E3G-ML79 | Omron E3G Series Photoelectric Switch for Industrial Detection
- Regular price
- $667.00
- Sale price
- $667.00
- Regular price
-
Couldn't load pickup availability
Product Description P/N: E3G-ML79
Description
The Omron E3G-ML79 is a photoelectric switch designed for reliable object detection in industrial automation environments. It uses optical sensing technology to detect the presence or absence of targets without physical contact. This sensor is suited for applications such as material handling, assembly lines, and automated equipment.
Technical Specifications
| Condition | New/Never Used Surplus |
| Brand | Omron |
| Category | Sensors |
| Part Number | E3G-ML79 |
| Subcategory | Photoelectric Sensors |
| Sensor Type | Photoelectric Switch |
| Detection Method | Optical |
| Output Type | Switching Output |
| Mounting Style | Panel / Bracket Mount |
| Application Type | Object Detection |
| Housing Style | Compact |
| Installation Environment | Industrial Automation |
| Weight | 0.2 lb |
Information About E3G-ML79
The E3G-ML79 is part of Omron’s E3G series of photoelectric sensors, developed for dependable detection in industrial control systems. It is engineered with a compact housing to support installation in space-constrained machinery. The sensor operates using optical detection principles, allowing non-contact sensing of objects during machine operation. Designed for industrial environments, it is commonly used where repeatable detection and long service life are required.
Key Features:
- Omron E3G Series Sensor: Designed for industrial photoelectric sensing applications
- Non-Contact Detection: Uses optical sensing to detect objects without mechanical wear
- Photoelectric Switching Technology: Enables reliable presence and absence detection
- Compact Sensor Design: Supports installation in tight mechanical layouts
- Industrial Automation Ready: Suitable for conveyors, packaging, and assembly systems
- Stable Detection Performance: Designed for consistent sensing in automated processes
The E3G-ML79 delivers the reliability and precision required for industrial photoelectric detection and sensing applications.
Description
The Omron E3G-ML79 is a photoelectric switch designed for reliable object detection in industrial automation environments. It uses optical sensing technology to detect the presence or absence of targets without physical contact. This sensor is suited for applications such as material handling, assembly lines, and automated equipment.
Technical Specifications
| Condition | New/Never Used Surplus |
| Brand | Omron |
| Category | Sensors |
| Part Number | E3G-ML79 |
| Subcategory | Photoelectric Sensors |
| Sensor Type | Photoelectric Switch |
| Detection Method | Optical |
| Output Type | Switching Output |
| Mounting Style | Panel / Bracket Mount |
| Application Type | Object Detection |
| Housing Style | Compact |
| Installation Environment | Industrial Automation |
| Weight | 0.2 lb |
Information About E3G-ML79
The E3G-ML79 is part of Omron’s E3G series of photoelectric sensors, developed for dependable detection in industrial control systems. It is engineered with a compact housing to support installation in space-constrained machinery. The sensor operates using optical detection principles, allowing non-contact sensing of objects during machine operation. Designed for industrial environments, it is commonly used where repeatable detection and long service life are required.
Key Features:
- Omron E3G Series Sensor: Designed for industrial photoelectric sensing applications
- Non-Contact Detection: Uses optical sensing to detect objects without mechanical wear
- Photoelectric Switching Technology: Enables reliable presence and absence detection
- Compact Sensor Design: Supports installation in tight mechanical layouts
- Industrial Automation Ready: Suitable for conveyors, packaging, and assembly systems
- Stable Detection Performance: Designed for consistent sensing in automated processes
The E3G-ML79 delivers the reliability and precision required for industrial photoelectric detection and sensing applications.