Abstract: A circuit for combining analog signals includes first and second bitstream generators and a directional coupled connected therewith. The first bitstream generator receives a first analog signal and generates a first digital bitstream as a function thereof. The second bitstream generator receives a second analog signal and generates a second digital bitstream as a function thereof. The first and second bitstream generators are configured to maintain a ninety-degree phase difference between the first and second digital bitstreams. The directional coupler receives, at a first port, the first digital bitstream, and receives, at a second port, the second digital bitstream. The directional coupler includes a third port that is terminated, and a fourth port which generates a first output signal indicative of a combination of the first and second digital bitstreams in a manner that an image component is suppressed without a need for filtering.

Abstract: A voltage-switched class-S amplifier circuit includes an output stage configured to receive at least one control signal and operative to generate an output signal as a function of the at least one control signal. The amplifier circuit further includes a driver circuit coupled with the output stage. The driver circuit is configured to receive an input bit stream signal and is operative to generate the control signal as a function of the input bit stream signal in such a manner that a common mode component is eliminated from the control signal.

Abstract: A circuit for combining analog signals includes first and second bitstream generators and a directional coupled connected therewith. The first bitstream generator receives a first analog signal and generates a first digital bitstream as a function thereof. The second bitstream generator receives a second analog signal and generates a second digital bitstream as a function thereof. The first and second bitstream generators are configured to maintain a ninety-degree phase difference between the first and second digital bitstreams. The directional coupler receives, at a first port, the first digital bitstream, and receives, at a second port, the second digital bitstream. The directional coupler includes a third port that is terminated, and a fourth port which generates a first output signal indicative of a combination of the first and second digital bitstreams in a manner that an image component is suppressed without a need for filtering.

Abstract: A bitstream generator includes at least first and second bitstream generator stages connected in a cascaded arrangement. The first bitstream generator stage includes a first adder which receives an input signal and generates a first error signal indicative of a difference between the input signal and a first bitstream candidate representing a closest approximation to the input signal among multiple bitstream candidates generated by the first bitstream generator stage. The second bitstream generator stage includes a second adder which receives the first error signal and generates a second error signal indicative of a difference between the first error signal and a second bitstream candidate representing a closest approximation to the input signal among multiple bitstream candidates generated by the second bitstream generator stage. A third adder in the bitstream generator receives the first and second bitstream candidates and generates an output signal more closely approximating the input signal.

Abstract: An SSB transmitter includes a digital-to-digital converter generating first and second real signal components as a function of a complex input signal supplied to the transmitter, and a digital Hilbert transformation module coupled with the digital-to-digital converter and operative to generate first and second transformed signals as a function of the first and second real signal components. The transmitter further includes first and second bit-stream generators operative to generate first and second analog signals as a function of the first and second transformed signals, respectively. The transmitter includes first and second amplifiers. The first amplifier is operative to generate a first amplified signal as a function of the first analog signal. The second amplifier is operative to generate a second amplified signal as a function of the second analog signal. An analog hybrid coupler is connected with the first and second amplifiers and operative to perform an analog Hilbert transformation.

Abstract: A composite amplifier providing digitally selectable amplification includes a plurality of channels and a combiner. Each of the channels includes a digitally controllable selector, a Class-S power amplifier, and bandpass filter. The digitally controllable selector selectively couples a digital bitstream to the amplifier. The amplifier receives the digital bitstream and provides an amplified signal. The bandpass filter generates a filtered signal as a function of the amplified signal. The combiner couples filtered signals provided by the channels to form a composite output signal.

Abstract: An SSB transmitter includes a digital-to-digital converter generating first and second real signal components as a function of a complex input signal supplied to the transmitter, and a digital Hilbert transformation module coupled with the digital-to-digital converter and operative to generate first and second transformed signals as a function of the first and second real signal components. The transmitter further includes first and second bit-stream generators operative to generate first and second analog signals as a function of the first and second transformed signals, respectively. The transmitter includes first and second amplifiers. The first amplifier is operative to generate a first amplified signal as a function of the first analog signal. The second amplifier is operative to generate a second amplified signal as a function of the second analog signal. An analog hybrid coupler is connected with the first and second amplifiers and operative to perform an analog Hilbert transformation.

Abstract: A switching power amplifier for multi-path signal interleaving includes a signal splitter configured to split a multi-bit source signal from a digital source into a plurality of multi-bit signals, one or more fractional delay filters configured to delay one or more signals of the plurality of signals by a selected time, a plurality of bit-stream converters, each bit-stream converter configured to receive one of the multi-bit signals, each bit-stream converter further configured to generate a single-bit signal based on a received multi-bit signal, a plurality of switching power amplifiers, each switching power amplifier configured to receive a single-bit signal from one of the bit-stream converters, and an interleaver configured to generate an interleaved output by interleaving two or more outputs of the switching power amplifiers, wherein a sampling frequency of the interleaved output of the interleaver is greater than the selected sampling frequency of the multi-bit source signal.

Abstract: A electronic circuit with low inductance connections is disclosed. The electronic circuit includes a ground plane and a flex circuit. The flex circuit having a first surface generally facing the ground plane and a second surface opposite to the first surface. The flex circuit also having a flexible bridge defined thereof. The electronic circuit further includes a first electronic device communicatively coupled to the second surface of the flex circuit, a second electronic device communicatively coupled to the second surface of the flex circuit, and at least one conductive trace defined on the second surface of the flex circuit and extending along the flexible bridge. One end of the at least one conductive trace is configured for receiving an outbound current from the first electronic device and another end of the at least one conductive trace is communicatively coupled to the second electronic device through a vertical interconnect access.

Abstract: A method and system for high density pulse density modulation is disclosed. In accordance with the present disclosure, a modulation function is split in to two band limited streams using a complementary pair of non-linear functions. More specifically, one bitstream definition contains the peaks of the original function while the other bitstream contains a soft clipping version of the original bitstream. The bitstreams are applied to a pair of switching amplifiers, and the bitstreams can be combined again to reconstruct the original function. The method in accordance with the present disclosure limits the amount of input power necessary to achieve higher output power, lowers operating voltage and improves power amplifier efficiency.

Abstract: A bitstream generator includes at least first and second bitstream generator stages connected in a cascaded arrangement. The first bitstream generator stage includes a first adder which receives an input signal and generates a first error signal indicative of a difference between the input signal and a first bitstream candidate representing a closest approximation to the input signal among multiple bitstream candidates generated by the first bitstream generator stage. The second bitstream generator stage includes a second adder which receives the first error signal and generates a second error signal indicative of a difference between the first error signal and a second bitstream candidate representing a closest approximation to the input signal among multiple bitstream candidates generated by the second bitstream generator stage. A third adder in the bitstream generator receives the first and second bitstream candidates and generates an output signal more closely approximating the input signal.

Abstract: An amplification system and an integrated circuit include a bandpass filter and an amplifier. The bandpass filter filters an input digital bitstream or an amplified signal to provide a filtered signal. The bandpass filter exhibits constant input impedance over a passband associated with the input digital bitstream, and a stopband associated with shaped-noise energy, thereby increasing signal-to-noise ratio and/or signal-to-distortion ratio associated with the filtered signal. The amplifier amplifies at least one of the filtered signal and the input digital bitstream to provide the amplified signal. A method of providing amplification includes bandpass filtering an input digital bitstream or an amplified signal to provide a filtered signal, providing constant input impedance over a passband and a stopband by the bandpass filtering, and amplifying at least one of the filtered signal and the input digital bitstream to provide the amplified signal.

Abstract: In one embodiment, a power amplification system of a radio-frequency transmitter includes a digital signal source that provides a digital input signal to an interleaved-bit-stream generator, which outputs a digital switching signal to a switching power amplifier. The interleaved-bit-stream generator has an eight-path interleaving architecture that helps reduce the effective clock-rate requirements of the interleaved-bit-stream generator. The interleaved-bit-stream generator includes an array of fractional-delay filters for receiving the digital input signal and outputting eight fractionally delayed digital output signals to a bit-stream generation array adapted to output eight corresponding bit streams to a serializer block that interleaves and combines the eight bit-streams into the digital switching signal. The relative phases of the interleaved signals may be adjusted to achieve certain desired effects.

Abstract: A voltage-switched class-S amplifier circuit includes an output stage configured to receive at least one control signal and operative to generate an output signal as a function of the at least one control signal. The amplifier circuit further includes a driver circuit coupled with the output stage. The driver circuit is configured to receive an input bit stream signal and is operative to generate the control signal as a function of the input bit stream signal in such a manner that a common mode component is eliminated from the control signal.

Abstract: A composite amplifier providing digitally selectable amplification includes a plurality of channels and a combiner. Each of the channels includes a digitally controllable selector, a Class-S power amplifier, and bandpass filter. The digitally controllable selector selectively couples a digital bitstream to the amplifier. The amplifier receives the digital bitstream and provides an amplified signal. The bandpass filter generates a filtered signal as a function of the amplified signal. The combiner couples filtered signals provided by the channels to form a composite output signal.

Abstract: A speakerphone having transmit path with a microphone and a first amplifier having a gain determined by a controller and an input coupled to the microphone, a receive path with a second amplifier having a gain determined by the controller and a speaker coupled to an output of the second amplifier, and operable in a half-duplex mode using an adaptive echo canceller to at least partially remove from the transmit path acoustically-coupled signals from the receive path. The controller increases the gain of the first amplifier and decreases the gain of the second amplifier when a level of signals in the transmit path exceed a level of signals in the receive path, and decreases the gain of the first amplifier and increases the gain of the second amplifier when the level of signals in the receive path exceed the level of signals in the transmit path.

Abstract: The invention may be embodied in radio frequency power amplifier (RF-PA) predriver circuits employing a hybrid analog/digital RF architecture including a resynchronizing digital-to-analog convertor to drive an efficient high-power output stage suitable for driving standard high power amplifier (HPA) output devices. The hybrid analog/digital RF architecture retains the advantages of high digital content integration found in conventional Class-S architecture, while relaxing the performance requirements on the output transistors and on the bitstream generator. The resulting predriver circuit combines the VLSI integration benefits of digital designs with the extensibility to arbitrary output power levels characteristic of analog designs. The hybrid analog/digital driving circuit is well suited for use with analog and Class-S HPAs used in wireless communication systems, such as the Doherty type HPA.

Abstract: In one embodiment, a power amplification system of a radio-frequency transmitter includes a digital signal source that provides a digital input signal to an interleaved-bit-stream generator, which outputs a digital switching signal to a switching power amplifier. The interleaved-bit-stream generator has an eight-path interleaving architecture that helps reduce the effective clock-rate requirements of the interleaved-bit-stream generator. The interleaved-bit-stream generator includes an array of fractional-delay filters for receiving the digital input signal and outputting eight fractionally delayed digital output signals to a bit-stream generation array adapted to output eight corresponding bit streams to a serializer block that interleaves and combines the eight bit-streams into the digital switching signal. The relative phases of the interleaved signals may be adjusted to achieve certain desired effects.

Abstract: In one embodiment, a power amplification system of a radio-frequency transmitter includes a digital signal source that provides a digital input signal to an interleaved-bit-stream generator, which outputs a digital switching signal to a switching power amplifier. The interleaved-bit-stream generator has an eight-path interleaving architecture that helps reduce the effective clock-rate requirements of the interleaved-bit-stream generator. The interleaved-bit-stream generator includes an array of fractional-delay filters for receiving the digital input signal and outputting eight fractionally delayed digital output signals to a bit-stream generation array adapted to output eight corresponding bit streams to a serializer block that interleaves and combines the eight bit-streams into the digital switching signal. The relative phases of the interleaved signals may be adjusted to achieve certain desired effects.

Abstract: A method and system for synchronous transfer of bitstream data between a power-driver chip and a digital signal processing chip in a digital radio frequency transmit system is disclosed. A master phase-locked-loop located in the power-driver chip is utilized to provide master clocking control for the digital radio frequency transmit system. Furthermore, the clocking method and system is configurable to secure precise carrier frequency positioning of a digitally-generated radio frequency signal based on predetermined chip frequencies unrelated to the carrier frequency, assuring low bitstream phase noise at the output of the power driver chip.