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Posted on July 28, 2021 by  & 

OMRON B5L Time-of-Flight Sensor Module for Real-Time 3D Vision in AMR

Autonomous robots moving boxes in a warehouse
Innovative technology continues to improve and advance the possibilities for autonomous mobile robots (AMR). To view the environment around them, AMRs often require multiple, high-accuracy sensors that can offer stable and reliable detection along with a long life and high durability in a range of environments. Omron's latest sensor introduction, the B5L Time-of-Flight Sensor Module, provides real time 3D vision for obstacle detection, enabling AMRs for many use cases such as: delivery, logistics, and fulfillment, moving, sorting, and picking goods.
 
Using 3D sensors in outdoor or ambient light environments can be difficult, as interfering light wavelengths can impede the sensor's ability to detect the environment. Other challenges for 3D sensors include:
  • Edge noise - leading to false detection
  • Object reflectivity - causing accuracy issues and missed detection
  • Short sensor lifetime - lacking a robust lifetime
 
Omron's new B5L Series Time-of-Flight (ToF) sensor module is designed to solve these technical challenges in detection, accuracy, and sensor lifespan, as well as empower clients to easily integrate the module into their applications. Explore a video of AMR applications in action.
 
 
 
The B5L Series includes a high-dynamic range (HDR) function to provide high-accuracy readings. This controls the shutter speed to perform the measurement multiple times for both near and far objects. The HDR function can be turned off for high-speed operation, which uses a single measurement to calculate distance.
 
The ToF sensor also has a built-in edge noise reduction (ENR) function that determines edge location and reduces the noise associated with these edges. With this function enabled, the sensor can realize crisp image capture to detect objects at any distance or reflectivity.
 
To ensure stable detection even in direct sunlight, Omron incorporated a lens design that corresponds to the wavelength of the emitter LEDs and arranged emitters and receivers to minimize the effect of sunlight, among other optical design technology. This created a ToF module with high ambient light immunity—up to 100,000 lx—and high output accuracy of ±2% at 2 m.
 
Users can also control the emitted LED frequency to prevent frequency interferences between units—the B5L ToF sensor allows for the operation of up to 17 units simultaneously. The sensor also has a long life of approximately five years under continuous driving, due to Omron's unique circuit and heat emission design.
 
 
Omron's B5L 3D sensor allows for simple design integration as well, with selectable outputs in the Cartesian, Cartesian Rotation, or Polar coordinate format. Omron provides a free software development kit (SDK) to evaluate the ToF sensor and recently completed a sample robot operation system 2.0 (ROS2) code to make integration even easier.

Learn more about Omron's B5L Time-of-Flight Sensor Module by joining the upcoming complimentary webinar

Discover how to OMRON's B5L Time-of-Flight sensor can fit into your AMR application. Join Kyle Alberti, Application Development Manager as he shares the latest in OMRON's 3D vision technology.
Topics will include:
 
  • What is a Time-of-Flight sensor?
  • ToF Sensor Applications - AMR
  • Key features and advantages of OMRON's B5L ToF Sensor:
    • Ambient light immunity
    • High precision
    • Long life
    • Interference prevention
    • ENR Functionality
    • HDR Functionality
  • SDK & Sample Evaluation Software
  •  
    Webinar Title: OMRON B5L Time-of-Flight Sensor Module for Real-Time 3D Vision in AMR Applications
    Date: Thursday, Aug 12, 2021
    Time: 11am CDT/12pm EDT / 9am PDT
    Click HERE to register today!
     
     
    Learn more about these and other Omron products, including sensors, relays, switches, and connectors at components.omron.com
    Kyle Alberti attended Northern Illinois University where he obtained a Bachelor of Science degree in Mechanical Engineering; he also holds a Bachelor of Arts from Carthage College. Kyle is currently an Application Development Manager for Omron, serving as the America's technical contact for Omron's diverse sensor and component product offerings in several focus applications. Kyle has expertise in Autonomous Mobile Robots, Automated Test Equipment, and Wireless Power Transfer applications.
     
     
    Connect with Omron on social media:
     

    Authored By:

    Application Development Manager, Omron electronic

    Posted on: July 28, 2021

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