Abstract: The present disclosure relates to a microelectronics package with vertically stacked flip-chip dies, and a process for making the same. The disclosed microelectronics package includes a module board, a first thinned flip-chip die with a through-die via, a second flip-chip die with a package contact at the bottom, and a mold compound. Herein, a top portion of the through-die via is exposed at top of the first thinned flip-chip die. The first thinned flip-chip die and the mold compound reside over the module substrate. The mold compound surrounds the first thinned flip-chip die and extends above the first thinned flip-chip die to define an opening. The second flip-chip die, which has a smaller plane size than the first thinned flip-chip die, resides within the opening and is stacked with the first thinned flip-chip die by coupling the package contact to the exposed top portion of the through-die via.

Abstract: A novel and useful topological, scalable, and reprogrammable quantum computing machine having one or more quasi-unidimensional chord lines along which the movement of a particle is constrained. The unidimensional passage has localized energy levels that can be controlled with classic electronics. The chord line has two or more quantum dots between which a quasi-unidimensional channel is formed for the particle to travel from one qdot to the other. The tunneling path may be polysilicon, metal, thin oxide, or induced depletion region. The chord line can be in a two-dimensional space for a planar process or in a three-dimensional space with multiple layers of signal processing for a three dimensional process. A quantum structure has semiconductor dots with a layer that provides the chord line for the quantum particle evolution to occur from one dot to the other. The various layers may include polysilicon, metal, thin oxide, or induced depletion region either fully overlapped or partially overlapped.

Abstract: The present disclosure relates to a semiconductor package with reduced parasitic coupling effects, and a process for making the same. The disclosed semiconductor package includes a thinned flip-chip die and a first mold compound component with a dielectric constant no more than 7. The thinned flip-chip die includes a back-end-of-line (BEOL) layer with an upper surface that includes a first surface portion and a second surface portion surrounding the first surface portion, a device layer over the upper surface of the BEOL layer, and a buried oxide (BOX) layer over the device layer. The BEOL layer includes a first passive device and a second passive device, which are underlying the first surface portion and not underlying the second surface portion. Herein, the first mold compound component extends through the BOX layer and the device layer to the first surface portion.

Abstract: Power amplifier (PA) output memory neutralization is disclosed, using baseband input/output (I/O) capacitance current compensation. Radio frequency (RF) PAs experience I/O memory effects when used with envelope tracking supply modulation schemes. Envelope tracking supply modulation results in a nonlinear variation of the I/O capacitance. Traditional approaches compensate for such effects with a current provided by a bias circuit which is band-limited. This results in memory effects which distort the amplified signal, becoming more significant as the modulation bandwidth increases. An RF communications system according to embodiments disclosed herein mitigates such memory effects by compensating for the non-linear effect of the I/O capacitance in an RF PA.

Abstract: A power amplifier apparatus supporting reverse intermodulation product (rIMD) cancellation is provided. The power amplifier apparatus includes an amplifier circuit configured to amplify and output a radio frequency (RF) signal for transmission via an antenna port. The antenna port may receive a reverse interference signal, which may interfere with the RF signal to create a rIMD(s) that can fall within an RF receive band(s). A reverse coupling circuit is provided in the power amplifier apparatus to generate an interference cancellation signal based on the reverse interference signal. The amplifier circuit is configured to amplify the interference cancellation signal and the RF signal to create an intermodulation product(s) to suppress the rIMD(s) to a determined threshold. By suppressing the rIMD(s) in the power amplifier apparatus, it is possible to support concurrent transmissions and receptions in a number of RF spectrums while in compliance with stringent regulatory spurious emissions (SEM) requirements.

Abstract: A novel and useful controlled quantum shift register for transporting particles from one quantum dot to another in a quantum structure. The shift register incorporates a succession of qdots with tunneling paths and control gates. Applying appropriate control signals to the control gates, a particle or a split quantum state is made to travel along the shift register. The shift register also includes ancillary double interaction where two pairs of quantum dots provide an ancillary function where the quantum state of one pair is replicated in the second pair. The shift register also provides bifurcation where an access path is split into two or more paths. Depending on the control pulse signals applied, quantum dots are extended into multiple paths. Control of the shift register is provided by electric control pulses. An optional auxiliary magnetic field provides additional control of the shift register.

Abstract: A novel and useful controlled quantum shift register for transporting particles from one quantum dot to another in a quantum structure. The shift register incorporates a succession of qdots with tunneling paths and control gates. Applying appropriate control signals to the control gates, a particle or a split quantum state is made to travel along the shift register. The shift register also includes ancillary double interaction where two pairs of quantum dots provide an ancillary function where the quantum state of one pair is replicated in the second pair. The shift register also provides bifurcation where an access path is split into two or more paths. Depending on the control pulse signals applied, quantum dots are extended into multiple paths. Control of the shift register is provided by electric control pulses. An optional auxiliary magnetic field provides additional control of the shift register.

Abstract: The present disclosure relates to a microelectronics package with vertically stacked flip-chip dies, and a process for making the same. The disclosed microelectronics package includes a module board, a first thinned flip-chip die with a through-die via, a second flip-chip die with a package contact at the bottom, and a mold compound. Herein, a top portion of the through-die via is exposed at top of the first thinned flip-chip die. The first thinned flip-chip die and the mold compound reside over the module substrate. The mold compound surrounds the first thinned flip-chip die and extends above the first thinned flip-chip die to define an opening. The second flip-chip die, which has a smaller plane size than the first thinned flip-chip die, resides within the opening and is stacked with the first thinned flip-chip die by coupling the package contact to the exposed top portion of the through-die via.

Abstract: Embodiments of the disclosure relate to a three-dimensional (3D) inductor-capacitor (LC) circuit. The 3D LC circuit includes an inductor formed by a conductive ribbon of a defined height and a conductive sleeve conductively coupled to the conductive ribbon. The conductive sleeve and the conductive ribbon can generate a built-in capacitance(s) for the 3D LC circuit. In examples discussed herein, the conductive ribbon can also help reduce the skin effect of the inductor by distributing an electrical current across the defined height of the conductive ribbon. By generating the built-in capacitance(s) and distributing the electrical current across the defined height of the conductive ribbon, it is possible to reduce current crowding and improve quality factor (Q-factor) of the 3D LC circuit. As a result, it is possible to couple one or more 3D LC circuits to form a high performance radio frequency (RF) filter(s) for the fifth-generation (5G) wireless communication systems.

Abstract: Embodiments of an apparatus that includes a substrate and an inductor residing in the substrate are disclosed. In one embodiment, the inductor is formed as a conductive path that extends from a first terminal to a second terminal. The conductive path has a shape corresponding to a two-dimensional (2D) lobe laid over a three-dimensional (3D) volume. Since the shape of the conductive path corresponds to the 2D lobe laid over a 3D volume, the magnetic field generated by the inductor has magnetic field lines that are predominately destructive outside the inductor and magnetic field lines that are predominately constructive inside the inductor. In this manner, the inductor can maintain a high quality (Q) factor while being placed close to other components.

Abstract: A Doherty amplifier system is disclosed. A main amplifier is configured to receive a first portion of a radio frequency (RF) signal at a main input and provide an amplified copy of the first portion of the RF signal at a main output. A peaking amplifier is configured to be controllably activated to receive a second portion of the RF signal at a peak input and provide an amplified copy of the second portion of the RF signal at a peak output. A saturation detector has a detector input coupled to the main output of the main amplifier and a first detector control output, wherein the saturation detector is configured to detect saturation of the main amplifier and activate the peaking amplifier as saturation of the main amplifier is detected and deactivate the peaking amplifier when saturation of the main amplifier is not detected by the saturation detector.

Abstract: A multi-layer antenna assembly and related antenna array are provided. In one aspect, a multi-layer antenna assembly includes a first radiating layer(s) and a second radiating layer(s). The second radiating layer(s) is provided below and in parallel to the first radiating layer(s). The second radiating layer(s) overlaps at least partially with the first radiating layer(s). In this regard, an electromagnetic wave radiated vertically from the second radiating layer(s) is horizontally guided by an overlapping portion of the first radiating layer(s). In another aspect, an antenna array can be configured to include a number of multi-layer antenna assemblies to enable radio frequency (RF) beamforming. By employing the multi-layer antenna assemblies in the antenna array, it may be possible to flexibly and naturally steer an RF beam in a desired direction(s) without causing oversized side lobes, thus helping to improve power efficiency and performance of the antenna array.

Abstract: A multi-radio access technology (RAT) antenna assembly and related front-end package is provided. In one aspect, the multi-RAT antenna assembly includes a radiating structure that radiates/absorbs a first electromagnetic wave corresponding to a first RAT in a first RF spectrum (e.g., below 6 GHz). A number of slot openings are created in the radiating structure to function as a number of slot antennas for radiating/absorbing a second electromagnetic wave corresponding to a second RAT in a second RF spectrum (e.g., above 18 GHz). As such, the multi-RAT antenna assembly can support both the first RAT and the second RAT based on the radiating structure, thus helping to reduce real estate requirements of the multi-RAT antenna assembly. In another aspect, a front-end circuit supporting the second RAT is coupled to the slot openings via shortest possible paths in a front-end package, thus helping to reduce propagation attenuation in the front-end package.

Abstract: A Doherty amplifier is disclosed with a main amplifier having a main input in communication with a radio frequency (RF) signal input and a main output in communication with a RF signal output. Also included is a peaking amplifier having a peak input in communication with the RF signal input and a peak output in communication with the RF signal input. Further included is main neutralization circuitry having a main neutralization input in communication with the peak input and a main neutralization output in communication with the main input, wherein the main neutralization circuitry is configured to inject a main neutralization signal into the main input such that the main neutralization signal is 180°±10% out of phase and equal in amplitude to within ±10% of a main parasitic feedback signal passed from the main output to the main input by way of a main parasitic feedback capacitance.

Abstract: A low-noise amplifier system is disclosed. The low-noise amplifier system includes a low-noise amplifier having an input node and an output node in a receive path and a capacitance equalization network coupled to the output node. Compensation capacitance of the capacitance equalization network sums with non-linear capacitance of the low-noise amplifier such that a total capacitance at the output node varies by no more than ±5% over an output voltage range within voltage headroom limits of the low-noise amplifier for a given supply voltage of the low-noise amplifier. In at least some exemplary embodiments, the compensation capacitance of the capacitance equalization network is a function of output signal voltage at the output node.

Abstract: A power amplifier system is disclosed. The power amplifier system includes a power amplifier having a first signal input and a first signal output and a main bias circuitry configured to provide a first portion of a first bias signal to the power amplifier through a first bias output coupled to the first signal input. Further included is peak bias circuitry that is configured to provide a second portion of the first bias signal to the power amplifier through a second bias output coupled to the first signal input, wherein the first portion of the first bias signal is greater than the second portion of the first bias signal over a first input power range and the second portion of the first bias signal is greater than the first portion of the first bias signal over a second input power range that is greater than the first input power range.

Abstract: A novel and useful multistage semiconductor quantum detector circuit incorporating an anticorrelation mechanism. The quantum structure has at least the first stage sensor of the detector merged into the quantum structure in order to minimize loading of the quantum structure. The merged quantum structure and detector sensor may be encapsulated in a metal cage in order to provide enhanced rejection of the environmental parasitic electric and/or magnetic fields. A double boot strapping detector front-end configuration substantially eliminates the loading coming from both the gate-source and the gate-drain parasitic capacitances of the first sensor device of the detector that is connected to the quantum structure. In addition, differential detection aids in rejecting leakage, noise, and correlated interference coupling. Both dummy referenced differential detection as well as self-referenced differential detection may be employed in the detector.

Abstract: A novel and useful quantum computing machine architecture that includes a classic computing core as well as a quantum computing core. A programmable pattern generator executes sequences of instructions that control the quantum core. In accordance with the sequences, a pulse generator functions to generate the control signals that are input to the quantum core to perform quantum operations. A partial readout of the quantum state in the quantum core is generated that is subsequently re-injected back into the quantum core to extend decoherence time. Access gates control movement of quantum particles in the quantum core. Errors are corrected from the partial readout before being re-injected back into the quantum core. Internal and external calibration loops calculate error syndromes and calibrate the control pulses input to the quantum core.

Abstract: Novel and useful electronic and magnetic control of several quantum structures that provide various control functions. An electric field provides control and is created by a voltage applied to a control terminal. Alternatively, an inductor or resonator provides control. An electric field functions as the main control and an auxiliary magnetic field provides additional control on the control gate. The magnetic field is used to control different aspects of the quantum structure. The magnetic field impacts the spin of the electron by tending to align to the magnetic field. The Bloch sphere is a geometrical representation of the state of a two-level quantum system and defined by a vector in x, y, z spherical coordinates.

Abstract: Novel and useful quantum structures that provide various control functions. Particles are brought into close proximity to interact with one another and exchange information. After entanglement, the particles are moved away from each other but they still carry the information contained initially. Measurement and detection are performed on the particles from the entangled ensemble to determine whether the particle is present or not in a given qdot. A quantum interaction gate is a circuit or structure operating on a relatively small number of qubits. Quantum interaction gates implement several quantum functions including a controlled NOT gate, quantum annealing gate, controlled SWAP gate, a controlled Pauli rotation gate, and ancillary gate. These quantum interaction gates can have numerous shapes including double V shape, H shape, X shape, L shape, I shape, etc.