Z-Trak™2 is a new family of 3D profile sensors built on Teledyne Imaging’s 3D image sensor technology, ushering in a new era of 5GigE 3D profile sensors for high-speed, in-line 3D applications.
Models deliver scan speeds of up to 45,000 profiles per second and features built-in HDR and reflection compensation algorithms to handle surfaces with varying degrees of reflectivity in a single scan. This delivers in-line height measurements for inspection, detection, identification, and guidance in electronics, semiconductor, automotive and factory automation markets segments.
Offering 2K points per profile, all Z-Trak2 models are factory calibrated and offered with either blue or red eye safe lasers to suit various surface properties and operating environments. All sensors are housed in IP67 enclosures for harsh environments and come bundled free with Teledyne Imaging’s Sherlock 8.1 —a point-and-click, rapid application development software package, Sapera Processing RTLs and Sapera LT SDK.
• Up to 2K points/profile; scan rate up to 45K profiles/sec
• Built-in single frame HDR
• 360° inspection and occlusion removal
• Handles varying surface reflectivity to deliver consistent results
• Multi-Sensor Synchronization using single, low cost setup
• IP67 enclosure for harsh operating conditions
• Sherlock 8.1 for rapid application deployment
• Red and blue models
• Reflection compensation algorithms
• Diffused or spurious topologies
• 1, 2.5 and 5GigE interface
All Z-Trak models include a free license of Teledyne DALSA's Sherlock 8 - a graphical programming package allowing rapid application deployment. The free Z-Trak software bundle also includes Sapera LT and Sapera Processing run-time license.Vision Software
Inspection, detection, identification, and guidance in:
There are a number of techniques available for 3D imaging. The Z-Trak series of 3D laser profilers uses a laser triangulation technique to deliver high resolution height measurements. Z-Trak emits a laser onto an object of interest; the reflection's position in the sensor's field of view allows the scanner to triangulate the point in space at which the laser hits the object.
The diagram at the left illustrates the terms we use to specify Z-Trak's performance.
Our Z-Trak Application Lab is here – A dedicated lab for scanning materials for inspection and learning if 3D laser profiling will provide value.
We are now accepting your sample materials to run through our Z-Trak Lab for free testing.Tell Me More
|Supported Interfaces||Gigabit Ethernet, 5 Gigabit Ethernet|
|Z-Trak2 3D Line Profiler Product Feature Article|
|Z-Trak2 S-2K-Series Datasheet|
|Z-Trak2 V-2K-Series Datasheet|
|Z-Trak2 Quick Start|
|Z-Trak2 Series User Manual|
|Z-Trak 2 LP2 Declaration Of Conformity|
|Z-Trak Material Composition Product Declaration|