M8 inductive proximity sensor M1-08.21.S

Sn=1.7mm, 3-wire, NPN/NO, 9-36VDC, 250mA, M8x30mm

Price 26.25 EUR no VAT

Shielded type M1-08.21.S proximity inductive sensor for direct current with cylindrical metallic housing M8x30mm, with NPN output type, with one normally open contact. The maximum distance of operation of the proximity sensor is 1,7mm. The sensor ends with a 3-wire PVC connecting cable with a length of 2m and has an LED indicator showing the output state of the inductive sensor. The sensor's output has no protection of short circuit.

FEATURES

The presented shielded type M8/S inductive proximity sensor is used in industrial systems, as automation equipment for switching at 3-wire direct current electrical circuits. It is activated by approaching of metallic object to him active area. The inductive proximity sensor is resistant to moisture and dust. It has a long service life thanks to the non-contact switching of the electrical circuit in which it is connected.

TECHNICAL PARAMETERS

Nominal switching distance, Sn 1.7 mm ±4%
Measuring plate steel, St 37 8x8x1 mm
Hysteresis, h 5 ... 12%
Supply voltage, Us 9 … 36 Vdc (Ripple ±10%)
Output voltage (max), Uout 39 Vdc (open drain)
Residual voltage (max), Ures 0.8 V (I = 250 mA)
Load current (max), Iout 250 mА
Current protection of the output, Iprot NO
Current consumption (max), Is 7 mA
Switching frequency (max), fo 1200 Hz (Sn=0.8 mm)
Switching time, fall and rise, tf / tr 2 µs / 2 µs
Operating temperature range, Tamb -25° … +70° C
Degree of protection IP67 (IEC144)
Light output indicator LED
Joining - cable “LIYY“ 3x0.25 mm², L=2 m, PVC, grey
Overall dimensions M8x1, L=30 mm
Housing material CuZn (Ni plated)

Scheme of connection

OUTPUT CHARACTERISTIC

Dependence of the residual voltage (U res) on the output current (I out)

Overall dimensions (mm)

Overall dimensions of inductive sensor M8S, L=30

Type parameters of 3-wire shielded inductive sensors with cable M8/S, DC

TYPE OUTPUT FUNCTION
M1-08.11.SPNP / NO
M1-08.12.SPNP / NC
M1-08.21.SNPN / NO
M1-08.22.SNPN / NC