Weidmüller 1001170001 ESG X20 MC NE RT Device Marker Guide

The Weidmüller 1001170001 ESG X20 MC NE RT is a red device marker developed for clear equipment identification in industrial and automation systems. In technical environments, identification quality has a direct effect on service speed, documentation clarity, and operational safety. When modules, devices, and positions are marked consistently, technicians work faster and with greater confidence. The Weidmüller 1001170001 device marker supports exactly that kind of disciplined and service-friendly layout.

What the Product Is Used For

This Weidmüller 1001170001 ESG X20 MC NE RT is a pluggable marker in the ESG MultiCard family. It is intended for equipment marking and is associated with the B&R X20 system. That makes it especially useful in automation cabinets and modular equipment layouts where system sections need to be identified quickly and reliably. Red marking can be valuable in applications where visual priority, separation, or special functional significance needs to be communicated directly on the equipment.

Technical Characteristics

The Weidmüller 1001170001 device marker is 10 mm wide and 2.5 mm high. Product information also lists PA 66 as the material and identifies the marker as pluggable. The operating temperature range is given as -40 °C to 100 °C, and the product is described as halogen-free. These details matter because industrial marking components have to remain usable across real operating conditions, including cabinet heat, transport temperature changes, and routine maintenance handling.

Why Red Device Markers Are Useful

Color has a practical role in industrial identification. In many systems, red is used to indicate specific functions, caution-related associations, or category-based separation from standard identifiers. The Weidmüller 1001170001 ESG X20 MC NE RT can therefore do more than simply show text. It can contribute to a structured visual language inside a cabinet or machine. That becomes especially helpful in systems with dense module populations or multiple subsystem layers.

Importance of Consistent Marking

Engineers and maintenance teams regularly search for industrial device markers and equipment labelling solutions because unclear marking leads to avoidable delays. During commissioning, service, retrofits, and inspections, identification quality directly affects workflow efficiency. The Weidmüller 1001170001 helps maintain a consistent professional marking standard. Instead of relying on improvised labels or handwritten markings, teams can work with a planned system that looks cleaner and performs better over time.

Material and Environmental Suitability

PA 66 is widely recognized in electrical applications because it offers dependable mechanical performance. Together with the stated temperature range of -40 °C to 100 °C, the Weidmüller 1001170001 ESG X20 MC NE RT is suitable for a broad range of industrial identification uses. In practice, that means it can serve both standard cabinet installations and more demanding applications where environmental stability matters.

For more information about Weidmüller, it can be useful to review the full ESG marker family when standardizing colors and labelling formats across a project.

FAQ

What is the Weidmüller 1001170001 ESG X20 MC NE RT?

It is a red pluggable device marker used for equipment identification in industrial and automation environments.

What color is this marker?

This model is red.

What material is it made from?

The marker is made from PA 66.

What are the listed dimensions?

The product data lists a width of 10 mm and a height of 2.5 mm.

What is the operating temperature range?

The operating temperature range is listed as -40 °C to 100 °C.

Why are colored device markers helpful?

They improve visual organization, support faster identification, and help technicians distinguish equipment categories or functions more easily.

Is this marker suitable for industrial cabinets?

Yes. Its pluggable format, material choice, and temperature range make it suitable for industrial marking use.

Where is it commonly applied?

It is commonly applied in automation systems, control cabinets, machine modules, and equipment layouts that require clear device identification.