| Official Title |
Filing date |
Application number |
Patent number |
Country |
| Optical Power
Switch (OPS) |
13.09.2010 |
13/496,178 |
8,724,198 |
United States |
| Polymer lens |
21.09.2007 |
200780034604.6 |
ZL 200780034604.6 |
China |
| Polymer lens |
21.09.2007 |
07834749.9 |
2074465 |
Germany |
| Polymer lens |
21.09.2007 |
07834749.9 |
2074465 |
European Patent Application |
| Polymer lens |
21.09.2007 |
07834749.9 |
2074465 |
France |
| Polymer lens |
21.09.2007 |
07834749.9 |
2074465 |
United Kingdom |
| Polymer lens |
21.09.2007 |
2009-529143 |
5581053 |
Japan |
| Compact polymer
lens |
21.09.2007 |
2009-529144 |
5323704 |
Japan |
| Polymer lens |
21.09.2007 |
2009-7007940 |
10-1496157 |
South Korea (KR) |
| Polymer lens |
21.09.2007 |
PCT/NO2007/000332 |
|
PCT |
| Compact polymer
lens |
21.09.2007 |
PCT/NO2007/000333 |
07834750.7 |
PCT |
| Polymer lens |
21.09.2007 |
12/442,323 |
8,199,410 |
United States |
| METHOD AND DEVICE
FOR VARIABLE OPTICAL ATTENUATOR |
29.08.2003 |
PCT/NO2003/000304 |
|
PCT |
| METHOD AND DEVICE
FOR VARIABLE OPTICAL ATTENUATOR |
05.09.2003 |
10/656,009 |
6,897,995 |
United States |
| A METHOD AND
ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES |
09.07.2009 |
09794692.5 |
2313798 |
Switzerland |
| A METHOD AND
ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES |
09.07.2009 |
201610806662.7 |
ZL201610806662.7 |
China |
| VERFAHREN UND
ANORDNUNG ZUR MINIMIERUNG THERMISCHER EFFEKTE BEI ANPASSBAREN OPTISCHEN
KOMPAKTLINSEN |
09.07.2009 |
09794692.5 |
2313798 |
Germany |
| A METHOD AND
ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES |
09.07.2009 |
09794692.5 |
2313798 |
European Patent Application |
| A METHOD AND
ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES |
09.07.2009 |
09794692.5 |
2313798 |
Finland |
| A METHOD AND
ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES |
09.07.2009 |
09794692.5 |
2313798 |
France |
| A METHOD AND
ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES |
09.07.2009 |
09794692.5 |
2313798 |
United Kingdom |
| A METHOD AND
ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES |
09.07.2009 |
09794692.5 |
2313798 |
Italy |
| A METHOD AND
ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES |
09.07.2009 |
2011-517372 |
5580819 |
Japan |
| A METHOD AND
ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES |
09.07.2009 |
10-2011-7002972 |
10-1372042 |
South Korea (KR) |
| A METHOD AND
ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES |
09.07.2009 |
09794692.5 |
2313798 |
Netherlands |
| A METHOD AND
ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES |
09.07.2009 |
PCT/NO2009/000255 |
|
PCT |
| A METHOD AND
ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES |
09.07.2009 |
09794692.5 |
2313798 |
Poland |
| A METHOD AND
ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES |
09.07.2009 |
09794692.5 |
2313798 |
Turkey |
| A METHOD AND
ARRANGEMENT FOR REDUCING THERMAL EFFECTS IN COMPACT ADJUSTABLE OPTICAL LENSES |
09.07.2009 |
13/002,706 |
8,310,772 |
United States |
| FLEXIBLE LENS
ASSEMBLY WITH VARIABLE FOCAL LENGTH |
12.02.2008 |
CN 200880011828.X |
ZL200880011828.X |
China |
| FLEXIBLE LENS
ASSEMBLY WITH VARIABLE FOCAL LENGTH |
12.02.2008 |
08712671.0 |
2115500 |
Germany |
| FLEXIBLE LENS
ASSEMBLY WITH VARIABLE FOCAL LENGTH |
12.02.2008 |
08712671.0 |
2115500 |
European Patent Application |
| FLEXIBLE LENS
ASSEMBLY WITH VARIABLE FOCAL LENGTH |
12.02.2008 |
08712671.0 |
2115500 |
France |
| FLEXIBLE LENS
ASSEMBLY WITH VARIABLE FOCAL LENGTH |
12.02.2008 |
2009-549025 |
5362587 |
Japan |
| FLEXIBLE LENS
ASSEMBLY WITH VARIABLE FOCAL LENGTH |
12.02.2008 |
10-2009-7018892 |
10-1452011 |
South Korea (KR) |
| FLEXIBLE LENS
ASSEMBLY WITH VARIABLE FOCAL LENGTH |
12.02.2008 |
PCT/NO2008/000056 |
|
PCT |
| FLEXIBLE LENS
ASSEMBLY WITH VARIABLE FOCAL LENGTH |
12.02.2008 |
12/526,763 |
8,390,939 |
United States |
| DESIGN OF COMPACT
ADJUSTABLE LENS |
05.10.2007 |
200780037794.7 |
ZL200780037794.7 |
China |
| DESIGN OF COMPACT
ADJUSTABLE LENS |
05.10.2007 |
07834763.0 |
2074444 |
European Patent Application |
| DESIGN OF COMPACT
ADJUSTABLE LENS |
05.10.2007 |
07834763.0 |
2074444 |
Italy |
| DESIGN OF COMPACT
ADJUSTABLE LENS |
05.10.2007 |
2009-532317 |
5244806 |
Japan |
| DESIGN OF COMPACT
ADJUSTABLE LENS |
05.10.2007 |
10-2009-7009477 |
10-1360455 |
South Korea (KR) |
| DESIGN OF COMPACT
ADJUSTABLE LENS |
05.10.2007 |
PCT/NO2007/000350 |
|
PCT |
| DESIGN OF COMPACT
ADJUSTABLE LENS |
05.10.2007 |
07834763.0 |
2074444 |
Sweden |
| DESIGN OF COMPACT
ADJUSTABLE LENS |
05.10.2007 |
12/445,272 |
8,045,280 |
United States |
| METHOD FOR
MANUFACTURING ADJUSTABLE LENS |
05.10.2007 |
200780037696.3 |
ZL200780037696.3 |
China |
| METHOD FOR
MANUFACTURING ADJUSTABLE LENS |
05.10.2007 |
07834764.8 |
2074445 |
European Patent Application |
| METHOD FOR
MANUFACTURING ADJUSTABLE LENS |
05.10.2007 |
07834764.8 |
2074445 |
Italy |
| METHOD FOR
MANUFACTURING ADJUSTABLE LENS |
05.10.2007 |
10-2009-7009478 |
10-1360545 |
South Korea (KR) |
| METHOD FOR
MANUFACTURING ADJUSTABLE LENS |
05.10.2007 |
PCT/NO2007/000351 |
|
PCT |
| METHOD FOR
MANUFACTURING ADJUSTABLE LENS |
05.10.2007 |
12/445,274 |
8,883,019 |
United States |
| A DEVICE FOR
PROVIDING STABILIZED IMAGES IN A HAND HELD CAMERA |
12.02.2008 |
200880011790.6 |
ZL200880011790.6 |
China |
| A DEVICE FOR
PROVIDING STABILIZED IMAGES IN A HAND HELD CAMERA |
12.02.2008 |
PCT/NO2008/000055 |
|
PCT |
| Method for
optimizing a piezoelectric actuator structure for a deformable lens |
18.09.2013 |
201380061689.2 |
ZL201380061689.2 |
China |
| Method for
optimizing a piezoelectric actuator structure for a deformable lens |
18.09.2013 |
13770857.4 |
2901200 |
European Patent Application |
| Method for
optimizing a piezoelectric actuator structure for a deformable lens |
18.09.2013 |
13770857.4 |
2901200 |
France |
| Method for
optimizing a piezoelectric actuator structure for a deformable lens |
18.09.2013 |
2015-533536 |
6051310 |
Japan |
| Method for
optimizing a piezoelectric actuator structure for a deformable lens |
18.09.2013 |
PCT/EP2013/069390 |
|
PCT |
| Method for
optimizing a piezoelectric actuator structure for a deformable lens |
18.09.2013 |
14/430,344 |
9,964,672 |
United States |
| Deformable
polymeric lens |
18.03.2013 |
13159696.7 |
2781939 |
Switzerland |
| Deformable
polymeric lens |
13.09.2013 |
201310419470.7 |
ZL 201310419470.7 |
China |
| Deformable
polymeric lens |
18.03.2013 |
13159696.7 |
2781939 |
Germany |
| Deformable
polymeric lens |
18.03.2013 |
13159696.7 |
2781939 |
European Patent Application |
| Deformable
polymeric lens |
18.03.2013 |
13159696.7 |
2781939 |
Spain |
| Deformable
polymeric lens |
18.03.2013 |
13159696.7 |
2781939 |
France |
| Deformable
polymeric lens |
18.03.2013 |
13159696.7 |
2781939 |
United Kingdom |
| Deformable
polymeric lens |
18.03.2013 |
13159696.7 |
2781939 |
Italy |
| Deformable
polymeric lens |
13.09.2013 |
2016-217699 |
6340058 |
Japan |
| A transparent
optical device element |
18.03.2014 |
10-2015-7029097 |
10-1819810 |
South Korea (KR) |
| Deformable
polymeric lens |
18.03.2013 |
13159696.7 |
2781939 |
Netherlands |
| A transparent
optical device element |
18.03.2014 |
PCT/EP2014/055391 |
|
PCT |
| A transparent
optical device element |
13.09.2013 |
102133209 |
I615640 |
Taiwan |
| A transparent
optical device element |
13.09.2013 |
106127321 |
I651550 |
Taiwan |
| Transparent
optical device element |
18.03.2014 |
14/777,265 |
9,581,737 |
United States |
| A transparent
optical device element |
18.03.2014 |
15/294,290 |
10,288,777 |
United States |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
2015289046 |
2015289046 |
Australia |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
15741156.2 |
3170038 |
Bulgaria |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
2,955,734 |
|
Canada |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
15741156.2 |
3170038 |
Switzerland |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
15741156.2 |
3170038 |
Germany |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
15741156.2 |
3170038 |
European Patent Application |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
15741156.2 |
3170038 |
France |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
15741156.2 |
3170038 |
United Kingdom |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
17112261.8 |
1238347 B |
Hong Kong |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
15741156.2 |
3170038 |
Hungary |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
201717001662 |
|
India |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
2017-502245 |
6767357 |
Japan |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
10-2017-7004693 |
|
South Korea (KR) |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
15741156.2 |
3170038 |
Netherlands |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
PCT/EP2015/066490 |
|
PCT |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
15741156.2 |
3170038 |
Portugal |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
15741156.2 |
3170038 |
Romania |
| A Turnable
microlens with a variable structure element |
17.07.2015 |
15/325,706 |
10,473,900 |
United States |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
BR112017000999-4 |
BR112017000999-4 |
Brazil |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
201790226 |
032785 |
Belarus |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
201580049250.7 |
ZL 201580049250.7 |
China |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
15738685.5 |
3170037 |
Germany |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
15738685.5 |
3170037 |
Denmark |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
201790226 |
032785 |
Eurasian Patent |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
15738685.5 |
3170037 |
European Patent Application |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
15738685.5 |
3170037 |
Spain |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
15738685.5 |
3170037 |
Finland |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
15738685.5 |
3170037 |
France |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
15738685.5 |
3170037 |
United Kingdom |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
17112267.2 |
1238348 B |
Hong Kong |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
201717001648 |
|
India |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
15738685.5 |
3170037 |
Italy |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
15738685.5 |
3170037 |
Norway |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
PCT/EP2015/066491 |
|
PCT |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
201790226 |
032785 |
Russian Federation |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
15738685.5 |
3170037 |
Sweden |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
15738685.5 |
3170037 |
Turkey |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS |
17.07.2015 |
15/325,681 |
10,001,629 |
United States |
| DEPTH MAP BASED
PERSPECTIVE CORRECTION IN DIGITAL PHOTOS |
04.09.2015 |
201580057165.5 |
ZL201580057165.5 |
China |
| DEPTH MAP BASED
PERSPECTIVE CORRECTION IN DIGITAL PHOTOS |
04.09.2015 |
PCT/EP2015/070246 |
|
PCT |
| DEPTH MAP BASED
PERSPECTIVE CORRECTION IN DIGITAL PHOTOS |
04.09.2015 |
15/508,390 |
10,154,241 |
United States |
| ELECTRONIC CIRCUIT
FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD |
06.01.2017 |
201780006023.5 |
|
China |
| ELECTRONIC CIRCUIT
FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD |
06.01.2016 |
16150334.7 |
3190637 |
Germany |
| ELECTRONIC CIRCUIT
FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD |
06.01.2016 |
16150334.7 |
3190637 |
European Patent Application |
| ELECTRONIC CIRCUIT
FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD |
06.01.2016 |
16150334.7 |
3190637 |
France |
| ELECTRONIC CIRCUIT
FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD |
06.01.2016 |
16150334.7 |
3190637 |
United Kingdom |
| ELECTRONIC CIRCUIT
FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD |
06.01.2017 |
201817024102 |
|
India |
| ELECTRONIC CIRCUIT
FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD |
06.01.2017 |
2018-535042 |
|
Japan |
| ELECTRONIC CIRCUIT
FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD |
06.01.2017 |
10-2018-7021468 |
|
South Korea (KR) |
| ELECTRONIC CIRCUIT
FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD |
06.01.2017 |
PCT/EP2017/050267 |
17700501.4 |
PCT |
| ELECTRONIC CIRCUIT
FOR CONTROLLING CHARGING OF A PIEZOELECTRIC LOAD |
06.01.2017 |
16/061,966 |
10,720,857 |
United States |
| ADAPTIVE LENS |
28.06.2018 |
112019027960-1 |
|
Brazil |
| ADAPTIVE LENS |
28.06.2018 |
201880043484.4 |
|
China |
| ADAPTIVE LENS |
28.06.2018 |
18736850.1 |
|
European Patent Application |
| ADAPTIVE LENS |
28.06.2018 |
P00202000701 |
|
Indonesia |
| ADAPTIVE LENS |
28.06.2018 |
2019-569219 |
|
Japan |
| ADAPTIVE LENS |
28.06.2018 |
10-2020-7002976 |
|
South Korea (KR) |
| ADAPTIVE LENS |
28.06.2018 |
PCT/EP2018/067386 |
|
PCT |
| ADAPTIVE LENS |
28.06.2018 |
16/623,698 |
|
United States |
| LOW WAVEFRONT
ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT |
27.02.2018 |
201880013930.7 |
|
China |
| LOW WAVEFRONT
ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT |
27.02.2018 |
18710370.0 |
|
European Patent Application |
| LOW WAVEFRONT
ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT |
27.02.2018 |
2019-567398 |
|
Japan |
| LOW WAVEFRONT
ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT |
27.02.2018 |
10-2019-7027454 |
|
South Korea (KR) |
| LOW WAVEFRONT
ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT |
27.02.2018 |
PCT/EP2018/054804 |
|
PCT |
| LOW WAVEFRONT
ERROR PIEZOELECTRICALLY ACTUATED OPTICAL ELEMENT |
27.02.2018 |
16/487,763 |
|
United States |
| A MODULE WITH A
PLURALITY OF CAMERAS FOR INTEGRATION IN A MOBILE DEVICE |
28.06.2018 |
201880056026.4 |
|
China |
| A MODULE WITH A
PLURALITY OF CAMERAS FOR INTEGRATION IN A MOBILE DEVICE |
28.06.2018 |
18737558.9 |
|
European Patent Application |
| A MODULE WITH A
PLURALITY OF CAMERAS FOR INTEGRATION IN A MOBILE DEVICE |
28.06.2018 |
2019-569234 |
|
Japan |
| A MODULE WITH A
PLURALITY OF CAMERAS FOR INTEGRATION IN A MOBILE DEVICE |
28.06.2018 |
10-2020-7002873 |
|
South Korea (KR) |
| A MODULE WITH A
PLURALITY OF CAMERAS FOR INTEGRATION IN A MOBILE DEVICE |
28.06.2018 |
PCT/EP2018/067510 |
|
PCT |
| A MODULE WITH A
PLURALITY OF CAMERAS FOR INTEGRATION IN A MOBILE DEVICE |
28.06.2018 |
16/623,644 |
|
United States |
| LENS ASSEMBLY FOR
OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT |
28.06.2018 |
2018294509 |
|
Australia |
| LENS ASSEMBLY FOR
OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT |
28.06.2018 |
201880056027.9 |
|
China |
| LENS ASSEMBLY FOR
OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT |
28.06.2018 |
202090160 |
|
Eurasian Patent |
| LENS ASSEMBLY FOR
OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT |
28.06.2018 |
18737559.7 |
|
European Patent Application |
| LENS ASSEMBLY FOR
OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT |
28.06.2018 |
62020019284.2 |
|
Hong Kong |
| LENS ASSEMBLY FOR
OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT |
28.06.2018 |
202017003073 |
|
India |
| LENS ASSEMBLY FOR
OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT |
28.06.2018 |
2019-569220 |
|
Japan |
| LENS ASSEMBLY FOR
OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT |
28.06.2018 |
10-2020-7002874 |
|
South Korea (KR) |
| LENS ASSEMBLY FOR
OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT |
28.06.2018 |
PCT/EP2018/067511 |
|
PCT |
| LENS ASSEMBLY FOR
OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT |
28.06.2018 |
16/623,726 |
|
United States |
| LENS ASSEMBLY FOR
OPTICAL IMAGE STABILIZATION AND FOCUS ADJUSTMENT |
28.06.2018 |
1-2020-00402 |
|
Viet Nam |
| OPTICAL ELEMENT
WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE |
24.05.2019 |
201980034896.6 |
|
China |
| OPTICAL ELEMENT
WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE |
24.05.2019 |
19725740.5 |
|
European Patent Application |
| OPTICAL ELEMENT
WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE |
24.05.2019 |
2020-560408 |
|
Japan |
| OPTICAL ELEMENT
WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE |
24.05.2019 |
10-2020-7037026 |
|
South Korea (KR) |
| OPTICAL ELEMENT
WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE |
24.05.2019 |
PCT/EP2019/063502 |
|
PCT |
| OPTICAL ELEMENT
WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE |
24.05.2019 |
12020551962 |
|
Philippines |
| OPTICAL ELEMENT
WITH STRESS DISTRIBUTING SUPPORTING STRUCTURE |
24.05.2019 |
17/051,642 |
|
United States |
| Determining and
applying a voltage to a piezoelectric actuator |
07.03.2019 |
201980030945.9 |
|
China |
| Determining and
applying a voltage to a piezoelectric actuator |
07.03.2018 |
18160414.1 |
3537488 |
Germany |
| Determining and
applying a voltage to a piezoelectric actuator |
07.03.2018 |
18160414.1 |
3537488 |
Denmark |
| Determining and
applying a voltage to a piezoelectric actuator |
07.03.2018 |
18160414.1 |
3537488 |
European Patent Application |
| Determining and
applying a voltage to a piezoelectric actuator |
07.03.2018 |
18160414.1 |
3537488 |
Finland |
| Determining and
applying a voltage to a piezoelectric actuator |
07.03.2018 |
18160414.1 |
3537488 |
France |
| Determining and
applying a voltage to a piezoelectric actuator |
07.03.2018 |
18160414.1 |
3537488 |
United Kingdom |
| Determining and
applying a voltage to a piezoelectric actuator |
07.03.2018 |
18160414.1 |
3537488 |
Italy |
| Determining and
applying a voltage to a piezoelectric actuator |
07.03.2019 |
PCT/EP2019/055653 |
|
PCT |
| Determining and
applying a voltage to a piezoelectric actuator |
07.03.2018 |
18160414.1 |
3537488 |
Sweden |
| Determining and
applying a voltage to a piezoelectric actuator |
07.03.2019 |
16/978,561 |
|
United States |
| OPTICAL DEVICE
WITH A LIGHT RAY DEFLECTOR |
11.10.2019 |
. |
|
China |
| OPTICAL DEVICE
WITH A LIGHT RAY DEFLECTOR |
11.10.2019 |
19786329.3 |
|
European Patent Application |
| OPTICAL DEVICE
WITH A LIGHT RAY DEFLECTOR |
11.10.2019 |
2021-516489 |
|
Japan |
| OPTICAL DEVICE
WITH A LIGHT RAY DEFLECTOR |
11.10.2019 |
. |
|
South Korea (KR) |
| OPTICAL DEVICE
WITH A LIGHT RAY DEFLECTOR |
11.10.2019 |
PCT/EP2019/077608 |
|
PCT |
| OPTICAL DEVICE
WITH A LIGHT RAY DEFLECTOR |
11.10.2019 |
17/283,230 |
|
United States |
| SPECTACLES WITH
SANDWICHED POLYMER STRUCTURE |
06.08.2020 |
PCT/EP2020/072130 |
WO 2021/023815 |
PCT |
| FEEDFORWARD
DETERMINATION OF A DRIVING SIGNAL FOR A PIEZO ACTUATOR |
08.09.2020 |
PCT/EP2020/075039 |
WO 2021/048103 |
PCT |
| Rotational element
for wearable device imaging |
20.12.2019 |
PA 2019 70808 |
|
Denmark |
| PIEZOELECTRICALLY
ACTUATED OPTICAL LENS with additional coatings |
21.01.2021 |
PA 2021 70027 |
|
Denmark |
| Improving Impact
robustness of a variable lens |
27.01.2021 |
PA 2021 70033 |
|
Denmark |