Abstract: An integrated amplifier device includes a main amplifier configured to be coupled to an input source. A replica amplifier is coupled to the main amplifier to provide a bias to the main amplifier. A transconductance biasing cell to the main amplifier and the replica amplifier. The transconductance biasing cell is configured to bias both the main amplifier and the replica amplifier. A method of making an integrated amplifier device is also disclosed.

Abstract: An integrated amplifier device includes a main amplifier configured to be coupled to an input source. A replica amplifier is coupled to the main amplifier to provide a bias to the main amplifier. A transconductance biasing cell to the main amplifier and the replica amplifier. The transconductance biasing cell is configured to bias both the main amplifier and the replica amplifier. A method of making an integrated amplifier device is also disclosed.

Abstract: An integrated amplifier device includes a main amplifier configured to be coupled to an input source. A replica amplifier is coupled to the main amplifier to provide a bias to the main amplifier. A transconductance biasing cell to the main amplifier and the replica amplifier. The transconductance biasing cell is configured to bias both the main amplifier and the replica amplifier. A method of making an integrated amplifier device is also disclosed.

Abstract: An integrated amplifier device includes a main amplifier configured to be coupled to an input source. A replica amplifier is coupled to the main amplifier to provide a bias to the main amplifier. A transconductance biasing cell to the main amplifier and the replica amplifier. The transconductance biasing cell is configured to bias both the main amplifier and the replica amplifier. A method of making an integrated amplifier device is also disclosed.

Abstract: A self-starting bandgap reference circuit comprises a bias current source configured to provide a bias current. A bandgap core coupled to the bias current source includes a first device configured to receive the bias current and provide a first current output based on the bias current and a second device configured to receive the bias current and provide a second current output based on the bias current. A difference mirror coupled to the first device and the second device receives the first current output and the second current output and is configured to provide a difference current between the second current output and the first current output that is a proportional-to-absolute temperature current. A voltage reference output and a current reference output coupled to the difference mirror receives the proportional-to-absolute temperature current and provides a voltage reference and a current reference based on the proportional-to-absolute temperature current.

Abstract: A self-starting bandgap reference circuit comprises a bias current source configured to provide a bias current. A bandgap core coupled to the bias current source includes a first device configured to receive the bias current and provide a first current output based on the bias current and a second device configured to receive the bias current and provide a second current output based on the bias current. A difference mirror coupled to the first device and the second device receives the first current output and the second current output and is configured to provide a difference current between the second current output and the first current output that is a proportional-to-absolute temperature current. A voltage reference output and a current reference output coupled to the difference mirror receives the proportional-to-absolute temperature current and provides a voltage reference and a current reference based on the proportional-to-absolute temperature current.

Abstract: A thermal calibration circuit for adjusting the gain of a variable gain amplifier, the thermal calibration circuit comprising an interface for receiving a signal that varies with temperature and for providing a signal related to the variation of the temperature; a variable gain amplifier having an input and an output; the signal related to the variation of the temperature being selectively coupled to the input; a circuit at the output of the variable gain amplifier for developing a first current proportional to a difference between a current developed at the output of the variable gain amplifier and a reference current; and the first circuit driving a further circuit to produce a gain control signal for adjusting the gain of the variable gain amplifier.

Abstract: A variable gain amplifier comprising a differential input amplifier comprising a pair of transistors each having an input across which an input voltage is provided, the transistors being coupled such that each transistor is provided in series with a respective current source providing a reference current and whereby a current is developed across a resistor element coupling the transistors that is proportional to the voltage between the inputs; further comprising further transistors each coupled in series with a transistor of the transistor pair, and wherein the further transistors are arranged such that a current is developed in each further transistor due to the voltage provided across the inputs that is substantially equal to, in one further transistor, a sum of the reference current and the current in the resistor element, and in the other further transistor, a difference between the reference current and the current in the resistor element; further comprising a gain stage for developing currents equal to

Abstract: A current sense amplifier for a voltage converter wherein the voltage converter has at least one channel providing an output current through an output inductor, the current sense amplifier monitoring the current in the at least one channel through the output inductor, the current sense amplifier comprising a plurality of variable gain amplifiers, there being at least one more variable gain amplifier than channels in the voltage converter, whereby at least one variable gain amplifier is in a calibration mode for a preset period of time during which the variable gain amplifier is compensated for an offset error and the gain of the variable gain amplifier is calibrated to compensate for temperature of the output inductor, while during said preset period of time any remaining variable gain amplifiers are connected to monitor the channel current in each output inductor.

Abstract: A variable gain amplifier comprising a differential input amplifier comprising a pair of transistors each having an input across which an input voltage is provided, the transistors being coupled such that each transistor is provided in series with a respective current source providing a reference current and whereby a current is developed across a resistor element coupling the transistors that is proportional to the voltage between the inputs; further comprising further transistors each coupled in series with a transistor of the transistor pair, and wherein the further transistors are arranged such that a current is developed in each further transistor due to the voltage provided across the inputs that is substantially equal to, in one further transistor, a sum of the reference current and the current in the resistor element, and in the other further transistor, a difference between the reference current and the current in the resistor element; further comprising a gain stage for developing currents equal to

Abstract: A thermal calibration circuit for adjusting the gain of a variable gain amplifier, the thermal calibration circuit comprising an interface for receiving a signal that varies with temperature and for providing a signal related to the variation of the temperature; a variable gain amplifier having an input and an output; the signal related to the variation of the temperature being selectively coupled to the input; a circuit at the output of the variable gain amplifier for developing a first current proportional to a difference between a current developed at the output of the variable gain amplifier and a reference current; and the first circuit driving a further circuit to produce a gain control signal for adjusting the gain of the variable gain amplifier.