E3JK-T61 for firing type,
E3JK direct current mode: mode; shading ON,
Miniature amplifier built-in type photoelectric switchTerminal type: Exposed-lead Models.
Protective tubing diameter D (mm): 8 dia.
Protective tubing length L: 35 cm.
Lead wire type: Heat resistive.
Lead wire length M : 1m.
A Wide Variety of High-precision E2K-L13MC2 INSTRUCTION sheet.
Temperature Sensors.
Previous models with M3 screw connections have been joined,
by new models with ferrules to help reduce wiring work
E2K-L13MC2
Ideal for the thermal input devices of Temperature Controllers.
Select from a wide variety of Temperature Sensors according,
to the temperature to be measured, location, and environment,
and also according to the type and shape of the terminal E2K-L13MC2 INSTRUCTION sheet. Terminal type: Exposed-lead Models.
Protective tubing diameter D (mm): 1 dia.
Protective tubing length L: 35cm.
Lead wire type: Standard.
Lead wire length M : 4m.
A Wide Variety of High-precision.
Temperature Sensors.
Previous models with M3 screw connections have been joined,
by new models with ferrules to help reduce wiring work.
Ideal for the thermal input devices of Temperature Controllers E2K-L13MC2 INSTRUCTION sheet.
Select from a wide variety of Temperature Sensors according,
to the temperature to be measured, location, and environment,
and also according to the type and shape of the terminal. Size: Shielded, M30.
Sensing distance: 10 mm.
Output: No polarity Pin allocations: 3-4.
Operation mode: NO.
Highly Durable Proximity Sensor for.
Tough Environments.
Completely stainless-steel housing.
Aluminum chip immunity.
Embedding installation to metal (steel) fittings.
Chemical resistance certified by Ecolab Europe E2K-L13MC2 Manual.
Lineup includes pre-wire models and DC 3-wire NPN output,
models with fluororesin coating. E3F3-T31M detection methods: the firing pattern,
Wire lead out type,
Type: metal appearance; PNP output,
Threaded cylindrical phhotoelectric sensor, built-in amplifier,
Photoelectric sensor with proximity sensor appearance
High anti interference with optoelectronic -IC technology