Patent application number | Description | Published |
20090243655 | CURRENT DRIVER SUITABLE FOR USE IN A SHARED BUS ENVIRONMENT - A transceiver suitable for interfacing a logic device to a shared bus includes a transmit node that receives an input signal from the logic device and an I/O node, that is coupled to the shared bus. The transceiver may be designed for use with a shared-bus, single master, multiple slave architecture, e.g., a Local Interconnect Network (LIN). In a LIN compliant implementation, the transceiver may be suitable for use in at least some types of automobiles and other motorized vehicles. Control logic coupled to the transmit node may assert a current driver enable signal in response to detecting an assertion of the input signal. A current driver of the transceiver is configured to draw a time varying driver current from the shared bus node after detecting an assertion of the current driver enable signal. The driver current may cause a sinusoidal transition of the shared bus voltage. | 10-01-2009 |
20090315525 | VOLTAGE REFERENCE DEVICE AND METHODS THEREOF - A voltage reference module of an integrated circuit device includes a current source to apply a current to a set of voltage cells, thereby generating a voltage drop across each cell. The voltage cells are configured such that the individual voltage drop associated with each cell in response to the application of the current is relatively stable over a temperature range. The voltage reference module generates a voltage based on the voltage drops across the voltage cells, and therefore the generated voltage is also stable over the temperature range. Bypass switches can be connected across each voltage cell whereby the switches can be individually opened and closed to include or exclude cells in generation of the reference voltage. In an embodiment, the switches are set during a trimming process for the integrated circuit device so that the voltage reference module provides a specified voltage. | 12-24-2009 |
20130154992 | TOUCH SENSE INTERFACE CIRCUIT - A touch sensing interface ( | 06-20-2013 |
20130238273 | CIRCUIT AND METHOD FOR MEASURING VOLTAGE - A testing circuit ( | 09-12-2013 |
20130285734 | DELAY COMPENSATION CIRCUIT | 10-31-2013 |
20140239927 | TRANSITION CONTROL FOR A HYBRID SWITCHED-MODE POWER SUPPLY (SMPS) - Systems and methods for transition control in a hybrid Switched-Mode Power Supply (SMPS). In some embodiments, a hybrid SMPS may include linear circuitry configured to produce an output voltage proportional to a variable duty cycle when the SMPS operates in linear mode and hysteretic circuitry coupled to the linear circuitry, the hysteretic circuitry configured to cause the duty cycle to assume one of two predetermined values when the SMPS operates in hysteretic mode. The hybrid SMPS may also include transition circuitry coupled to the linear circuitry and to the hysteretic circuitry, the transition circuitry configured to bypass at least a portion of the linear circuitry in response to the hybrid SMPS transitioning from the hysteretic mode to the linear mode. | 08-28-2014 |
20140285239 | POWER MONITORING CIRCUITRY - Power monitoring circuitry. In some embodiments, comparator circuitry may be configured to receive a first voltage value and a second voltage value, and to identify the greater of the first and second voltage values. Selector circuitry coupled to the comparator circuitry may be configured to power one or more components within the comparator circuitry with a supply voltage corresponding to the greater voltage value. In other embodiments, a method may include identifying, via a comparator, the largest among a plurality of voltage values, and powering one or more logic components within the comparator with the identified voltage value. | 09-25-2014 |
20140312875 | STARTUP CIRCUITS WITH NATIVE TRANSISTORS - Startup circuits with native transistors. In some embodiments, a startup circuit may include a first inverter configured to receive a bandgap voltage (V | 10-23-2014 |
20150054477 | POWER SWITCH WITH CURRENT LIMITATION AND ZERO DIRECT CURRENT (DC) POWER CONSUMPTION - Power switches with current limitation and zero Direct Current (DC) power consumption. In an embodiment, an integrated circuit includes switching circuitry coupled between a voltage supply node and a given one of a plurality of power domains, the switching circuitry configured to limit an amount of current drawn by the given power domain from the voltage supply node during a transition period, the switching circuitry further configured to consume zero DC power outside of the transition period. In another embodiment, a method includes controlling, via a switching circuit coupled between a voltage supply and an integrated circuit, an amount of current drawn by the integrated circuit from the voltage supply during a transition period; and causing the switching circuit to consume no static power during periods of time other than the transition period. | 02-26-2015 |
20150084684 | TEMPERATURE DEPENDENT BIASING FOR LEAKAGE POWER REDUCTION - Temperature dependent biasing for leakage power reduction. In some embodiments, a semiconductor device may include a biasing circuit configured to generate a voltage that varies dependent upon a temperature of the semiconductor device and a logic circuit operably coupled to the biasing circuit, where the voltage is applied to a bulk terminal of one or more transistors within the logic circuit, and where the voltage has a value outside of a voltage supply range of the logic circuit. In another embodiment, a semiconductor device may include a biasing circuit configured to generate a voltage that varies according to a temperature of the semiconductor device and a power switch operably coupled to the biasing circuit, where the voltage is applied to a gate terminal of the power switch, and where the voltage has a value outside of a voltage supply range of the power switch. | 03-26-2015 |