Texas Instruments Incoporated Patent applications |
Patent application number | Title | Published |
20140327399 | BOOST CAPACITOR SHARING ARCHITECTURE FOR POWER SUPPLY ACTIVE BALANCING SYSTEMS - An apparatus includes multiple first channels configured to be coupled to a first boost capacitor and multiple second channels configured to be coupled to a second boost capacitor. Each channel includes a transistor switch and a gate driver configured to drive the transistor switch. The gate drivers in the first channels include switch sub-arrays configured to control which transistor switch in the first channels is driven using a voltage from the first boost capacitor. The gate drivers in the second channels include switch sub-arrays configured to control which transistor switch in the second channels is driven using a voltage from the second boost capacitor. The transistor switch in each channel may include first and second transistors having their sources coupled together, and each of the channels may further include a pull-down switch configured to pull the sources of the first and second transistors to ground. | 11-06-2014 |
20130224940 | WORK FUNCTION ADJUSTMENT WITH THE IMPLANT OF LANTHANIDES - Semiconductor devices and fabrication methods are provided, in which fully silicided gates are provided. A lanthanide series metal is implanted into the gate electrode layer prior to silicidation and diffuses into the gate dielectric during an activation anneal. This process and resultant structure provides adjustment of the gate electrode work function, thereby tuning the threshold voltage of the resulting transistor. | 08-29-2013 |
20120038331 | Systems and Methods of Smooth Light Load Operation in a DC/DC Converter - Systems and devices for smooth light load operation in a DC/DC converter are presented. The disclosed systems and methods enable smooth discontinuous conduction mode (DCM)/continuous conduction mode (CCM) transition. The disclosed systems and methods of smooth light load operation in a DC/DC converter may also avoid the generation of sub-harmonics during light load operation. In an example embodiment, a rising ramp is used to control the ON time of the converter oscillator, while a falling ramp controls the OFF time. During DCM operation, the minimum value of the falling ramp is clamped. The clamping of the falling ramp ensures a substantially similar level of the error amplifier output in both CCM and DCM and avoids disturbances caused by a difference in the error amplifier outputs between the modes. | 02-16-2012 |
20110173363 | PROCESSOR SYSTEM WITH AN APPLICATION AND A MAINTENANCE FUNCTION - A processor system with an application and a maintenance function that would interfere with the application if concurrently executed. The processor system comprises a set of processor cores operable in different security and context-related modes, said processors having at least one interrupt input and at least one wait for interrupt output. The processor system also comprises a wait for interrupt expansion circuit responsive to the at least one wait for interrupt output to provide an interrupt signal, at least one of said processor cores operable in response to the interrupt signal to schedule a maintenance function separated in time from execution of the application. | 07-14-2011 |
20110162082 | METHODS AND APPARATUS FOR PROVIDING DATA SECURITY - An electronic circuit includes a more-secure processor having hardware based security for storing data. A less-secure processor eventually utilizes the data. By a data transfer request-response arrangement between the more-secure processor and the less-secure processor, the more-secure processor confers greater security of the data on the less-secure processor. A manufacturing process makes a handheld device having a storage space, a less-secure processor for executing modem software and a more-secure processor having a protected application and a secure storage. A manufacturing process involves generating a per-device private key and public key pair, storing the private key in a secure storage where it can be accessed by the protected application, combining the public key with the modem software to produce a combined software, signing the combined software; and storing the signed combined software into the storage space. Other processes of manufacture, processes of operation, circuits, devices, wireless and wireline communications products, wireless handsets and systems are disclosed and claimed. | 06-30-2011 |
20110161650 | PROCESSOR SYSTEM - An electronic circuit includes a more-secure processor having hardware based security for storing data. A less-secure processor eventually utilizes the data. By a data transfer request-response arrangement between the more-secure processor and the less-secure processor, the more-secure processor confers greater security of the data on the less-secure processor. A manufacturing process makes a handheld device having a storage space, a less-secure processor for executing modem software and a more-secure processor having a protected application and a secure storage. A manufacturing process involves generating a per-device private key and public key pair, storing the private key in a secure storage where it can be accessed by the protected application, combining the public key with the modem software to produce a combined software, signing the combined software; and storing the signed combined software into the storage space. Other processes of manufacture, processes of operation, circuits, devices, wireless and wireline communications products, wireless handsets and systems are disclosed and claimed. | 06-30-2011 |
20110158407 | PROCESS OF MANUFACTURING A HANDHELD DEVICE, INVOLVING KEYS - An electronic circuit includes a more-secure processor having hardware based security for storing data. A less-secure processor eventually utilizes the data. By a data transfer request-response arrangement between the more-secure processor and the less-secure processor, the more-secure processor confers greater security of the data on the less-secure processor. A manufacturing process makes a handheld device having a storage space, a less-secure processor for executing modem software and a more-secure processor having a protected application and a secure storage. A manufacturing process involves generating a per-device private key and public key pair, storing the private key in a secure storage where it can be accessed by the protected application, combining the public key with the modem software to produce a combined software, signing the combined software; and storing the signed combined software into the storage space. Other processes of manufacture, processes of operation, circuits, devices, wireless and wireline communications products, wireless handsets and systems are disclosed and claimed. | 06-30-2011 |
20110145460 | PROCESSING SYSTEM OPERABLE IN VARIOUS EXECUTION ENVIRONMENTS - A processing system operable in various execution environments. The system comprises plural processor cores having respective interrupt inputs, respective wait for interrupt outputs, and respective security outputs. The system also comprises a register coupled to at least one of the processor cores for identifying active execution environments. The system also comprises a global interrupt handler operable to selectively route interrupts to one or more of the interrupt inputs of said plural processor cores. The system also comprises a conversion circuit having plural interrupt-related output lines, and said conversion circuit fed with at least some of said respective wait for interrupt outputs and respective security outputs and fed by said register. | 06-16-2011 |
20110145459 | ELECTRONIC POWER MANAGEMENT SYSTEM - An electronic power management system comprising plural processors operable in different security and context-related modes and having respective supply voltage inputs and clock inputs, said processors having at least one interrupt input and at least one wait for interrupt output. The system further comprises a power control circuit operable to configurably adjust supply voltages and clock rates for said supply voltage inputs and clock inputs. The system further comprises a wait for interrupt expansion circuit responsive to the at least one wait for interrupt output to provide an interrupt signal, at least one of said processors operable to configure said power control circuit in response to the interrupt signal. | 06-16-2011 |
20100241724 | Preventing Erroneous Operation in a System Which May Enable Unsupported Features - This invention is a method of operating a system having multiple finite state machines and a controller controlling an operational state of each finite state machine. Upon selection by the controller of a changed operational state, each finite state machine determines if it supports the changed operational state. If the finite state machine supports the changed operational state, it enters the changed operational state. If the finite state machine does not support the changed operational state, it enters an offline state. The controller may also determine whether a changed operational state is supported by each finite state machine. | 09-23-2010 |
20090170256 | ANNEALING METHOD FOR SIGE PROCESS - A method of forming a transistor comprising forming a gate structure over an n-type semiconductor body and forming recesses substantially aligned to the gate structure in the semiconductor body. Silicon germanium is then epitaxially grown in the recesses and a silicon cap layer is formed over the silicon germanium. Further introduction of impurities into the silicon germanium to increase the melting point thereof and implanting p-type source/drain regions in the semiconductor body is included in the method. The method concludes with performing a high temperature thermal treatment. | 07-02-2009 |