Pagnanelli Family Trust

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2024 1
2023 1
2022 1
Avant 2020 35
Classe IPC
H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle 25
H03M 1/66 - Convertisseurs numériques/analogiques 7
H03M 1/06 - Compensation ou prévention continue de l'influence indésirable de paramètres physiques 5
H03M 1/12 - Convertisseurs analogiques/numériques 5
H03H 17/04 - Filtres récursifs 4
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Statut
En Instance 2
Enregistré / En vigueur 36
Résultats pour  brevets

1.

DISTRIBUTED CONVERSION OF DIGITAL DATA TO RADIO FREQUENCY

      
Numéro d'application 18606322
Statut En instance
Date de dépôt 2024-03-15
Date de la première publication 2024-08-15
Propriétaire Pagnanelli Family Trust (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses methods and techniques for converting digital data to radio-frequency (RF) signals. One such apparatus includes a reactive-impedance network within which the levels of multiple binary waveforms are individually boosted, before being combined to produce a single, composite output signal.

Classes IPC  ?

  • H04B 1/00 - Détails des systèmes de transmission, non couverts par l'un des groupes Détails des systèmes de transmission non caractérisés par le milieu utilisé pour la transmission
  • H03F 1/56 - Modifications des impédances d'entrée ou de sortie, non prévues ailleurs
  • H03F 3/195 - Amplificateurs à haute fréquence, p. ex. amplificateurs radiofréquence comportant uniquement des dispositifs à semi-conducteurs dans des circuits intégrés
  • H03F 3/217 - Amplificateurs de puissance de classe DAmplificateurs à commutation

2.

DIFFERENTIAL LINE DRIVER

      
Numéro d'application 17891054
Statut En instance
Date de dépôt 2022-08-18
Date de la première publication 2023-02-23
Propriétaire Pagnanelli Family Trust (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses, methods and techniques for driving a differential transmission line and an associated differential load. One such apparatus includes an input data line; an output data line; positive and negative supply rails; a pair of source termination resistors coupled to the positive supply rail; a first pair of n-channel transistors coupled to the source resistors and to the output data line; and a second pair of n-channel transistors coupled to the output line and to the negative supply rail.

Classes IPC  ?

  • G11C 5/06 - Dispositions pour interconnecter électriquement des éléments d'emmagasinage

3.

Distributed conversion of digital data to radio frequency

      
Numéro d'application 17443473
Numéro de brevet 11949386
Statut Délivré - en vigueur
Date de dépôt 2021-07-27
Date de la première publication 2022-03-10
Date d'octroi 2024-04-02
Propriétaire Pagnanelli Family Trust (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses methods and techniques for converting digital data to radio-frequency (RF) signals. One such apparatus includes a reactive-impedance network within which the levels of multiple binary waveforms are individually boosted, before being combined to produce a single, composite output signal.

Classes IPC  ?

  • G06F 7/42 - AdditionSoustraction
  • H03F 1/02 - Modifications des amplificateurs pour augmenter leur rendement, p. ex. étages classe A à pente glissante, utilisation d'une oscillation auxiliaire
  • H03F 1/56 - Modifications des impédances d'entrée ou de sortie, non prévues ailleurs
  • H03F 3/195 - Amplificateurs à haute fréquence, p. ex. amplificateurs radiofréquence comportant uniquement des dispositifs à semi-conducteurs dans des circuits intégrés
  • H03F 3/217 - Amplificateurs de puissance de classe DAmplificateurs à commutation
  • H03F 3/24 - Amplificateurs de puissance, p. ex. amplificateurs de classe B, amplificateur de classe C d'étages transmetteurs de sortie

4.

Apparatuses and methods for sample rate conversion

      
Numéro d'application 16382535
Numéro de brevet 10623014
Statut Délivré - en vigueur
Date de dépôt 2019-04-12
Date de la première publication 2019-08-01
Date d'octroi 2020-04-14
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided, among other things, is an apparatus that converts a signal from one sampling domain to another, and which includes: an input line for accepting an input signal and a processing branch. The processing branch includes a branch input coupled to the input line for inputting data samples that are discrete in time and in value, a quadrature downconverter, a first and second lowpass filter, a first and second polynomial interpolator, and a rotation matrix multiplier that provides a phase rotation. The processing branch generates data samples at a sampling interval that differs from the sampling interval associated with the signal provided to the branch input, e.g., with the difference in the sampling intervals depending on fluctuations in the output period of a local oscillator. Certain embodiments include multiple such processing branches, e.g., operating on different frequency bands of the input signal.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle
  • H03M 1/10 - Calibrage ou tests
  • H03M 1/66 - Convertisseurs numériques/analogiques
  • H03M 1/12 - Convertisseurs analogiques/numériques
  • H03M 1/78 - Conversion simultanée utilisant un réseau en échelle
  • H03M 9/00 - Conversion parallèle/série ou vice versa
  • H04L 27/36 - Circuits de modulationCircuits émetteurs
  • H03M 7/32 - Conversion en, ou à partir d'une modulation delta, c.-à-d. une modulation différentielle à un bit
  • H03M 7/36 - Conversion en, ou à partir d'une modulation différentielle à plusieurs bits, c.-à-d. la différence entre des échantillons successifs étant codée par plus d'un bit

5.

Digital signal processor

      
Numéro d'application 15800855
Numéro de brevet 09973172
Statut Délivré - en vigueur
Date de dépôt 2017-11-01
Date de la première publication 2018-03-01
Date d'octroi 2018-05-15
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided, among other things, is an apparatus for digitally processing a discrete-time signal that includes: an input line for accepting an input signal, processing branches coupled to the input line, and an adder coupled to outputs of the processing branches. First and second lowpass filters, each having a frequency response with a magnitude that varies approximately with frequency according to a product of raised functions, are included within baseband processors in such processing branches.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle
  • H03H 17/04 - Filtres récursifs

6.

Digital signal processor

      
Numéro d'application 15366384
Numéro de brevet 09837990
Statut Délivré - en vigueur
Date de dépôt 2016-12-01
Date de la première publication 2017-12-05
Date d'octroi 2017-12-05
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided, among other things, is an apparatus for digitally processing a discrete-time signal that includes: an input line for accepting an input signal, processing branches coupled to the input line, and an adder coupled to outputs of the processing branches. First and second lowpass filters, each having a frequency response with a magnitude that varies approximately with frequency according to a product of raised functions, are included within baseband processors in such processing branches.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle
  • H03H 17/04 - Filtres récursifs

7.

Apparatuses and methods for sample-rate conversion

      
Numéro d'application 15478395
Numéro de brevet 09838030
Statut Délivré - en vigueur
Date de dépôt 2017-04-04
Date de la première publication 2017-12-05
Date d'octroi 2017-12-05
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses methods and techniques for automatically adjusting the noise-transfer-function of a modulator which is designed to attenuate the level of unwanted noise and/or distortion in a particular frequency band, without similarly attenuating the level of a desired signal in the same frequency band. One such apparatus includes a processing block for generating and injecting an explicit reference signal, and a processing block for detecting the amplitude of that reference signal.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle

8.

Polyphase buffer for rate-conversion

      
Numéro d'application 15259161
Numéro de brevet 09715914
Statut Délivré - en vigueur
Date de dépôt 2016-09-08
Date de la première publication 2017-07-25
Date d'octroi 2017-07-25
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses methods and techniques for changing the sampling rate of a discrete-time signal. One such apparatus includes a plurality of parallel processing paths, with each path comprising multiple storage banks and multiplexing elements that operate at a subsampling rate.

Classes IPC  ?

  • G11C 7/22 - Circuits de synchronisation ou d'horloge pour la lecture-écriture [R-W]Générateurs ou gestion de signaux de commande pour la lecture-écriture [R-W]

9.

Apparatuses and methods for converting fluctuations in periodicity of an input signal into fluctuations in amplitude of an output signal

      
Numéro d'application 15366069
Numéro de brevet 10263628
Statut Délivré - en vigueur
Date de dépôt 2016-12-01
Date de la première publication 2017-06-15
Date d'octroi 2019-04-16
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

An exemplary apparatus for converting fluctuations in periodicity of an input signal into proportional fluctuations in the amplitude of an output signal includes: an input line for accepting an input signal; a delay element with an input coupled to the input line and an output; a detector having a first input coupled to the input line, a second input coupled to the output of the delay element, and an output; an integrator having an input coupled to the output of the detector and an output; and an output line coupled to the output of the integrator. The delay element introduces a time delay which is greater than zero and less than twice the nominal oscillation period of the input signal. The detector performs a differencing operation. The integrator has a time constant of integration that is smaller than twice the delay applied by the delay element.

Classes IPC  ?

  • H03M 1/06 - Compensation ou prévention continue de l'influence indésirable de paramètres physiques
  • H03L 7/191 - Synthèse de fréquence indirecte, c.-à-d. production d'une fréquence désirée parmi un certain nombre de fréquences prédéterminées en utilisant une boucle verrouillée en fréquence ou en phase en utilisant un diviseur de fréquence ou un compteur dans la boucle une différence de temps étant utilisée pour verrouiller la boucle, le compteur entre des nombres fixes ou le diviseur de fréquence divisant par un nombre fixe utilisant au moins deux signaux différents à partir du diviseur de fréquence ou du compteur pour déterminer la différence de temps
  • H03K 19/21 - Circuits OU EXCLUSIF, c.-à-d. donnant un signal de sortie si un signal n'existe qu'à une seule entréeCircuits à COÏNCIDENCES, c.-à-d. ne donnant un signal de sortie que si tous les signaux d'entrée sont identiques

10.

Conversion of a discrete-time quantized signal into a continuous-time, continuously variable signal

      
Numéro d'application 15360601
Numéro de brevet 09735800
Statut Délivré - en vigueur
Date de dépôt 2016-11-23
Date de la première publication 2017-03-16
Date d'octroi 2017-08-15
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses, methods and techniques for converting a discrete-time quantized signal into a continuous-time, continuously variable signal. An exemplary converter preferably includes: (1) multiple oversampling converters, each processing a different frequency band, operated in parallel; (2) multirate (i.e., polyphase) delta-sigma modulators (preferably second-order or higher); (3) multi-bit quantizers; (4) multi-bit-to-variable-level signal converters, such as resistor ladder networks or current source networks; (5) adaptive nonlinear, bit-mapping to compensate for mismatches in the multi-bit-to-variable-level signal converters (e.g., by mimicking such mismatches and then shifting the resulting noise to a frequently range where it will be filtered out by a corresponding bandpass (reconstruction) filter); (6) multi-band (e.g., programmable noise-transfer-function response) bandpass delta-sigma modulators; and/or (7) a digital pre-distortion linearizer (DPL) for canceling noise and distortion introduced by an analog signal bandpass (reconstruction) filter bank.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle
  • H03M 1/66 - Convertisseurs numériques/analogiques
  • H03M 1/10 - Calibrage ou tests
  • H04L 27/36 - Circuits de modulationCircuits émetteurs
  • H03M 9/00 - Conversion parallèle/série ou vice versa
  • H03M 7/30 - CompressionExpansionÉlimination de données inutiles, p. ex. réduction de redondance
  • H03M 1/78 - Conversion simultanée utilisant un réseau en échelle

11.

Conversion of a discrete-time quantized signal into a continuous-time, continuously variable signal

      
Numéro d'application 15361385
Numéro de brevet 09680497
Statut Délivré - en vigueur
Date de dépôt 2016-11-26
Date de la première publication 2017-03-16
Date d'octroi 2017-06-13
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses, methods and techniques for converting a discrete-time quantized signal into a continuous-time, continuously variable signal. An exemplary converter preferably includes: (1) multiple oversampling converters, each processing a different frequency band, operated in parallel; (2) multirate (i.e., polyphase) delta-sigma modulators (preferably second-order or higher); (3) multi-bit quantizers; (4) multi-bit-to-variable-level signal converters, such as resistor ladder networks or current source networks; (5) adaptive nonlinear, bit-mapping to compensate for mismatches in the multi-bit-to-variable-level signal converters (e.g., by mimicking such mismatches and then shifting the resulting noise to a frequently range where it will be filtered out by a corresponding bandpass (reconstruction) filter); (6) multi-band (e.g., programmable noise-transfer-function response) bandpass delta-sigma modulators; and/or (7) a digital pre-distortion linearizer (DPL) for canceling noise and distortion introduced by an analog signal bandpass (reconstruction) filter bank.

Classes IPC  ?

  • H03M 1/06 - Compensation ou prévention continue de l'influence indésirable de paramètres physiques
  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle

12.

Sampling/quantization converters

      
Numéro d'application 15251689
Numéro de brevet 09621175
Statut Délivré - en vigueur
Date de dépôt 2016-08-30
Date de la première publication 2016-12-22
Date d'octroi 2017-04-11
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses, methods and techniques for converting a continuous-time, continuously variable signal into a sampled and quantized signal. One such apparatus includes an input line for accepting an input signal that is continuous in time and continuously variable, multiple processing branches coupled to the input line, and an adder coupled to outputs of the processing branches, with each of the processing branches including a bandpass noise-shaping circuit, a sampling/quantization circuit coupled to an output of the bandpass noise-shaping circuit, a digital bandpass filter coupled to an output of the sampling/quantization circuit, and a line coupling an output of the sampling/quantization converter circuit back into the bandpass noise-shaping circuit. A center frequency of the digital bandpass filter in each processing branch corresponds to a stopband region in a quantization noise transfer function for the bandpass noise-shaping circuit in the same processing branch.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle
  • H03M 1/06 - Compensation ou prévention continue de l'influence indésirable de paramètres physiques
  • H03M 1/34 - Valeur analogique comparée à des valeurs de référence

13.

Conversion of a discrete-time quantized signal into a continuous-time, continuously variable signal

      
Numéro d'application 14997504
Numéro de brevet 09509331
Statut Délivré - en vigueur
Date de dépôt 2016-01-16
Date de la première publication 2016-11-29
Date d'octroi 2016-11-29
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses, methods and techniques for converting a discrete-time quantized signal into a continuous-time, continuously variable signal. An exemplary converter preferably includes: (1) multiple oversampling converters, each processing a different frequency band, operated in parallel; (2) multirate (i.e., polyphase) delta-sigma modulators (preferably second-order or higher); (3) multi-bit quantizers; (4) multi-bit-to-variable-level signal converters, such as resistor ladder networks or current source networks; (5) adaptive nonlinear, bit-mapping to compensate for mismatches in the multi-bit-to-variable-level signal converters (e.g., by mimicking such mismatches and then shifting the resulting noise to a frequently range where it will be filtered out by a corresponding bandpass (reconstruction) filter); (6) multi-band (e.g., programmable noise-transfer-function response) bandpass delta-sigma modulators; and/or (7) a digital pre-distortion linearizer (DPL) for canceling noise and distortion introduced by an analog signal bandpass (reconstruction) filter bank.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle
  • H03M 9/00 - Conversion parallèle/série ou vice versa

14.

Generation of high-rate sinusoidal sequences

      
Numéro d'application 15205817
Numéro de brevet 09772972
Statut Délivré - en vigueur
Date de dépôt 2016-07-08
Date de la première publication 2016-11-03
Date d'octroi 2017-09-26
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses methods and techniques for generating discrete-time sinusoidal sequences. One such apparatus includes a plurality of parallel processing branches, with each of the parallel processing branches operating at a subsampled rate and utilizing a recursive filter to generate sub-rate samples which represent a different subsampling phase of a complete signal that is output by the apparatus.

Classes IPC  ?

  • G06F 1/04 - Génération ou distribution de signaux d'horloge ou de signaux dérivés directement de ceux-ci
  • G06F 1/02 - Générateurs de fonctions numériques
  • G06F 1/03 - Générateurs de fonctions numériques travaillant, au moins partiellement, par consultation de tables
  • G06F 17/14 - Transformations de Fourier, de Walsh ou transformations d'espace analogues
  • H03H 17/04 - Filtres récursifs

15.

Multi-mode sampling/quantization converters

      
Numéro d'application 15209711
Numéro de brevet 09654128
Statut Délivré - en vigueur
Date de dépôt 2016-07-13
Date de la première publication 2016-11-03
Date d'octroi 2017-05-16
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, methods and techniques for converting a continuous-time, continuously variable signal into a sampled and quantized signal. According to one implementation, an apparatus includes multiple processing branches, each including: a bandpass noise-shaping circuit, a sampling/quantization circuit, and a digital bandpass filter. A combining circuit then combines signals at the processing branch outputs into a final output signal. The bandpass noise-shaping circuits include adjustable circuit components for changing their quantization-noise frequency-response minimum, and the digital bandpass filters include adjustable parameters for changing their frequency passbands.

Classes IPC  ?

  • H03M 3/02 - Modulation delta, c.-à-d. modulation différentielle à un bit
  • H03M 1/06 - Compensation ou prévention continue de l'influence indésirable de paramètres physiques
  • H03M 1/36 - Valeur analogique comparée à des valeurs de référence uniquement simultanément, c.-à-d. du type parallèle
  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle

16.

Distributed noise shaping apparatus

      
Numéro d'application 15202677
Numéro de brevet 09634700
Statut Délivré - en vigueur
Date de dépôt 2016-07-06
Date de la première publication 2016-10-27
Date d'octroi 2017-04-25
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses methods and techniques for attenuating the level of unwanted noise and/or distortion in a particular frequency band, without similarly attenuating the level of a desired signal in the same frequency band. One such apparatus includes a distributed network comprising a plurality of reactive impedance segments and gain cells that form transmission paths, over which continuous and quantized versions of an input signal propagate before combining with the input signal itself.

Classes IPC  ?

  • H04B 1/04 - Circuits
  • H04L 27/00 - Systèmes à porteuse modulée
  • H04L 27/28 - Systèmes utilisant des codes à fréquences multiples à émission simultanée de fréquences différentes, chacune représentant un élément de code
  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle

17.

Multi-mode sampling/quantization converters

      
Numéro d'application 14818502
Numéro de brevet 09419637
Statut Délivré - en vigueur
Date de dépôt 2015-08-05
Date de la première publication 2016-08-16
Date d'octroi 2016-08-16
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, methods and techniques for converting a continuous-time, continuously variable signal into a sampled and quantized signal. According to one implementation, an apparatus includes multiple processing branches, each including: a continuous-time quantization-noise-shaping circuit, a sampling/quantization circuit, and a digital bandpass filter. A combining circuit then combines signals at the processing branch outputs into a final output signal. The continuous-time quantization-noise-shaping circuits include adjustable circuit components for changing their quantization-noise frequency-response minimum, and the digital bandpass filters include adjustable parameters for changing their frequency passbands.

Classes IPC  ?

  • H03M 1/06 - Compensation ou prévention continue de l'influence indésirable de paramètres physiques
  • H03M 1/36 - Valeur analogique comparée à des valeurs de référence uniquement simultanément, c.-à-d. du type parallèle
  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle

18.

Distributed combiner for parallel discrete-to-linear converters

      
Numéro d'application 14996497
Numéro de brevet 09685975
Statut Délivré - en vigueur
Date de dépôt 2016-01-15
Date de la première publication 2016-08-04
Date d'octroi 2017-06-20
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses methods and techniques for providing a complete output signal from a set of partial signals, which in turn have been generated by parallel processing paths in the time-interleaved and/or frequency-interleaved conversion of discrete signals to linear signals (i.e., discrete-to-linear conversion). One such apparatus includes a distributed network comprising a plurality of ladder networks through which input signals propagate before being combined to form an output signal.

Classes IPC  ?

  • G06F 7/42 - AdditionSoustraction
  • H03M 1/66 - Convertisseurs numériques/analogiques
  • H03F 3/21 - Amplificateurs de puissance, p. ex. amplificateurs de classe B, amplificateur de classe C comportant uniquement des dispositifs à semi-conducteurs
  • H03M 1/08 - Compensation ou prévention continue de l'influence indésirable de paramètres physiques du bruit
  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle

19.

Sampling/quantization converters

      
Numéro d'application 14944182
Numéro de brevet 09680498
Statut Délivré - en vigueur
Date de dépôt 2015-11-17
Date de la première publication 2016-03-10
Date d'octroi 2017-06-13
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses, methods and techniques for converting a continuous-time, continuously variable signal into a sampled and quantized signal. One such apparatus includes an input line for accepting an input signal that is continuous in time and continuously variable, multiple processing branches coupled to the input line, and an adder coupled to outputs of the processing branches. Each of the processing branches includes a continuous-time quantization-noise-shaping circuit, a sampling/quantization circuit coupled to an output of the continuous-time quantization-noise-shaping circuit, a digital bandpass filter coupled to an output of the sampling/quantization circuit, and a line coupling an output of the digital-to-analog converter circuit back into the continuous-time quantization-noise-shaping circuit. A center frequency of the digital bandpass filter in each the processing branch corresponds to a minimum in a quantization noise transfer function for the continuous-time quantization-noise-shaping circuit in the same processing branch.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle
  • G06F 17/10 - Opérations mathématiques complexes

20.

Conversion of a discrete-time quantized signal into a continuous-time, continuously variable signal

      
Numéro d'application 14697574
Numéro de brevet 09276602
Statut Délivré - en vigueur
Date de dépôt 2015-04-27
Date de la première publication 2016-03-01
Date d'octroi 2016-03-01
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses, methods and techniques for converting a discrete-time quantized signal into a continuous-time, continuously variable signal. An exemplary converter preferably includes: (1) multiple oversampling converters, each processing a different frequency band, operated in parallel; (2) multirate (i.e., polyphase) delta-sigma modulators (preferably second-order or higher); (3) multi-bit quantizers; (4) multi-bit-to-variable-level signal converters, such as resistor ladder networks or current source networks; (5) adaptive nonlinear, bit-mapping to compensate for mismatches in the multi-bit-to-variable-level signal converters (e.g., by mimicking such mismatches and then shifting the resulting noise to a frequently range where it will be filtered out by a corresponding bandpass (reconstruction) filter); (6) multi-band (e.g., programmable noise-transfer-function response) bandpass delta-sigma modulators; and/or (7) a digital pre-distortion linearizer (DPL) for canceling noise and distortion introduced by an analog signal bandpass (reconstruction) filter bank.

Classes IPC  ?

  • H03M 1/66 - Convertisseurs numériques/analogiques
  • H03M 1/74 - Conversion simultanée
  • H03M 1/08 - Compensation ou prévention continue de l'influence indésirable de paramètres physiques du bruit

21.

Distributed noise shaping apparatus

      
Numéro d'application 14810105
Numéro de brevet 09391656
Statut Délivré - en vigueur
Date de dépôt 2015-07-27
Date de la première publication 2016-02-11
Date d'octroi 2016-07-12
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses methods and techniques for attenuating the level of unwanted noise and/or distortion in a particular frequency band, without similarly attenuating the level of a desired signal in the same frequency band. One such apparatus includes a distributed network comprising a plurality of reactive impedance segments and gain cells that form transmission paths, over which continuous and quantized versions of an input signal propagate before combining with the input signal itself.

Classes IPC  ?

  • H04B 1/10 - Dispositifs associés au récepteur pour limiter ou supprimer le bruit et les interférences
  • H04B 1/12 - Montages de neutralisation, d'équilibrage ou de compensation

22.

Generation of high-rate sinusoidal sequences

      
Numéro d'application 14729013
Numéro de brevet 09837989
Statut Délivré - en vigueur
Date de dépôt 2015-06-02
Date de la première publication 2016-01-21
Date d'octroi 2017-12-05
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses methods and techniques for generating discrete-time sinusoidal sequences. One such apparatus includes a plurality of parallel processing branches, with each of the parallel processing branches operating at a subsampled rate and utilizing a recursive filter to generate sub-rate samples which represent a different subsampling phase of a complete signal that is output by the apparatus.

Classes IPC  ?

  • G06F 1/02 - Générateurs de fonctions numériques
  • G06F 1/03 - Générateurs de fonctions numériques travaillant, au moins partiellement, par consultation de tables
  • H03H 17/04 - Filtres récursifs

23.

Multi-mode sampling/quantization converters

      
Numéro d'application 14558640
Numéro de brevet 09130584
Statut Délivré - en vigueur
Date de dépôt 2014-12-02
Date de la première publication 2015-09-08
Date d'octroi 2015-09-08
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, methods and techniques for converting a continuous-time, continuously variable signal into a sampled and quantized signal. According to one implementation, an apparatus includes multiple processing branches, each including: a continuous-time quantization-noise-shaping circuit, a sampling/quantization circuit, and a digital bandpass filter. A combining circuit then combines signals at the processing branch outputs into a final output signal. The continuous-time quantization-noise-shaping circuits include adjustable circuit components for changing their quantization-noise frequency-response minimum, and the digital bandpass filters include adjustable parameters for changing their frequency passbands.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle

24.

Apparatuses and methods for linear to discrete quantization conversion with reduced sampling-variation errors

      
Numéro d'application 14629442
Numéro de brevet 09225353
Statut Délivré - en vigueur
Date de dépôt 2015-02-23
Date de la première publication 2015-06-18
Date d'octroi 2015-12-29
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided is an apparatus for converting a continuous-time, continuously variable signal into a sampled and quantized signal, which includes an input line for accepting an input signal, multiple processing branches coupled to the input line, and an adder coupled to outputs of the plurality of processing branches. Each of the processing branches includes a sampling/quantization circuit and a digital bandpass interpolation filter having an input coupled to an output of the sampling/quantization circuit. The digital bandpass interpolation filters in different ones of the processing branches have frequency responses that are centered at different frequencies. The digital bandpass interpolation filter in at least one of the processing branches includes: (i) a quadrature downconverter, (ii) a first lowpass filter and a second lowpass filter, (iii) a first interpolator and a second interpolator, each having an input for inputting a variable interpolant value, and (iv) a quadrature upconverter.

Classes IPC  ?

  • H03M 1/12 - Convertisseurs analogiques/numériques
  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle
  • H03M 1/08 - Compensation ou prévention continue de l'influence indésirable de paramètres physiques du bruit

25.

Sampling/quantization converters

      
Numéro d'application 14567496
Numéro de brevet 09209829
Statut Délivré - en vigueur
Date de dépôt 2014-12-11
Date de la première publication 2015-04-02
Date d'octroi 2015-12-08
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses, methods and techniques for converting a continuous-time, continuously variable signal into a sampled and quantized signal. One such apparatus includes an input line for accepting an input signal that is continuous in time and continuously variable, multiple processing branches coupled to the input line, and an adder coupled to outputs of the processing branches. Each of the processing branches includes a continuous-time quantization-noise-shaping circuit, a sampling/quantization circuit coupled to an output of the continuous-time quantization-noise-shaping circuit, a digital bandpass filter coupled to an output of the sampling/quantization circuit, and a line coupling an output of the digital-to-analog converter circuit back into the continuous-time quantization-noise-shaping circuit. A center frequency of the digital bandpass filter in each the processing branch corresponds to a minimum in a quantization noise transfer function for the continuous-time quantization-noise-shaping circuit in the same processing branch.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle

26.

Conversion of a discrete time quantized signal into a continuous time, continuously variable signal

      
Numéro d'application 14537122
Numéro de brevet 09048865
Statut Délivré - en vigueur
Date de dépôt 2014-11-10
Date de la première publication 2015-03-05
Date d'octroi 2015-06-02
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses, methods and techniques for converting a discrete-time quantized signal into a continuous-time, continuously variable signal. An exemplary converter preferably includes: (1) multiple oversampling converters, each processing a different frequency band, operated in parallel; (2) multirate (i.e., polyphase) delta-sigma modulators (preferably second-order or higher); (3) multi-bit quantizers; (4) multi-bit-to-variable-level signal converters, such as resistor ladder networks or current source networks; (5) adaptive nonlinear, bit-mapping to compensate for mismatches in the multi-bit-to-variable-level signal converters (e.g., by mimicking such mismatches and then shifting the resulting noise to a frequently range where it will be filtered out by a corresponding bandpass (reconstruction) filter); (6) multi-band (e.g., programmable noise-transfer-function response) bandpass delta-sigma modulators; and/or (7) a digital pre-distortion linearizer (DPL) for canceling noise and distortion introduced by an analog signal bandpass (reconstruction) filter bank.

Classes IPC  ?

  • H03M 1/66 - Convertisseurs numériques/analogiques
  • H03F 1/32 - Modifications des amplificateurs pour réduire la distorsion non linéaire
  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle
  • H03M 1/74 - Conversion simultanée
  • H04L 27/04 - Circuits de modulationCircuits émetteurs

27.

Conversion of a discrete-time quantized signal into a continuous-time, continuously variable signal

      
Numéro d'application 13647301
Numéro de brevet 08896471
Statut Délivré - en vigueur
Date de dépôt 2012-10-08
Date de la première publication 2014-11-25
Date d'octroi 2014-11-25
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses, methods and techniques for converting a discrete-time quantized signal into a continuous-time, continuously variable signal. An exemplary converter preferably includes: (1) multiple oversampling converters, each processing a different frequency band, operated in parallel; (2) multirate (i.e., polyphase) delta-sigma modulators (preferably second-order or higher); (3) multi-bit quantizers; (4) multi-bit-to-variable-level signal converters, such as resistor ladder networks or current source networks; (5) adaptive nonlinear, bit-mapping to compensate for mismatches in the multi-bit-to-variable-level signal converters (e.g., by mimicking such mismatches and then shifting the resulting noise to a frequently range where it will be filtered out by a corresponding bandpass (reconstruction) filter); (6) multi-band (e.g., programmable noise-transfer-function response) bandpass delta-sigma modulators; and/or (7) a digital pre-distortion linearizer (DPL) for canceling noise and distortion introduced by an analog signal bandpass (reconstruction) filter bank.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle
  • H03M 1/74 - Conversion simultanée

28.

Multi-mode sampling/quantization converters

      
Numéro d'application 13844948
Numéro de brevet 08917198
Statut Délivré - en vigueur
Date de dépôt 2013-03-16
Date de la première publication 2014-09-18
Date d'octroi 2014-12-23
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, methods and techniques for converting a continuous-time, continuously variable signal into a sampled and quantized signal. According to one implementation, an apparatus includes multiple processing branches, each including: a continuous-time quantization-noise-shaping circuit, a sampling/quantization circuit, and a digital bandpass filter. A combining circuit then combines signals at the processing branch outputs into a final output signal. The continuous-time quantization-noise-shaping circuits include adjustable circuit components for changing their quantization-noise frequency-response minimum, and the digital bandpass filters include adjustable parameters for changing their frequency passbands.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle
  • H03M 1/12 - Convertisseurs analogiques/numériques

29.

Apparatuses and methods for linear to discrete quantization conversion with reduced sampling variation errors

      
Numéro d'application 14056917
Numéro de brevet 09000967
Statut Délivré - en vigueur
Date de dépôt 2013-10-17
Date de la première publication 2014-02-13
Date d'octroi 2015-04-07
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided is an apparatus for converting a continuous-time, continuously variable signal into a sampled and quantized signal, which includes an input line for accepting an input signal, multiple processing branches coupled to the input line, and an adder coupled to outputs of the plurality of processing branches. Each of the processing branches includes a sampling/quantization circuit and a digital bandpass interpolation filter having an input coupled to an output of the sampling/quantization circuit. The digital bandpass interpolation filters in different ones of the processing branches have frequency responses that are centered at different frequencies. The digital bandpass interpolation filter in at least one of the processing branches includes: (i) a quadrature downconverter, (ii) a first lowpass filter and a second lowpass filter, (iii) a first interpolator and a second interpolator, each having an input for inputting a variable interpolant value, and (iv) a quadrature upconverter.

Classes IPC  ?

  • H03M 1/12 - Convertisseurs analogiques/numériques
  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle

30.

Linear to discrete quantization conversion with reduced sampling variation errors

      
Numéro d'application 13535037
Numéro de brevet 08581768
Statut Délivré - en vigueur
Date de dépôt 2012-06-27
Date de la première publication 2013-11-12
Date d'octroi 2013-11-12
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided is, among other things, an apparatus that includes an input line for accepting an input signal that is continuous in time and continuously variable. Multiple processing branches are coupled to the input line, each including: (a) an analog bandpass filter, (b) a sampling/quantization circuit coupled to an output of the analog bandpass filter, and (c) a digital bandpass filter coupled to an output of the sampling/quantization circuit. An adder is coupled to outputs of the processing branches. The digital bandpass filters in different ones of the processing branches have frequency response bandwidths that are centered at different frequencies, and the analog bandpass filters in different ones of the processing branches have frequency responses with bandwidths that are at least 25% greater than the frequency response bandwidths of the digital bandpass filters in their respective processing branches.

Classes IPC  ?

  • H03M 1/12 - Convertisseurs analogiques/numériques

31.

Conversion of a discrete time quantized signal into a continuous time, continuously variable signal

      
Numéro d'application 13400019
Numéro de brevet 08294605
Statut Délivré - en vigueur
Date de dépôt 2012-02-17
Date de la première publication 2012-10-23
Date d'octroi 2012-10-23
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses, methods and techniques for converting a discrete-time quantized signal into a continuous-time, continuously variable signal. An exemplary converter preferably includes: (1) multiple oversampling converters, each processing a different frequency band, operated in parallel; (2) multirate (i.e., polyphase) delta-sigma modulators (preferably second-order or higher); (3) multi-bit quantizers; (4) multi-bit-to-variable-level signal converters, such as resistor ladder networks or current source networks; (5) adaptive nonlinear, bit-mapping to compensate for mismatches in the multi-bit-to-variable-level signal converters (e.g., by mimicking such mismatches and then shifting the resulting noise to a frequently range where it will be filtered out by a corresponding bandpass (reconstruction) filter); (6) multi-band (e.g., programmable noise-transfer-function response) bandpass delta-sigma modulators; and/or (7) a digital pre-distortion linearizer (DPL) for canceling noise and distortion introduced by an analog signal bandpass (reconstruction) filter bank.

Classes IPC  ?

  • H03M 1/66 - Convertisseurs numériques/analogiques

32.

Sampling/quantization converters

      
Numéro d'application 13363517
Numéro de brevet 08943112
Statut Délivré - en vigueur
Date de dépôt 2012-02-01
Date de la première publication 2012-05-24
Date d'octroi 2015-01-27
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses, methods and techniques for converting a continuous-time, continuously variable signal into a sampled and quantized signal. One such apparatus includes an input line for accepting an input signal that is continuous in time and continuously variable, multiple processing branches coupled to the input line, and an adder coupled to outputs of the processing branches. Each of the processing branches includes a continuous-time quantization-noise-shaping circuit, a sampling/quantization circuit coupled to an output of the continuous-time quantization-noise-shaping circuit, a digital bandpass filter coupled to an output of the sampling/quantization circuit, and a line coupling an output of the digital-to-analog converter circuit back into the continuous-time quantization-noise-shaping circuit. A center frequency of the digital bandpass filter in each the processing branch corresponds to a minimum in a quantization noise transfer function for the continuous-time quantization-noise-shaping circuit in the same processing branch.

Classes IPC  ?

  • G06F 17/15 - Calcul de fonction de corrélation
  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle

33.

Sampling/quantization converters

      
Numéro d'application 13304588
Numéro de brevet 08604957
Statut Délivré - en vigueur
Date de dépôt 2011-11-25
Date de la première publication 2012-03-22
Date d'octroi 2013-12-10
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, methods and techniques for converting a continuous-time, continuously variable signal into a sampled and quantized signal. According to one representative embodiment, an apparatus includes multiple quantization-noise-shaping continuous-time filters, each in a separate processing branch and having an adder that includes multiple inputs and an output; an input signal is coupled to one of the inputs of the adder; the output of the adder is coupled to one of the inputs of the adder through a first filter; and the output of a sampling/quantization circuit in the same processing branch is coupled to one of the inputs of the adder through a second filter, with the second filter having a different transfer function than the first filter.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle

34.

Multi-bit sampling and quantizing circuit

      
Numéro d'application 13227668
Numéro de brevet 08819101
Statut Délivré - en vigueur
Date de dépôt 2011-09-08
Date de la première publication 2012-03-08
Date d'octroi 2014-08-26
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses methods and techniques for performing multi-bit quantization. One such apparatus includes an input signal line; a first comparator having a first input coupled to the input signal line, a second input coupled to a first reference signal, and an output; a rectifier having an input coupled to the input signal line and also having an output; and a second comparator having a first input coupled to the output of the rectifier, a second input coupled to a second reference signal, and an output, with the first comparator and the second comparator being clocked so as to produce sequences of quantized samples at substantially the same times.

Classes IPC  ?

  • G06G 7/00 - Dispositifs dans lesquels l'opération de calcul est effectuée en faisant varier des grandeurs électriques ou magnétiques
  • H03M 1/36 - Valeur analogique comparée à des valeurs de référence uniquement simultanément, c.-à-d. du type parallèle

35.

Multimode sampling/quantization converters

      
Numéro d'application 12985214
Numéro de brevet 08416111
Statut Délivré - en vigueur
Date de dépôt 2011-01-05
Date de la première publication 2011-07-07
Date d'octroi 2013-04-09
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, methods and techniques for converting a continuous-time, continuously variable signal into a sampled and quantized signal. According to one implementation, an apparatus includes multiple processing branches, each including: a continuous-time quantization-noise-shaping circuit, a sampling/quantization circuit, and a digital bandpass filter. A combining circuit then combines signals at the processing branch outputs into a final output signal. The continuous-time quantization-noise-shaping circuits include adjustable circuit components for changing their quantization-noise frequency-response minimum, and the digital bandpass filters include adjustable parameters for changing their frequency passbands.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle

36.

Conversion of a discrete time quantized signal into a continuous time, continuously variable signal

      
Numéro d'application 12970379
Numéro de brevet 08264390
Statut Délivré - en vigueur
Date de dépôt 2010-12-16
Date de la première publication 2011-06-16
Date d'octroi 2012-09-11
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, apparatuses, methods and techniques for converting a discrete-time quantized signal into a continuous-time, continuously variable signal. An exemplary converter preferably includes: (1) multiple oversampling converters, each processing a different frequency band, operated in parallel; (2) multirate (i.e., polyphase) delta-sigma modulators (preferably second-order or higher); (3) multi-bit quantizers; (4) multi-bit-to-variable-level signal converters, such as resistor ladder networks or current source networks; (5) adaptive non-linear, bit-mapping to compensate for mismatches in the multi-bit-to-variable-level signal converters (e.g., by mimicking such mismatches and then shifting the resulting noise to a frequently range where it will be filtered out by a corresponding bandpass (reconstruction) filter); (6) multi-band (e.g., programmable noise-transfer-function response) bandpass delta-sigma modulators; and/or (7) a digital pre-distortion linearizer (DPL) for canceling noise and distortion introduced by an analog signal bandpass (reconstruction) filter bank.

Classes IPC  ?

  • H03M 1/66 - Convertisseurs numériques/analogiques

37.

Sampling/quantization converters

      
Numéro d'application 12985238
Numéro de brevet 08299947
Statut Délivré - en vigueur
Date de dépôt 2011-01-05
Date de la première publication 2011-04-28
Date d'octroi 2012-10-30
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, methods and techniques for converting a continuous-time, continuously variable signal into a sampled and quantized signal. According to one representative embodiment, an apparatus includes multiple continuous-time quantization-noise-shaping circuits, each in a separate processing branch and having an adder that includes multiple inputs and an output; an input signal is coupled to one of the inputs of the adder; the output of the adder is coupled to one of the inputs of the adder through a first filter; and the output of a sampling/quantization circuit in the same processing branch is coupled to one of the inputs of the adder through a second filter, with the second filter having a different transfer function than the first filter.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle

38.

Sampling/quantization converters

      
Numéro d'application 12824171
Numéro de brevet 08089382
Statut Délivré - en vigueur
Date de dépôt 2010-06-26
Date de la première publication 2010-12-30
Date d'octroi 2012-01-03
Propriétaire PAGNANELLI FAMILY TRUST (USA)
Inventeur(s) Pagnanelli, Christopher

Abrégé

Provided are, among other things, systems, methods and techniques for converting a continuous-time, continuously variable signal into a sampled and quantized signal. According to one representative embodiment, an apparatus includes multiple quantization-noise-shaping continuous-time filters, each in a separate processing branch and having an adder that includes multiple inputs and an output; an input signal is coupled to one of the inputs of the adder; the output of the adder is coupled to one of the inputs of the adder through a first filter; and the output of a sampling/quantization circuit in the same processing branch is coupled to one of the inputs of the adder through a second filter, with the second filter having a different transfer function than the first filter.

Classes IPC  ?

  • H03M 3/00 - Conversion de valeurs analogiques en, ou à partir d'une modulation différentielle