| Patent application number | Description | Published |
|---|
| 20110187344 | CURRENT-MODE PROGRAMMABLE REFERENCE CIRCUITS AND METHODS THEREFOR - A circuit includes a first current path comprising a first floating-gate transistor having a programmable threshold voltage, a second current path, and a differential amplifier. The second current path includes a second floating-gate transistor having a programmable threshold voltage and a resistor. The differential amplifier includes a first input coupled to the first current path, a second input coupled to the second current path, and an output configured to control a reference current path. | 08-04-2011 |
| 20110187447 | MIXED-MODE CIRCUITS AND METHODS OF PRODUCING A REFERENCE CURRENT AND A REFERENCE VOLTAGE - In an embodiment, a circuit includes a first transistor having a first current electrode, a control electrode, and a second current electrode coupled to a power supply terminal. The circuit further includes a resistive element having a first terminal coupled to the control electrode of the first transistor and a second terminal coupled to the power supply terminal. The circuit also includes a feedback circuit for providing a first current to the first control electrode of the first transistor and for preserving substantially the first current related to a voltage at the control electrode of the first transistor, through the resistive element. The feedback circuit includes an output terminal for providing an output signal in response to a voltage at the control electrode of the first transistor. In an embodiment, the first transistor is a floating-gate device with programmable threshold voltage. | 08-04-2011 |
| 20110193544 | CIRCUITS AND METHODS OF PRODUCING A REFERENCE CURRENT OR VOLTAGE - A reference circuit includes a first transistor having a first current electrode, a control electrode, and a second current electrode coupled to a power supply terminal. The reference circuit further includes a resistive element including a first terminal coupled to the control electrode of the first transistor and a second terminal coupled to the first current electrode. Additionally, the reference circuit includes a second transistor including a first current electrode coupled to the second terminal of the resistive element, a control electrode coupled to the second terminal, and a second current electrode coupled to the power supply terminal. The second transistor is configured to produce an output signal related to a voltage at the control electrode of the first transistor. | 08-11-2011 |
| 20110248688 | PROGRAMMABLE LOW-DROPOUT REGULATOR AND METHODS THEREFOR - A low-dropout (LDO) regulator includes a voltage reference circuit to provide a reference voltage, a pass device including an input terminal coupled to a voltage input, an output terminal to provide an output voltage and a control terminal, and an error amplifier including a first amplifier input for receiving the reference voltage, a second amplifier input, an amplifier output coupled to the control terminal of the pass device. Additionally, the LDO regulator includes a feedback circuit including a feedback input coupled to the output terminal of the pass device and a feedback output coupled to the second amplifier input to provide a feedback signal. The LDO regulator further includes a control circuit including a non-volatile memory to store configuration data to control operation of the voltage reference circuit, the pass device, the error amplifier, and the feedback circuit to produce the output voltage. | 10-13-2011 |
| 20110254521 | FLOATING-GATE PROGRAMMABLE LOW-DROPOUT REGULATOR AND METHODS THEREFOR - In an embodiment, a low-dropout (LDO) regulator includes at least one of a programmable voltage reference and a programmable frequency compensation circuit and is configurable to produce an output voltage. The programmable voltage reference includes a floating-gate transistor coupled to a reference output and configurable for providing a reference voltage to an input of an error amplifier. The programmable frequency compensation circuit is responsive to a programmable current reference circuit that includes at least one floating-gate transistor that is configurable to adjust a frequency compensation parameter. A control circuit is provided to selectively program floating gates of the floating gate transistors to adjust the output voltage and/or to adjust a frequency component of the output voltage. | 10-20-2011 |
