혜성 옵틱스 CI

English

Research Results

Research result

We introduce our research and development outcome.

Mobile
camera lens

Mobile camera lens development
5Mega Pixel Mobile Lens 개발
Research Subject Development of 5 Mega Pixel Mobile Lens
Research Institute Haesung Optics Affiliated Research Institute
Research results
  • Applied to 5M 1/4” camera module
  • Using plastic 4 piece aspheric lens
Technology in possession
  • Resolution optimization and tolerance analysis verification by using image formation design program
  • Flare phenomenon verification by using lighting design program
  • Aspheric lens injection molding and measuring technology
  • Aspheric lens BBAR multi coating and thin film measuring technology
Expected Effect
  • Securing price competitiveness by changing existing 1GM3P lens to 4 pieces of plastic lens
  • Development of high pixel lens of 5 Mega class that can be used for 1/4” sensor
Commercialization information
  • Applied to Samsung Electronics Galaxy S1
8Mega Pixel Mobile Lens(EFL 4.0mm) 개발
Research Subject Development of 8 Mega Pixel Mobile Lens
Research Institute Haesung Optics Affiliated Research Institute
Research results
  • Applied to 8M 1/3.2” camera module
  • Using plastic 4 piece aspheric lens
Technology in possession
  • Resolution optimization and tolerance analysis verification by using image formation design program
  • Flare phenomenon verification by using lighting design program
  • Aspheric lens injection molding and measuring technology
  • Aspheric lens BBAR multi coating and thin film measuring technology
Expected Effect
  • Preoccupying market by developing 8 Mega class lens
  • Development of the lens applicable to encoder type by changing lens barrel shape according to the change of auto-focusing device (actuator) of customer from VCM to encoder type
Commercialization information
  • Applied to Samsung Electronics Galaxy S2
8Mega Pixel Mobile Lens(EFL 3.7mm) 개발
Research Subject Development of 8 Mega Pixel Mobile Lens
Research Institute Haesung Optics Affiliated Research Institute
Research results
  • Applied to 8M 1/3.2” camera module
  • Using plastic 5 piece aspheric lens
Technology in possession
  • Resolution optimization and tolerance analysis verification by using image formation design program
  • Flare phenomenon verification by using lighting design program
  • Aspheric lens injection molding and measuring technology
  • Aspheric lens BBAR multi coating and thin film measuring technology
Expected Effect
  • Improvement of resolution by using 5 pieces of plastic lens instead of 4 pieces
  • Improvement of F/# and view angle performances from existing 8 Mega (4.0mm) Lens
Commercialization information
  • Applied to Samsung Electronics Galaxy S3
13Mega Pixel Mobile Lens(EFL 4.1mm) 개발
Research Subject Development of 13 Mega Pixel Mobile Lens
Research Institute Haesung Optics Affiliated Research Institute
Research results
  • Applied to 13M 1/3.06” camera module
  • Using plastic 5 piece aspheric lens
Technology in possession
  • Resolution optimization and tolerance analysis verification by using image formation design program
  • Flare phenomenon verification by using lighting design program
  • Aspheric lens injection molding and measuring technology
  • Aspheric lens BBAR multi coating and thin film measuring technology
Expected Effect
  • Easy to develop lenses for the same pixel sensor by developing the lens fit for 1.12um pixel
  • More excellent resolution than 8 existing Mega lens by developing 13 Mega
Commercialization information
  • Applied to Pantech Vega
13Mega Pixel Mobile Lens(EFL 4.2mm) 개발
Research Subject Development of 13 Mega Pixel Mobile Lens
Research Institute Haesung Optics Affiliated Research Institute
Research results
  • Applied to 13M 1/3.06” camera module
  • Using plastic 5 piece aspheric lens
Technology in possession
  • Resolution optimization and tolerance analysis verification by using image formation design program
  • Flare phenomenon verification by using lighting design program
  • Aspheric lens injection molding and measuring technology
  • Aspheric lens BBAR multi coating and thin film measuring technology
Expected Effect
  • Match to the actuator of customer by developing as encoder barrel
  • Development of the lens that enables bright view under low illumination comparing with 13 Mega (4.1mm)
Commercialization information
  • Applied to Samsung Electronics Galaxy S4

Vehicle Camera Lens Development

Vehicle Camera Lens Development
1.3mm HD 1/4” 후방 카메라 Lens 개발
Research Subject Development of 13 mm HD 1/4” Rear View Camera Lens
Research Institute Haesung Optics Affiliated Research Institute
Research results
  • Applied to 1/4” camera module of HD class
  • Composed of 3 pieces of glass and 3 pieces of aspheric plastic lens
Technology in possession
  • Resolution optimization and tolerance analysis verification by using image formation design program
  • Flare phenomenon verification by using lighting design program
  • Precision grinding technology for spherical glass lens
  • Lens BBAR multi coating and thin film measuring technology
  • Aspheric lens injection molding and measuring technology
Expected Effect
  • AS it can identify the objects in the side of vehicle with wide view angle, it secures competitiveness over other companies.
Commercialization information
  • Applied to rear view camera

CCTV Camera Lens
Development

CCTV Camera Lens Development
3.3mm HD 1/3” CCTV 카메라 Lens 개발
Research Subject Development of 3.3mm VGA 1/3” CCTV Camera Lens
Research Institute Haesung Optics Affiliated Research Institute
Research results
  • Applied to 1/3” camera module
Technology in possession
  • Resolution optimization and tolerance analysis verification by using image formation design program
  • Flare phenomenon verification by using lighting design program
  • Aspheric lens injection molding and measuring technology
  • Aspheric lens BBAR multi coating and thin film measuring technology
Expected Effect
  • AS it can be used for infrared ray area as well as for general visible light area, it can be used in the day and night, securing technology competitiveness
  • As it adopts 3.3 mm focus, it can take pictures of wider area than 3.8mm or 6.0mm lenses generally used.
Commercialization information
  • Delivered to HIKVISION, China

Medical Endoscope
Lens Development

Medical Endoscope Lens Development
1/13” CMOS 내시경 Lens 개발
Research Subject Development of 1/8.3” CMOS Endoscope Lens
Research Institute Haesung Optics Affiliated Research Institute
Research results
  • Applied to 1/8.3” camera module
  • Composed of 4 pieces of aspheric lenses
Technology in possession
  • Resolution optimization and tolerance analysis verification by using image formation design program
  • Aspheric lens injection molding and measuring technology
  • Lens BBAR multi coating and thin film measuring technology
Expected Effect
  • Easy to develop lenses for the same sensor in the future by developing the lens that is applied to ultra small size sensor
  • Securing price competitiveness and making the size of lens small by using 2 pieces of aspheric lenses
Commercialization information
  • Delivered development test sample to endoscope module company

  • Drone

    Earth magnetic field, GPS, Obstacle
    avoidance by measuring distances
    with ultra-sonic wave, Main camera
    for recording

  • Beauty / Toy Camera

    USB Streaming/Capture,
    Wireless

  • Micro Endoscope

    Business expansion to
    disposable endoscope

  • Automotive

    AVM, Rear view, Black Box

  • Industrial Endoscope

    High definition, Micro camera

  • Dual Camera

    5Mp 120º Front Camera,
    Iris recognition tS 5mm

  • Industrial Machine
    Vision

    G.Shutter Camera, FHD/4K

  • FHD/4K

    High performance image signal
    processing technologies