retrieved from the non-volatile memory subsystem, error-corrected, and an error-free copy communicated to the volatile memory subsystem. | 09-03-2015 |
20150255156 | Isolation Switching For Backup Memory - Certain embodiments described herein include a memory system having a volatile memory subsystem, a non-volatile memory subsystem, a controller coupled to the non-volatile memory subsystem, and a circuit coupled to the volatile memory subsystem, to the controller, and to a host system. In a first mode of operation, the circuit is operable to selectively isolate the controller from the volatile memory subsystem, and to selectively couple the volatile memory subsystem to the host system to allow data to be communicated between the volatile memory subsystem and the host system. In a second mode of operation, the circuit is operable to selectively couple the controller to the volatile memory subsystem to allow data to be communicated between the volatile memory subsystem and the nonvolatile memory subsystem using the controller, and the circuit is operable to selectively isolate the volatile memory subsystem from the host system. | 09-10-2015 |
Patent application number | Description | Published |
20100187306 | INVENTORY CONTROL SYSTEM - The inventory control system includes a portable controller for receiving information relating to an item to be tracked by the inventory control system. The portable controller is in communication with a database that stores the information relating to the item. Preferably, the item includes a readable tag having a unique identification code affixed thereto. A sensor may monitor the general location of the tag after the item is entered into the inventory control system. Furthermore, a tag reader associated with the portable controller is able to pinpoint the specific location of the item via a laser-light beam within the area generally identified by the sensor. | 07-29-2010 |
20110101837 | STORAGE AND RETRIEVAL SYSTEM - The storage and retrieval system includes a frame having at least two columns adjacent to one another. A track is disposed in each column, each track being generally parallel to one another. A plurality of storage units reside and move within the tracks. An actuator coupled to the frame displaces the storage units in the columns and a pair of conveyors move the storage units between columns to permit sequential clockwise or counterclockwise movement of the plurality of storage units within the frame. | 05-05-2011 |
20110153614 | INVENTORY CONTROL SYSTEM PROCESS - The inventory control system process includes storing product information in a database. Location information is also accepted and stored in the database in association with the product information. The system receives a command associated with the database and analyzes the command for an instruction and one or more keywords. Next, the database is searched for one or more products associated with the one or more keywords. A list of products related to the one or more keywords is then displayed. The system then accesses, modifies, retrieves, or deletes database information in response to the instruction. | 06-23-2011 |
20120047050 | INVENTORY CONTROL SYSTEM PROCESS - The inventory control system process includes storing product information in a database. Location information is also accepted and stored in the database in association with the product information. The system receives a command associated with the database and analyzes the command for an instruction and one or more keywords. Next, the database is searched for one or more products associated with the one or more keywords. A list of products related to the one or more keywords is then displayed. The system then accesses, modifies, retrieves, or deletes database information in response to the instruction. | 02-23-2012 |
20120200389 | ANTI-IDENTITY THEFT AND INFORMATION SECURITY SYSTEM PROCESS - The anti-identity theft and information security system process includes storing secure information in association with an electronic device having a communication circuit for sending and receiving data. Biometric information is read with a scanner so that the identity of a user can be authenticating in connection with the supplied biometric information. Once approved, a data communication line is established with a remote device and access to the secure information is unlocked. Thereafter, the secure information may be transmitted between the electronic device and the remote device. | 08-09-2012 |
20120271742 | INVENTORY CONTROL SYSTEM PROCESS - The inventory control system process includes storing product information in a database. Location information is also accepted and stored in the database in association with the product information. The system receives a command associated with the database and analyzes the command for an instruction and one or more keywords. Next, the database is searched for one or more products associated with the one or more keywords. A list of products related to the one or more keywords is then displayed. The system then accesses, modifies, retrieves, or deletes database information in response to the instruction. | 10-25-2012 |
20130201000 | ANTI-IDENTITY THEFT AND INFORMATION SECURITY SYSTEM - The anti-identity theft and information security system process includes storing secure information in association with an electronic device having a communication circuit for sending and receiving data. Biometric information is read with a scanner so that the identity of a user can be authenticating in connection with the supplied biometric information. Once approved, a data communication line is established with a remote device and access to the secure information is unlocked. Thereafter, the secure information may be transmitted between the electronic device and the remote device. | 08-08-2013 |
20140033289 | ANTI-IDENTITY THEFT AND INFORMATION SECURITY SYSTEM - The anti-identity theft and information security system process includes storing secure information in association with an electronic device having a communication circuit for sending and receiving data. Biometric information is read with a scanner so that the identity of a user can be authenticating in connection with the supplied biometric information. Once approved, a data communication line is established with a remote device and access to the secure information is unlocked. Thereafter, the secure information may be transmitted between the electronic device and the remote device. | 01-30-2014 |
Patent application number | Description | Published |
20090292299 | OFFSET REMOTE CENTER MANIPULATOR FOR ROBOTIC SURGERY - Medical, surgical, and/or robotic devices and systems often including offset remote center parallelogram manipulator linkage assemblies which constrains a position of a surgical instrument during minimally invasive robotic surgery are disclosed. The improved remote center manipulator linkage assembly advantageously enhances the range of instrument motion while at the same time reduces the overall complexity, size, and physical weight of the robotic surgical system. | 11-26-2009 |
20110282356 | SURGICAL SYSTEM INSTRUMENT MANIPULATOR - An instrument manipulator and a robotic surgical system including an instrument manipulator are provided. In one embodiment, an instrument manipulator includes a plurality of independent actuator drive modules, each of the plurality of actuator drive modules including an actuator output, wherein each of the actuator outputs are configured to independently actuate a corresponding actuator input of a surgical instrument without force input from another actuator output. The instrument manipulator further includes a frame housing the plurality of independent actuator drive modules, the frame including a distal end from which each of the actuator outputs distally protrude for engaging the corresponding actuator inputs of the surgical instrument. | 11-17-2011 |
20110282358 | SURGICAL SYSTEM INSTRUMENT MOUNTING - Robotic surgical systems and methods of coupling a surgical instrument to a manipulator arm are provided. In one embodiment, a system includes a base; a setup link operably coupled to the base, the setup link locating a remote center of motion for the robotic surgical system; a proximal link operably coupled to the setup link; and a distal link operably coupled to the proximal link. A plurality of instrument manipulators are rotatably coupled to a distal end of the distal link, each of the instrument manipulators including a plurality of actuator outputs distally protruding from a distal end of a frame. | 11-17-2011 |
20120083802 | OFFSET REMOTE CENTER MANIPULATOR FOR ROBOTIC SURGERY - Medical, surgical, and/or robotic devices and systems often including offset remote center parallelogram manipulator linkage assemblies which constrains a position of a surgical instrument during minimally invasive robotic surgery are disclosed. The improved remote center manipulator linkage assembly advantageously enhances the range of instrument motion while at the same time reduces the overall complexity, size, and physical weight of the robotic surgical system. | 04-05-2012 |
20130030448 | OFFSET REMOTE CENTER MANIPULATOR FOR ROBOTIC SURGERY - Medical, surgical, and/or robotic devices and systems often including offset remote center parallelogram manipulator linkage assemblies which constrains a position of a surgical instrument during minimally invasive robotic surgery are disclosed. The improved remote center manipulator linkage assembly advantageously enhances the range of instrument motion while at the same time reduces the overall complexity, size, and physical weight of the robotic surgical system. | 01-31-2013 |
20130239392 | Method for robotic arms with strap drive trains - In one embodiment of the invention, a robotic arm is provided including a linkage assembly and a strap drive train. The linkage assembly includes first, second, third, and fourth links pivotally coupled in series together at first, second, and third joints to define a parallelogram with an insertion axis. The strap drive train includes first and second sets of straps coupled to the linkage assembly. As the linkage assembly is moved about a pitch axis, the first set of straps ensures the third link maintains the same angle relative to the first link, and the first and second set of straps ensures the fourth link maintains the same angle relative to the second link. | 09-19-2013 |
20130239735 | Multi-Ply Strap Drive Trains for Robotic Arms - In one embodiment of the invention, a robotic arm is provided including a linkage assembly and a strap drive train. The linkage assembly includes first, second, third, and fourth links pivotally coupled in series together at first, second, and third joints to define a parallelogram with an insertion axis. The strap drive train includes first and second sets of straps coupled to the linkage assembly. As the linkage assembly is moved about a pitch axis, the first set of straps ensures the third link maintains the same angle relative to the first link, and the first and second set of straps ensures the fourth link maintains the same angle relative to the second link. | 09-19-2013 |
20130244820 | [[Multi-Ply]] Strap guide system and methods thereof for robotic surgical arms Drive Trains for Robotic Arms - In one embodiment of the invention, a robotic arm is provided including a linkage assembly and a strap drive train. The linkage assembly includes first, second, third, and fourth links pivotally coupled in series together at first, second, and third joints to define a parallelogram with an insertion axis. The strap drive train includes first and second sets of straps coupled to the linkage assembly. As the linkage assembly is moved about a pitch axis, the first set of straps ensures the third link maintains the same angle relative to the first link, and the first and second set of straps ensures the fourth link maintains the same angle relative to the second link. | 09-19-2013 |
20140094824 | OFFSET REMOTE CENTER MANIPULATOR FOR ROBOTIC SURGERY - Medical, surgical, and/or robotic devices and systems often including offset remote center parallelogram manipulator linkage assemblies which constrains a position of a surgical instrument during minimally invasive robotic surgery are disclosed. The improved remote center manipulator linkage assembly advantageously enhances the range of instrument motion while at the same time reduces the overall complexity, size, and physical weight of the robotic surgical system. | 04-03-2014 |
20150238267 | Cable Tensioning In A Robotic Surgical System - An apparatus, system, and method for setting, maintaining, and adjusting a cable tension in a telerobotic surgical system are provided. A cable tensioning apparatus includes, in one example, an arm, a pulley rotatably coupled to the arm, and a base operably coupled to the arm, the base including a translation mechanism for changing the position of the pulley to control a tension of a cable movable along the pulley. A termination block includes, in one example, a block including two cable pathways with each cable pathway having a retaining means for a ball fitting, and a support for moving a cable along the two cable pathways, the cable including a ball fitting in each of the cable pathways. | 08-27-2015 |
20150250549 | METHODS AND APPARATUS FOR STACKED ELECTRO-MECHANCIAL STRAPS IN ROBOTIC ARMS - In one embodiment, a method is disclosed for a robotic arm. The method includes pitching a linkage assembly having a plurality of links coupled in series together to constrain movement of a tool along an insertion axis; and enabling movement of the linkage assembly about a pitch axis with a strap drive-train coupled thereto using an electro-mechanical strap stack routed between a first link and a second link. The electro-mechanical strap stack includes a drive strap coupled to the linkage. The drive strap moves the linkage assembly. | 09-10-2015 |
20160058512 | SURGICAL SYSTEM INSTRUMENT MOUNTING - Robotic surgical systems and methods of coupling a surgical instrument to a manipulator arm are provided. In one embodiment, a system includes a base; a setup link operably coupled to the base, the setup link locating a remote center of motion for the robotic surgical system; a proximal link operably coupled to the setup link; and a distal link operably coupled to the proximal link. A plurality of instrument manipulators are rotatably coupled to a distal end of the distal link, each of the instrument manipulators including a plurality of actuator outputs distally protruding from a distal end of a frame. | 03-03-2016 |