Inductive sensor With increased switching distance BI2-EG08-AP6X-V1131 Threaded barrel, M8 x 1 Stainless steel, 1.4427 SO Large sensing range DC 3-wire, 1030 VDC NO contact, PNP output M8 x 1 male connector Wiring Diagram Type designation BI2-EG08-AP6X-V1131 Ident no. 4602050 Functional principle Inductive sensors detect metal objects con- Rated switching distance Sn 2 mm tactless and wear-free. For this, they use a Mounting conditions Flush high-frequency electromagnetic AC field that Secured operating distance (0,81 x Sn) mm interacts with the target. Inductive sensors Correction factors St37 = 1 Al = 0.3 stainless steel = 0.7 Ms = 0.4 Repeat accuracy 2 % of full scale generate this field via an RLC circuit with a Temperature drift 10 % ferrite coil. Hysteresis 315 % Ambient temperature -25+70 C Operating voltage 1030 VDC Residual ripple 10 % Uss DC rated operational current 150 mA No-load current I0 15 mA Residual current 0.1 mA Isolation test voltage 0.5 kV Short-circuit protection yes/ Cyclic Voltage drop at I 1.8 V e Wire breakage/Reverse polarity protection yes/ Complete Output function 3-wire, NO contact, PNP Switching frequency 3 kHz Design Threaded barrel, M8 1 Dimensions 49 mm Housing material Stainless steel, 1.4427 SO Active area material Plastic, PA12-GF30 Max. tightening torque housing nut 5 Nm Electrical connection Connector, M8 1 Vibration resistance 55 Hz (1 mm) Shock resistance 30 g (11 ms) Protection class IP67 MTTF 2283 years acc. to SN 29500 (Ed. 99) 40 C Switching state LED yellow 1 / 4 Hans Turck GmbH & Co.KG D-45472 Mlheim an der Ruhr Witzlebenstrae 7 Tel. 0208 4952-0 Fax 0208 4952-264 more turck.com www.turck.com Edition 2017-09-20T20:23:02+02:00Inductive sensor With increased switching distance BI2-EG08-AP6X-V1131 Distance D 2 x B Distance W 3 x Sn Distance T 3 x B Distance S 1.5 x B Distance G 6 x Sn Diameter active area B 8 mm 2 / 4 Hans Turck GmbH & Co.KG D-45472 Mlheim an der Ruhr Witzlebenstrae 7 Tel. 0208 4952-0 Fax 0208 4952-264 more turck.com www.turck.com Edition 2017-09-20T20:23:02+02:00