Class / Patent application number | Description | Number of patent applications / Date published |
327089000 | With differential amplifier | 14 |
20080231327 | SIGNAL TRANSFER SYSTEMS AND METHODS - A signal transfer system. A first device operates with a first voltage and outputs a first signal and a second signal. A protection circuit receives the first and second signals and outputs the first and second signals when the first voltage is greater than or equal to a predetermined voltage, and provides a third signal and a fourth signal when the first voltage is smaller than the predetermined voltage. A delay circuit delays the second and fourth signals to generate a first delay signal and a second delay signal, respectively. A second device operates with the first signal and the first delay signal when the first voltage is greater than or equal to the predetermined voltage, and operates with the third signal and the second delay signal when the first voltage is smaller than the predetermined voltage. | 09-25-2008 |
20090128194 | Method And Device For Adjusting Or Setting An Electronic Device - Method and device for adjusting or setting an electronic device ( | 05-21-2009 |
20090128195 | INTEGRATED CIRCUIT COMPARATOR OR AMPLIFIER - An integrated circuit comparator comprises a differential amplifier, a source follower circuit coupled to a gate terminal of a first transistor in the differential amplifier, and an output circuit. One or more source follower circuits may be utilized in connection with the differential amplifier, and one or more source follower circuits may be utilized in connection with the output circuit. | 05-21-2009 |
20090261863 | START SIGNAL DETECTION CIRCUIT - A start signal detection circuit includes a wave-detection circuit | 10-22-2009 |
20100033214 | HIGH VOLTAGE INPUT RECEIVER WITH HYSTERESIS USING LOW VOLTAGE TRANSISTORS - A high voltage input receiver with hysteresis using low voltage transistors is disclosed. In one embodiment, an input receiver circuit includes a hysteresis comparator circuit, based on a plurality of low voltage transistors, for generating a first output voltage by comparing an external voltage and a reference voltage and a stress protection circuit for preventing the plurality of low voltage transistors of the hysteresis comparator circuit from exceeding their reliability limits. In addition, the reference voltage is used to set a positive trip point and a negative trip point. Moreover, the input receiver circuit includes a source follower circuit for transferring the first output voltage to an output node of the source follower circuit from a voltage level of a VDDIO to a voltage level of a VDD. | 02-11-2010 |
20100134150 | POWER IC AND DRIVING METHOD THEREOF - A power integration circuit includes: a first transistor having a control electrode connected to a first voltage source to be supplied with a control signal therefrom, the first transistor being connected between a switch and a ground. A sense resistor has one end connected to the ground. A second transistor has a control electrode connected to the first voltage source to be applied with a control signal therefrom, with the second transistor being connected between the switch and the other end of the sense resistor. The power integration circuit further includes: a comparator for comparing the sense voltage with the reference voltage and delivering a difference between the sense voltage and the reference voltage to a logic circuit. | 06-03-2010 |
20100283511 | LOW POWER CONSUMPTION LOW KICK-BACK NOISE COMPARATOR CIRCUIT FOR ANALOG-TO-DIGITAL CONVERTER - The present invention is directed for a comparator circuit used in an analog-to-digital converter, and more particularly, for a low power consumption low kick-back noise comparator circuit for an analog-to-digital converter, which can significantly reduce kick-back noise generated in a signal input stage due to a signal regeneration method employed in a signal comparing operation and can efficiently reduce power consumption. | 11-11-2010 |
20110037500 | INTEGRATED CIRCUIT COMPARATOR OR AMPLIFIER - An integrated circuit comparator comprises a differential amplifier, a source follower circuit coupled to a gate terminal of a first transistor in the differential amplifier, and an output circuit. One or more source follower circuits may be utilized in connection with the differential amplifier, and one or more source follower circuits may be utilized in connection with the output circuit. | 02-17-2011 |
20110204926 | CHOPPER-TYPE VOLTAGE COMPARATOR CIRCUIT AND SEQUENTAL-COMPARISON-TYPE A/D CONVERTING CIRCUIT - A successive-approximation type AD converting circuit is provided with a comparing circuit (CMP) which judges the magnitudes of an input analog voltage and a comparison voltage, and a local DA converting circuit (DAC) which generates a voltage according to a judgment result of the comparing circuit and outputs the generated voltage as the comparison voltage. The comparing circuit is provided with at least one amplification stage (INV), a first switching element which is provided between the input terminal and the output terminal of each amplification stage, and resistance value adjusting sections (RT | 08-25-2011 |
20110234260 | CONSTANT VOLTAGE CIRCUIT - A current source generates a reference current. A first transistor is a depletion-type MOSFET arranged such that one terminal thereof is connected to the current source and its gate is connected to its source. A second transistor is an enhancement-type MOSFET arranged such that one terminal thereof is connected to the other terminal of the first transistor, the other terminal thereof is connected to a fixed voltage terminal, and its gate and drain are connected. A third MOSFET is an enhancement-type P-channel MOSFET arranged such that one terminal thereof is connected to the current source, the other terminal thereof is connected to the fixed voltage terminal, and its gate is connected to a connection node connecting the first and second transistors. A constant voltage circuit outputs at least a voltage that corresponds to the gate voltage of the third transistor or a voltage that corresponds to the gate voltage thereof. | 09-29-2011 |
20120105109 | OUTPUT STAGE, AMPLIFIER CONTROL LOOP AND USE OF THE OUTPUT STAGE - An output stage includes a first transistor pair with a first conductivity type and a second transistor pair with a second conductivity type. The source connections of the first and second transistors in the first transistor pair and of the first and second transistors in the second transistor pair are respectively connected to a first and a second circuit node. The output stage further includes a first current mirror with the first conductivity type and a second current mirror with the second conductivity type. The current mirror transistors are connected to the signal output. The signal input is connected to control connections of the first transistors in the first and second transistor pairs. A second connection of the second transistor in the first transistor pair is connected to the second current mirror, and a second connection of the second transistor in the second transistor pair is connected to the first current mirror. | 05-03-2012 |
20120212259 | COMPARATOR OF A DIFFERENCE OF INPUT VOLTAGES WITH AT LEAST A THRESHOLD - A comparator is configured to generate an output voltage representing the comparison between the absolute value of the difference between two input voltages with an adjustable reference voltage. The comparator includes an input differential amplifier, receiving the two input voltages and connected to an active load network controlled by a control voltage, a control circuit that generates the control voltage representing the adjustable reference voltage, and an output stage having a logic circuit configured to produce the output voltage of the comparator as a logic combination of the output voltages of the differential amplifier. | 08-23-2012 |
20120326753 | RECEIVING CIRCUITS FOR CORE CIRCUITS - A receiving circuit for a core circuit is provided and includes a first receiving-path unit. The first receiving-path unit is capable of receiving an input signal and outputting an output signal to the core circuit according to the input signal. The first receiving-path unit includes an input buffer which is capable of operating in a core power domain of the core circuit and receiving a first clamped signal. When a level of the input signal is substantially equal to or lower than a first predetermined voltage level, the input signal is passed to the input buffer to serve as the first clamped signal, and the input buffer is capable of outputting the output signal in the core power domain according to the first clamped signal. When the level of the input signal is higher than the first predetermined voltage level, the input signal is not passed to the input buffer. | 12-27-2012 |
20130099826 | POWER DETECTOR - In a power detector, a comparator for detection receives an input signal and a reference voltage, and compares the input signal to the reference voltage around the switching time of active and inactive states of the output of the comparator in accordance with an output of an input switching signal generator. Except for the switching time, an input voltage for non-use of the comparator is inputs to the comparator for detection, and the differential inputs are fixed to the same potential. Therefore, aging reduction in the accuracy of power detection caused by BT degradation is effectively mitigated. | 04-25-2013 |