Slit diameter at emitter and receiver: 0.5 mm each (Thickness: 10 mm), and E3NX-FA11 Fiber Amplifier Unit (HS
mode).
Fiber Unit Build-in Lens Series, Flat Model
about this Product Family
last update: February 01, 2016
The optimum aperture angle that obtains a sufficient incident level for stable detection without making precise adjustment combines with high-quality optical axis accuracy with an optical axis inclination variation of ±2.5° or less between individual products to enable optical axis adjustment that is much faster than for previous products. All Fiber Units are inspected with a special jig before they are shipped to enable reliable installation without variations between individual products.
Finding the horizontal head (Fiber Unit) offset in the incident light range for a specific incident level of 1,500 during installation shows just how much wider the range is for the E32-LT35Z in comparison with a previous product (E32-T15ZR). In comparison with the difficult optical axis adjustment of previous products, the optical axis of the E32-LT35Z can be roughly adjusted in a short period of time to obtain the incident level required for stable detection.
The offset between the optical axis and mechanical axis is within ±2.5°, so a sufficient incident level can be achieved merely by aligning the mechanical axis at installation.
A concave mirror lens (patent pending) produces a divergent beam that achieves both easy adjustment and light emission power. An ultra-high-power beam is provided that is approx. five times that of previous products with no lens. A sufficient incident level can be obtained for stable detection even if the optical axis is offset over a long period of usage and even if the emitter/receiver section becomes dirty. You can reduce the maintenance frequency in comparison with previous products.
OMRON highly recommends these new-standard Fiber Units with a Built-in Lens that provide stable detection with a high-power beam. You don’t have to worry about the lens falling off and getting lost.
last update: February 01, 2016