公开(公告)号：WO2012125774A2

公开(公告)日：2012-09-20

申请号：PCT/US2012029138

申请日：2012-03-14

Applicant: INTEL CORP ,  PAN HELEN KANKAN ,  RUBERTO MARK ,  HORINE BRYCE D ,  RAVID SHMUEL

Inventor： PAN HELEN KANKAN ,  RUBERTO MARK ,  HORINE BRYCE D ,  RAVID SHMUEL

IPC: H01Q21/06 ,  H04B7/04

CPC classification number: H01Q21/067 ,  H01P11/001 ,  H01Q1/20 ,  H01Q1/2266 ,  H01Q1/2291 ,  H01Q3/34 ,  H01Q3/36 ,  H01Q7/00 ,  H01Q13/085 ,  H01Q13/16 ,  H01Q21/0087 ,  H01Q21/064 ,  H01Q21/24 ,  H01Q25/00 ,  H04B7/0413 ,  H04B7/10 ,  Y10T29/49016 ,  Y10T29/49018

Abstract: Embodiments of wireless antenna array systems to achieve three-dimensional beam coverage are described herein. Disclosed is an integrated multiple phased antenna array on a flexible substrate with one RFIC. In this way the module can be molded onto the contour of a platform such as a notebook or a hub of the personal area network or local area network. The multiple phased array can be 3D bent in a compact size to fit into thin mobile platforms. Different array antennas or antennas radiate in different spherical directions with beam scanning capabilities while driven simultaneously by one RFIC chip.

Abstract translation: 本文描述了实现三维波束覆盖的无线天线阵列系统的实施例。 公开了一种在具有一个RFIC的柔性基板上的集成多相位天线阵列。 以这种方式，模块可以模制到诸如个人区域网络或局域网的笔记本或集线器之类的平台的轮廓上。 多个相控阵列可以以紧凑的尺寸进行3D弯曲，以适应薄移动平台。 不同的阵列天线或天线在具有光束扫描能力的不同球面方向上辐射，同时由一个RFIC芯片驱动。

公开(公告)号：DE112017006442T5

公开(公告)日：2019-09-19

申请号：DE112017006442

申请日：2017-12-20

Applicant: INTEL CORP

Inventor： ALPMAN ERKAN ,  AMADJIKPE ARNAUD ,  OSAF OMER ,  AZADET KAMERAN ,  BANIN ROTEM ,  BARYAKH MIROSLAV ,  BAZOV ANAT ,  BRENNA STEFANO ,  CASPER BRYAN ,  CHAKRABARTI ANANDAROOP ,  CHANCE GREGORY ,  COHEN EMANUEL ,  DA SILVA CLAUDIO ,  DALMIA SIDHARTH ,  DANESHGAR SAEID ,  DASGUPTA KAUSHIK ,  DATTA KUNAL ,  DAVIS BRANDON ,  DEGANI OFIR ,  FREIMAN AMIT ,  GENOSSAR MICHAEL ,  GERSON ERAN ,  GOLDBERGER EYAL ,  GORDON MEIR ,  GORDON ESHEL ,  HAGN JOSEF ,  KANG SHINWON ,  KAO TE-YU ,  KITCHIN DUNCAN ,  KOGAN NOAM ,  KOMULAINEN MIKKO ,  KUSHNIR IGAL ,  LAHTI SAKU ,  LAMPINEN MIKKO M ,  LANDSBERG NAFTALI ,  LEE WOOK BONG ,  LEVINGER RUN ,  MOLINA ALBERT ,  MONTOYA RESTI ,  MUSAH TAWFIQ ,  NAREVSKY NATHAN ,  NIKOPOUR HOSEIN ,  ORHAN ONER ,  PALASKAS GEORGIOS ,  PELLERANO STEFANO ,  PONGRATZ RON ,  RAVID SHMUEL ,  SAGAZIO PETER ,  SASOGLU ERAN ,  SHAKEDD LIOR ,  SHOR GADI ,  SINGH BALJIT ,  SOFFER MENASHE ,  SOVER RAANAN ,  TALWAR SHILPA ,  TANZI NEBIL ,  TEPLITSKY MOSHE ,  THAKKAR CHINTAN ,  THAKUR JAYPRAKASH ,  TSFATI YOSSI ,  VERHELST MARIAN ,  WEISMAN NIR ,  YAMADA SHUHEI ,  YEPES ANA M

IPC: H04B7/10 ,  H01Q1/22 ,  H01Q1/24 ,  H01Q9/04 ,  H01Q21/24 ,  H04B1/3827 ,  H04B1/40 ,  H04L25/02

Abstract: Millimeterwellen- (mmWellen-) Technologie, Einrichtungen und Verfahren, die sich auf Sendeempfänger, Empfänger und Antennenstrukturen für drahtlose Kommunikation beziehen, sind beschrieben. Die verschiedenen Aspekte weisen unter anderem Millimeterwellen- (mmWellen-) und Nahbereichskommunikation- (NFC-) Antennen am gleichen Ort, skalierbare Funk-Sendeempfängerarchitekturen einer phasengesteuerten Gruppe (SPARTA), verteiltes Kommunikationssystem mit phasengesteuerter Gruppe mit MIMO-Unterstützung und Phasenrauschensynchronisation über ein einzelnes Koax-Kabel, Kommunizieren von RF-Signalen über Kabel (RFoC) in einem verteilten Kommunikationssystem mit phasengesteuerter Gruppe, Taktrauschenleckverlustreduktion, IF-zu-RF-Begleit-Chip für Aufwärts- und Abwärtskompatibilität und Modularität, baugruppeninterne Anpassungsnetze, skalierbare 5G-Empfänger- (Rx-) Architektur auf.

公开(公告)号：EP2686908A4

公开(公告)日：2014-09-03

申请号：EP12758343

申请日：2012-03-14

Applicant: INTEL CORP

Inventor： PAN HELEN KANKAN ,  RUBERTO MARK ,  HORINE BRYCE D ,  RAVID SHMUEL

IPC: H01Q21/06 ,  H04B7/04

CPC classification number: H01Q21/067 ,  H01P11/001 ,  H01Q1/20 ,  H01Q1/2266 ,  H01Q1/2291 ,  H01Q3/34 ,  H01Q3/36 ,  H01Q7/00 ,  H01Q13/085 ,  H01Q13/16 ,  H01Q21/0087 ,  H01Q21/064 ,  H01Q21/24 ,  H01Q25/00 ,  H04B7/0413 ,  H04B7/10 ,  Y10T29/49016 ,  Y10T29/49018

Abstract: A system according to one embodiment includes a first antenna element configured to communicate a first signal, the first signal polarized in a first orientation; a second antenna element co-located with the first antenna element, the second antenna element configured to communicate a second signal, the second signal polarized in a second orientation, the second orientation orthogonal to the first orientation; and driver circuitry coupled to the first antenna element and the second antenna element, the driver circuitry configured to process the first signal and the second signal to achieve signal diversity in a wireless communication link.