Appearance: Shielded, M18.
Sensing distance: 4 mm.
Output configuration: DC 2-wire.
Model: Operation mode, NC.
Chip-immune Inductive.
Proximity Sensor.
Correct operation even with aluminum or iron chips sticking,
to the Sensor.
Only the sensing object is detected.
Pre-wired Smartclick Connector Models also available E6D-C Series PDF. Appearance: M30.
Sensing distance: 10 mm.
Connection method: Pre-wired Models (2 m)
E6D-C Series
Cable specifications: PVC (oil-resistant).
Operation mode : NO .
Pin arrangement: --.
Applicable connector code: --.
Your Search for Proximity Sensors.
Starts with the World-leading.
Performance and Quality of the E2E.
Standard Sensors for detecting ferrous metals.
Wide array of variations E6D-C Series PDF. Ideal for a variety of applications.
Models with different frequencies are also available to prevent,
mutual interference.
Superior environment resistance with standard cable made of oil,
resistant PVC and sensing surface made of material that resists,
cutting oil.
Useful to help prevent disconnection.
Cable protector provided as a standard feature. Sensing method: Through-beam (Emitter + Receiver) E6D-C Series PDF.
Appearance: Vertical.
Connection method: Pre-wired Connector (M12).
Sensing distance: 30m.
Water- and Oil-resistant.
Photoelectric Sensor with.
Metal Housing Used for Long.
range Sensing.
Excellent resistance against the water and oil.
Easy application in locations with oil mist.
Long-range sensing up to 30 m with Through-beam models.
Shock resistance rated at 1,000m/s2.
Product lineup includes metal M12 pre-wired connector models.
NPN/PNP selector switch output. Fitting materials: Stainless steel (SUS3044) E6D-C Series datasheet.
Count: 1.
Accessories: Description, --; Material, --; Count, --.
Applicable sensor (mounting pitch on sensor side): E32-T54V.
Page: Dimensions, 7. Size: M12 (Brass); Single; Shielded.
Sensing distance: 5 mm.
Connectting method (See note 1 E6D-C Series datasheet. ): M12 Connector.
Body length: Long.
Output configuration: PNP.
Operation mode NO.
A new generation in global applications.