| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 330098000 | In cascade amplifiers | 10 |
| 20090102552 | SEMICONDUCTOR INTEGRATED CIRCUIT WITH VARIABLE GAIN AMPLIFIER - The variable gain amplifier includes a bias circuit (BC) | 04-23-2009 |
| 20090140803 | AMPLIFIERS WITH COMPENSATION - An amplifier system includes a first amplifier stage having an input and an output. A second amplifier stage has an input and an output, the input of the second amplifier stage being connected to the output of the first amplifier stage. A transistor has a control terminal, a first terminal, and a second terminal, the first terminal of the transistor being coupled to the output of the first amplifier stage and the input of the second amplifier stage. A first capacitance has a first terminal and a second terminal, the first terminal of the first capacitance being connected to the input of the first amplifier stage, the second terminal of the first capacitance being connected to the second terminal of the transistor. A first current source to source current to amplifier system, the first current source being is connected to the output of the first amplifier stage. A second current source will sink current from the amplifier system. The second current source is connected to the second terminal of the first capacitance and the second terminal of the transistor. | 06-04-2009 |
| 20100164618 | Feedback network for cascaded amplifiers - The invention relates to a feedback network ( | 07-01-2010 |
| 20100237936 | AMPLIFIER CIRCUIT AND MAGNETIC SENSOR - An amplifier circuit, includes: a first amplifier; a second amplifier; a first capacitor connected to the first amplifier; a second capacitor having one terminal connected to the first amplifier, another terminal connected to the second input terminal; and a first switch circuit switching a connection of the output terminal, the another terminal of the first capacitor, the first input terminal and the second input terminal, and switching supplying a reference potential supply, the first switch circuit including: a first state connecting the first input terminal to the second input terminal, connecting the output terminal to the another terminal of the first capacitor, and supplying the second input terminal with the reference potential, a second state connecting the first input terminal to the another terminal of the first capacitor and providing the output terminal and the second input terminal in an open state. | 09-23-2010 |
| 20110095817 | OVERCURRENT DETECTION CIRCUIT AND SIGNAL AMPLIFYING DEVICE - Disclosed is a signal amplifying device which includes an overcurrent detection circuit, a first inverting amplifying circuit amplifying an input signal, and a second inverting amplifying circuit amplifying an output of the first inverting amplifying circuit. The overcurrent detection circuit includes a comparison circuit and a decision circuit. The comparison circuit compares the voltage of the input signal with the voltage of an output of the second inverting amplifying circuit, and generates a signal responsive to the comparison result. The decision circuit detects overcurrent from the signal output by the comparison circuit. | 04-28-2011 |
| 20120169418 | LOW DISSIPATION AMPLIFIER - A low dissipation, low distortion amplifier includes a driver amplifier stage and a main output stage, with a plurality of impedance networks providing, among other things, feedback paths from outputs of the driver and main output stages to the input of the driver stage. The impedance networks also provide coupling paths from the outputs of the driver and main output stages to the load. The impedance networks can all be formed of resistors, capacitors, or network combinations thereof. An additional feedback path can be added from the load to the driver stage to flatten out the frequency response at low frequencies. The driver and main output stages may be operated in Class AB and B modes respectively, and/or in Class G or H modes. An intermediate amplifier driver stage may be added between the driver and main output stages. | 07-05-2012 |
| 20130214857 | Self-Calibrating Gain Control System - A circuit for self-calibrating a gain control system samples the output of a digital amplifier coupled in series with one or more analog amplifiers to correct errors in a discrete stepped gain control. A digital gain control circuit controls both the digital amplifier and at least one analog amplifier to produce a smooth linear and continuous gain, wherein perturbations in the digital control of gain are smoothed by a signal applied to gain control circuit by a gain step correction circuit. | 08-22-2013 |
| 330099000 | Multiple feedback | 3 |
| 20140132342 | AMPLIFIER CIRCUIT AND FEEDBACK CIRCUIT - An amplifier circuit whose frequency response has almost no soft knee characteristic or no peak when inverting input capacitance Csin varies and when feedback capacitance Cf is a fixed value of small capacitance, and a feedback circuit is provided. The amplifier circuit includes a plurality of amplifiers each of which negative feedback is provided to and which are connected in series, and a feedback means (feedback circuit) which is connected to an output side of an amplifier near output of the amplifier circuit and an input side of an amplifier near input of the amplifier circuit. These amplifiers are ones in the plurality of amplifiers. One or odd numbers of amplifiers in the plurality of amplifiers are inverting amplifiers. | 05-15-2014 |
| 330100000 | A feedback to input of a prior stage | 2 |
| 20110018627 | NESTED TRANSIMPENDANCE AMPLIFIER - A nested transimpedance amplifier circuit includes a first-order nested transimpedance amplifier having an input and an output. The first-order nested transimpedance amplifier is configured to be powered by a first voltage. A charge pump module is configured to receive the first voltage and a second voltage. The second voltage is different from the first voltage. The charge pump module generates a third voltage based on the first voltage and the second voltage. A first operational amplifier has an input and an output. The input of the first operational amplifier communicates with the output of the zero-order transimpedance amplifier, and the first operational amplifier is configured to be powered by the third voltage. | 01-27-2011 |
| 20130057341 | AMPLIFIER CIRCUIT AND FEEDBACK CIRCUIT - An amplifier circuit whose frequency response has almost no soft knee characteristic or no peak when inverting input capacitance Csin varies and when feedback capacitance Cf is a fixed value of small capacitance, and a feedback circuit is provided. The amplifier circuit includes a plurality of amplifiers each of which negative feedback is provided to and which are connected in series, and a feedback means (feedback circuit) which is connected to an output side of an amplifier near output of the amplifier circuit and an input side of an amplifier near input of the amplifier circuit. These amplifiers are ones in the plurality of amplifiers. One or odd numbers of amplifiers in the plurality of amplifiers are inverting amplifiers. | 03-07-2013 |
