Nyttig info rundt Polight.

Kraamz
PLT 09.10.2021 kl 19:23 85756

Ny tråd som blir Oppdatert fortløpende.
Skal lage til en god og oversiktlig tråd med mye god info.

Det er viktig å ha i bakhodet at patenter ofte ikke resulterer i et produkt, mange patenter skrotes i forbindelse med at andre har gjort krav på løsningen fra før eller at man omprioriterer. Patenter gir en grei indikasjon på hva som er i vinden og hvem som er interessert i teknologien.


Sist oppdatert: Innlegg nr2. (01.06.2022)


__PRODUKTER MED TLens__

XUN Smartwatch PRO

https://detail.m.tmall.com/templatesNew/index?id=611407678803&hybrid=true&toSite=main#mui-cover-0

Xiaomi mitu binny 4pro

https://xiaomi-mi.com/mitu-watches/xiaomi-mitu-4-pro-178-inch-double-cameras-children-smart-watch-pink/

Honeywell:

https://sensing.honeywell.com/barcode-scan-engines-and-modules/engines/extended-flexrange-EX30

MaxHub:

https://www.google.com/url?sa=t&source=web&rct=j&url=https://www.maxhub.com/en/wp-content/themes/maxhub/assets/pdf/ucw20/MAXHUB_UC%2520W20_Brochure.pdf&ved=2ahUKEwjT1I691f3vAhUpxosKHU4QCe4QFjABegQIBBAC&usg=AOvVaw24f9wx1k4PGYZNivG1i8oJ

https://studydroid.com/best-tiny-camera/#comparison-table


__KOMMENDE PRODUKTER MED Tlens(funnet på nett)__


1: Iris scanner(module for smartwatch og smartphone)
J2c har avtale med Polight.

http://www.jtwoc.com/theme/basic/soda-html/product_optical_5mpaf.html

https://www.google.com/url?sa=t&source=web&rct=j&url=https://www.cybersec-alliance.org/exhibition/file_down/company_down.jsp%3Fidx%3D8&ved=2ahUKEwiTmeeR0v3vAhUul4sKHWCJBkAQFjACegQIBBAC&usg=AOvVaw1DObsFXIoQnM-e5-S7aj53


2: Smartwatch:

- Lanseres Januar 2022 MED Tlens(et produkt som er fra Xun Smartwatch pro)
https://samplify.org/

https://youtu.be/GJ2Nmvym6OQ. (Samplify)


3: Teledyne e2v
Multi-focus Optical Module

https://www.vision-systems.com/home/article/14203771/2021-vision-systems-design-innovators-awards-honorees

https://imaging.teledyne-e2v.com/content/uploads/2020/09/2021-09-22_e2v_2M-Multi-Focus-MIPI-Module_web.pdf

__PATENTER:__


Mange av patentene listet under har ikke blitt godkjent enda så kan være greit å ta en titt på Legal Events for å se hvor de er i løypen. Mange av de har hatt masse aktivitet nylig.

SMARTPHONE :

NOKIA

Publisert 2018
https://worldwide.espacenet.com/patent/search/family/049782339/publication/CN104412155B?q=Polight%20camera

Publisert 2017
https://patents.google.com/patent/EP2783254B1/en?oq=Tlens+OR+polight

VIVO
https://www.vivo.com

Datert 2021
https://worldwide.espacenet.com/patent/search/family/065311252/publication/CN109348104B?q=T-lens

Datert 2019
https://worldwide.espacenet.com/patent/search/family/065311252/publication/CN109348104A?q=T-Lens

Datert 2019
https://worldwide.espacenet.com/patent/search/family/065222540/publication/CN109309789A?q=CN109309789A

Datert 2018
https://worldwide.espacenet.com/patent/search/family/061613418/publication/CN207124681U?q=T-Lens


OPPO:

Datert 2021
https://worldwide.espacenet.com/patent/search/family/076713682/publication/CN113113836A?q=Tlens

Datert 2020
https://worldwide.espacenet.com/patent/search/family/064875010/publication/CN109167909B?q=Flexible%20tunable%20lens

Datert 2020
https://worldwide.espacenet.com/patent/search/family/065258977/publication/WO2020107996A1?q=Flexible%20tunable%20lens

Datert 2019
https://worldwide.espacenet.com/patent/search/family/064875010/publication/CN109167909A?q=Flexible%20tunable%20lens

Datert 2019
https://worldwide.espacenet.com/patent/search/family/065191610/publication/CN109270683A?q=Guangdong%20Oppo%20tunable%20lens

REALME

(Potensielt bakkamera)

Datert 2021
https://patentscope.wipo.int/search/en/detail.jsf?docId=CN333025557&tab=PCTDESCRIPTION&_cid=P11-KSJ8JD-95971-1

Samme patent fra ESP net(mer oversiktlig med gode bilder)
https://worldwide.espacenet.com/patent/search/family/076949730/publication/CN213817938U?q=CN213817938

Oversatt forklaring:
https://translationportal.epo.org/emtp/translate/?ACTION=description-retrieval&COUNTRY=CN&ENGINE=google&FORMAT=docdb&KIND=U&LOCALE=en_EP&NUMBER=213817938&SRCLANG=zh&TRGLANG=en

HUAWEI

Datert 2015
https://worldwide.espacenet.com/patent/search/family/053003236/publication/CN104580877A?q=Tlens

Datert 2018
https://patents.google.com/patent/CN104580877A/en?oq=Tlens

Datert 2020
https://worldwide.espacenet.com/patent/search/family/071999998/publication/WO2020164406A1?q=Vcm%20AND%20mems%20lens

Datert 2021 (NY)
https://worldwide.espacenet.com/patent/search/family/076382266/publication/CN113014790A?q=Tlens

Datert 22.06.2021(NY)
https://worldwide.espacenet.com/patent/search/family/076382266/publication/CN113014790A?q=Tlens



SMART GLASSES

MICROSOFT

Datert 2019
https://worldwide.espacenet.com/patent/search/family/068464599/publication/WO2019217108A1?q=Polight

VARJO

Datert 2021
https://worldwide.espacenet.com/patent/search/family/077063040/publication/US2021243384A1?q=varjo%20polymer-lens

Datert 2020
https://worldwide.espacenet.com/patent/search/family/069740383/publication/WO2020183054A1?q=varjo%20piezo

Datert 2021
https://worldwide.espacenet.com/patent/search/family/071609052/publication/US11030720B2?q=varjo%20piezo


DRONES

PARROT DRONES
https://www.parrot.com/global/drones

Datert 2019
https://worldwide.espacenet.com/patent/search/family/056787562/publication/EP3465321A1?q=Polight

Datert 2017
https://worldwide.espacenet.com/patent/search/family/056787562/publication/FR3051920A1?q=Polight


BARCODE

HAND HELD PRODUCTS INC
https://en.m.wikipedia.org/wiki/Hand_Held_Products

Datert 2019
https://worldwide.espacenet.com/patent/search/family/052824143/publication/US10222514B2?q=Polight

Datert 2015
https://worldwide.espacenet.com/patent/search/family/052824143/publication/EP2940505A1?q=Polight

https://worldwide.espacenet.com/patent/search/family/052824143/publication/US2016131894A1?q=Barcode%20polight

Zebra
(Mulighet for Tlens)

Datert 2021
https://worldwide.espacenet.com/patent/search/family/076954379/publication/US11108946B1?q=T-lens%2A


FINGERPRINT

Shenzhen Oneplus

Datert 2019
https://worldwide.espacenet.com/patent/search/family/068942283/publication/CN209860960U?q=Tlens%20


SENSORS


AMS SENSORS SINGAPORE PTE LTD

(Osram er med i bildet her)

https://worldwide.espacenet.com/patent/search/family/049949118/publication/US10734366B2?q=AMS%20polight



MODULLEVRANDØRER:

Sunny Optical(Add-in)

Publisert 2021.
https://worldwide.espacenet.com/patent/search/family/075459110/publication/CN112684592A?q=Autofocus%20camera%20module

Largan Precision(Add-in)

Publisert februar 2021
https://worldwide.espacenet.com/patent/search/family/073643965/publication/CN112394497A?q=mems%20autofocus

TS Presicion

1. Ts-Presicion

Publisert 2021
https://worldwide.espacenet.com/patent/search/family/076252735/publication/CN213426288U?q=Tlens

Q-Tech

Publisert 2019.
Q-Tech - PoLight Tlens
Sansynligvis ADD-In aktøren(tidslinjen passer bra):

Publisert 2021
https://worldwide.espacenet.com/patent/search/family/067657423/publication/CN209299361U?q=Q-tech%20polymer%20lens

Publisert 2020 (NY)
https://worldwide.espacenet.com/patent/search/family/073313116/publication/CN111935370A?q=Tlens

ZET:

1
https://worldwide.espacenet.com/patent/search/family/067852544/publication/CN209388022U?q=Tlens%20zet
2.
https://worldwide.espacenet.com/patent/search/family/067429944/publication/CN209198745U?q=Tlens%20zet
3.
https://worldwide.espacenet.com/patent/search/family/066491264/publication/CN109782423A?q=Tlens%20zet
4.
https://worldwide.espacenet.com/patent/search/family/067342270/publication/CN209167649U?q=Tlens%20


TRULY OPTO:

1
Publication
CN109451237A·2019-03-08

Active alignment (AA) method and equipment of camera module

https://worldwide.espacenet.com/patent/search/family/065552204/publication/CN109451237A?q=Tlens%20Truly

2.
Publication
CN209184679U·2019-07-30

Electronic device

https://worldwide.espacenet.com/patent/search/family/067378050/publication/CN209184679U?q=Piezoelectric%20polymer%20lens

O-Film

1.
Publisert 10.11.2020
https://worldwide.espacenet.com/patent/search/family/073276942/publication/CN211908927U?q=Tlens

2.
Publisert Juni 2019
https://worldwide.espacenet.com/patent/search/family/067042046/publication/CN209046739U?q=T-lens%2A

O-Film subsidie selskap

3. Publisert Mars 2021 (Add-In)
https://worldwide.espacenet.com/patent/search/family/074968346/publication/CN112505809A?q=Pzt%20autofocus


__DISTRUBITØRER:__

Edomtech
https://www.edomtech.com/en/product/ins.php?index_id=94

Ofilm
http://www.ofilm.com/en/products_inner1_36.html


__FUNDAMENT:__

NRK Intervju med CEO som synliggjør hvor stort dette kan bli!

https://www.nrk.no/vestfoldogtelemark/pa-terskelen-til-et-potensielt-mobileventyr-1.13487857

Prospekt for Polight(børsnotering 2018)
Nyttig dokument som synligjør markeds potensialet
Og konkurerende teknologier per 2018.

Side 49 viser BLA teknologiene med fordeler og ulemper.

https://www.google.com/url?sa=t&source=web&rct=j&url=http://q4live.s22.clientfiles.s3-website-us-east-1.amazonaws.com/177975322/files/doc_financials/poLight-ASA-IPO-Prospectus-19-September-2018.pdf&ved=2ahUKEwisk7i5mvnqAhWBmIsKHbuEBJUQFjADegQIAhAB&usg=AOvVaw0Dk2Umj-bLqfBg_sitJ4zl



Cost rapport Tlens(NY)

https://www.systemplus.fr/reverse-costing-reports/polight-tlens-mems-autofocus/


PIEZO forskning:

https://science.sciencemag.org/content/369/6501/292


Fakta basert på Intervju med Polight:


Pris linse:
par-tre dollar stykket

Kapasitet:
Kapasiteten er ikke noe problem. Med forskning og utvikling her i Horten og produksjonen av polymervæske som gir oss en million enheter per liter polymer er det bare å rampe opp produksjonen vår i Italia og Taiwan hvis det er ønskelig. Vi kan raskt gå opp i en million TLens i måneden ved behov.


Podcast hvor vi forteller om Polight🙂
Det er mengder å lese av info så det er kanskje greit å høre omsakene i tilegg🙂

https://open.spotify.com/show/7LmxuvKSfmzdslwRKDK1In?si=yT7Nq24mSBCF3Hm4-ag1Vg&utm_source=copy-link



Redigert 01.06.2022 kl 08:07 Du må logge inn for å svare
Slettet bruker
04.12.2021 kl 20:41 10140

Det baller seg på.
Kommer til å bli århundrets ketchup-effekt i PLT.
Det er bare å legge seg ned og sove i 3-4 år og våkne opp med et smil om munnen som mangemillionær.
Kraamz
06.12.2021 kl 12:20 9803

Ja det er mye på gang☺️ Det kommer nok bare mer og mer etterhvert som ingeniørene innen optikken blir vant til å jobbe med teknologien☺️
Kraamz
06.12.2021 kl 12:26 9778

Delt av vår Aandal Vanger☺️

https://www.oem-camera.com/bloginfo3.html



Utdrag:


In addition, although most manufacturers are still on the sidelines for the use of MEMS mechanisms to achieve auto-focusing functions, at the end of March this year, OFILM announced the acquisition of MEMS camera technology patents and related assets of DOC, a subsidiary of Tessera in the United States, and will be committed to promoting in the future The industrialization of MEMS cameras; recently, ST STMicroelectronics has adopted thin film piezoelectric (TFP) MEMS technology and co-designed with its partner poLight an autofocus camera function that can simulate the human eye. It is said that the focusing speed is the current VCM motor The battery power consumption is only 1/20 of that, and mass production is expected in mid-2015. All these signs indicate that with unique application advantages, this technology has become an important technical reserve for manufacturers in the next stage after continuous breakthroughs and innovations

Eldre text men oppdatert i år🙂, Det er endel som rører seg hos Ofilm med Tlens patenter så det er da relevant enda🙂
Redigert 06.12.2021 kl 12:29 Du må logge inn for å svare
happi67
06.12.2021 kl 16:19 9767

Dere gjør en fantastisk god jobb. Så mye spennende nå fremover
Slettet bruker
07.12.2021 kl 13:13 9601

https://newsweb.oslobors.no/message/548655
Barcode design-win
tunktee
07.12.2021 kl 13:13 9589

Man skal være kjapp på avtrekkeren når disse kommer, mulig at det var en robot som støvsugde straks meldingen kom:

Horten, 7 December 2021 - poLight ASA (OSE: PLT) today announced that the company has received a confirmed design-win award for a barcode reader product from an unnamed customer. The product is designed for dynamic collection of barcodes in high-speed manufacturing pipelines and is expected to be released to the market in December 2021.

“This gives us a new reference in the industrial market and represent another building block to the long-term success of poLight“, said Dr. Øyvind Isaksen, the CEO of poLight.


Edit;
Bekreftelsene ser ut til å kommer i stadig hyppigere takt.
Aksjen kan få et bra momentum hvis noen artikler/flere nyheter.
Redigert 07.12.2021 kl 13:18 Du må logge inn for å svare
Kraamz
07.12.2021 kl 14:37 9675

Flott bekreftelse☺️
Kraamz
08.12.2021 kl 20:12 9603

Nytt flott patent fra Onepluss som ser ut til å omhandle back cam☺️

Delt av PNT1☺️

Applicants
深圳市万普拉斯科技有限公司
Inventors
刘伟; 王贤智; 李伟伟; 岳宝石
Classifications
IPC
H04N5/225; H04N5/232;
Priorities
CN202120753791U·2021-04-12
Application
CN202120753791U·2021-04-12
Publication
CN214675328U·2021-11-09
Published as
CN214675328U

https://worldwide.espacenet.com/patent/search/family/078461871/publication/CN214675328U?q=CN214675328U
tunktee
08.12.2021 kl 21:03 9562

👍😀
Kraamz
08.12.2021 kl 21:47 9533

PNT1 var godt i gang i dag gitt☺️

Jianxi( Ofilm subsidie)

Applicants
江西晶超光学有限公司
Inventors
刘彬彬; 邹海荣; 李明
Classifications
IPC
G02B13/00; G02B13/18; G02B15/04;
Priorities
CN202110741452A·2021-06-30
Application
CN202110741452A·2021-06-30
Publication
CN113534409A·2021-10-22
Published as
CN113534409A

In some embodiments, the zoom optical system 100 further includes a zoom lens L7. The zoom lens L7 is arranged on the object side of the first lens L1, or arranged on any of the first lens L1, the second lens L2, and the third lens L3. Between two lenses. For example, in the embodiment shown in FIG. 1, the zoom lens L7 is provided on the object side of the first lens L1. Specifically, the zoom lens L7 may be a lens capable of realizing an automatic zoom function, such as a Tlens or a liquid lens. In the embodiment shown in FIG. 1, the zoom lens L7 is Tlens. The zoom lens L7 includes a glass substrate layer 10, a polymer layer 20, and a piezoelectric film layer 30 along the optical axis 110 from the object side to the image side. Changing the voltage applied to the piezoelectric film layer 30 can deform the piezoelectric film layer 30 to change the effective focal length of the zoom lens L7, thereby realizing an automatic zoom function. The zoom lens L7 is used in the zoom optical system 100 to achieve the zoom function. Compared with the traditional setting of driving the motor to drive the lens to achieve zooming, the zoom lens L7 has a small volume, which is beneficial to the slim design of the zoom optical system 100. ; At the same time, it also has the advantages of low power consumption, fast focusing speed, large focusing range, and does not need to set up moving mechanical parts, and has strong shock and impact resistance.

https://worldwide.espacenet.com/patent/search/family/078097453/publication/CN113534409A?q=CN113534409A
happi67
09.12.2021 kl 18:40 9190

Er sååå nydelig 😃👍
Kraamz
09.12.2021 kl 20:28 9134

Da dukket det opp et nytt patent fra Oppo som omhandler TOF løsning med T-lens eller alternativt Liquid-lens ☺️👍



Applicants

OPPO广东移动通信有限公司

Inventors

刘海亮

Classifications

IPC

G01S17/08; G01S7/481; G02B27/09; G02B27/48;

Priorities

CN202110907460A·2021-08-09

Application

CN202110907460A·2021-08-09

Publication

CN113687371A·2021-11-23

Published as

CN113687371A



Light emitting module, depth camera and terminal Abstract The application discloses a light emitting module, a depth camera and a terminal. Along the light emitting direction of the light emitting module, the light emitting module sequentially includes a light source, an adjustable lens, and a microlens array; the light source includes a plurality of light-emitting units, and is used for emitting dot matrix light; the adjustable lens is used for receiving dot matrix light and The lattice light is guided to the microlens array; the microlens array includes a plurality of microlenses, and is used to refract and output the lattice light passing through the adjustable lens; among them, the optical power of the adjustable lens can be adjusted so that the microlens array The output light is switched between output as speckle light and output as flood light. In this application, an adjustable lens and a microlens array are provided in the light emitting module to cooperate with each other, so that only the optical power of the adjustable lens needs to be adjusted, so that the light output from the microlens array can be output with speckle light. Switch between flood light output. In this way, the light emitting module can have the advantages of speckle light and flood light at the same time.



Technical field



This application relates to the technical field of distance measurement, and more specifically, to a light emitting module, a depth camera, and a terminal.



Background technique



Time of flight (ToF) is a technology that measures the time difference between the transmitted signal and the signal reflected by the object, and calculates the distance between the object and the sensor through this time difference.



A typical TOF structure includes a transmitter module (Tx) and a receiver module (Rx). The transmitter module emits laser light and projects it onto the object, and the receiver module receives the laser light reflected by the object to complete the collection of depth signals. Among them, the dot matrix light emitted by TOF technology usually includes speckle or flooding schemes, each of which has its own advantages and disadvantages. In order to combine the advantages of the two solutions, two emitter modules, speckle and floodlight, are usually set separately to use different emitter modules to emit speckle or floodlight in different modes, so as to obtain a better depth Information to improve the accuracy of ranging. However, the provision of two emission end modules for speckle and floodlight will increase the complexity of the TOF structure, and will also increase the volume and cost of the TOF structure.



Time of flight (ToF) is a technology that measures the time difference between the transmitted signal and the signal reflected by the object, and calculates the distance between the object and the sensor through this time difference. At present, a typical TOF structure includes a transmitter (Tx) and a receiver (Rx). After the light source at the transmitting end emits light, it can be projected on the observation object in the form of speckle or flood light after passing through various parts and diffusers. The diffuse reflection light of the speckle light or flood light reaches the sensor to complete the signal through the receiving end. Collect, and finally get the depth information of the observed object. Among them, the floodlight solution has high lateral resolution and is suitable for dark light environments. And in the close range, the depth point cloud information with rich details can be calculated; but as the irradiation distance becomes farther, the energy of the irradiated light drops sharply, and it is easily affected by the ambient light, which makes it impossible to detect the depth information of distant objects. In addition, the power consumption of the module is relatively high, and the signal-to-noise ratio of the sensor is low. The energy density of the speckle scheme is higher, and it can be projected to a longer distance, and the point cloud information of distant objects can be obtained. However, due to the limited number of speckles, the corresponding point cloud is relatively sparse and lacks the point cloud of the target object. detail.





There are usually two solutions to improve the overall performance of the optical sensor by solving problems such as high power consumption, insufficient working distance, low reflectivity, and lack of information on surfaces such as specular reflection. The first scheme directly uses two emission ends, one speckle emission end and one floodlight emission end, and the switching between speckle and floodlight is completed by combination. However, this structure is large in size, high in cost, and complicated in assembly. Doing so will undoubtedly make the module complex, burden the overall module volume, and increase the cost. The second solution is to switch between speckle and flood functions in one transmitter. For example, multiple lenses are used, and then the distance between the light source and each lens is adjusted by moving the lenses, so as to achieve the purpose of defocusing, and realize the switching of speckle and flood. However, this solution requires motor drive and space for the lens to move. Therefore, the structure size of this solution also has the problems of VCM rated stroke, posture difference, and hysteresis. The speckle size matching in the speckle mode needs to be matched. Solve and so on.



Specifically, referring to FIG. 1, in some embodiments, the adjustable lens 12 includes a first surface 1201 and a second surface 1202 opposite to each other. The first surface 1201 is closer to the light source 11 than the second surface 1202. Wherein, the curvature of the second surface 1202 is adjustable, so that the optical power of the adjustable lens 12 is adjustable. It should be noted that, in some embodiments, the adjustable lens 12 may include a T-lens (Tunable lens, T-lens) module or a liquid lens.



As shown in FIG. 3, in some embodiments, the adjustable lens 12 may include a T-lens module. Specifically, the adjustable lens 12 includes a substrate 121, an elastic member 122, an optical film layer 123 and a piezoelectric ceramic 124. Among them, the substrate 121 is close to the light source 11, and the substrate 121 is used to carry other components (the elastic member 122, the optical film layer 123, and the piezoelectric ceramic 124). The substrate 121 includes a first surface 1201 and a back surface 1212, and the first surface 1201 of the substrate 121 is closer to the light source 11 than the back surface 1212 of the substrate 121. It should be noted that the first surface 1201 of the substrate 121 and the first surface 1201 of the adjustable lens 12 are the same surface.





https://worldwide.espacenet.com/patent/search/family/078579173/publication/CN113687371A?q=T-lens%2A
nullgjeld
09.12.2021 kl 23:14 9048

Hei,
Jeg har stort sett byttet ut portefølgen min til PLT, og er veldig fornøyd med det frem til nå :) nyhetene kommer jo på løpende bånd! Jeg tenker litt storordre fra en eller annen kunde, har PLT kapasitet her, eller kan det bli en showstopper?
Kraamz
10.12.2021 kl 16:02 8917

Så bra du er fornøyd med valget☺️👍


Produksjonsledd:

1 - Polymer (Polight i Horten)
2- piezo elementer(STM verdensomfattende og største innen MEMS)
3- Assembly piezo og polymersammensetting(Taiwan med Theil og Mitsubishi)
4- Test og kvalitetskontroll( ved assembly med Final testmaskin fra PoLight og sansynligvis laget av Optodidelity eller lignende)

På kapasitet har polight ubegrenset kapasitet til å lage selve polymerlinsen, det som i dag er begrensingen er Piezoelementene som de får fra STM(Enorm aktør som jobber med å øke produksjon de også) i tilegg til sammensetting av linser og piezo, dette tar assembly seg av og som endelig produkt hadde de ved Q3 rundt 1.5-2 mill i kapasitet pr mnd, det har derifra blitt sakt at dobling eller trippling vil ta fra 9-12 mnd🙂👍

Hva som blir reelt gjenstår å se men ser for meg at de øker etterhvert som kundeforpliktelsene kommer mer og mer🙂
Redigert 10.12.2021 kl 16:06 Du må logge inn for å svare
tunktee
10.12.2021 kl 16:58 8852

Fantastisk gode og informative innlegg fra deg Kraamz!

Skulle gjerne hatt noe å bidra med, men får nøye meg med å ønske god helg til deg og andre!
Det er behagelig med investeringer som står i pluss og har et slikt potensiale som Polight har.
Da kan man legge de i skuffen, og ikke bry seg de dagene kursen faller. (I motsetning til eventuelle investeringer/trades det man helst vil gå ut på en topp)
Kraamz
11.12.2021 kl 12:01 8628

Tusen takk for det☺️ Sitter pris på tilbakemeldingen 🙂 Ha en god helg ☺️
nullgjeld
11.12.2021 kl 15:50 8578

Takk for svar Kraamz!

Håper egentlig på en 10-15% dipp, slik at jeg kan øke beholdningen med 20-30%..

Ser enkelte drømmer om kurser opp mot 1000kr allerede før Nyttår, det skjer ikke!
Kraamz
11.12.2021 kl 19:23 8506

Bare hyggelig☺️👍
Har man guidingen i bakhodet så kan inntjening forsvare en slik kurs innen 2025 med tanke på tall🙂(Dersom Guiding blir en realitet) Men praksis er vel ofte at prissetting kommer lang tid i forveien om man tikker av en del trendkriterier☺️ Add-in vil bli en viktig milepæl men AR kan potensielt bli enormt også🤞, bare tid vil vise🙂
Redigert 12.12.2021 kl 09:38 Du må logge inn for å svare
Slettet bruker
13.12.2021 kl 19:29 8151

https://9to5mac.com/2021/12/03/iphone-14-features-roundup/
iPhone 14 som kommer neste år omtales mye på Shareville nå. Blant annet denne linken. Det ser ut til/diskuteres at TLens har god sjanse til å komme i iPhone 14 Pro, siden lekkasjer/rykter oppgir at det skal satses på auto-focus i front kamera og da første iPhone med kameraet i skjermen. Hvis så må det komme en design-win ca. et halvt år før lansering.
Redigert 13.12.2021 kl 20:15 Du må logge inn for å svare
Kraamz
14.12.2021 kl 20:52 7808

Denne hører hjemme i tråden også☺️

Kom ut like etter ryktene fra Oneplus om Bionic T-lens🙂

https://zhuanlan.zhihu.com/p/355810047
Kraamz
14.12.2021 kl 21:00 7787

Jeg er veldig positiv til at Apple skal gå for AF i front cam men jeg tror de første ut blir Oneplus,Oppo og Vivo🙂 Apple tror jeg dukker opp med VCM AF fra start, noe som vil være bra for modellene som har T-lens, fordi da vil man kunne ta en direkte sammenligning hvor størrelse og Kjapphet vil være av stor forskjell☺️
Slettet bruker
14.12.2021 kl 21:17 7741

Kraamz I dag kl 20:52

Hva vil skje dersom ekspertene som skal teste dette kameraet når det endelig kommer i en telefon og svaret er: "Terningkast 6" og "The best camera ever"?

Da MÅ jo samtlige produsenter kaste seg på karusellen i løpet av et år eller to i frykt for å havne bakpå, og ikke henge med på utviklingen. Og da..... Da vil jo det jo komme en tsunami med ordre til Polight på TLens. Og hva vil kursen havne på da????
Redigert 14.12.2021 kl 21:18 Du må logge inn for å svare
Slettet bruker
14.12.2021 kl 22:02 7770

Og poLight kan i enda større grad bestemme prisen.
Kraamz
15.12.2021 kl 08:43 7598

Det er dette jeg tror vil skje men at første steg må tas fra en OEM når det kommer til en reel kundeforpliktelse, det er også mulig at større aktører har vert i kontakt med PoLight men at de ser at produksjon må opp før de kan levere til de største modellene🙂

Min antagelse er at det koker bra for tiden, vi har jo fått beskjed om at PoLight er i kontakt med de fleste OEMs på ett eller annet nivå🙂

No ventes det i spenning☺️👍
Redigert 15.12.2021 kl 08:53 Du må logge inn for å svare
Slettet bruker
15.12.2021 kl 09:37 7548

Ja, det ventes i spenning for TLens kan bli standard, men hvor blir ukens børsmelding av mon tro? ;-)
Slettet bruker
15.12.2021 kl 11:54 7490

https://www.youtube.com/watch?v=uGu8gPUk3J4 Ligger også flere videoer på Youtube.
OPPO AIR GLASSES

Redigert 15.12.2021 kl 12:27 Du må logge inn for å svare
Kraamz
15.12.2021 kl 17:04 7318

Det vil nok være endel briller med fastfokus-linser(de rimeligere versjonene), og noen med VCM autofokus(Den som har vert standard i alle år og som PoLight anser som sin største konkurrent)

Hvis du ser på første siden, innlegg nummerert med nr7, Der har du de andre konkurrentene innen Tunable-lenses☺️👍
Redigert 15.12.2021 kl 17:05 Du må logge inn for å svare
Slettet bruker
16.12.2021 kl 15:21 6950

https://newsweb.oslobors.no/message/549653
Penger i kassa dette også. Ca. 12.000.000,-.
Redigert 16.12.2021 kl 15:23 Du må logge inn for å svare
Kraamz
17.12.2021 kl 10:12 6820

Patentet delt av Fleksnes på Reddit☺️

Dette er ADD-IN fra Oppo☺️👍
Dette tyder på at vi nærmer oss veldig! Så dette var veldig kjekt å få delt🙌🙂


Applicants
OPPO广东移动通信有限公司
Inventors
董富伟
Classifications
IPC
H04M1/02; H04N5/225;
Priorities
CN202111081671A·2021-09-15
Application
CN202111081671A·2021-09-15
Publication
CN113747027A·2021-12-03
Published as
CN113747027A

The zoom unit 3112 may be disposed in the mounting groove 31101, and the zoom unit 3112 may be a liquid lens, which may be deformed to change a curvature after being powered on, so that a propagation path of incident light may be changed, thereby implementing a focusing function of the camera assembly 300. As shown in fig. 5 and 7 to 8, the zoom unit 3112 may be provided with a housing 31121 and an elastic transparent body 31122. The housing 31121 may be provided with a top plate a, a side plate B, and a bottom plate C. The top plate A is connected with the side plate B, and the bottom plate C and the top plate A are oppositely arranged to form an accommodating space D. Alternatively, the top plate a and the side plate B may be an integral structure made of the same material, such as glass or silicon. The side plate B is used for being connected with the first housing 3111, the top plate a may be covered with a layer of piezoelectric ceramic, and the piezoelectric ceramic may further be provided with an electrode connected with the wire 3115, so that the piezoelectric ceramic may be deformed under the driving of voltage. The thickness of the top plate a is generally small. In this embodiment, the middle position (labeled E in the figure) of the top plate a may be a circular transparent lens, or a light-transmitting area without piezoelectric ceramics, as a light-entering hole of the zoom unit 3112.

https://worldwide.espacenet.com/patent/search/family/078739119/publication/CN113747027A?q=%E5%B9%BF%E4%B8%9C%E7%A7%BB%E5%8A%A8%E9%80%9A%E4%BF%A1%E6%9C%89%E9%99%90%E5%85%AC%E5%8F%B8


https://patents.google.com/patent/CN113747027A/en?oq=CN113747027A
Redigert 17.12.2021 kl 10:12 Du må logge inn for å svare
Kraamz
18.12.2021 kl 13:52 6643

En liten gjennomgang med bilder og div rapporter🙂👍

https://www.shareville.no/grupper/polight-fra-lille-horten-2860
edvin
23.12.2021 kl 17:47 6120

poLight ansetter programvare ingeniør😉

poLight is looking for a Software Engineer to be a part of one the most exciting companies in Norway. We are on track to establish poLight as a key player within tunable optics, with applications areas in several markets both consumer related and professional. We are already supplying our tunable lens to smartwatch, web camera, barcode reader, machine vision and more applications are to come - next generation augmented reality glasses (AR), smartphone and medical applications are ahead of us.

poLight is a deep tech company headquartered in Norway, with unique opportunities in a worldwide market, and we need unique and flexible employees – could that be you?

Your role will require and challenge you to:
·       Develop, implement and maintain data flow and database systems for production and test data
·       Improve and document production and test data architecture
·       Setup automated scripts for data transfer, data processing and database feeding
·       Recommend and implement systems for global access to input/output to data
·       Improvement of existing reporting tools and develop new custom front-end applications

What you bring:
·       BSc Degree in Computer Science or related technical field
·       Experience with scalable, high-performance backend services
·       Experience with Cloud and hybrid cloud systems (Azure)
·       Hands on experience in Python, SQL, .NET Core, C#
·       Practical experience with test or production data is an advantage

Office location:
·       Skoppum, Norway

If you are interested in this opportunity, don’t hesitate to apply. Please send your application letter, CV and other relevant information to jobs (a) polight.com no later than 31st January 2022. For more information, please contact Arne Brudvik mob: +47 474 51 079 or Lars Henriksen mob: +47 990 91 096. 

About poLight;
poLight offers a new autofocus lens which "replicates" the human eye for use in devices such as smartphones, wearables, barcode, machine vision systems and various medical equipment. poLight's TLens® enables better system performance and new user experiences due to benefits such as extremely fast focus, small footprint, no magnetic interference, low power consumption and constant field of view. poLight is based in Horten, Norway, with offices in Finland, France and China and representation in Taiwan and Korea. For more information, please visit https://www.polight.com

Gleder meg til den videre reisen som poLight aksjonær, og ønsker alle medaksjonærer en riktig God Jul!

Edvin
Kraamz
25.12.2021 kl 21:48 5795

Dette er utrolig spennende,Takk for deling☺️ God jul 🧑‍🎄🧑‍🎄
Slettet bruker
31.12.2021 kl 13:50 5217

Takker for linker Kraamz.

Takker også for mye fin info som du deler med oss andre "infosnyltere"

Ønsker deg et godt nytt år og minst en dobling av PLT-kurs i 2022. (Dvs Kr. 372,-)
Kraamz
31.12.2021 kl 14:25 5213

Bare hyggelig☺️ 2022 blir nok året Polight gjør de viktigste innpassene som vil skape enda mer entusiasme ☺️ Ha et godt nyttår ☺️🎉