Eaton 13108RQD07

EATON Perfect Prox® 13108RQD07 Comet 3/4-Wire Right Angle Photoelectric Sensor, Tubular Shape, 6 in, Visible Red Sensing Beam, 1 ms Response, NPN/PNP Open Collector Output
Photo Sensors
7751631 13108RQD07
$0.00 / ea

  • Amperage Rating: 100 mA PNP/250 mA NPN
  • Connection Type: 4-Pin M12 Micro DC
  • Enclosure Type: NEMA 1/3/4/4X/6/12/13/IP69K
  • Frequency Rating: 50/60
  • Light Source: LED
  • Mounting Type: Surface
  • Operating Temperature: -40 to 158
  • Output Type: NPN/PNP Open Collector
  • Response Time: 1
  • Sensing Beam: Visible Red
  • Sensing Method: Background Suppression
  • Sensing Range: 6
  • Series: Comet
  • Shape: Tubular
  • Type: 3/4-Wire Right Angle
  • Vibration: 30 g Over 10 Hz to 2 kHz
  • Voltage Rating: 10 to 30
  • Wattage: 1
EATON Perfect Prox® Photoelectric Sensor, 3/4-Wire Right Angle, Series: Comet, Tubular Shape, Background Suppression Sensing Method, 6 in Sensing, Visible Red Sensing Beam, 1 ms Response, NPN/PNP Open Collector Output, 10 to 30 VDC, 100 mA PNP/250 mA NPN, 1 W Wattage, 50/60 Hz Frequency, 4-Pin M12 Micro DC Connection, LED Light Source, 30 g Over 10 Hz to 2 kHz Vibration, NEMA 1/3/4/4X/6/12/13/IP69K Enclosure, -40 to 158 deg F Operating, Surface Mounting
  • Features
  • Industry standard 18 mm Dia threaded body has flat sides allowing it to be mounted like a tubular sensor or against any flat surface
  • Right angle viewing models mount in a depth of only 6/10th of an inch
  • Solid polyurethane housing completely encapsulates internal circuits for high resistance to shock and vibration
  • Adaptable modulation circuit provides immunity to crosstalk from other closely mounted sensors
  • The industry's only background rejection sensors with a 2-wire circuit design
  • 4-wire DC sensors offer both NPN and PNP outputs
  • Output status indicator visible from a wide 270 deg angle
  • Visible sensing beams let you see where the beam is aimed for quick-setup and alignment
  • Perfect Prox® technology provides exceptional background rejection and application problem solving