Patent application number | Description | Published |
20090009150 | REFERENCE VOLTAGE GENERATOR WITH BOOTSTRAPPING EFFECT - An integrated electronic device for generating a reference voltage. The circuitry has a bias current generator for generating a first bias current, a diode element coupled to the bias current generator and fed by a second bias current derived from the first bias current for converting the second bias current into a reference voltage across the diode element, a supply voltage pre-regulator stage for regulating the supply voltage used for the bias current generator, and an output buffer coupled to the reference voltage for providing a low impedance output, wherein the reference voltage is coupled to the supply pre-regulator stage for biasing the supply pre-regulator stage by the reference voltage. | 01-08-2009 |
20090009151 | REFERENCE VOLTAGE GENERATOR WITH BOOTSTRAPPING EFFECT - An integrated electronic device for generating a reference voltage. The circuitry has a bias current generator for generating a first bias current, a diode element coupled to the bias current generator and fed by a second bias current derived from the first bias current for converting the second bias current into a reference voltage across the diode element, a supply voltage pre-regulator stage for regulating the supply voltage used for the bias current generator, and an output buffer coupled to the reference voltage for providing a low impedance output, wherein the reference voltage is coupled to the supply pre-regulator stage for biasing the supply pre-regulator stage by the reference voltage. | 01-08-2009 |
20090039845 | METHOD AND APPARATUS FOR POWER MANAGEMENT OF A LOW DROPOUT REGULATOR - A method of switching a low dropout regulator includes determining an actual active time of a power request from an electronic device; enabling the low dropout regulator in response to said power request at a time corresponding to a start of the actual active time of the power request for an active enabled time having a duration at least the same as the actual active time and long enough to sufficiently settle the output voltage of the low dropout regulator; and disabling the low dropout regulator. In embodiments, the active enabled time is prolonged beyond the actual active time of the power request for all or at least some power requests. An electronic device includes circuits for controlling the switching of a low dropout in the described manner. | 02-12-2009 |
20090039945 | Bias Current Generator - An electronic device generates a current with a predetermined temperature coefficient. The circuit comprises a temperature coefficient (TC) component receiving a bias current, a differential amplifier providing a buffered output voltage based on the voltage across the TC component and a resistor receiving an TC current based on the differential amplifier output voltage. The differential amplifier has a predetermined input related offset which decreases the voltage drop across the resistor. The temperature coefficient component could have either a negative temperature component (NTC) or a positive temperature component (PTC). | 02-12-2009 |
20090045880 | Digital Controlled Oscillator - A digital controlled oscillator including a programmable current source, a first variable capacitor and a second variable capacitor. A comparator compares the voltage across the variable capacitors with a reference voltage level and generates a DCO output clock signal. A switching means alternately switches the variable capacitors to either charge from a programmable current source or discharge in response to an output signal of the comparator. A clock divider divides the DCO output clock signal by a factor N substantially greater than 1. A frequency monitor receives the divided clock signal, determines the time difference of successive clock periods of the divided clock signal and generates a feedback signal to adapt the frequency of the DCO output clock signal. | 02-19-2009 |
20090051331 | Method and Circuit for Controlling the Refresh Rate of Sampled Reference Voltages - The present invention relates to controlling the refresh rate of the reference voltage on a sampling capacitor (C | 02-26-2009 |
20090058493 | Signal Level Converter - An electronic device with a supply voltage level converter converts a signal from a first low supply voltage level to a second high supply voltage level includes; a first pair of cross coupled MOS transistors compliant with the second supply voltage level, each having a source coupled to the second supply voltage level and providing complementary output signals at respective drains; driven by a second pair of common gate MOS transistors compliant with the second supply voltage; driven by a third pair of common gate MOS transistors compliant with the first voltage level; and driven by first and second inverters coupled in a chain and supplied by the first supply voltage level, each having an output connected to the source of a transistor in a third pair. | 03-05-2009 |
20090195234 | ON-CHIP VOLTAGE SUPPLY SCHEME WITH AUTOMATIC TRANSITION INTO LOW-POWER MODE OF MSP430 - An integrated electronic device includes circuitry for providing a system supply voltage from a primary power supply. The circuitry has a high power (HP) stage coupled to the primary power supply and having an output node coupled to a supply system node for providing a HP system supply voltage level and a HP output current such that the HP stage is configured to be active in a full power mode, and a low power (LP) stage coupled to the primary power supply and to the supply system node through a voltage follower for providing a LP supply voltage level and an LP output current such that the LP stage is configured to be active in a low power mode. The HP system supply voltage level is greater than the LP system supply voltage level and the voltage follower of the LP stage is adapted to switch off in response to a voltage level at the supply system node becoming greater than the HP system supply voltage level and to switch on in response to the voltage level at the supply system node becoming lower than the HP system supply voltage level. | 08-06-2009 |
20100073836 | Supervision Circuit to Detect Very Fast Power Supply Drops - This invention is power supply protection for complex digital circuits employing an external high voltage supply and an internally generated low voltage core logic supply. Precision analog comparators distinguish between short circuit conditions on the internal supply at various ramp down rates including slow brown out decay. Control circuitry protects I/O circuits from exposure to high currents as a result of possible floating gate conditions in the output circuitry. | 03-25-2010 |
20100201433 | Low Leakage Sampling Switch - An electronic device includes a cascade of a plurality of transistors. Each transistor of the cascade receives an input voltage at a first terminal of its source/drain channel and receives a sampling clock signal at a control gate. The second terminal of the source/drain path of a first transistor drives a sampling capacitor. The second terminal of the source/drain channel of each subsequent transistor is connected to a backgate of a previous transistor. The backgate of the last transistor is connected to a supply voltage level. The second terminals of the subsequent transistors may be connected to corresponding buffer capacitors. The backgate of the last transistor may be supplied with the input during sampling and the supply voltage level at other times. | 08-12-2010 |
20130114324 | Integrated Circuit Comprising a FRAM Memory and Method for Granting Read-Access to a FRAM Memory - An electronic device includes an integrated circuit with a FRAM memory and an integrated capacitor connected between a power supply for the FRAM memory and ground. The integrated capacitor has a capacitance sufficient to store the charge necessary for a complete read-and-write-back cycle of the FRAM memory. When granting read-access to the FRAM memory, the FRAM memory is supplied by the integrated capacitor. Upon receiving a request for a read-access to the FRAM memory, a charge detector detects whether the internal capacitor is sufficiently charged for a complete read-and-write-back cycle of the FRAM memory. Read-access to the FRAM memory is only granted if the internal capacitor is sufficiently charged. An alternative embodiment alternately charges and powers the FRAM from two integrated capacitors. | 05-09-2013 |
20130249527 | Electronic Device and Method for Generating a Curvature Compensated Bandgap Reference Voltage - The invention relates to an electronic device with a bandgap reference generator including a first path with series connection of a first bipolar transistor, a first resistor and a second resistor, and a second path with series connection of a second bipolar transistor and a third resistor. The first and second paths are supplied current via a common node through a fourth resistor controlled by an amplifier sensing voltage drops within the first and second paths. A curvature compensation stage compensates for a variation of base emitter voltage of the bipolar transistors by drawing a compensation current from the common resistor node. | 09-26-2013 |
20140050008 | Electronic Device and Method for FRAM Power Supply Management - The invention is an electronic device including a ferroelectric random access memory (FRAM), a first supply voltage domain, a second supply voltage domain and a low drop output voltage regulator (LDO) receive a first supply voltage of the first supply voltage domain and providing a second supply voltage of the second supply voltage domain. The second supply voltage domain supplies the FRAM. The LDO switches between a first state providing and maintaining the second supply voltage of the second supply voltage domain and a second state providing a high impedance output to the second supply voltage domain. The electronic device switches the LDO from the first state to the second state in response to a failure of the first supply voltage domain. | 02-20-2014 |