Tune your world view through poLight® technology

Welcome to poLight®, a global player in tunable optics with its patented TLens® products shipping in the consumer, barcode scanner, industrial, augmented reality and other target markets such as mobile, medical etc. to come. Almost two decades of research and development went into replicating the human eye viewing experience which finally resulted in technology that captures astonishing images with instant focus and take imaging applications to the next level.

Official titleFiling dateApplication numberPatent number Country
Polymer lens2007-09-21200780034604.6ZL 200780034604.6China
Polymer lens2007-09-2107834749.92074465Germany
Polymer lens2007-09-2107834749.92074465European Patent Application
Polymer lens2007-09-2107834749.92074465France
Polymer lens2007-09-2107834749.92074465United Kingdom
Polymer lens2007-09-212009-5291435581053Japan
Compact polymer lens2007-09-212009-5291445323704Japan
Polymer lens2007-09-212009-700794010-1496157South Korea (KR)
Polymer lens2007-09-21PCT/NO2007/000332PCT
Compact polymer lens2007-09-21PCT/NO2007/00033307834750.7PCT
Polymer lens2007-09-2112/442,3238,199,410USA
A METHOD AND ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES2009-07-0909794692.52313798Switzerland
A METHOD AND ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES2009-07-09201610806662.7ZL201610806662.7China
VERFAHREN UND ANORDNUNG ZUR MINIMIERUNG THERMISCHER EFFEKTE BEI ANPASSBAREN OPTISCHEN KOMPAKTLINSEN2009-07-0909794692.52313798Germany
A METHOD AND ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES2009-07-0909794692.52313798European Patent Application
A METHOD AND ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES2009-07-0909794692.52313798Finland
A METHOD AND ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES2009-07-0909794692.52313798France
A METHOD AND ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES2009-07-0909794692.52313798United Kingdom
A METHOD AND ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES2009-07-0909794692.52313798Italy
A METHOD AND ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES2009-07-092011-5173725580819Japan
A METHOD AND ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES2009-07-0910-2011-700297210-1372042South Korea (KR)
A METHOD AND ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES2009-07-0909794692.52313798Netherlands
A METHOD AND ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES2009-07-09PCT/NO2009/00025509794692.5PCT
A METHOD AND ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES2009-07-0909794692.52313798Poland
A METHOD AND ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES2009-07-0909794692.52313798Türkiye
A METHOD AND ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES2009-07-0913/002,7068,310,772USA
FLEXIBLE LENS ASSEMBLY WITH VARIABLE FOCAL LENGTH2008-02-12CN 200880011828.XZL200880011828.XChina
FLEXIBLE LENS ASSEMBLY WITH VARIABLE FOCAL LENGTH2008-02-1208712671.02115500Germany
FLEXIBLE LENS ASSEMBLY WITH VARIABLE FOCAL LENGTH2008-02-1208712671.02115500European Patent Application
FLEXIBLE LENS ASSEMBLY WITH VARIABLE FOCAL LENGTH2008-02-1208712671.02115500France
FLEXIBLE LENS ASSEMBLY WITH VARIABLE FOCAL LENGTH2008-02-122009-5490255362587Japan
FLEXIBLE LENS ASSEMBLY WITH VARIABLE FOCAL LENGTH2008-02-1210-2009-701889210-1452011South Korea (KR)
FLEXIBLE LENS ASSEMBLY WITH VARIABLE FOCAL LENGTH2008-02-12PCT/NO2008/000056PCT
FLEXIBLE LENS ASSEMBLY WITH VARIABLE FOCAL LENGTH2008-02-1212/526,7638,390,939USA
DESIGN OF COMPACT ADJUSTABLE LENS2007-10-05200780037794.7ZL200780037794.7China
DESIGN OF COMPACT ADJUSTABLE LENS2007-10-0507834763.02074444European Patent Application
DESIGN OF COMPACT ADJUSTABLE LENS2007-10-0507834763.02074444Italy
DESIGN OF COMPACT ADJUSTABLE LENS2007-10-052009-5323175244806Japan
DESIGN OF COMPACT ADJUSTABLE LENS2007-10-0510-2009-700947710-1360455South Korea (KR)
DESIGN OF COMPACT ADJUSTABLE LENS2007-10-05PCT/NO2007/000350PCT
DESIGN OF COMPACT ADJUSTABLE LENS2007-10-0507834763.02074444Sweden
DESIGN OF COMPACT ADJUSTABLE LENS2007-10-0512/445,2728,045,280USA
METHOD FOR MANUFACTURING ADJUSTABLE LENS2007-10-05200780037696.3ZL200780037696.3China
METHOD FOR MANUFACTURING ADJUSTABLE LENS2007-10-0507834764.82074445European Patent Application
METHOD FOR MANUFACTURING ADJUSTABLE LENS2007-10-0507834764.82074445Italy
METHOD FOR MANUFACTURING ADJUSTABLE LENS2007-10-0510-2009-700947810-1360545South Korea (KR)
METHOD FOR MANUFACTURING ADJUSTABLE LENS2007-10-05PCT/NO2007/000351PCT
METHOD FOR MANUFACTURING ADJUSTABLE LENS2007-10-0512/445,2748,883,019USA
A DEVICE FOR PROVIDING STABILIZED IMAGES IN A HAND HELD CAMERA2008-02-12200880011790.6ZL200880011790.6China
A DEVICE FOR PROVIDING STABILIZED IMAGES IN A HAND HELD CAMERA2008-02-12PCT/NO2008/000055PCT
Method for optimizing a piezoelectric actuator structure for a deformable lens2013-09-18201380061689.2ZL201380061689.2China
Method for optimizing a piezoelectric actuator structure for a deformable lens2013-09-1813770857.42901200European Patent Application
Method for optimizing a piezoelectric actuator structure for a deformable lens2013-09-1813770857.42901200France
Method for optimizing a piezoelectric actuator structure for a deformable lens2013-09-182015-5335366051310Japan
Method for optimizing a piezoelectric actuator structure for a deformable lens2013-09-18PCT/EP2013/069390PCT
Method for optimizing a piezoelectric actuator structure for a deformable lens2013-09-1814/430,3449,964,672USA
Deformable polymeric lens2013-03-1813159696.72781939Switzerland
Deformable polymeric lens2013-09-13201310419470.7ZL 201310419470.7China
Deformable polymeric lens2013-03-1813159696.72781939Germany
Deformable polymeric lens2013-03-1813159696.72781939European Patent Application
Deformable polymeric lens2013-03-1813159696.72781939Spain
Deformable polymeric lens2013-03-1813159696.72781939France
Deformable polymeric lens2013-03-1813159696.72781939United Kingdom
Deformable polymeric lens2013-03-1813159696.72781939Italy
Deformable polymeric lens2013-09-132016-2176996340058Japan
A transparent optical device element2014-03-1810-2015-702909710-1819810South Korea (KR)
Deformable polymeric lens2013-03-1813159696.72781939Netherlands
A transparent optical device element2014-03-18PCT/EP2014/055391PCT
A transparent optical device element2013-09-13102133209I615640Taiwan
A transparent optical device element2013-09-13106127321I651550Taiwan
Transparent optical device element2014-03-1814/777,2659,581,737USA
A transparent optical device element2014-03-1815/294,29010,288,777USA
A Turnable microlens with a variable structure element2015-07-1720152890462015289046Australia
A Turnable microlens with a variable structure element2015-07-1715741156.23170038Bulgaria
A Turnable microlens with a variable structure element2015-07-172,955,7342,955,734Canada
A Turnable microlens with a variable structure element2015-07-1715741156.23170038Switzerland
A Turnable microlens with a variable structure element2015-07-1715741156.23170038Germany
A Turnable microlens with a variable structure element2015-07-1715741156.23170038European Patent Application
A Turnable microlens with a variable structure element2015-07-1715741156.23170038France
A Turnable microlens with a variable structure element2015-07-1715741156.23170038United Kingdom
A Turnable microlens with a variable structure element2015-07-1717112261.81238347 BHong Kong
A Turnable microlens with a variable structure element2015-07-1715741156.23170038Hungary
A Turnable microlens with a variable structure element2015-07-17201717001662391278India
A Turnable microlens with a variable structure element2015-07-172017-5022456767357Japan
A Turnable microlens with a variable structure element2015-07-1710-2017-700469310-2432488South Korea (KR)
A Turnable microlens with a variable structure element2015-07-1715741156.23170038Netherlands
A Turnable microlens with a variable structure element2015-07-17PCT/EP2015/06649015741156.2PCT
A Turnable microlens with a variable structure element2015-07-1715741156.23170038Portugal
A Turnable microlens with a variable structure element2015-07-1715741156.23170038Romania
A Turnable microlens with a variable structure element2015-07-1715/325,70610,473,900USA
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-17BR112017000999-4BR112017000999-4Brazil
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-17201790226032785Belarus
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-17201580049250.7ZL 201580049250.7China
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-1715738685.53170037Germany
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-1715738685.53170037Denmark
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-17201790226032785Eurasian Patent
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-1715738685.53170037European Patent Application
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-1715738685.53170037Spain
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-1715738685.53170037Finland
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-1715738685.53170037France
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-1715738685.53170037United Kingdom
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-1717112267.21238348 BHong Kong
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-17201717001648516721India
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-1715738685.53170037Italy
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-1715738685.53170037Norway
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-17PCT/EP2015/06649115738685.5PCT
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-17201790226032785Russian Federation
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-1715738685.53170037Sweden
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-1715738685.53170037Türkiye
PIEZOELECTRICALLY ACTUATED OPTICAL LENS2015-07-1715/325,68110,001,629USA
DEPTH MAP BASED PERSPECTIVE CORRECTION IN DIGITAL PHOTOS2015-09-04201580057165.5ZL201580057165.5China
DEPTH MAP BASED PERSPECTIVE CORRECTION IN DIGITAL PHOTOS2015-09-04PCT/EP2015/07024615766077.0PCT
DEPTH MAP BASED PERSPECTIVE CORRECTION IN DIGITAL PHOTOS2015-09-0415/508,39010,154,241USA
ELECTRONIC CIRCUIT FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD2017-01-06201780006023.5ZL 201780006023.5China
ELECTRONIC CIRCUIT FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD2016-01-0616150334.73190637Germany
ELECTRONIC CIRCUIT FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD2016-01-0616150334.73190637European Patent Application
ELECTRONIC CIRCUIT FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD2016-01-0616150334.73190637France
ELECTRONIC CIRCUIT FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD2016-01-0616150334.73190637United Kingdom
ELECTRONIC CIRCUIT FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD2017-01-06201817024102475095India
ELECTRONIC CIRCUIT FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD2017-01-062018-5350427169876Japan
ELECTRONIC CIRCUIT FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD2017-01-0610-2018-7021468South Korea (KR)
ELECTRONIC CIRCUIT FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD2017-01-06PCT/EP2017/05026717700501.4PCT
ELECTRONIC CIRCUIT FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD2017-01-0616/061,96610,720,857USA
ADAPTIVE LENS2018-06-28112019027960-1BR112019027960-1Brazil
ADAPTIVE LENS2018-06-28202211387302.XChina
ADAPTIVE LENS2018-06-2818736850.13646067European Patent Application
ADAPTIVE LENS2018-06-28P00202000701IDP000084856Indonesia
ADAPTIVE LENS2018-06-282019-5692197304292Japan
ADAPTIVE LENS2018-06-2810-2020-700297610-2624410South Korea (KR)
ADAPTIVE LENS2018-06-28PCT/EP2018/06738618736850.1PCT
ADAPTIVE LENS2018-06-2816/623,69811,693,159USA
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2718710370.03586175Switzerland
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-27201880013930.7ZL 201880013930.7China
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2718710370.03586175Germany
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2718710370.03586175Denmark
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2718710370.03586175European Patent Application
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2718710370.03586175Spain
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2718710370.03586175Finland
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2718710370.03586175France
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2718710370.03586175United Kingdom
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2718710370.03586175Italy
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-272019-5673987377110Japan
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2710-2019-702745410-2577908South Korea (KR)
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2718710370.03586175Norway
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-27PCT/EP2018/054804PCT
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2718710370.03586175Portugal
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2718710370.03586175Sweden
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2718710370.03586175Türkiye
LOW WAVEFRONT ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT2018-02-2716/487,76311,029,511USA
A MODULE WITH A PLURALITY OF CAMERAS FOR INTEGRATION IN A MOBILE DEVICE2018-06-2818737558.93646100Germany
A MODULE WITH A PLURALITY OF CAMERAS FOR INTEGRATION IN A MOBILE DEVICE2018-06-2818737558.93646100European Patent Application
A MODULE WITH A PLURALITY OF CAMERAS FOR INTEGRATION IN A MOBILE DEVICE2018-06-2818737558.93646100France
A MODULE WITH A PLURALITY OF CAMERAS FOR INTEGRATION IN A MOBILE DEVICE2018-06-2818737558.93646100United Kingdom
A MODULE WITH A PLURALITY OF CAMERAS FOR INTEGRATION IN A MOBILE DEVICE2018-06-282019-5692347144458Japan
A MODULE WITH A PLURALITY OF CAMERAS FOR INTEGRATION IN A MOBILE DEVICE2018-06-28PCT/EP2018/06751018737558.9PCT
LENS ASSEMBLY FOR OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT2018-06-2820182945092018294509Australia
LENS ASSEMBLY FOR OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT2018-06-28201880056027.9ZL 201880056027.9China
LENS ASSEMBLY FOR OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT2018-06-28202090160039634Eurasian Patent
LENS ASSEMBLY FOR OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT2018-06-2818737559.73646068European Patent Application
LENS ASSEMBLY FOR OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT2018-06-2862020019284.2Hong Kong
LENS ASSEMBLY FOR OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT2018-06-28202017003073India
LENS ASSEMBLY FOR OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT2018-06-282019-5692207063921Japan
LENS ASSEMBLY FOR OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT2018-06-2810-2020-700287410-2692744South Korea (KR)
LENS ASSEMBLY FOR OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT2018-06-28PCT/EP2018/06751118737559.7PCT
LENS ASSEMBLY FOR OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT2018-06-28202090160039634Russian Federation
LENS ASSEMBLY FOR OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT2018-06-2816/623,72611,231,528USA
LENS ASSEMBLY FOR OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT2018-06-281-2020-00402Viet Nam
OPTICAL ELEMENT WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE2019-05-24201980034896.6ZL 201980034896.6China
OPTICAL ELEMENT WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE2019-05-2419725740.5European Patent Application
OPTICAL ELEMENT WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE2019-05-2462021039732.4Hong Kong
OPTICAL ELEMENT WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE2019-05-242020-5604087355756Japan
OPTICAL ELEMENT WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE2019-05-2410-2020-7037026South Korea (KR)
OPTICAL ELEMENT WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE2019-05-24PCT/EP2019/06350219725740.5PCT
OPTICAL ELEMENT WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE2019-05-2412020551962Philippines
OPTICAL ELEMENT WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE2019-05-2417/051,64211,448,849USA
Determining and applying a voltage to a piezoelectric actuator2019-03-07201980030945.9ZL 201980030945.9China
Determining and applying a voltage to a piezoelectric actuator2018-03-0718160414.13537488Germany
Determining and applying a voltage to a piezoelectric actuator2018-03-0718160414.13537488Denmark
Determining and applying a voltage to a piezoelectric actuator2018-03-0718160414.13537488European Patent Application
Determining and applying a voltage to a piezoelectric actuator2018-03-0718160414.13537488Finland
Determining and applying a voltage to a piezoelectric actuator2018-03-0718160414.13537488France
Determining and applying a voltage to a piezoelectric actuator2018-03-0718160414.13537488United Kingdom
Determining and applying a voltage to a piezoelectric actuator2018-03-0718160414.13537488Italy
Determining and applying a voltage to a piezoelectric actuator2019-03-07PCT/EP2019/05565319708550.9PCT
Determining and applying a voltage to a piezoelectric actuator2018-03-0718160414.13537488Sweden
Determining and applying a voltage to a piezoelectric actuator2019-03-0716/978,56111,870,371USA
OPTICAL DEVICE WITH A LIGHT RAY DEFLECTOR2019-10-11201980067317.8ZL201980067317.8China
OPTICAL DEVICE WITH A LIGHT RAY DEFLECTOR2019-10-1119786329.33864445European Patent Application
OPTICAL DEVICE WITH A LIGHT RAY DEFLECTOR2019-10-1119786329.33864445United Kingdom
OPTICAL DEVICE WITH A LIGHT RAY DEFLECTOR2019-10-1162022047849.4HK40059472Hong Kong
OPTICAL DEVICE WITH A LIGHT RAY DEFLECTOR2019-10-112021-5164897448529Japan
OPTICAL DEVICE WITH A LIGHT RAY DEFLECTOR2019-10-1110-2021-7013178South Korea (KR)
OPTICAL DEVICE WITH A LIGHT RAY DEFLECTOR2019-10-11PCT/EP2019/07760819786329.3PCT
OPTICAL DEVICE WITH A LIGHT RAY DEFLECTOR2019-10-1119786329.33864445Unitary Patent
OPTICAL DEVICE WITH A LIGHT RAY DEFLECTOR2019-10-1117/283,23012,066,619USA
SPECTACLES WITH SANDWICHED POLYMER STRUCTURE2020-08-06BR 112022002173-9Brazil
SPECTACLES WITH SANDWICHED POLYMER STRUCTURE2020-08-06202080056156.5ZL202080056156.5China
SPECTACLES WITH SANDWICHED POLYMER STRUCTURE2020-08-06202290229042494Eurasian Patent
SPECTACLES WITH SANDWICHED POLYMER STRUCTURE2020-08-0620757241.3European Patent Application
SPECTACLES WITH SANDWICHED POLYMER STRUCTURE2020-08-0662022065338.5Hong Kong
SPECTACLES WITH SANDWICHED POLYMER STRUCTURE2020-08-06202217004487India
SPECTACLES WITH SANDWICHED POLYMER STRUCTURE2020-08-062022-501184Japan
SPECTACLES WITH SANDWICHED POLYMER STRUCTURE2020-08-0610-2022-7007661South Korea (KR)
SPECTACLES WITH SANDWICHED POLYMER STRUCTURE2020-08-06PCT/EP2020/07213020757241.3PCT
SPECTACLES WITH SANDWICHED POLYMER STRUCTURE2020-08-06202290229042494Russian Federation
SPECTACLES WITH SANDWICHED POLYMER STRUCTURE2020-08-0617/628,359USA
LIGHT BEAM SCANNER2021-06-29202180053533.4China
LIGHT BEAM SCANNER2021-06-2921737071.7European Patent Application
LIGHT BEAM SCANNER2021-06-29PCT/EP2021/06779821737071.7PCT
LIGHT BEAM SCANNER2021-06-29110123889Taiwan
LIGHT BEAM SCANNER2021-06-2918/002,630USA
CONTROLLABLE LENS ACTUATED VIA FLEXURE JOINTS2021-06-22202180044787.X.China
CONTROLLABLE LENS ACTUATED VIA FLEXURE JOINTS2021-06-2221734833.3European Patent Application
CONTROLLABLE LENS ACTUATED VIA FLEXURE JOINTS2021-06-2262023081110.6Hong Kong
CONTROLLABLE LENS ACTUATED VIA FLEXURE JOINTS2021-06-22202317001670India
CONTROLLABLE LENS ACTUATED VIA FLEXURE JOINTS2021-06-222022-574125Japan
CONTROLLABLE LENS ACTUATED VIA FLEXURE JOINTS2021-06-2210-2023-7002254South Korea (KR)
CONTROLLABLE LENS ACTUATED VIA FLEXURE JOINTS2021-06-22PCT/EP2021/06694821734833.3PCT
CONTROLLABLE LENS ACTUATED VIA FLEXURE JOINTS2021-06-221-2022-553538Philippines
CONTROLLABLE LENS ACTUATED VIA FLEXURE JOINTS2021-06-22110122716Taiwan
CONTROLLABLE LENS ACTUATED VIA FLEXURE JOINTS2021-06-2218/000,629USA
FEEDFORWARD DETERMINATION OF A DRIVING SIGNAL FOR A PIEZO ACTUATOR2020-09-082020344807Australia
FEEDFORWARD DETERMINATION OF A DRIVING SIGNAL FOR A PIEZO ACTUATOR2020-09-083,153,830Canada
FEEDFORWARD DETERMINATION OF A DRIVING SIGNAL FOR A PIEZO ACTUATOR2020-09-082020800635126China
FEEDFORWARD DETERMINATION OF A DRIVING SIGNAL FOR A PIEZO ACTUATOR2020-09-0820765045.84029067European Patent Application
FEEDFORWARD DETERMINATION OF A DRIVING SIGNAL FOR A PIEZO ACTUATOR2020-09-0820765045.84029067Spain
FEEDFORWARD DETERMINATION OF A DRIVING SIGNAL FOR A PIEZO ACTUATOR2020-09-0820765045.84029067United Kingdom
FEEDFORWARD DETERMINATION OF A DRIVING SIGNAL FOR A PIEZO ACTUATOR2020-09-082022-513470Japan
FEEDFORWARD DETERMINATION OF A DRIVING SIGNAL FOR A PIEZO ACTUATOR2020-09-0810-2022-7011439South Korea (KR)
FEEDFORWARD DETERMINATION OF A DRIVING SIGNAL FOR A PIEZO ACTUATOR2020-09-08PCT/EP2020/07503920765045.8PCT
FEEDFORWARD DETERMINATION OF A DRIVING SIGNAL FOR A PIEZO ACTUATOR2020-09-0820765045.84029067Unitary Patent
FEEDFORWARD DETERMINATION OF A DRIVING SIGNAL FOR A PIEZO ACTUATOR2020-09-0817/753,545USA
SENSOR BASED CONTROL OF AN OPTICAL DEVICE WITH A VARIABLE OPTICAL POWER OR A VARIABLE BEAM DEFLECTION2022-03-30202280025579.XChina
SENSOR BASED CONTROL OF AN OPTICAL DEVICE WITH A VARIABLE OPTICAL POWER OR A VARIABLE BEAM DEFLECTION2022-03-3022719561.7European Patent Application
SENSOR BASED CONTROL OF AN OPTICAL DEVICE WITH A VARIABLE OPTICAL POWER OR A VARIABLE BEAM DEFLECTION2022-03-302023-555291Japan
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