SGS4-F092P7PS1W02 SICK1213765SGS4F092P7PS1W02

Features: Sensor principle: Sender/receiver; Minimum detectable object (MDO): Parallel beam, 45 mm; Beam separation: 40 mm; Optical light exit: Flat; Number of beams: 24; Detection height: 920 mm; Configuration: None; Cross beam/parallel beam: Parallel beam active; Output 1: Output 1 inactive, if light beam interrupted; Automatic teach: Automatic teach inactive; Alignment aid: Without alignment aid; Muting function: Muting function deactivated; Mechanics/electronics: Light source: Infrared light; Wave length: 950 nm; Supply voltage Vs: DC24 V, ± 20 %; Power consumption sender: ≤ 160 mA 1); Power consumption receiver: ≤ 70 mA; Ripple: < 5 Vpp; Output current Imax.: 100 mA; Output load capacitive: 100 nF; Output load inductive: 1 H; Initialization time: 1 s; Switching output: PNP; Inputs: Teach-in input (receiver)Test input (sender); Dimensions (W x H x D): 25 mm x 992.4 mm x 8.2 mm; Connection type: Cable with M8 male connector, 4-pin; Housing material: PMMA; Indication: LED; Synchronization: Optical; Enclosure rating: IP65 2); Circuit protection: UV connections, reverse polarity protectedOutput Q short-circuit protectedInterference pulse suppression; Protection class: III; Weight: 120 g; Pulse frequency: 500 kHz; Aluminum stabilizer: Without stabilizer; Performance: Maximum range: 10 m 1); Minimum range: Parallel beam: ≥ 0 m 2); Operating range: 7 m; Response time: Parallel beam, 19 ms; Ambient data: EMC: EN 60947-5-2; Ambient operating temperature: –25 °C +55 °C; Ambient storage temperature: –25 °C +70 °C; Ambient light immunity: Direct: 100,000 lx 1)Indirect: 150,000 lx; Vibration resistance: 5 g, 10 Hz ... 55 Hz (IEC 68-2-6); Shock load: 10 g / DIN EN 60068-2-29 / 16 ms; Classifications: ECl@ss 5.0: 27270910; ECl@ss 5.1.4: 27270910; ECl@ss 6.0: 27270910; ECl@ss 6.2: 27270910; ECl@ss 7.0: 27270910; ECl@ss 8.0: 27270910; ECl@ss 8.1: 27270910; ECl@ss 9.0: 27270910; ECl@ss 10.0: 27270910; ECl@ss 11.0: 27270910; ETIM 5.0: EC002549; ETIM 6.0: EC002549; ETIM 7.0: EC002549; UNSPSC 16.0901: 39121528