Omron E2E-S04N02-WC-C1 2M Stainless Inductive Sensor: Technical Guide and Application Manual
When a machine must run continuously, sensor selection is not about saving a few pounds on the BOM — it is about selecting products that will not become a production problem. The Omron E2E-S04N02-WC-C1 2M Stainless Inductive Sensor (12-24V DC) is designed precisely for that reality.
Omron’s sensor portfolio is not limited to photoelectric and inductive technologies. The company’s Omron Sensor range also covers capacitive, ultrasonic and laser sensors — often integrated into the same panel alongside units like this one.
About the Omron E2E-S04N02-WC-C1 2M Stainless Inductive Sensor
The Omron E2E-S04N02-WC-C1 2M is a Stainless Inductive Sensor rated at 12-24V DC, with 2 m cable length, designed to reliably handle food production applications. Key engineering features include stainless body, food grade, cable 2 m, ip67.
The engineering case for the Omron E2E-S04N02-WC-C1 2M Stainless Inductive Sensor rests on clear advantages: stainless body, food grade, cable 2 m, ip67. Voltage rating 12-24V DC, factory-fitted 2 m cable, covers most industrial installation scenarios.
Specifications at a Glance
The table below summarises the main technical parameters of the Omron E2E-S04N02-WC-C1 2M. For complete specifications, refer to the official Omron product datasheet.
| Parameter | Value |
|---|---|
| Product Type | Stainless Inductive Sensor |
| Operating Voltage | 12-24V DC |
| Cable Length | 2 m |
| Output Type | NPN/PNP |
| Output Current | 200 mA |
| Key Features | Stainless body, food grade, cable 2 m, IP67 |
| Mounting | Screw mount |
| Lifetime | Semiconductor |
| Operating Temperature | -25°C to +70°C |
| Compatible Accessory | Mounting bracket |
Industry Use Cases
The Omron E2E-S04N02-WC-C1 2M Stainless Inductive Sensor is commonly specified for the following applications:
- Food production
- Pharmaceutical industry
- Washdown environments
Across these use cases, the consistent requirement is reliable detection — often in environments where an unplanned fault would create significant disruption. The Omron E2E-S04N02-WC-C1 2M is designed with exactly those conditions in mind.
Installation Checklist
A few installation details make a tangible difference with the Omron E2E-S04N02-WC-C1 2M Stainless Inductive Sensor. Mount the sensor at a location free from vibration. Keep the cable route away from sharp edges. Adjust the target distance to operate at 80% of the nominal sensing range.
For ongoing maintenance, keep the sensor lens clean, check cable connections, and periodically test that the LED indicator functions correctly. Early intervention avoids the much larger cost of an unplanned production stop.
Omron E2E-S04N02-WC-C1 2M: Long-Term Value
Omron’s reputation in automation did not come from clever advertising. It came from decades of sensors performing reliably in factories worldwide. The E2E-S04N02-WC-C1 2M Stainless Inductive Sensor is a current embodiment of that engineering culture.
Frequently Asked Questions
How do I install the Omron E2E-S04N02-WC-C1 2M?
Mount the Omron E2E-S04N02-WC-C1 2M Stainless Inductive Sensor using a mounting bracket to a stable surface, make cable connections, and adjust the target distance.
What is the service life of the Omron E2E-S04N02-WC-C1 2M?
As the Omron E2E-S04N02-WC-C1 2M Stainless Inductive Sensor uses semiconductor technology with no moving mechanical parts, it has a very long service life.
Is the Omron E2E-S04N02-WC-C1 2M sensitive to inductive loads?
The Omron E2E-S04N02-WC-C1 2M Stainless Inductive Sensor includes short-circuit and overcurrent protection in its output circuit.
Is the Omron E2E-S04N02-WC-C1 2M RoHS compliant?
Omron products conform to RoHS Directive requirements. Specific compliance documentation can be requested from authorised distributors.
What periodic maintenance does the Omron E2E-S04N02-WC-C1 2M require?
Keep the sensor lens clean, check cable connections, and ensure the mounting screw is tight.