ProCam®
Active alignment, assembly and testing of camera modules and LiDAR systems
With the measurement and production equipment of the ProCam® series, we offer the latest solutions for the challenge of active alignment and series production of high-precision optical sensor systems. Active Alignment technology has a key function in optimizing the image quality of camera modules and LiDAR components. By providing optimal image quality across the entire field of view, active alignment is an established and efficient manufacturing process to produce high-end camera applications and LiDAR systems.
What is active alignment? Aligning an image sensor to a lens while actively reading image data from the sensor.
ProCam® Lab with 3 months warranty extension
We are celebrating our anniversary and would like to make a special promotion to our ProCam® customers:
The latest instrument ProCam® Lab – a newly developed system that meets the requirements of prototyping – takes its first big steps in the ADAS/ AD market and delivers uncompromising quality. We are happy to pass on the quality bonus to our customers and extend the warranty on the purchase of a ProCam® Lab from December 2021 to March 2022. Please contact our Sales Team!
Active alignment & assembly of ADAS cameras
Advanced Driver Assistance System (ADAS) technologies for vehicles require highly reliable image processing systems and optical sensors to ensure safe and trouble-free operation on the road. Lives depend on it. These requirements are met by TRIOPTICS optical measurement and manufacturing systems. We integrate these high-precision metrology modules into mass production and provide solutions for the lens quality check, active alignment and end-of-line test for fully automated camera production lines.
Applications
The demand for high-quality machine vision systems and optical sensors for a wide range of applications in many different industries is steadily increasing, and imaging systems that enable better optical performance are required. In this context, the reduction in pixel size and increase in pixel density of modern image sensors pose a challenge to the precise optical alignment of lenses and sensors. TRIOPTICS strives to ensure the necessary performance of camera systems with reliable measurement and control algorithms. The ProCam® and CamTest product lines have proven to meet availability and yield requirements with low cycle times. Solutions range from products for semi-automated production to system integration for fully automated production lines that meet the requirements of the automotive industry.
Automotive
Industrial
Security, Healthcare & Consumer electronics
Product Overview
ProCam® Prototyping
Consulting and engineering services for camera and LiDAR alignment
Our service to develop the best possible camera module according to your requirements. The service includes ongoing in-house manufacturing of prototypes and small series.
ProCam® Lab
Entry-level system for active alignment of camera modules
With the new ProCam® Lab, we offer the ideal solution for customers who want to master the critical challenge of active alignment and assembly of high-precision camera modules with a small number of pieces. Customers can easily get started in the camera business and optimize their prototypes for later series production.
In addition to the purchase of our active alignment system ProCam® Lab Basic, we also offer a full package to set up a complete assembly line. The full package includes, among others:
Software
ProCam® Software
The ProCam® software “CamAlign” consists of components for the fully-automated active alignment process:
Technical Data
Parameter | ProCam® TT | ProCam® Align Smart |
---|---|---|
Alignment axes | 5 or 6 | 5 or 6 |
Resolution linear | 0.2 μm (X,Y) 0.08 μm (Z) | 0.2 μm (X,Y) 0.08 μm (Z) |
Resolution rotatory | 2.5 μrad (Θx, Θy) 5 μrad (Θz) | 2.5 μrad (Θx, Θy) 5 μrad (Θz) |
Repeatability linear | ± 0.15 μm (X,Y) ± 0.06 μm (Z) | ± 0.15 μm (X,Y) ± 0.06 μm (Z) |
Repeatability rotatory (pitch, yaw, roll) | ± 2 μrad (Θx, Θy) ± 3 μrad (Θz) | ± 2 μrad (Θx, Θy) ± 3 μrad (Θz) |
Typical sample alignment accuracy, linear | ± 2 μm1) | ± 2 μm1) |
Typical sample alignment accuracy, rotatory (pitch, yaw, roll)1) | Pitch and Yaw: ± 0.6 mrad Roll: ± 0.9 mrad (Sensor to sensor) ± 1.75 mrad (Sensor to mechanical reference) | Pitch and Yaw: ± 0.6 mrad Roll: ± 0.9 mrad (Sensor to sensor) ± 1.75 mrad (Sensor to mechanical reference) |
Sample objective lens EFL | 0.7 mm … 30 mm (1 mm … 12 mm Standard) | 0.7 mm … 30 mm (1 mm … 12 mm Standard) |
Sample objective lens diameter | 4 mm … 30 mm (smaller or bigger diameter on request) | 4 mm … 30 mm (smaller or bigger diameter on request) |
Field of view test chart | up to 70° (up to 100° possible after individual clarification) | up to 70° (up to 100° possible after individual clarification) |
Field of view collimators | up to 160° mechanical set up2) up to 140° for optical measurement3) | up to 160° mechanical set up2) up to 140° for optical measurement3) |
Test targets | Test chart or collimators Available with VIS or NIR | Test chart or collimators Available with VIS or NIR |
Performance | 300 UPH (units per hour) calculated on following parameter: 2 seconds UV curing time, continuous images from camera @ > 30fps, < 1second camera start-up time, parts loaded as specified, tolerance for lens FFL +/-100µm, scan range <300µm, alignment process max. 2 scans, loading and unloading within cycle time | <60 sec. process time (without sample loading/unloading) Process time calculated on following parameter: sensor board initialization time <1 s, camera frames >30 fps, continuous images from camera, UV snap curing <2s with preselected lenses. |
Dimensions (h x w x d) | 1,875 mm (1,800 mm without flowbox) x 1,470 mm x 1,550 mm; customized | 2,200 mm x 1,750 mm x 1,100 mm |
Camera interface | MIPI, Parallel, LVDS, Analog or directly to PC via e.g. USB, FireWire, CamLink, GigE and others | MIPI, Parallel, LVDS, Analog or directly to PC via e.g. USB, FireWire, CamLink, GigE and others |
Weight | 600 kg … 800 kg | |
Type | stand alone or inline (integratable) | stand alone |
1) Typical accuracy reached on following sample parameter: pixel size 6μm, F# = 2.8, EFL = 4.5mm.
2) Up to 180° possible after individual clarification, depending on sample and mechanical surrounding, for bigger FoV technical investigations necessary.
3) Depending on distortion, individual clarification necessary.
Upgrades & Accessories
Robot loading
Plug & produce collimator dome
Sensor test
Knowledge Base
More knowledge for experts
Everything you need to know about image quality testing of camera modules can be found in the knowledge base of CamTest…