Banner Engineering S18SP6FF50Q S18 Proximity Epoxy Encapsulated Sensor, Barrel Shape, 50 mm Sensing, Infrared Sensing Beam

Background Suppression, Tubular Style
13606 MFG #: S18SP6FF50Q
107.00000 / ea
  • Brand Name: Banner
  • Country of Origin: USA
  • Enclosure Type: NEMA 6P/IP69K
  • Environmental Conditions: 90% at 50 deg C Maximum Relative Humidity
  • Light Source: LED
  • Manufacturer: Banner Engineering
  • Mounting Type: Barrel
  • Operating Temperature: -40 to 70 deg C
  • Output Type: PNP
  • Response Time: 3 ms
  • Sensing Beam: Infrared
  • Sensing Method: Fixed Background Suppression
  • Sensing Range: 50 mm
  • Series: S18
  • Shape: Barrel
  • Standards/Approvals: CE Marked, CSA Certified, UL Listed
  • Stock Status: Normally Stocked
  • Type: Proximity
  • UOM: lb
  • Voltage Rating: 10 to 30 VDC
  • Weight: 1
Banner Engineering Epoxy Encapsulated Sensor, Proximity, Series: S18, Barrel, Fixed Background Suppression Sensing Method, 50 mm Sensing Range, Infrared Sensing Beam, 3 ms Response, PNP Output, 10 to 30 VDC, LED Light Source, NEMA 6P/IP69K, -40 to 70 deg C Operating, Barrel Mount, Environmental Conditions: 90% at 50 deg C Maximum Relative Humidity
  • Features
Thermoplastic primary housing material
Light/dark operation
100 ms delay at power-up
750 us repeatability
Acrylic lens material
18 mm barrel diameter
Discrete input/output
3 ms output response time
M12 euro style integral quick disconnect cable connection
Wash-down rated
Ecolab certified
Encapsulated product
Health/marginal signal output
Barrel housing style; Featuring EZ-BEAM technology for reliable sensing without the need for adjustments; Completely epoxy-encapsulated to provide superior durability, designed to meet rigorous IP69K standards for use in 1200 PSI washdowns; Innovative dual-indicator system for simple sensor performance monitoring; Advanced diagnostics to warn of marginal sensing conditions or output overload; Protected against reverse polarity and transient voltages; Protected against false pulse on power-up and continuous overload or short circuit of outputs