Abstract: The present general inventive concept is directed to a method and system to generate a power signal, including summing a non-inverted reference signal and an inverted feedback signal to output a non-inverted first summation signal, summing an inverted reference signal and a non-inverted feedback signal to output an inverted second summation signal, receiving the first summation signal at a non-inverted input of a differential power output driver, and the second summation signal at an inverted input of the differential power output driver, outputting a non-inverted power signal to a first terminal of an impedance load from a non-inverted output of the differential power output driver, and outputting an inverted power signal to a second terminal of the load from an inverted output of the differential power output driver, the non-inverted power signal also being used as the non-inverted feedback signal, and the inverted power signal also being used as the inverted feedback signal.

Abstract: The present general inventive concept is directed to a signal generation system, device, and method for meter testing, including a digital signal generator to generate an arbitrary digital test signal, a digital-to-analog converter to convert the arbitrary digital test signal to an analog test signal, a signal converter to convert the analog test signal to a differential pair of signals corresponding to the analog test signal, and a power signal generator including: an input module to receive the differential pair of signals; an amplifier to amplify the differential pair of test signals; and an output module to output an output differential pair of signals to a load, to feed back a proportional representation of the output differential pair of signals to the input module, and to receive the amplified differential pair of signals from the amplifier.

Abstract: A power measurement system, including a voltage measurement circuit having a resistive network comprising first and second resistors connected in series on a first single substrate, and a feedback amplifier having an input in electrical communication with a point between the first and second resistors, and an output in electrical communication with the second resistor in a feedback configuration to output an attenuated voltage signal, and a transresistance current measurement circuit including a current transformer to transform an input primary current into a secondary current, a plurality of amplifiers configured in a cascading arrangement, and a feedback resistor configured in parallel with the cascaded amplifiers such that the combined gain of the cascaded amplifiers directs substantially all of the secondary current through the feedback resistor, wherein the system is selectively switchable between a voltage measurement mode and a current measurement mode.

Abstract: An analog signal conditioning device and method employing a multi-path feedback mechanism to actively minimize the error of the overall desired signal conditioning transfer function to produce a corrected output signal, initially and over temperature, by exploiting characteristics of resistances manufactured simultaneously on a common thermally conductive substrate.

Abstract: The present general inventive concept is directed to provide a saturation prevention method that utilizes transfer function modulation to continuously and precisely condition signals over more than four orders of magnitude from a signal source. To avoid signal conditioning error and large transient behavior due to range switching, continuous conditioning of all ranges without saturation over the entire large input dynamic range is employed. The use of transimpedance amplifiers in an example embodiment induces negligible loading on the signal source such that the integrity of the original signal is fully maintained, enabling precise signal conditioning. The ratio of gain to input impedance with a transimpedance amplifier is orders of magnitude larger than other typical methods of signal conditioning, making these amplifiers optimum for the saturation prevention method.