Abstract: A system includes a power supply model component and a disturbance estimating component. The power supply model component receives an estimated disturbance. The disturbance estimating component provides said estimated disturbance from a difference between a sensed output of a power supply and an estimated output from said power supply model component.

Abstract: A power recovery system includes a transmission line that is coupled to transfer an RF signal received via an antenna. The RF signal generates a partial standing wave in the transmission line and the transmission line has at least one standing wave anti-node. A power recovery circuit converts an anti-node signal from the at least one standing wave anti-node to a power signal.

Abstract: A wireless communication device includes an RF transceiver configured to up convert a base band signal to a transmitting RF signal, a configurable matrix power amplifier circuit configured to amplify the transmitting RF signal to produce an amplified RF signal, and an antenna configured to transmit a wireless signal in response to the amplified RF signal.

Abstract: A transmission circuit operates with high efficiency and low distortion. An amplitude and phase extraction section extracts amplitude data and phase data from input data. A phase modulation section phase-modulates the phase data to output a resultant signal as a phase-modulated signal. An amplifier section amplifies the phase-modulated signal to output a resultant signal as a transmission signal. An amplitude control section supplies, to the amplifier section, a voltage controlled in accordance with an AC component represented by a fluctuation component of the amplitude data and a DC component represented by an average value level of the fluctuation component of the amplitude data.

Abstract: An electronic power amplifier includes a plurality of cells, each cell comprising a DC input port for accepting a DC input power from a voltage source VG, an AC input port for accepting an AC signal S1 at a frequency FS and having a first magnitude M1, a switching mechanism operatively coupled to the DC input port and to the AC input port for converting the DC input power to an AC output power at the frequency FS and having a second magnitude M2 greater than the first magnitude M1, and an output port capable of applying the AC output power to a load impedance. The plurality of cells includes at least a first cell having a first DC input port and a second cell having a second DC input port. The first and second DC input ports are connected in series for application to the voltage source VG.

Abstract: An electronic power amplifier includes a plurality of cells, each cell comprising a DC input port for accepting a DC input power from a voltage source VG, an AC input port for accepting an AC signal S1 at a frequency FS and having a first magnitude M1, a switching mechanism operatively coupled to the DC input port and to the AC input port for converting the DC input power to an AC output power at the frequency FS and having a second magnitude M2 greater than the first magnitude M1, and an output port capable of applying the AC output power to a load impedance. The plurality of cells includes at least a first cell having a first DC input port and a second cell having a second DC input port. The first and second DC input ports are connected in series for application to the voltage source VG.

Abstract: The invention is a power converter that coverts audio signal energy into a regulated DC power. The invention uses the audio output sources available on most modern transportation systems such as airplanes, trains and busses and converts the electrical output of those sources to an electrical output that can be used to recharge or allow extended use of various portable electronic devices. The main components of the invention include a rectifier section which is designed to rectify and amplify input AC signal energy. This is followed by a current storage section which accumulates the input energy and determines if the stored energy is sufficient to be output to the regulator component. The regulator component converts stored energy component signal into regulated DC output.

Abstract: A differential input comparator circuit comprises an input stage comprising dual polarity input voltages and an output stage adapted to output a differential voltage based on the input voltages, wherein the differential voltage is adapted to be transmitted to a comparator and wherein the circuit has high input impedance and works with high input voltage swings.

Abstract: A magnetic recording device includes a magnetic disk drive for recording desired information as a magnetic signal and a reproducing signal amplifier for amplifying a small electric signal obtained by converting the magnetic signal. The reproducing signal amplifier includes an amplifier for amplifying a small electric signal supplied through an input terminal into an amplified signal having an appropriate amplitude, a central value detection circuit for detecting a central value of the AC component of the amplified signal output by the amplifier and outputting a central value signal consisting of the DC component of the amplified signal, and a subtracter for obtaining a difference between the amplified signal and the central value signal and outputting a reproducing signal.

Abstract: A programmable power supply having a plurality of channels wherein each channel is adapted to output a selectable DC voltage, AC voltage, DC current or AC current. Each channel is adapted to select a DC reference signal or an AC reference signal and to scale the selected DC reference or the AC reference to output the selected signal. The outputted selected signals are monitored to provide a monitored channel signal indicating the value of the selected signal. The programmable power supply outputs monitored channel signals for each of the channels in a human perceivable format such as a display or printed format. At least some of the channels are adapted to be connectable to a temperature probe which outputs temperature signals and, in this embodiment, the temperature signals are monitored to provide monitored channel temperature signals, the monitored channel temperature signals being outputted in a human perceivable format such as a display or printed format or both.

Abstract: Attenuator having a high input impedance and several switching levels for high frequencies and oscilloscope and active probe comprising such an attenuator. A high frequency attenuator (15) having a high input impedance and several switching stages intended to attenuate a high-frequency electric signal introduced at an input terminal (10) of the attenuator. The attenuator supplies at a low-impedance output terminal (11) an output signal corresponding to the attenuated input signal. The attenuator comprises k broadband amplifiers A.sub.n (1.ltoreq.n.ltoreq.k) having a very small input capacitance, capacitances D.sub.n arranged between each input and each output of each amplifier, and capacitances C.sub.n arranged between each input of each amplifier and the input terminal of the attenuator. The accurate attenuation switching levels are obtained by using different ratios C.sub.n /D.sub.

Abstract: An improved signal input circuit suitable for use in wideband oscilloscopes includes a high impedance controllable attenuator stage.

Abstract: A receiver for use with a photodiode in an electro-optical transmission l. First and second amplifier circuit channels are connected to an output port of a photodiode. One channel is provided with a wide-bandwidth amplifier for amplifying the high frequency portion of a signal from said output signal port and a second channel is provided with a low frequency amplifier for amplifying direct current and the low frequency portions of the signal from said output signal port. The outputs of the wide-bandwidth amplifier and the low frequency amplifier are combined to provide a composite output signal which is an amplified replica of the output of said photodiode.