Abstract: An output stage amplifier circuit in accordance with the present invention overcomes many shortcomings of the prior art. A output stage amplifier circuit for providing a high output voltage and current reference signal suitably includes an output buffer configured with a compensation circuit for reducing disturbances introduced into the output stage amplifier circuit by voltage supply rails, such as parasitic ringing and other disturbances. The compensation circuit can suitably comprise a first compensation device, such as at least one capacitor, and a second compensation device, such as at least one capacitor. The compensation devices are suitably coupled between an input terminal of the output stage amplifier circuit and a pair of transistors proximate a pair of output transistors of the output stage amplifier circuit, and are configured to provide “pole-zero” compensation to the output stage amplifier circuit.

Abstract: A bias rail buffer circuit and method in accordance with the present invention overcomes many shortcomings of the prior art. A bias rail buffer circuit for providing a reference signal is suitably configured to absorb external disturbances appearing on an output reference signal. A method for absorbing the external disturbances appearing at the output reference signal suitably includes the use of complementary transistors to source current and sink current to said output reference signal, depending on whether the external disturbances are providing a decrease or an increase to the output reference signal. The bias rail buffer circuit suitably includes an input transistor, a first pair of complementary transistors and a second pair of complementary transistors, such that the second pair of complementary transistors operate to source current and sink current to absorb external disturbances imparted on said output reference signal.

Abstract: A current mirror circuit in accordance with the present invention overcomes many shortcomings of the prior art. A current mirror circuit for providing a current reference signal suitably includes at least one degeneration resistor to provide more degeneration for lower voltage noise while also including at least one clamping device to preventing saturation of the current mirror. The clamping device suitably comprises at least one diode, such as, for example, a Schottky-type diode. Moreover, the clamping device can be suitably configured to facilitate a higher slew rate of the current mirror circuit.

Abstract: A temperature curvature compensation technique and circuit can be realized through the generation of a temperature curvature compensation voltage provided by measuring the difference between the base-emitter voltage Vbe of two different transistors operating at two different temperature coefficient quiescent currents. This voltage difference measured between two such transistors results in a scaled voltage that is representative of the temperature curvature of the base-emitter voltage Vbe of a transistor, and which can then be summed to the bandgap reference output to provide a temperature compensated, bandgap reference voltage. The above method can be carried out in an amplifier circuit configured to receive and sum the temperature curvature compensation voltage and the bandgap reference output voltage into the temperature compensated, bandgap reference voltage.

Abstract: A leadframe is provided which has an integrated resistive element incorporated within the leadframe. The resistive element suitably comprises a material that can provide a temperature coefficient of under 500 ppm/° C., preferably approximating 100 ppm/° C. or less. Exemplary embodiments of the resistive material may include Constantan or Manganin. The leadframe and integrated resistive element may be utilized in a variety of integrated circuit applications, such as a current monitoring circuit. Accordingly, variations in temperature will not dramatically affect the accuracy of any integrated circuit devices during operation. Additionally, after encapsulation of the leadframe and integrated resistive element and any such integrated circuit device, the gain of the encapsulated circuit may be suitably adjusted by various calibration techniques.

Abstract: A wideband operational amplifier in accordance with the present invention overcomes many shortcomings of the prior art. A wideband operational amplifier may be configured to provide a high output voltage and high output current. The amplifier may comprise an input stage having a first input buffer and a second input buffer, and an output stage amplifier having an output buffer. The input stage may also include current mirrors configured to facilitate a lower input offset voltage and lower input voltage noise. Moreover, the operational amplifier may also provide a wide common-mode input range and full power bandwidth simultaneously.